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THE JOURNAL

QUEKETT MICROSCOPICAL CLUB.

VOL. VI.

1879-81.

ilontinu:

[Published for the Club.]

DAVID BOGUE,

3. St. Martin's Place, Trafalgar Square.

INDEX.

HOLE,
MASS.

PAGE

Acarina, A. D. Micliael on two
species of, &c.... ... ... 107

Achimenes yicta, T. S. Cobbold
on the enibryolof^y of ... 18

W. H. Gilbui"t's
remarks on ... ... ... ■10

Address (Inaugural) by Dr. T. S.

Cobbold (President) 1

Annual General Meeting, pro-
ceedings of ... ... ••■ 326

Arabin, H. J. Waddington on the
use of, in mounting ... ... 199

Bacterium and Micrococcus, E. M.
Nelson's observations on flagel-

lumof 327

Beulah, J., on Strongijlus filaria 226
Bleaching and washing micro-
scopical sections, S. Marsh on 54
Bomaria, "W. H. Gilburt on some

peculiarities in the leaves of 324
Cleaning Diatoms, H. Stolterfoth

on a simple method of ... 95

Cliona celata, J. G.Waller on, 251, 291

C. Stewart on, 274, 289

„ T. C. White on ... 287

„ M. H. Johnson on 289

„ T. S. Cobbold on... 290

E.T.Newton on.. 290

Cobbold, Dr. T. S., President,

Inaugural Address of 1
„ On the embr;jology of

Acliimenes jActa ... 18

„ Amiual Address, 1880 171

,, On Strorigylusfilaria. . . 225

„ On dental absorption... 290

Cooke, M. C, list of objects found

at recent excursions . . . 105
„ On some Desmids new to

Britain in 1880 ... 203

Deby, J., on a •' Growing Slide " 28
„ "EeceiptsforMicroscopists" 165
Desmids new to Britain in 1880,

M. C. Cooke on some 203

Diatomacese, G. C. Karop on cer-
tain immatui-e forms of ... 191
Diatoms, H. Stolterfoth on a

simple method of cleaning ... 95
Dry -mounting for opaque objects,

H. J. Eoper on a method of... 193
Dunning, C. G., on a Turntable 81
Excursions, M. C. Cooke's list of
objects found at ... ... 105

Ease, Bev. H. J., on a Zoophyte

trough, growing slide or live box 249
Filarice, Dr. P. Manson and
others on ... ... ... 58

PAGE

FilaricB, Dr. S. Mackenzie's re-

marks on ... ... 275

Filarial Migrations, Dr. P.
Manson on the periodicity

of 239

Flea, J. G. Tatem on a large ... 127
,, R. T. Lewis on some

peculiarities of a ... 168

Freezing with ether, J. W.

Groves on 293

Germination of a seed, A. Mar-
tinelli on the ... ... ... 13

Gilburt, W. H., remarks on Achi-
menes picta ... ... 40

,, On the histology of

pitcher plants... ... 151

„ On some peculiarities in
the leaves of Bomaria ... 324

Groves, J. W., on freezing with
ether in using Williams's

Microtome 293

Growing Slide, J. Debv on a ... 28
„ T. C. White on a

simple... ... 201

Gustatory organs of the rabbit's

tongue, T. C. White on ... 296
Hard sections. Dr. J. Matthews

on a machine for cutting ... 83
Hardy, J. D., on a new vivarium 212
,, On Vajinicola grandis ... 218
Helminthological observations,

E. Perroncito's 141

Hind, G., on collecting and

mounting spiders' webs ... 10
Histology of pitcher plants, W.

H. Gilburt on the 151
„ sponges, B. W.

Priest on the ... 229,269

Immature forms of Diatomacese,

G. C. Karop on 191

Inaugural Address of Dr. T. S.

Cobbold (President) 1

Tngpen, J. E., presentation of a
testimonial to... ... ... 279

Johnson, M. H., on boring
sponges ... ... ... 289

Karop, G. C. on certain imma-
ture forms of Diatomaceas ... 191
Lahidostomma luteum. A. D.

Michael on 107

Lewis, E. T., on some peculiari-

ties of a fit a 168

Mackenzie, J., on a swinging

sub-stage for the microscope 170
Mackenzie, Dr. S., on Filarice ... 275
Manson, P., on Micro Filarice, 58, 130

63146

I^DEX.

Manson, P., on the periodicity of

Filarial migrations... 239

Marsh, S., jnn.,on bleaching and
washing microscopical sections 54

Martinelli, A., on the germina-
tion of a seed 13

Matthews, Dr. J., on a machine

for cutting hard sections ... 83

Michael, A. D., on two species of

Acarina ... ... 107

„ On a specimen of Platy-

gaster ... ... 314

Microscopical sections, S. Marsh
on bleaching and washing ... 54

Microscopists, J. Deby on " Ee-
ceipts" for 165, 213

Morland, H., on mounting opaque
objects with bees-wax ... 196

Nelson, E. M., observations on
the flagellum of Bacterium and
Micrococcus ... ... ... 327

Newton, E. T., on boring sponges 290

Objects found at recent excur-
sions, M. C. Cooke's list of ... 105

Opaque objects, H, J. Eoper on
a method of dry mounting for 193

Opaque objects, H. Morland on
mounting, with bees-wax . . . 196

Peculiarities of a flea, R. T.
Lewis on some ... ... 168

Periodicity of Filarial migra-
tions, P. Manson on 239

Perroncito, E., on the endemic
disease of the Mount St. Goth-
ard Tunnel labourers . . . 141

Pitcher plants, W. H. Gilburt on
the histology of ... ... 151

Polymastia hiclavata, B. W.
Priest on 302

President's Address, 1880, by

Dr. T. S. Cobbold 171

1881, by T.
Charters White 305

Priest, B. W., on the natural his-
tory and histology of
sponges ... 229, 269

,, On Polymastia hiclavata 302

Platy gaster, A. D. Michael on a
specimen of ... ... ... 314

Proceedings— 29, 85, 121, 182,

214, 272, 312

Proto coccus 'pluvialis, T. C.White
on the resting spores of ... 43

Psorospermia, H. T. Whittell on
the association of bodies re-
sembling, with the degenera-
tion of Hydatid cysts... ... 47

Pygmephorus spinosus, A. D.
Michael on ... ... ... 113

Rabbit's tongue, T. C. White on
the gustatory organs of the... 290

Paphiodcsma minima, J. G.
Waller on 97

PAGE

*' Receipts for Microscopists," J.

Deby on 165, 213

Roper, H. J., on a method of dry

mounting for opaque objects 193
St. Gothard Tunnel labourers,
E. PeiToncito on the endemic
disease of ... ... ... 141

Seed, A. Martinelli on the ger-
mination of a .. . ... ... 13

Sharpey, Dr., death of 122

•* Special Exhibition Meeting" of

April 29, 1881 315

Spiders' webs, G. Hind on col-
lecting and mounting... ... 10

Sponge {RapModesma minima),

J. G.Waller on ... 97
„ (Cliona celata), J. G.

Waller on ... 251, 291
,, {Polymastia hiclavata),

B. W. Priest on ... 302
Sponges, B. W. Priest on the
natural history and
histology of ... 229, 269
Stage and object holder, R. G.

West on a new universal ... 25
Stewart, C, on boring sponges,

274, 289
Stolterfoth, Dr. H., on a simple

method of cleaning Diatoms... 95
Strongylus filaria, T. S. Cobbold

on 225

„ „ J. Beulah on ... 226

Sub-stage, J. Mackenzie on a
swinging ... ... ... 170

Tatem, J. G., on a large flea ... 127
Turntable, C. G. Dunning on a... 81
Vaginicola grandis, J. D. Hardy

on 218

Vivarium, J. D. Hardy on a new 212
Waddington, H. J., on the use of

arabin in mounting 199

Waller, J. G., on Raphiodesma

minima ... ... 97

,, On Cliona celata — does
the sponge make the
burrow? ... 251, 291
West, R. G,, on a new universal

stage and object holder ... 25
White, T. C.jOn the resting spores

oi Protococcus pluvialis 43
„ On a simple growing slide 201
„ On boring sponges ... 287
,, On the gustatory organs

of the rabbit's tongue 206
„ President's Address, 1881 305
Whittell, Dr. U. T., on the As-
sociation of bodies resembling
Psorospermia with the degen-
eration of hydatid cysts ... 47
Williams' freezing microtome, J.

W. Groves on use of ether with 293
Zoophyte-trough, «S:c., H. J. Fase
on a 249

THE JOURNAL

#Mtklt ^Ht0Si:0pii:aI €lnh.

INAUGURAL ADDRESS OF THE PRESIDENT.

Dr. T. Spencer Cobbold, F.R.S., &c.

(Delivered Sej?tember 26th, 1879.)

Gentlemen, — When I recently arrived home, at the close of a
two months' tour in Brittany, the first periodical that I opened was
the " Athenseum " for August 2nd, containing a report of the anni-
Yersary meeting of this Club ; and after reading the brief summary
of your retiring President's address, I naturally felt that it was one
of my first duties to consider how I could best place myself at your
service. It occurred to me that a few unpretending remarks,
designed to serve as a general introduction to the scientific business
of cur session, would not be unsuitable to the occasion. Your
honorary secretary has, indeed, informed me that no such formality
as an opening lecture is customary ; but, since the delivery of an
altogether informal and very brief address is not expressly forbidden,
I can only hope that the few remarks now offered will not in any way
run contrary either to the wishes or to the sentiments of the Club.

At the outset, I need scarcely say that, but for that legitimate
species of freemasonry which unites, or ought to unite, in bonds of
more or less friendliness all workers in science, I might have felt
somewhat timid at the thought of occupying a chair held by such a
savant as my predecessor. In this matter, may I not add, once for
all, and with your approval, that it was a gracious act on the part
of one so occupied as Professor Huxley is known to be with the
highest administrative functions of science in this country, to give
the Quekett Club the benefit of his advice and personal assistance.
Probably no living representative of science has ever shown more
JOUKN. Q. M. C, No. 12. B

Z INAUGURAL ADDRESS OF THE PRESIDENT.

willingness to lend a helping hand to the humblest workers in
biology and its outlying territories of applied science than your late
President, Doubtless there are many eminent men who are ani-
mated by the same generous principles ; but it is not given to many
to possess either the power or the prerogative enjoyed by Professor
Huxley.

In the infancy of science it was quite possible for one mind to
grasp, not only the general conclusions but even also the minutest
known details applicable to each special walk of biological research ;
but now-a-days, no mind, however capacious, can possibly do more
than acquire a general knowledge of the natural history sciences and
sub-sciences as they actually stand. Special lines of research have
become laboriously — I had almost said, painfully — minute. Thus, to
add in the aggregate a mere handful of facts to the circle of the
known, it is now necessary that a worker should occupy himself for
months, or even years, with the study of a small natural group of
organisms. There is also this disadvantage for the special worker,
that whilst he is so occupied, it is next to impossible for him to take
due cognisance of the work of his fellow-labourers in other terri-
tories than his own. This is apt to beget narrowness of vision,
sometimes leading to very unpleasant consequences. Rare indeed is
it to find a man whose diverse gifts and sympathies enable him to
extend his visual range over all the best work being done by home
and foreign naturalists ; and yet, notwithstanding the immense
difficulties of the task, there are a few, whose names are well known
to you, who annually perform prodigies of labour in tliis respect.
To be sure some departments of science have had less justice done
to them by collaborators than others, but on this matter I shall
have occasion to dwell presently.

Of late years it cannot fail to have struck even the general on-
looker in science how much attention has been paid to the lowest
forms of animal and vegetable life, whilst the higher and inter-
mediate groups have sufi'ered comparative neglect. It may be said,
with truth, that even science is not wholly free from the vagaries of
fasliion. The present tendency is undoubtedly an outcome dating
from the publication of Mr. Darwin's work " On the Origin of
Species." Not unnaturally, it was thought that a complete solution
of some of the more intricate problems of life could only be arrived
at by a thorough and exhaustive analysis of the phenomena dis-
played by the very lowest organisms. Some of my scientific friends

INAUGURAL ADDRESS OF THE PRESIDENT. 3

have been good enougli to ask me why I have so carefully abstained
from taking any part in arch^ebiological controversy and in the work
upon which it has been based. My apology is this. From the
very first it was clear to me, that no ordinary investigator in science
could hope to approach this subject successfully, unless by his ante-
cedents and present opportunities alike he were specially trained for
the work. This view was more deeply impressed upon my mind
after the publication of Professor Tyndall's lectures on " Dust in
Relation to Disease," and other kindred topics. Obviously it was
necessary to be armed at all points. One must not only have been
well versed in the modern methods of physiological research, but
must also, in addition to the possession of a competent knowledge of
Zoology and Botany, have done special work in the laboratory of
the physicist in combination with that very difficult manipulative
toil which is known only to those who work with the smallest objec-
tive glasses. If any one doubts the extreme caution necessary to
the worker employing high powers, let him carefully read Dr.
Royston-Pigott's paper " On Microscopical Researches in High
Power Definition," recently published in the " Royal Society's Pro-
ceedings." To those of us who commenced investigating more than
thirty years ago, such an expose of the difficulties of a correct inter-
pretation of facts observed is very significant. For my own part, I
take positive comfort in the reflection that I have rarely had occa-
sion to work with objectives higher than the \6y ^ oi an inch. In
the matter of Archebiosis, I felt all along that the germ theory of
disease and the bacterium hypothesis were in the hands of advocates
specially fitted for the task of controversy. It was, in fact, a war
of giants, and I said to myself : " Let the giants fight it out ; I for
one will not venture to enter the lists." How hot the contest became
in relation to the etiology of febrile and other diseased conditions is
well known to the medical profession. Thus, one of the profes-
sional warriors — a former President of this Club, and certainly one
of the most skilled microscopists this country has ever produced ;
who disputes the importance of bacteria considered as cause of
disease — thus writes concerning the treatment his views received at
the hands of another eminent savant. Dr. Beale says :^ — " Afiecta-
tion of excessive caution in giving an opinion upon a scientific
question may shield a philosopher suffering from confusion of
thought, but all the interest connected with the discussion of this
subject disappears, if an authority, after a full study of the matter,

4 INAUGURAL ADDRESS OF THE I'RESIDENT.

tells people that the poison of a contagious fever maybe a bacterium
or something allied to a bacterium, or something not allied to a
bacterium." Well, gentlemen, the warriors have had a good many
rounds, and I fear the fight has not yet terminated. As to results,
nothing has as yet, perhaps, been definitely settled ; yet, as a
patient on-looker (and one not much concerned with tlie personal
disfigurements sustained by individual combatants), I am free to
confess myself an entire convert to the hypothesis which holds that
organic germs of some kind or other are really capable of producing
the most disastrous consequences both to man and beast. However,
I must again remark that when an investigator has to deal with the
genesis and behaviour of particles, often less than the 100,000tli of
an inch in diameter, it is not difficult to understand the necessity of
extreme caution in drawing conclusions. In connection with this
controversy, I am, of course, especially bearing in mind the labours
of Messrs. Dallinger and Drysdale, also the work accomplished by
Lister, Sanderson, Eoberts, Bastian, Beale, Tyndall, Lewis, and your
late President, As regards foreign writers and the practical applica-
tion of their researches, permit me to refer to the able resume of Mr.
Steel, in the pages of the " Veterinary Journal."

The most humble member of this Club need not be discouraged
by the confessed embarrassments which some of our leaders in
science have experienced when dealing with the phenomena exhibited
by the lowest forms of life. The discipline of science is a grand
one. It demands candour. There is probably no living man of
eminence who has not retracted, more or less completely, views or
errors of interpretation made in the earlier years of his toil. Now
and then it happens that this severe discij^line makes the advanced
biologist too cautious. He is timid of drawing conclusions, even
from the most clearly recognisable facts ; not only so, he will some-
times refrain from expressing any opinion about matters concerning
which the unreflecting amateur pronounces with unblushing bold-
ness. Why is this ? The lessons of the past afford an ample
reply. When one reflects that a Scandinavian microscopist pub-
lished an expensively illustrated plate, showing, as he supposed, the
ova of a cestoid parasite, though all the while they were only the
spores of a cryptogam (the explanation of the error being that the
entozoon had been removed from a box previously containing lyco-
podium i)Owder) ; that a celebrated Botanist for years maintained,
against all comers, that the extremity of the pollen tube became

INAUGURAL ADDRESS OF THE PRESIDENT. 0

detached during the essential act of impregnation in phanerogams
and ultimately converted into the future embryo (which was in fact
equivalent to saying that a portion of the male organism was
directly transformed into a new being) ; that a living histologist of
recognised eminence, as such, misinterpreterl the nature of certain
vegetation-like appearances and actually described them as repre-
senting an entire new genus of fungi, probably of the highest im-
portance in relation to the production of febrile disease, and yet all
the while he was only dealing with the phenomena of coagulation —
when such errors occur, we need exercise care. In fact, the so-called
sheep-pox organisms, just mentioned, had no existence, as such,
except in the imagination of the observer ; and thus we were
furnished with another striking illustration of the dangers which
beset the very special specialist who, in this instance, was
admitted to possess unusual skill in the employment of modern
microscopic appliances, aided by tlie most approved chemical and
mechanical tests. Egregious blunders of this sort are apt to bring
microscopic research into undeserved contempt. Again, under the
generic title of Forbesia, an eminent naturalist some few years back
described as a new and gigantic form of polyp a structure which
afterwards turned out to be nothing more than the intestinal canal
of a marine annelid (the explanation of the error being that the
viscus was torn from the worm by the action of the dredge employed
in taking soundings, and thus simulated a new and separate
organism) ; and lastly — for one cannot, notwithstanding the
abundance of material, go on multiplying instances of scientific
imperfection all the evening — tliere remains the recent confession
respecting Bathyhius, another very natural misinterpretation which
was also the outcome of a deep-sea sounding.

Who amongst us that has worked for any length of time with
the microscope in the old fashioned way has not fallen into errors of a
more or less similar and palpable kind ? Let us be modest, and
consider the lessons which such frailties teach. For myself, when
any fresh mishap of this order occurs I am always reminded of the
early error which the illustrious Hippocrates made when, with un-
aided vision, he mistook a natural suture of the cranium for a
fracture of the skull, and had the manliness afterwards to confess
his mistake. That, said Celsus, was acting like a truly great man.
" Little geniuses," it was added, " conscious to themselves that they
have nothing to spare, cannot bear the slightest diminution of their

6 INAUGURAL ADDRESS OF THE PRESIDENT.

prerogative, nor suffer themselves to depart from an opinion wliicli
they have once embraced ; but the man of real wisdom is always
ready to make a frank acknowledgment of his error, especially in a
calling where it is of importance to posterity to record the truth."

Some may think that the sentiments I have here expressed are
decidedly too triste. Pardon me. I have no wish to condemn the
present attitude of science, and still less to place a wet blanket over
the unpretending observer whose chief and legitimate aim is merely
self-improvement. In view of general progress, the true form of the
scientist is that of special investigation coupled with a wholesome
sympathy for, and regard to, the work being done by others around
him. Such a view gives due recognition to the occupation of the
humblest amateur ; yet the latter must not be offended if his efforts
are at times passed unnoticed. As a matter of fact it is not possible
for any one man, however great his capacity may be, to peruse or
even to glance at a tithe of the records of natural history and
microscopic work published from month to month in our own
country, let alone the publications of American and Continental
naturalists. To meet the recognised difficulties of the case we have
admirable year-books and shorter periodical summaries, collated by
men who are both able linguists and conversant with the modern
methods of research. The Annual Zoological and Geological
Records are invaluable productions ; but in relation to Histology
and general microscopic work, I know of nothing to compare
with the summaries and bibliographies recorded by Mr. Crisp in
the " Journal of the Royal Microscopical Society." In other
journals the similar services rendered by Mr. Dallas are an immense
boon to those of us who have neither the time nor the ability to
jDcrform such herculean tasks. To complete the annual series of
works of this order one thing is wanting, and that is a first class
Botanical Record. This, doubtless, will ere long make its
appearance.

You will remember that I ventured to hint that our learned col-
laborators, notwithstanding their care, have unwittingly overlooked
the astonishing advances of certain departments of Biology. This
is particularly tlie case with a sub-science in which I take an
especial interest. I mean Helminthology. To be sure, neither
Messrs. Dallas nor Crisp can be accused of neglecting to inform
their readers respecting the memoirs of one or two well-known
Continental investigators ; but as regards the subject generally

INAUGURAL ADDRESS OF THE PRESIDENT. 7

the literature has been much neglected, and the treatment which one
of our public collections of specimens has received is simply dis-
graceful. In the British Museum such things as internal parasites
are stowed away in the crypts as though they were unworthy of ex-
posure to the light of day. To some extent I have sought to remedy
the evils of which I speak. Thus in a recently published volume —
of the defects of which no one can be more conscious than myself
— I have sought to supply a tolerably exhaustive bibliography,
and as regards public collections, I have, at intervals, contributed
more or less largely to the Museum of the Royal College of Surgeons,
to the Edinburgh Anatomical Museum (during the period of my
curatorship), to the department of the Oxford Museum under Pro-
fessor Rolleston's care, and also to many smaller collections,
including those of the Middlesex Hospital Medical College, the
Catholic College Museum lately under Professor Mivart's care, and
also, more especially, to the Museum of the Royal Veterinary
College, where, for teaching purposes rather than display, we are in
possession of materials of the choicest kind in illustration of the
parasites and parasitic diseases of the domesticated animals. Of
course, these little efforts have left my private collection in a very
mutilated condition ; but still, should any members of the Club be
disposed to take up the subject, I may be able to render them some
slight assistance. I am speaking exclusively of the internal
parasites ; for as regards the external ones I cannot pretend to have
any special knowledge. The Club, indeed, already possesses a tolerably
extensive series of external parasites, beautifully mounted on slides ;
but comparatively few of them are scientifically named. The prin-
cipal specimens have been contributed by Messrs. Cocken, Beaulah,
Michael, Bramhall, Quick, White, Curties, Bockett, Collins, Free-
man, and Green, and by Drs. Dickson, Gray, and M. C. Cooke.
A considerable number of slides have also been purchased. As
regards the entozoa, it is eminently fitting that some steps should
be taken towards the formation of an helminthological series. The
renowned microscopist, whose name this Club honours as a founder,
studied the entozoa. A little closer acquaintance with parasites
can do no harm to the Club, provided the creatures are not brought
here in a living state, and let loose with a view of demonstrating
their wonderful powers of propagation. I have often been amused
at the nervousness which some persons display when they first handle
or even look at dead specimens of entozoa ; but here, in the case

8 INAUGURAL ADDRESS OF THE PRESIDENT.

of living worms, the discipline of science steps in and shows us how
to avoid all danger of contagion.

In reference to this matter, let me further observe that it is rather
to the practical natural history bearings of the subject that I would
invite your attention. From the sanitary point of view, as I have
elsewhere urged, " there is no department of biological knowledge
that possesses equal interest in relation to the welfare of man and
beast, and certainly there is no department of science so thoroughly
misunderstood by those who are most directly concerned in the ap-
preciation of its revelations." Of course it is open to any one to
occupy himself with the minute structure of helminths, but it will
require rare skill and prolonged labour to rival what has been
already accomplished in this direction. The memoirs of Messrs.
Sommer and Landois in the histology of the Cestodes, and the
still more recent memoir of Mr. Whiteman respecting the anatomy
and development of Clepsine, are models of what can be achieved
in this line of research. But we cannot all do all things ; and
however important such monographs may be in relation to compara-
tive anatomy and philosophical zoology, it is clear that a much less
pretentious kind of scientific activity is capable of producing far
greater results in relation to the welfare of the community.

In conclusion, I ask you not to be discouraged ; yet, I can well
understand how it is that so many shrink from scientific work. Some
of us have injured our sight in the clumsy efforts of early life ; but
now-a-days, by improved appliances, the visual organs are not sub-
jected to the same degree of strain. This is an immense gain.
Viewed broadly, I conceive that this Club recognises every kind of
microscopic investigation which in its teachings has a tendency to
promote general culture and social advancement in the legitimate
sense of that much abused term. Because a member, by reason of
his calling or other circumstances, is absolutely debarred from
sustained scientific labour, that is no reason why he should not
associate himself with those who are more immediately concerned
in the actual progress of science. Far otherwise. The more a man
of active business habits gets out of his daily routine and groove by
joining a scientific club such as this, the better for himself and his
friends. Such an one soon acquires social ideas of a higher order
than those which are commonly obtained at places of amusement
only, and ever increasing stores of useful knowledge, gained in an
agreeable manner, become thus profitably diffused. In science we have

INAUGURAL ADDRESS OF THE PRESIDENT. H

no caste, except that which results from industrial, intellectual, and
social worth, combined with gentleness of manner. If its votaries
pay exceptional homage to sorae great and gifted man — a Huxley,
for example— it is because we recognise in him the very highest ex-
pression of the principle of the dignity of human labour. When
other marks of distinction fade, that principle will come more and
more to the front. As to the humble work of the Quekett Club, it
may not find its deeds recorded in sumptuous and expensively illus-
trated quartos ; yet, for all that, it will have contributed something
towards the general advancement, something towards keeping in
remembrance the life and labours of that good and honest man
whose patronym it bears, and last, not least, something towards the
individual attainment, on the part of its members, of that inestim-
able boon of life known as the " sound mind in the healthy body."

10

On Collecting and Mounting Spider's Webs for the
Microscope.

By George Hind.

{Read August 22nd, 1879.)

(Absti-act.)

The author, after referring to the various methods adopted by
different species of spiders to secure their prey, read a copious
extract from Dr. Carpenter's work " On the Microscope," descrip-
tive of their spinning apparatus. He then, after a brief notice of
the large web-forming spiders of India and South America, and of
the bird catching spider of Surinam (Mi/gale avicularia)^ proceeded
to describe his method of procuring and mounting the web, in the
following terms : —

" I found that several methods have been adopted in order to
obtain the desired result. One method was, to take the web
direct upon a slide having a cell fixed upon it, and at once pro-
ceed to mount it. There are several objections to this method.
In the first place, it is very difficult to secure the exact portion
of the web you wish, the web not being so well under control
when suspended in its natural position ; and in the next place
it is very difficult to get rid of the moisture that is sure to be
present. The method that I have found most successful is as
follows : — Take a few pieces of wire, about twelve inches long, and
bend them up so as to form rectangular frames. Make a number of
these frames, and place them in a racked box made for the purpose,
previously gumming them all round so that the web may adhere
to them.

" At this season of the year, the webs of Epeira diadema are to
be found in almost any garden. On looking one over carefully, you
will probably find some portion that you will desire to preserve. To
do this, take one of the wire frames and put it behind the web ; on
drawing it towards you, the web will become cemented to the frame
all round. Now with a pair of sharp scissors clip away the rest of
the web free from the wire. If this be carefully done, you will find

G. HIND ON MOUNTING SPIDER's WEBS. 1 1

that portion of the web that you wished to secure tightly stretched
upon the frame, which can now be placed in the racked box, and
thus kept until you are ready to examine and mount any portion of
it. Any insects that you may find can be thoroughly dried before
they are mounted.

" In order to mount any portion of the web thus obtained, first
cement a thin paper cell upon a glass slip. Then having slightly
gummed the cell, place one of the wire frames over it, taking care
to bring that portion of the web that you desire to secure exactly
in the centre. Having done this, with the scissors remove the
superfluous web, and place another paper cell upon the first one, and
a thin glass cover over all, securing the cover with a little gum.

** In order to keep the preparations as dry as possible, metal cells
might perhaps be preferable to paper ones.

" The webs sometimes contain insects so small that they are diffi-
cult to find in any other way, and these, too, in a very perfect state,
as they are seldom touched by the spider.

" The web itself is not devoid of interest. The radial threads
are continuous, whilst those which form its concentric circles are
beautifully beaded. Some time back I obtained several spiders in
order to get some good clean threads for mounting, but could not
succeed in inducing them to spin in confinement. I was told that I
did not exercise sufficient patience, and that if the spider is well
nourished when placed in confinement, it will often be several weeks
before commencing to spin. As I was not disposed to wait all this
time, I used occasionally to shake the spider to make it spin stray
threads. In doing this, I discovered the reason why the web is
plain in some parts and beaded in others.

" When emitted by the spider, the web is in a very viscid state,
and I noticed that when the whole weight of the spider was upon
the web, and the thread was fastened off quickly, it was not beaded ;
but when by some chance the spider had slightly relaxed the tension
before fastening it off, I observed a slight quiver pass through the
thread, and upon examining it with a magnifier, I found that it was
beaded from end to end."

The author concluded with a few remarks upon the value of the
thread of the spider for the formation of micrometers for astro-
nomical and surveying telescopes, and upon the methods used to
obtain and to prepare it for these purposes.

12

On the Germinatiox of a Seed.

By A. Martixelli.

(Read October 2Uh, 1879.)

Plate I.

Some time ago I planted some beans (Phaseolus muWjiorus),
which bloomed but bore no fruit. On digging up their stems, I
found that the roots had thickened into tubers ; and having examined
their composition, together with that of an unplanted seed, I came
to the conclusion that the materials which should have formed the
fruit were stored up in the tubers, so that the plant might have
another start in the spring. I was led further to examine the com-
position of several cereals, to trace the relation of the embryo to its
perisperm, or source of nourishment — endeavouring to gain some
knowledge of the purpose which the various parts of the seed sub-
serve in the process of germination. The results of these enquiries
form the subject of the present paper.

Seeds may be divided into two classes — Albuminous and Ex-
albuminous. In the former the term alhwnen is intended to include
all the various materials composing the wliite substance of the seed,
although the seed may contain but a very small proportion of the
substance technically so named. Tlie classification is based upon
position. In albuminous seeds the albumen or perisperm may be
described as exterior to, and separable from, the cotyledons or seed-
leaves ; in the buckwheat, for example, a transverse section, as at
Fig. 1, Plate I., shows its thin leafy cotyledons, in graceful folds,
intersecting the perisperm. During germination this nutriment is
absorbed through the succulent tissues of tjie embryo, and, finally,
the cotyledons, bursting the seed coats, are thrown upon their own
resources and at once prepare organised material for the growth of
the plumule (Fig. 2). In the Marvel of Peru (Fig. 3) the albu-
men forms the central mass of the seed, and so completely is it
enclosed by the cotyledons that it can only be recognised by a thin
white line on either side of the stem. But, in this instance, it may

A. MAUTINELLI OX THE GERMINATION OF A SEED. 13

be disconnected from the embryo whole, and in such integrity that it
has every appearance of a miniature plaster cast, as shown at Fig.
4 — the deep depression in the centre being the channel in which the
stem laid buried. Experiments have been made in separating the
embryo from its perisperm and supplying it with artificial nutri-
ment. They appear, however, to have been attended with so little
success that none of the experimentalists have boasted of their
2yroteges.

But in Exalbuminous seeds, the bean, for example (Fig. 5), the
albumen is not thus separable from the cotyledons. It has been
entirely absorbed within their tissues, so that, with the plumule, they
occupy the whole cavity of the seed. In germination the cotyledons
of the bean remain beneath the ground, as shown in Fig. 6, and do
not in any degree partake of the character of leaves. They act
solely as repositories of assimilated material to nourish the plant in
its earlier stages. In this respect, the lupine, another example of
the class, does not differ from the bean ; but its cotyledons have
the faculty of developing chlorophyll and rising to the light (see
Fig. 7). They partially perform the function of leaves. I am,
however, able to show the true significance of these organs ; but if
a society existed for the prevention of cruelty to plants, I certainly
would not risk the exhibition of the lupine, shown in Fig. 8.
This plant was deprived of its cotyledons one week after germina-
tion, and for the two following months it only just maintained its
status quo, adding neither to its weight nor bulk. At the end of
that time I gathered it within the folds of my herbarium.

From the above instances it would appear that the cotyledons
may assume three distinct phases. In the buckwheat they become
the first leaves of the plant, providing for the plumule until the true
leaves are formed. In the lupine, by the growth of the lower axis
of the stem, the cotyledons rise to the light as organs of assimila-
tion. But the bean grows only from the upper axis of the stem,
and hence the cotyledons remain in the ground.

Now if one of the cotyledons of the bean is broken up, the
microscope reveals granules of a peculiar type. In polarised light
they are distinguished by a black cross, the characteristic feature of
starch, and that is confirmed by iodine, which colours the contents of
the granules blue. Whether we take a grain of buckwheat, a grain
of barley, or a potato, their examination would lead to the same
result. But their composition varies considerably in other respects.

14 A. MARTINELLI ON THE GERMINATION OF A SEED.

If we macerate a bean, filter the liquid and add tannic acid, a pink
flocculent matter casein is precipitated. Its similarity to the
casein of milk is so decided, that in some parts of China cheeses are
made from the casein of beans. From the expressed juice of the
potato albumen can readily be coagulated in considerable quantity.
Lastly, by softening a grain of barley and removing its outer tissues,
we come upon a layer of cells, arranged with singular regularity,
containing vegetable /5rm (Fig. 9). It lies in intimate connexion
with the starchy mass of the grain. Possessing almost the same
chemical composition and character as the fibrin of muscle, or the
casein and albumen of the egg, it is also analogous to the casein
of the bean and the albumen of the potato. When obtained from
wheaten flour, it is in a mixed condition, and closely resembles
freshly exuded indiarubber.

A more complete analysis may now be made of the various sub-
stances referred to. Starch must be regarded as a compound of
three elements — Carbon, Hydrogen, and Oxygen, the two latter in
the proportion forming water. It consists of a number of molecules,
each having the composition represented by the following formula : —
Cg Hio O5 and is the carbonaceous portion of the seed. The other
constituents of the seed, fibrin, albumen and casein, which occupy so
considerable a place in relation to the processes of plant life, contain
Nitrogen in addition to Carbon, Hydrogen and Oxygen. They are the
principal albuminoids in the seeds already mentioned, and, although
so unlike in outward appearance, there is a marked similarity between
them in chemical composition and character. Hence they suggest
an ultimate identity in nature and purpose. For example, they are
all dissolved by potash. The solution blackens salts of lead, and
the presence of sulphur is thereby indicated. Nitrate of Mercury, a
test of great delicacy, colours them red ; its rapidity and evenness
of effect rendering it a striking experiment. In combustion they
all emit the same unpleasant odour ; while on exposure to the air
they rapidly putrify, and, in that condition, act as organised
ferments converting grape-sugar into alcohol, carbonic acid gas, and
other compounds.

In contradistinction to this physiological action there is developed
from the albuminoids of the germinating seed a non-living ferment
called Diastase. To this agent is ascribed the power of converting
starch, which is not directly available for plant growth, into carbonic
acid gas, dextrin, and grape-sugar. This ferment is stated to be

A. MARTINELLI ON THE GERMINATION OF A SEED. 15

non-living from the fact that if a germinating seed is exposed to the
vapour of ether, growth is immediately arrested, although the
evolution of carbonic acid gas, and the conversion of the carbonaceous
substance into dextrin and sugar still continue. On the other
hand, etherisation at once suspends the protoplasmic functions of the
yeast ferment, and from saccharine fluids no carbonic acid is evolved
nor alcohol produced. Diastase may be extracted from malt by the
chemist as a white soluble substance. It is, however, so subject to
change that it cannot be preserved ; it has never even been obtained
in any definite condition for analysis.

Its powerful action is best illustrated in the case of brewer's
grains. When the starch has been converted into dextrin and
sugar, a large percentage of the granular fibrin (from which the
diastase has been evolved) remains intact — showing with what a
small expenditure of force this metamorphosis is effected. Further,
if unmalted grain is mixed with malted grain, it is found that the
carbonaceous or starchy matters of both are changed into a form of
sugar. Subsequent examination shows the fibrin of the unmalted
grain unaffected by the process it has undergone, but that of the
malted grain appears to have almost wholly disappeared. Hence we
may infer that the transformation has been effected by the decom-
position of the granular fibrin of the malted grain.

To this it may be added that the evolution of diastase and the
conversion of starch into sugar by artificial means attains its maxi-
mum only by a temperature sufficiently high to destroy all vegetable
life, viz., 70°C. But under natural conditions diastase is evolved at
from 5° to 42°C (the extremes).

The foregoing general remarks may now be of service in dealing
with the germination of a bean seed {Phaseolns). If sown in cold
wet soil, the sun's heat gives no vitality to the germ, but is lost in
evaporating the superfluous moisture ; the starch granules remain
undissolved (Fig. 10), and the albuminoids decay. If sown, however,
under favourable conditions, the two albuminoids of the bean, casein
and albumen, undergo decomposition, and act as ferments in the
same manner as the fibrin of barley. In the first stage of germina-
tion the outer coating of the seed is softened, and moisture pene-
trates its inmost tissues. Gradually the whole seed or embryo
attains a high state of tension ; the starch granules become turgid,
increase in temperature, and the ferment is set free. Then chemical
action is induced in some of the granules, and those contiguous are

3 6 A. MARTINELLJ ON THE GEIIMINATION OF A SEED.

broken up and disorganised. Tested with iodine they take a
reddish-brown tinge. The molecules of which the seed is composed
now pass from a state of comparative repose to one of inconceivable
activity. A certain volume of oxygen seizes upon its equivalent of
carbon in the starch, and carbonic acid gas is formed and given off.
With this, the first act of respiration by the embryo, the mysterious
hand of Nature arouses it from its slumber, and it becomes a living
plant. Throughout the period pf germination that respiratory
process continues ; the atmospheric oxygen absorbed by the water
combines with the carbon contained in the molecules of starch until
not unfrequently the carbon, in half the seed, is consumed in forming
carbonic acid gas. A loss to this extent is readily demonstrated in
the case of an albuminous seed such as the Buckwheat. If weighed
and planted, and then again weighed just at the moment when the
reserve materials are consumed, and after depriving the seedling of
the water taken up in germination, it will be found to have lost quite
an eighth part of a grain. That is to say, the whole of the plant at
this particular point of growth is only half the weight of an un-
pl anted seed which averages J grain minus the testa. Such
destruction of carbonaceous matter not only causes a considerable
increase in the temperature of the seed, but results in the conversion
of the remaining starch into dextrin or gum. Thus provided, the
rootlets burst through the seed coats in search of further moisture.
The fibrils absorb it, and the already prepared dextrin becomes
diluted. Forced out of the cotyledons into the central axis of the
j)lant, the dextrin, by taking up the elements of water, undergoes
an important chemical change. It is converted into grape sugar,
and in this way the solubility of the assimilated materials is
increased to the utmost degree.*

Thus abundantly supplied with nutriment, the plumule and its
miniature leaves gain strength to force their way in an upward
direction. The liquid sap is carried by the upward current into the
body of the plant, and its myriad molecules yield up the secretions
necessary for the maintenance of its protoplasmic functions,. Then
the purpose of the molecules as parts of a sweet liquid comes to an
end. They give up the elements of water previously taken, and,
reverting to the same chemical composition as starch and dextrin,
are fixed in the plant as its final insoluble product, ceUi/lose. So
that a unity of nature underlies these forms. It is only a re-
arrangement of the same atoms that results in starch, dextrin, and

A. MARTINELLI ON THE GEllMlNATION OF A SEED. 17

cellulose ; just as a re-aiTangemeiit of tlie same letters produces
dififerent words and dissimilar ideas. It is from tliese atoms of
carbon, hydrogen, and oxygen, particle by particle, the various
tissues of the plant are built. The solidification of the assimilated
material continues until the cotyledons are exhausted. The plant
has then sufficiently developed to decompose the carbonic acid gas
taken up with the water, and to build up its fabric from the carbon.

Starch. Water. Dextrin. Grape sugar.

These formulge illustrate the gradual conversion of starch into dextrin
and grape-sugar. Thus two molecules of starch and one of water pro-
duce one of dextrin and one of grape-sugar.

JouiiN. Q. M. C, No. 42.

18

Notes on the Embryology of Achimenes picta.
By T. Spexcer Cobbold, M.D., F.R.S.

(Read Nov. 28, 1879.;

fiome thirty years ago I commenced a series of observations on
the embryogenetic process, as it occurs in certain Monocotyledons
and Dicotyledons ; and I communicated the results to the Physiolo-
gical Society of Edinburgh. Afterwards an abstract of the paper
appeared in the Edinburgh Monthly Medical Journal, but in such a
fragmentary form that the late Professor Hughes Bennett urged me
to publish fuller details. I had, indeed, already written a short com-
munication on the Embryogeny of Orchis mascula in the Quarterly
Journcd of Microscopical Science, purposely withholding other
details, in the hope of returning to the inyestigation at a future
time.

After the lapse of so long an interval I will only further say that
what was observed by Dr. Burdon- Sanders on and by myself in
this country, was chiefly confirmatory of facts and views recorded by
Amici. The observations of the Italian botanist had especial
relation to the cjuestion of the union of the pollen tube with the
embryo-sac ; consequently, when Sanderson, and likewise myself,
succeeded in demonstrating this connection in Orchids, our pub-
lished statements, in association with the well known discoveries of
Hofmeister, Tulasne and others, did but help to set at rest one of
the questions which had long been the subject of controversy. It
was not until many years afterwards that Schleiden finally aban-
doned those peculiar views with which his name will ever remain
associated.

At the time of which I speak, our distinguished countryman,
Professor Henfrey, also occupied himself with this question, but I
am not quite sure that he actually, at that time, witnessed the
essential act of fertilisation eitlier in the angiospermous phanero-
gamia or in monocotyledons. I draw this conclusion not only from
the circumstance that 1 Avrote to him unavailingly on the subject,
but also because the notion of the entrance of the pollen tube into

T. S. COBBOLD ON THE EMBRYOLOGY OF ACHIMENES PICTA. 19

the embryo-sac had not been formally rejected by him. At all
events the reviewer of Quekett's " Lectm*es on Histology," in the
very first number of the Quarterly Journal of Microscopical
Science treated the matter as an open question ; and I understood
that the review was from the pen of Professor Henfrey. Later on
it is clear that Henfrey fell in with the now generally received
views, but in one of his classical articles, contributed to the
'' Micrographic Dictionary," we still find him saying that " it is not
absolutely kno^vn whether the cavities of the pollen tube and the
embryo-sac become actually continuous by absorption of the walls at
the point of attachment ; it is generally believed not, but we have
recently had occasion to feel some doubt on this point." Henfrey,
indeed, in illustration of the article " Ovule," gives a figure of the
embryo-sac of Orchis morio, representing the union of the pollen
tube with it, but we are left in doubt as to the source of the
illustration.

At the present time it is unnecessary to do more than remind the
Club that although this part of the question may now be regarded
as definitively set at rest, the special views of Schleiden in respect
of the phenomena observed in Mesemhryantliemuin were not
generally abandoned until Meyen had also watched and described
the process as it occurs in M. lingiK^forme and M. pomeridianum,
Schleiden, indeed, observed the embryo-genetic process in a great
variety of genera (Salvia, Mnothera, JJomordica, Epilohium,
Martynia, and so forth), but it was from the facts noticed in the
genus above mentioned that his most striking conclusions were
deduced. Those who desire to go into the literature of the subject
should not only consult Bennett and Dyer's edition of Prof. Sach's
" Text Book of Botany," but also Dr. Sanderson's article
(" Vegetable Ovimi ") in Dr. Todd's '' Cyclopa}dia of Anatomy
and Physiology." It appears to me that this masterly article has
never received that consideration which was, and is still, due to it.
With these introductory remarks I proceed to record a few un-
published facts that I have observed in Achimenespicta.

As every systematist knows, the genus Achimenes belongs to the
Gesnerace^, an order of plants especially abundant in South
America. Not many observations appear to have been made on the
embryology of this family, although several of the genera, including
the beautiful Gloxinias, flower freely and produce seeds in our
conservatories. I may mention, incidentally, that I have detected

20 T. S. COBBOLI) ON THE EMBRYOLOGY OF ACHIMENES PICTA.

larval nematoids in tlie leaves of these plants, and that the presence
of the worms is exceedingly injurious.

As obtains in the majority of the gesnerworts, the species in
question is of a brilliant scarlet colour, and supplied with an
irregular five-lobed gamosepalous corolla ; the throat being
sufficiently capacious to admit the entrance of an ordinary bee. If
a flower be gathered a few days after the pollen grains have been
aj^plied to the capitate bilobed stigma, some of the tubular prolon-
gations of the intine will be found to have penetrated the loculus of
the capsule. How long the pollen tube takes to complete its so-
called germination I have not ascertained, but, judging from the
length of the stjde, it is probably not less than a week. Of course,
as Hofmeister has shown, the mere length of the style in any plant
is not by any means, of itself, a correct indication of the length of
time requisite for the completion of tubal growth. Thus, in Crocus
"we are told that the whole length of the style may, in extreme cases,
be traversed by the pollen tube in 24 hours, yet in the common
Ai'um maculatum, where the length of the style is less than the
eighth of an inch, Sachs says that the tube requires " at least five
days " to traverse the conducting tissue. In certain Orchids the
process takes ** several weeks or even months," in which cases
ovular development and pollen germination proceed simultaneously.
In Brugmansia and other long styled genera of the night shade
family, it seems to me that unless the process were comparatively
rapid, the flowering season itself would not be long enough to bring
about the essential phenomena of fertilisation.

In Brugmansia sanguinea I have witnessed the early stage
of pollen germination, and the intine must extend itself 2,000
times the width of the grain in order to arrive at the micropyle of
the ovule. In Achimenes the pollen grains are very small, that is
about the y-oVTy" "^ diameter. In size and form they closely
correspond with a species of Gesneiia which I only examined last
week, and in which I found the grains to measure a trifle less than
^-^" in diameter. Taking occasion to examine the pollen of
Eranthemum as belonging to a closely allied order {Acanthacece) I
found that the length of the grains extended up to the g^".
The ovules of the allied forms of Gesneria and Achimenes above
referred to, also closely corresponded in size, averaging about the
■jjl-jj" from base to apex. Further, in connection with Brvgmansia,
I wish to say that I once noticed a pai^illary eminence projecting

T. S. COBBOLD ON TTTF] EMBRYOLOGY OF ACHIMENES BICTA. 21

from the placenta and directed towards the micropyle of an adjacent
ovule. On referrmg to my original notes I find it described as " an
enlarged cell containing granules, and somewhat resembling pro-
cesses that Wilson had previously figured as occurring in Statice
armeriar However, at a discussion which took jDlace at the Linnean
Society, a few years ago, I stated my belief that the process in
question was neither more nor less than the projecting end of a
solitary pollen tube. To be sure, as Sachs has pointed out, some
plants {Euphorbias for example) have special hairs developed in the
interior of the ovary, which serve as aids in directing the pollen
tube to its destination. The cell-process in Briigmansia was destitute
of any partition, and could not be confounded with any ordinary
vegetable hair even of the unicellular type. In Achimenes, whilst
the outer integument of the ovary is everywhere welt supplied with
finely pointed hairs, whose large cells often contains a brilliantly
coloured protojolasm, the inner integument or lining membrane
consists of a single layer of muriform parenchyma, the cells of which
measure about ^\-f^' in length, by -~^" in breadth.

By gently scraping the slender, club-shaped utriculi of the
stigmatic lobes of Achimenes with a penknife, it is easy to remove
the germinating grains with portions of their tubes attached. The
ovary of Achimenes contains numerous anatropal ovules. In an
already advanced stage of growth, but prior to impregnation one
sees a large central dark mass of cells forming the so-called nucleus
or tercine, as I prefer to call it, using Mirbel's term to prevent con-
fusion. Within this mass, at the lower part, one or more of the
central cells differentiate to form the embryo-sac, which latter,
growing towards the apex of the tercine, expands at the summit so
as to present, in profile, a spoon-shaped figure, with the short
handle directed towards the chalaza. In actual shape the form of
the sac may be fitly compared to the bulb or lower end of a
thermometer turned upside down. The thickness of the tercine
prevented my observing the nucleus of the embryo-sac itself, and
after the sac had acquired its characteristic shape, it showed
merely a few fine granules in the interior, or, in addition to
these, either a solitary embryonal vesicle (oospore) near the apex,
or two vesicles placed side by side. In this situation the vesicle
was occasionally obscured by the expanded end of the applied pollen
tube, but in one instance it could be seen through the enlarged ex-
tremity of the tube. More commonly the applied coecal end of the

22 T. S. COBBOLD ON THE EMBRYOLOOY OF ACHIMENES I'ICTA.

tube presented those familiar' appearances which (in other plants)
so long led Schleiden to believe that the apex of the sac was
actually inverted. Sometimes the appearances were very puzzling,
leaving it hard to say whether the pollen tube had been broken off
within the micropylar passage, or whether it had been entirely with-
drawn, leaving a cast or imj)ression by its previous contact with
the sac. In one particular instance the embryonal vesicle showed a
finely beaded filament attached below. The appearance thus pre-
sented was quite the reverse of that usually exhibited by a true sus-
pensor. In several ovules, as before remarked, there were indications
of the presence of two or more embryonal vesicles, the appearances
reminding me of what I had also frequently observed in Orchis
mascula. In this immediate connection I have likewise to add that
m one instance I noticed two pollen tubes projecting from one and
the same micropyle or exostome ; the same phenomenon having
also been witnessed by me in Orchis. As in this monocotyledon, so
in the dicotyledon Achimenes, bundles of pollen tubes may readily be
recognised within the ovarian cavity. They may be raised on the
end of a fine needle and drawn out for separate examination. Here
I may mention that in a different sort of plant, namely in
Grevillea phcenicia, I have observed a distinct folding in of the apex
of the embryo-sac. This appeared to have been brought about inde-
pendently, and without the presence of the pollen tube. The single
anatropal ovule in this genus is remarkably simple, showing all the
inclosed sac in a most attractive manner.

As regards the further changes in the embryogenesis of
Achitiienes I have nothing to record, but in Orchis I have witnessed
the formation and growth of the embryo u]d to the stage of a small
globular parenchymatous bud. The yet further cell developments
within the embryo-sac of Orchis, which never proceed so far as to
result in the formation of a true endosperm, have not been observed
by me, but these must be very shglit, seeing that the ovular
coverings remain to form a loose reticulated perisperm surrounding
the exalbuminous seed. In Veronica gentianoides I have noticed
an undivided filament projecting from the microj)yle. These
projections, notwithstanding the absence of transverse septa, evi-
dently correspond with the confervoid filaments observed by
Schleiden in Orchis latifolia, and which he so strangely persisted in
regarding as pollen tubes.

In reference to the subsequent changes undergone by the embryo,

T. S. COBBOLD ON THK EMP.RYOr.OGY OF ACHnrENES PICTA. 23

Hofmeister has probably done more than anyone else, but the
observations of Sanderson, especially in regard to the embryology of
Hippuris vulgaris, are particularly valuable. To Sanderson and
Unger we are indebted for a complete account of the formation of
the endosperm in Hippuris, and by their records it appears that the
embryo-sac becomes filled with a multicellular matrix before the act
of fertilisation actually takes place. What is ordinarily described
as the suspensor, was called by Sanderson the " filamentous
prolongation " of the embryo, which it is important to observe is not
developed within the tubular or upper end of the impregnated germ-
cell or vesicle until after the formation of those parent cells of the
embryo which form the globular bud suspended by the filament.
Into the details of endospermal formation there is no need to enter,
but what I want to point to is the extent to which Sanderson's
observations go to support the views of Sachs and others who hold
that the suspensor (whether it be a long and much divided fila-
ment, or only a solitary cell) is a development essentially different
from the embryo itself. On the acceptance or rejection of certain
supposed analogies, or homologously identical parts, as the case
may be, rests the hypothesis of the existence of an alternation of
generation in phanerogams, strictly comparable to that which has
long been recognised as occurring in Cryptogamia. Whether this
hypothesis be admitted or not, the proofs of essential unity of
the sexual process throughout the vegetable series of organisms,
remain unaffected. Although the question of the source of
nutriment to the growing embryo and germinating seed — whether
this nourishment be derived from the endosperm, or from the peri-
sperm (which sometimes supplies its place, functionally), or from
the seed-lobes of the embryo itself, which in exalbuminous plants
has, as it were, stolen the food from the displaced or absorbed
endosperm in an early stage of formation — although the question,
which was partly raised by Mr. Martinelli's recent paper, is
undoubtedly, a very interesting one, I cannot now enter ujDon it,
my object being to receive the verdict of the botanical members of
the Club as to whether there is, or is not, any good ground for re-
garding the two separate embryonal processes of Cryptogams and
Phanerogams as fundamentally one and the same. The interest of
the question at issue does not stop here, for if this view, in the form
that it is advocated by Sachs, be rendered untenable, I think that
the ordinary views that are entertained in respect of the adult

24 T. S. COBBOLD ON THE EMBRYOLOGY OF ACHIMENES PICTA.

Btatus of the frond-bearing, spore-2)rodiicing asexual generation in
Cryptogams will have to undergo revision, and perhaps reversal. Be
that as it may, the position assumed by Hofmeister, Pfeffer, and
others, seems to be this : — The endosperm, although not an inde-
pendent structure, and formed within the embryo-sac (where, as we
have seen, it is often multicellular or parenchymatous before the
essential act of imj)regnation takes place) is strictly comparable to
the free, growing jDrothallium of a fern or other Cryptogam. The
embryo-sac corresponds to the macrospore, and the pollen grain to
the microspore of " heterosporous vascular cryptogams." As the
nucleus or tercine j^i'oduces the embryo-sac, this tercine, is
deemed the equivalent of the macrosporangium, and so forth. The
analogies extend much further, but I have probably adduced
sufficient to show the nature of the data on which Sachs and
others have founded the proposition that " a concealed alterna-
tion of generations exists in the seed of phanerogams." The
phenomena of embryonal development, as witnessed in Cycads and
Conifer^e are, as they tell us, strikingly different from what obtains
in Monocotyledons and Dicotyledons, and since it is alleged that the
prothalloid endosperm in these orders actually produces achegonia-
like organs, these groups of plants seem to occupy a transitional
position between Cryptogams and Angiosperms generally. It
happens, likewise, that according to Pfeffer' s investigations (quoted
by Sachs) there is a still more striking connecting link arising out
of the unique fact that amongst Cryptogams the development
of a suspensor itself may be actually witnessed in Selaginella
(Lycopodiacece).

25

On a New Universal-motion Stage and Object-holder.

By Robert G. West.

CRead Mvemher 28, 1879.J
PLATE II.

We are all familiar with a number of bodies wliich, when seen
obliquely, show some features of colour or structure that differ from, or
are invisible when the substances are viewed perpendicularly to their
surfaces. Instances of this peculiarity are to be found among
minerals, crystals, wings, scales, and other parts of insects, and in
close rulings or markings on glass, metal, or other substances. To
-provide for such bodies an oblique presentation to the microscope
objective, and to permit their examination on several sides, various
contrivances have been devised. The oldest and best known of
these is the stage-forceps. This, however, only permits rotation
in one plane ; and, in one setting of, say a cube as the object, will
only present four sides and four edges. It is, moreover, inapplicable
to objects mounted on slides. Professor Smyth, of New Orleans,
has contrived a safety-stage which incidentally admits a certain
degree of inclination. Messrs. Beck's beautiful little disc-holder
presents five sides and eight edges of a cube, but is unsuited for
slide-mounted objects. Mr. Zentmayer, of Philadelphia, makes a
microscope with its principal stage tilting in one plane, and this,
combined with the rotation of the stage, presents successively to
view all parts of an object, except that by which it is attached to its
mounting. This is, however, a costly and perhaps rather a cumbrous
arrangement.

In the last two devices some movements have to be obtained by
compounding two motions. This is avoided in Mr. Morris's object-
holder, which consists of a base-plate to rest on the stage of the
microscope, which base-plate is provided with a ball and socket
joint, carrying, by means of a short stem, a table or a tray to
receive a slide or a disc-mounted object. By this apparatus an
object may be rotated, and, within certain limits, inclined freely in
every direction ; but it has the very serious drawback that, with
the exception of rotation of the carrier in a horizontal position, every

26 R. a. WEST ON A NEW UNIVERSAL-MOTION

movement involves a lateral and vertical displacement of the object,
which is thus continually thrown out of the field and out of focus.

Now, it occurred to me that if I could place the object in the
centre of the movable sphere, all lateral displacement would be
abolished, and the small inevitable focal displacement of the margin
of the object would be reduced to a minimum, while its centre would
remain absolutely undisturbed. My first idea was to place the
object-carrying plate on a segment of a sphere of soft iron or
steel. This rested on a magnetic post let into the base-plate, and
with its U23per surface turned to a concavity to fit the spherical
segment. The magnet might be made of horse- shoe form, with
the spherical segment of iron or steel as a keeper. The segment
was so much less than a hemisphere, that the combined thick-
ness of the carrying plate, the slide and an object of moderate
size would place the upper surface of this last approximately in the
centre of the sphere. It is obvious that, with the low powers for
which all these appliances are chiefly useful, this would meet the
requirements of the case in respect of the immobility of the object.
It was not put to the test of construction ; but my only fear re-
specting it is lest the magnetism should prove not thoroughly equal
to its work, and so make occasional shipwreck of a slide.

For carrying out my idea in another form I am indebted to the
ingenuity of my friend, Mr. Henry W. Wimshurst, as I am to his
mechanical skill for the construction of the specimens now sub-
mitted to you. One of these is represented in vertical section in the
diagram, fig. 1, plate II. In this figure A A is a base-plate formed
with a small boss B in its centre. To this plate is soldered a short
brass tube C C. In the lower side of the carrying plate D D is
soldered a brass hemispherical shell E E. This shell has a circular
aperture on the under side for about a third of its extent. Over-
lying the aperture is a thin plate H of corresponding curvature ; and
the whole is held together by means of the spring K, and screw L,
the latter being tapped into the boss B. The carrier-plate D has a
central aperture for the adjustment of the screw, and spring-clips
(not shown in the figure) are provided for securing the slide. The dot
M indicates the centre of the hemisphere, and should be fully ^^ytli of
an inch above the upper surface of the plate D. An object of
moderate thickness mounted on an ordinary glass slide will then be
approximately in the centre of the movable hemisphere, and will be
practically free from displacement, lateral or vertical, in any position
of the carrier-phite D D.

STAGE AND OBJECT HOLDER. 27

In figs. 2 and 3 is shown an arrangement by which this result is
automatically secured for objects of inappreciable thickness, fig. 3
being a transverse section of fig. 2. The carrier-plate D D is
provided with brass forks N N, and a narrow transverse opening,
P P, through which springs R R press the object-slide against the
lower surfaces of the forks N N. As these surfaces are in line with
the centre M of the hemisphere, minute objects can readily be placed
in that centre. It will be seen that this arrangement automatically
compensates for the varying thickness of slides ; and that of objects
may be compensated for by the screws W W — two of the screws
being tapped into one of the forks, N, and one into the other fork.

Fig. 1 represents the most convenient form for use with reflected
light. For the employment of transmitted light, either with the
microscope or with Hoflmann's Table Polariscope, the arrangement
shown in fig. 2 is provided with an aperture X X in the carrier-
plate J), and similar apertures, Y in the spherical segment E and Z
in the base-plate A. The weight of the upper part of this arrange-
ment will be found sufficient to retain it in any position, especially
if the upper edge of the tube C be finished square or bevelled out-
wards, so as to give a better bite on E. Either form permits free
tilting and rotating movements in all directions, within certain
defined limits.

Fig. 4 represents in vertical section an adaptation of the same
IDrinciple for disc-mounted objects. In this case E E is a hemisphere,
along the inner edge of which is soldered a brass ring, V V. The
upper surface of this ring is flush with the centre M of the sphere.
Inside the hemisphere E, and at its lower part, is soldered a short
tube S, in which slides telescopically the carrier T, provided with a
socket to receive the disc U. Any object affixed to the disc U can
thus be readily adjusted, flush with the upper surface of the ring Y,
and can receive motion in every direction, without eitlier lateral or
vertical displacement. The hemisphere E will stand secure in any
position, and every point of a hemisi^herical object may be examined.

In each form of this apparatus the point M must be kept in the
axis of the microscope. The carrier-plate D should therefore be
large enough to pemiit of any necessary movement of the slide upon
it ; and, for use with non-mechanical stages, a tubular projection
from the lower surface of the base-plate A, to fit the " well " of the
stage would be advantageous.

The arrangement shown in fig. 4 could obviously be made to
carry a slide or a disc-mounted object at pleasure.

28

Description of a " Growing Slide " for Minute Organisms,
Constructed by Julien Deby, C.E., &c.

Communicated by J. E. Ingpen, F.R.M.S., Hon. Secretary,
November 28th, 1879.

PLATE II.

This slide is illustrated at Figs. 5 and 6 in Plate II., Fig. 5
being a plan view and Fig. 6 a longitudinal section. In these
figures, A is a 3x1 glass slip, having a glass ring cemented to
it, so as to form a cell of about -J-in. deep and |-in. in diameter. A
small hole is bored through the slip at o, inside and near the edge
of the cell. The objects, such as bacteria, &c., are placed with a
very minute drop of water on a thin glass cover B, which is
attached to the top of the cell by a little lard. The slip is then
laid upon another of the same size, but not perforated, and a couple
of india-rubber bands h are passed over the ends. One end of
this arrangement is then placed in a little water, which, by capillary
attraction, will occupy the S23ace between the two slips, and, by
evaporation, will ^rise into the cell and prevent the minute drop of
water on the glass cover from drying up. By this contrivance,
a drop of water no larger than a pin's head can be kept of nearly
the same size for weeks together, and the development of bacteria
or other minute organisms kept constantly under observation.

29

PROCEEDINGS.

August 8tli, 1879. — Conversational Meeting.

The following objects were exhibited : —

Book mite Mr. F. W. Andrew.

Elytron of Beetle. Lordops Gyllenhalii ... Mr. F. Enock.

Cape Polyzoa ... ... ... ... ... Eev. H. J. Fase.

Sucking stomach of Blow-fly Mr. F. Fitch.

Stem of Thistle stained Mr. W. Goodwin.

Section of Molar-tooth of Sheep ... ... Mr. J. J. Hunter.

♦* The top of the mud," Keston Mr. J. E. Ingpen.

Dap/mia pulex ... ... ... ... Mr. A . Martinelli .

Cast skin of Spider Mr. H. Morland.

Sponge. Acarnus innominatus ... ... Mr. B. W. Priest.

Alga. Cladophora 7'ectanguJaris ... ... Mr. T. L. Waterman.

Attendance — Members, 45; Visitors, 2.

August 22nd, 1879. — Ordinary Meeting.

A. D. Michael, Esq., F.L.S., &c., Vice-President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club :— Mr. A. J. E. Arch, Mr. William Burton, IVIr. Cuttell, Mr. D. W.
Greenhough, Mr. A. H. Soames, Mr. Jno. W. Tate, Dr. H. Whittell, and Mr.
Bryce M. Wright.
Three gentlemen were proposed for membership.

The Chairman reminded the members that at the previous meeting there
had been some discussion about the nomination of Mr. Hailes as Co-
Secretary to the Club, but it was decided that in accordance with the
rules it could not be done then. The Committee had, however, since that
meeting nominated Mr. Hailes, and the ballot for his election would take
place at their next meeting.

The following Donations to the Club were announced : —

" Journal of the Eoyal Microscopical Society" from the Society.
'* Proceedings of the Bristol Natural His- ■>

tory Society" 3 " "

" Eighth Annual Eeport of the Chester ^

Society of Natural Science " ... ) " "

" Proceedings of the Belgian Microscopical
Society" ... ^

50

'* Science Gossip " ... ... ... ... from the Publisher.

"The American Quarterly Journal of)-

Microscopy" I " *^^ ^•^^^°^'- '

** The American Naturalist " ... ... in exchange.

" The Midland Naturalist " , „

"Annals of Natural History " ... ... purchased.

3 Slides from Mr. F. Enock.

2 Slides of Diatomaceae ,, Mr. H. Morland.

6 Slides of Objects mounted in Copal •)

Varnish 1 " Mr. Julien Deby.

The thanks of the meeting were voted to the donors.
The Secretary made two communications on behalf of Mr. Julien Deby,
V.P. of the Belgian Microscopical Society ; one being " On Copal varnish
as a substitute for Canada balsam," and the other " On a new growing slide
for the examination of minute objects under high powers ;" the last-named
subject being illustrated by drawings upon the black board, and by the
exhibition of one of the slides.

Dr. M. C. Cooke said that apropos to the subject of mounting in Copal, he
might mention that about ten years ago they had employed it in connection
with the work of the Fibre Committee ; also that some of the slides of the
bat's hair which he had presented to the Club some years ago were mounted
in Canada balsam, and others in Copal varnish. It was at the time of the
Fibre Committee a matter of conversation as to the relative merits of the
two fluids, the general opinion being that perhaps for some things Copal
might have an advantage.

The Chairman thought it would be interesting to know if these slides
were still in existence, and if so in what condition they were at the present
time.

Dr. Cooke did not knoAV what their present condition was, but he thought
they were all marked so as to distinguish them from the others. Copal
varnish kept fluid for a long time, and some slides broken several years
afterwards were found still to have the Copal in a fluid state ; and
this was also the case with one of the slides broken only a short time ago.
Mr. T. C. White said he was very pleased with the growing slide, which
he thought was ingeniously devised. He thought, however, that some of
the members might not know how easy it was to drill the hole in the slide
if they only went the right way about it. If they got a piece of steel,
gi'ound the end of it to a three-sided point, and made it perfectly hard, by
heating and dipping it in turpentine, they would find it qnite easy to bore
the glass. If they bored half-way through from one side and then began
on the other side the hole would break through as soon as the centre was
reached, and could then be cleared out with a small file.

Mr. Hailes said with regard to the slides of bats' hair he believed that all,
or nearly all of them were still in as good condition as when they wei'e pre-
sented to the Club. A simple method of drilling glass was that of cement-
ing the glass to a piece of metal with shellac, the metal plate having a
hole through it of about the size required ; then if the tang of a file were

31

hardened they could break through the glass by a smart stab of the steel
point through the glass, and the hole could be chipped and filed out after-
wards. The only difficulty was in separating the glass from the metal
plate afterwards, great care being required to avoid breakage. There
was no difficulty at all in making the hole ; he believed he could do a
hundred of them in this way without breaking one.

Mr T C. "White thought this plan was all very well for large holes, but
for small holes such as that required for this growing slide it would hardly
be available.

Mr. Hailes did not think it would do for anything less than ^in., but it
would do quite as well for thin cover glass as for slides. He had, when
wanting to make a shallow cell, taken a fin. cover and broken a gin. hole
through it, thus producing a ring |in. wide in this manner without any diffi-
culty.

Mr. Ingpen said that an important point in the use of Copal varnish
would be its refractive index, which he thought was a little lower than
Balsam. This might or might not be an advantage according to the objects
to be mounted. With diatoms, for instance, he thought there would be a
disadvantage, because the refractive index of the diatom silex was less
than that of Balsam, so that the use of Copal would in a greater degree
than Balsam tend to obliterate the markings.

The Secretary said he had another little point of interest to bring before
them, namely, a series of lenses for dissecting purposes. They were
achromatic triplets, of particularly fine quality. Two sets had been sent
for the examination of members, one being mounted for dissecting and the
other for the pocket. They were approximately Hin., lin., fin., |in., and
fin. ; their definition was extremely fine, and their flatness of field very
great. They were manufactured by Steinheil, and were lent for exhibition
by Messrs Murray and Heath, Steinheil's London agents, from whom par-
ticulars as to price, &c., could be obtained on application.

Mr. Geo. Hind then read a paper " On Collecting and Mounting Spiders'
webs for the Microscope."

Mr. T. C. White said that he had listened with much pleasure to Mr.
Hind's paper — it reminded him of a plan which he had often adopted in
mounting insects caught in spiders* webs. He cemented a cell upon a glass
slide, and having coated the edge of it with balsam, brought it into contact
with the web, so that the capture was suspended in the middle of the cell ;
another cell was then placed upon the top of the first one, and the cover-
ing glass put on in the usual way.

Mr. Hailes said there was one point in Mr. Hind's paper, to which,
for the sake of being accurate, he thought he might call attention. It re-
ferred to the large spiders catching birds. This was a story which had
been repeated over and over again, but it was one which rested entirely on
the statements of Mdlle. Merian, which, so far as he was aware, had never
been confirmed. He had the opportunity some time ago of seeing Mdlle.
Merian's work, and he noticed the careful way in which she expressed her-
self. In the case of her own observation she always says " I have seen "

32

this or that j but with regard to this particular observation she aays " I
have seen " this spider, and " have been told " that it captures small
birds, &c.

The Chairman believed that what Mr. Hailes had just stated was quite
correct, and that the evidence rested on a very slender foundation, and was
entirely without confirmation. With regard to Mdlle. Merian's book, beauti-
ful as the plates were, he feared it was not the most reliable source from
which to draw information ; he believed it to be a fact that the natives finding
that she was willing to pay for anything rare or curious, were quite ready
to bring her things which were not always in the same condition as Nature
intended them to be — such as the heads of lantern flies on other bodies, &c.
With regard to spiders, one was generally so lost in admiration at the beauty
of the construction of the web itself, as to lose sight of the manner in
which it w^as hung upon a tree ; but they would find that each individual
Bpider would hang it in a different way according to the position of the
tree.

The thanks of the meeting were unanimously voted to Mr. Hind for his
paper.

Announcements of meetings, &c , for the ensuing month were then made,
and the proceedings terminated with the usual conversazione, at which the
following objects were exhibited . —

Jasmine leaf ...

Anatomy of Saw-fly Tenthredo variabilis ..

Algae. Batracliospermiwi moniliforme and')
Cyrtomium falcatum ... ... )

Insects in Spiders' Webs

Palate of Black Slug

Leaf of Drosera rotundifolia (stained) . . . Mr. J. T. Powell.
Attendance — Members, 53 ; Visitors, 3.

Mr.

F.

W. Andrew.

Mr.

F.

Enock.

Mr.

H.

Epps.

Mr.

G.

Hind.

Mr.

C.

Le Pelley*

September 12th. — Conversational Meeting,

The following objects were exhibited : —
Fungus (Puccinia) on Bramble
Head of Honey Bee ...
Spores of Funaria and section of stem of";

Dog Rose
Section of Scalp of Negro ...
Embryo of Haricot Bean
Diatom. Cymatopleura elliptica ...
^Y)0\\ge.Leucosolenia hotrijoides ...
Leaf and sections of Sjfhagnum cuspidatiim
Sections of Ash, (Fraxinus excelsiorj

Leaf Insect Mr. J. Willsou.

Attendance — Members, 41 ; Visitors, 4.

Mr

. F. W. AndrcAV.

Mr

. F. Enock.

Mr.

W. Goodwin.

Mr.

J. J. Hunter.

Mr,

. A. Martinelli.

Mr.

H. Morland.

Mr.

B. W. Priest.

Mr.

. J. W. Reed.

Mr.

J. C. Sigsworth.

September 26th, 1879.— Ordinary Meeting.
Dr. T. Spencer Cobbold, F.R.S., &c., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club : — Mr. Wm. Brown, Mr. Chas. Curtis, and Mr. H. Hobden.

The Secretary read a letter from the Secretary of the Natal Micro-
scopical Society, requesting an interchange of Proceedings, &c.

The President said he was sure the members would be pleased to hear
this letter, as it showed that the Club was not only healthy in its action,
but that it had also set others to work in remote parts.
The following donations to the Club were announced : —

" Proceedings of the Royal Society" ... from the Society.
" Proceedings of the Watford Natural")
History Society " ... ... ... )

" Proceedings of the Belgian MicroscopicaH
Society" ... ... ... ... j

" Report of the Natal Microscopical

Society" )

" The American Naturalist " in exchange.

" The Midland Naturalist " „ „

" Science Gossip " ... ... ... ... from the Publisher.

" Annals of Natural History " purchased.

"Grevillia"

6 Slides of Diatoms from the Monmouth")
and Cherrytield deposits... ... )

Mr. Hailes was balloted for and unanimously elected Co-Secretary of
the Club.

Two gentlemen were proposed for membership.

Mr. T. C. White suggested that they should send out to Natal a copy of
the Catalogue of Slides, so that the members of that Society might note
and supply such deficiencies as they were able to fill up.
The Chairman thought this a very admirable suggestion.
The Secretaiy said that of course the Journal would be sent, and copies
of the Catalogue would be sent also.

The President delivered an Inaugural Address on the occasion of his first
appearance at the Club.

Dr. Matthews said he had much pleasure in proposing that an unanimous
vote of thanks be presented to the President for his admirable Address.
They had scarcely expected one so elaborate, and yet they could only have
wished that it had been longer, not however on account of its defi.cieucies,
for it left no part untouched which they could have desired to have had
handled. He would couple with the vote of thanks a request that the
President would allow them to publish the Address in the Journal in the
usual manner.

D

from Mr. Hailes.

34

Mr. T. C. White seconded the proposal, and endorsed all that Dr. Matthews
had said as to the Address, which would be a valuable addition to their
proceedings when they were able to read it in the Journal.

The Secretary said it became his pleasing, as well as formal duty to put
the motion to the meeting in the usual way. — Carried unanimously.

The President said it only remained for him to thank them for the very
kind and cordial manner in which they had both received the Address and
voted him their thanks.

Dr. Matthews exhibited and described a new and elaborately constructed
machine for cutting sections of hai'd tissues.

Mr. Hunter said that he also had brought a section cutting machine for
exhibition, but he did not claim it as any new invention, as it was only a
modij&cation of one described in the " American Journal of Microscopy."
It was designed to get rid of the " planing " cut of most machines, and to
substitute an obliquely sliding movement for it, which was found very much
better for cutting soft tissues.

A Member said that in Mr. Williams's machine they could get this same
kind of sliding action, but it was found desirable to float the sections off the
knife afterwards.

Mr. Hunter said the machine he had brought was intended to cut sections
of substances imbedded in wax, which Williams's machine would not do.
That was a very excellent machine for many purposes, and he was aware
that they could get a sliding motion with it. The one now upon the table
was only intended for soft tissues.

Announcements of excursions and meetings for the ensuing month were
then made, and the proceedings terminated with the usual conversazione,
at which the following objects were exhibited : —

Maple Aphis

Diatom. Orthosira, Opaque, with Stephen- 7
son's Erecting Binocular ... ^

Section oi eye oi Dytisciis ...
HcematoTpinus, from Indian Buffalo ...
Labradorite ... ... ... ... "^

Splinters of ash tree struck by lightning 5

Caddis worm ...

Section of finger of Orang-outan ...

Larva of Corethra plumicornis

DapTinia pulex

Parasite of Tortoise ...

Palate of Helix pomatia

Capsella bursa x'OLstoris

Nujphar lutea ...

Attendance — Members, 74

Mr. F. W. Andrew.
Mr. T. Curties.

Mr. C. G. Dunning.
Mr. F. Enock.

Mr. H. E. Freeman.

Mr. H. R. Gregory.
.. Mr. J. J. Hunter.
... Mr. J. M. Offord.
... Mr. A. Martinelli.
,.. Mr. T. S. Morton.
,.. Mr. C. Le Pelley.

I Mr. J. W. Eeed.

Visitors, 6.

35

October 10th, 1879. — Conversational Meeting.

The following objects were exhibited : —

Correcb cardinalis ...

Head of Beef Tape Worm, Tcenia medio

canellata

Tricliosoma tenuissimum, from a pigeon ...
Larva (one day old) of Puss Moth, Cerura\

vinula ... ... ... ... )

Eeproductive organs of Blow-fly

Leaf of Fuchsia, shewing raphides...
Acari from Sparrow ...
Section of foot of Human Foetus (5^ months)
Section of Bone, and of Echinus spine,")

cut by a new machine ... ... j

Aglaophenia pluma (Hydrozoon), with ex

tended tentacles ...
Conochilus volvox and Volvox glohator
Tube-dwelling diatoms
Gonium jpectorale
Leaf of Deutzia, polarised ...
Alga, Rividaria angulosa
Fungus. JEcidium grossularia
Palate of Sea Slug (Boris tuherctdataj
Diatom. Pleurosigma australis

Mr. F. W. Andrew.
The President.

Mr. F. Enock.

Mr. F. Fitch.
Mr. W. Goodwin.
Mr. H. G. Glasspoole.
Mr. J. J. Hunter.

Dr. J. Matthews.

Mr. A. D Michael.

Mr. H. Morland.
Mr. J. M. Offord.
Mr, C. Le Pelley.
Mr. B. W. Priest.
Mr. J. W, Reed.
Mr. H. J. Eoper.
Mr. J. C. Sigsworth.
Dr. H. Whittell.

Attendance — Members, 59; Visitors, 10,

October 24th, 1879. — Ordinary Meeting.

Dr. T. Spencer Cobbold, F.R.S., &c., President, in the Chair,

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for, and duly elected members of
the Club : — Mr Arthur J. Shelley and Mr Fergus H. Wood.

The following donations were announced, and the thanks of the Club were
voted to the donors : —

"Journal of the Eoyal MicroscopicaH f^om the Society.
Society" ... ... ... ... J

" Proceedings of the Geologists' Associa- )

tion" I "

" Proceedings of the Belgian Microscopical ^

Society" J

" Popular Science Review" ... ... ... ,, „ Publisher.

" Science Gossip" „ „ „

„ Association.
„ Society.

" The Midland Naturalist" in exchange.

"The American Natnralist" ... ... ... ,, „

"The American Journal of Microscopy" ... ,, ,,

" The Fresh Water Alga3 of the Leeds ) ^ ^

T.. , . ,„ . \ from Mr. B. Turner.

JJistrict ... ... ... ... )

" Quains' Anatomy" „ Mr. J. W. Groves.

"Annals of Natural History" ... ... Pui-chased.

42 Slides of Acari from Mr. A. D. Michael.

1 Slide „ Mr. F. Wood.

Special thanks were voted to Mr. Michael for the present of the series of
type slides of Acari, which form a valuable addition to the cabinet of the
Club, and the following communication from Mr. Michael on the subject v^as
read by the Secretary : —

"Herewith I hand you 42 slides of Oribatidae (all set in balsam). These
slides, when added to those which I have before given to the Club, will
form a type collection of all the Oribatidae hitherto recorded as British,
"with the exception of eight species, of which I have not been able to
obtain duplicates ; they also contain larvae and nymphs of many species.

" I may remind members that the chitine of which these creatm-es are
composed is extraordinarily brittle, and that, consequently, the slides
require care in handling."

A letter was also read from Miss Morrell, enclosing a photograph of the
late Mr. James Annett, and presenting the sum of £10 to the Club. The
special thanks of the meeting were voted to that lady for her valuable
donation.

Announcements of Soirees by the Tower Hill Microscopical Society
and the Croydon Society, were made by the Secretary j and the co-operation
of the members was invited.

Mr. Martinelli read a paper " On the Germination of a Seed."

The President invited some remarks upon the paper, observing that
visitors present were not only at liberty to join in the discussions, but the
Club would be very pleased if they would do so. They were favoured that
evening by the presence of Dr. Fischer, of Sydney, and also of Mi-. Stephen
Adams, the Secretary of the Natal Microscopical Society.

Dr. Fischer said that the subject before them had many aspects, but it
had been only treated chemically, and in order to the proper understanding
of the subject, it needed to be regarded physiologically also. He had also
expected to hear something more of the tubers referred to, and should like
to know why they had not developed.

Mr. J. T. Powell said he had been a good deal interested in the subject, bnt
thought it almost necessary to supply a little moi-e information on some
points connected with it. The movements he thought resulted from the
successive development of the different parts. The first part which began
to grow was the radicle, and that grew downwards ; and the next important
growth was that of the stalks of the cotyledons, which had a great in-
fluence on the growth of the plumule, in the case of those which brought

the cotyledons from the grouud, like the mustard. He should like to ask
Mr. Martiuelli if in the term perisperm, he included the endosperm ?

The President thought it a pity that the excellent paper before them
ahould pass off without further notice. Several interesting points had
already been touched upon ; others would also be of great interest, such
as those relating to Morphology, and more especially to the comparison
between the development of Phanerogams and Cryptogams. The view of
Sachs was that the endosperm was formed in the embryo sac, and the
question was, "could they find in the germination of cryptogamic plants
any circumstances which were analogous ?" The investigations of Sachs,
Hof meister, Pfeffer, and others had, he believed, established this analogy j
the true view being that the impregnated germ became the oospore, and
that the endosperm was the equivalent of the prothallus. But they might
go through the whole series of organs, and find similar analogies. From
this point Mr. Martinelli had dwelt upon matters of great interest relating
to the development of the cotyledonary leaves. It was quite possible to
push the argument for analogies much further if it were advisable.

Mi'. Martinelli said that as regarded the perisperm, he took it to be
that food material which was deposited within the tissue of the nucleus,
while the endosperm was developed within the embryo sac. As to the
tubers, he could say very little about them ; he was much interested in them
at the time, as well as surprised. When he came to examine them, he
found them to be much the same as the bean. He planted one of them, and
it came up into a large bush.

The President having briefly referred again to the various topics em-
braced in so large a subject as that dealt with in the paper, proposed a vote
of thanks to Mr. Martinelli, which was carried unanimously.

Seven gentlemen were then proposed for membership, and announce-
ments for the ensuing month having been made, the proceedings terminated
with a conversazione, at which the following objects were exhibited: —

Fungus Peronospora infestans ... ... Mr. F. W.Andrew.

„ Puccinia arundinis ... ... ... Mr. F. Coles.

Leaf of Pelargonium quercifolium (stained) Mr. T. Curties.

Sexual organs of Vespa vulgaris (male) ... Mr. F. Enock.

Scale of Pike Mr. H. Epps.

Spongilla fluviatalis ... ... ... ... Mr. H. Gilbertson.

Hydra viridis and H. fusca ... ... ... Mr. W. Goodwin.

Human ovary (inflamed) ... ... ... Mr. J. J. Hunter.

MemhranijJora pilosa with the tentacles ■> m A T) M' >i 1
extended ... ... ... ... )

Diatom. Amphipleura piellucida fiV". acusj \

with vertical illumination and new Messrs. Powell and
water immersion |^th objective, having [ Lealand.

a balsam angle of 112° j

Living alga Vauclieria hepatica Mr. J. W. Keed.

Mounted alga, Frullania dilatata „

Attendance — Members. 82 : Visitors, 16.

38

November 14th, 1879. — Conversational Meeting.

The following objects were exhibited : —
Tongue of Spider
Pollen of Cedar
Fluke of the Indian Elephant Fasciola ^

Jacksoni ... ... ... ... )

Ixodes of Indian Bullock ...
Nidus of Human louse
Mouth structure of Staphylinus
Section of Greengage stone ...

„ Molar tooth of Ox

Phyllodromia melanocejphala
iLntopylob ornata
Young Stephanoceros...
Yeast plant. T'jrulacerevisioe
Wing of Butterfly Doritis Apollo
Section of Coprolite ...
Dark field illumination test slide and )

optical illusion slide ... ... '

Examples of Micro-ruling ... ... ... ,,

New form of Zoophyte trough, designed)

by Mr. Botterill, of Liverpool ... )

Attendance — Members, 85 ; Visitors, 19.

Mr. F. W. Andrew.
Mr. J. W. Cafe.

The President.

Mr. F. Enock.
Rev. H. J. Ease.
Mr. F. Fitch.
Mr. W. Goodwin.
Mr. J. J. Hunter.
Mr. A. D. Michael.
Mr. H. Morland.
Mr. J. M. Offord.
Mr. J. W. Reed.
Mr. J. C. Sigsworth.
Mr. W. Teesdale.

November 28th, 1879. — Ordinary Meeting.

Dr. T. Spencer Cobbold, F.R.S., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.

Mr. Hailes mentioned that the donation of £10 from Miss Morrell,
announced at the previous meeting, was a gift from that lady herself, and
not a bequest from the late Mr. Annett.

The following gentlemen were balloted for and duly elected members of
the Club :— Mr. S. C. Adams, Mr. A. J. Crighton, Mr. W. Forster, jun., Mr.
A. C. Goodinge, Mr. R. J. Hughes, Mr. J. G. Tasker, and Mr. R. W.
Watson.

The following donations to the Club were announced : —
" Proceedings of the Belgian Microscopical j ^^^^ ^^^ Society.
Society ... ... ... )

"Science Gossip"... ... ... ... „ „ Publisher.

"The Analyst" ... ... ... ... „ „ Editor.

*' The Midland Naturalist " ... ... ... in exchange.

8y

" Quarterly Journal of Microscopical Science " by purchase.
"Annals of Natural History" ... ••• >» )>

Eeprints of papers on Spermatozoa from the")

** Quarterly Microscopical Journal " > from Mr. Heneage Gibbes.

2 Slides in illustration of the above ... J

1 Slide ... ... ... ... ... „ Mr. H. Morland.

The thanks of the meeting were voted to the donors.
A letter of thanks from the Tower Hill Microscopical Society, for
assistance rendered at their recent Soiree, was read.

The following communication from Professor Hamilton Smith, of Geneva,
U.S., " On a Method of Dry Mounting," was read by Mr. Hailes, and a
specimen exhibited : — " The gutta percha tissue rings recommended by
Dr. Tulk I shall always use hereafter. A punch makes them beautifully
and rapidly — nothing is simpler than the process. The specimens to be
mounted are prepared on the cover, then a ring of gutta percha tissue is
placed on the glass slip, the cover laid on it, and the three held together by
forceps and gently warmed. This will serve to attach them. Now
removing the forceps, warm the slide and cover, and press the latter with
foi-ceps or a burnisher till (looking obliquely) one sees the attachment is
complete. This is all. No varnishes or turn-table work are required, and for
all I can see, no siceating or destruction of the preparation by change, or
drying of substance of ring, as will happen to all asphalte preparations."

Mr. T. C. White thought there would be an objection in the heat
required in this mode of mounting, and also fancied it would, instead of
preventing, be likely to conduce to '* sweating " inside the covering glass.

The President noticed some air bubbles in the ring of the specimen
placed in his hands, and thought that if they should coalesce it would injure
the cell.

Mr. Hailes said the best way to avoid " sweating " was to leave the cell
partially open. Heat would certainly be fatal to such objects as butterfly
scales.

Mr. Ingpen exhibited a new form of low power objective by Zeiss, so
constructed that by turning a milled collar a great alteration in the magni-
fying power could be obtained — the definition was remarkably good and the
field very flat.

Dr. Matthews said he had some time since the pleasure of an evening's
conference with Dr. Carpenter, and found that he used scarcely any other
low power than this one. He spoke of it with unqualified praise, and it
certainly seemed to answer the purpose of several objectives.

Mr. R. G. West exhibited and described a new form of " Tilting Stage "
for the examination of objects in various directions.

Mr. James Smith enquired what arrangement was made for putting an
ordinary slide upon this stage ?

Mr. West said it was secured by clips.

The President read a paper " On the Embryology of Achimenes picta,"
and illustrated the subject by diagrams.

Dr. Matthews — who had taken the chair during the reading of the

40

paper — said that when they had a paper from the lips of one who was an
acknowledged master of botanical science, it scarcely became him to invite
criticism upon the subject, but he was quite sui-e that so much interest must
have been created that there were no doubt many members pi^esent who
would like to express their sense of its value.

Mr. W. H. Gilburt said that the question with which the President had
been dealing that night was, perhaps, the most interesting amongst many
which occupied the attention of Botanists at the present time, and had
given rise to some amount of discussion amongst them. Some of the con-
clusions arrived at could scarcely be upset, and| others, possesiring a high
degree of probability, were still in abeyance. It had for a long time been
held that the Embryo-sac resulted from the simple enlargement of a single
cell ; but within the last few months Strasburger and others had shown
that a much more complicated process was concerned in its production ;
that not only was there an enlargement of a single cell, but also division of
the '* Embryo-sac mother cell," and afterward, through the growth of the
daughter-cell, which ultimately became the embryo-sac, not only were the
Bister-cells, but also the other cells of the nucleus so compressed as to be
almost obliterated. They had also long believed that the germinal and
antipodal vesicles were produced by free cell formation within the embryo-
sac ; but Strasburger had shown that this was not the case, and that they were
the results of the division of the protoplasm of the embryo-sac, such divi-
sion taking place in the ordinary manner. With regard to the homologies
of the ovule, &c., one needed to go carefully through what took place in the
higher Cryptogamia and Coniferese and so on to the Phanerogamia, in order
to see how one followed up the other. A good example for illustration
would be to take the oosphere of the Lycopodiacea and watch the result of
fertilisation. The first effect is that the hitherto naked protoplasmic cell
becomes clothed with a cellulose wall ; it then divides into two, the lower
one of which becomes the embryo the upper one the suspensor. Further
division now takes place differently in each of the two cells — in the former,
the next two divisions are at right angles to the primary one ; while in the
latter all the succeeding divisions are in the same plane as the primary one.
In the Phanerogamia the process is in all respects, so far, the same ; while
in the Cryptogamia, Ferns, &c., a formation known as the foot is produced
from the oospore by division, the remainder developing into the young
plant ; the foot being the homologue of the suspensor and the young plant
of the embryo. He did not quite understand what the President meant
with regard to the relation of the suspensor to the young stem. If he
meant that the latter originated fi-om the former, it could not possibly be
BO. The embryo which at first is simply a spherical cell, by division pro-
duces a mass of tissue which becomes differentiated into several organs,
viz., Colyledons and plumule ; while from the lowermost cell of the sus-
pensor, or the one next adjoining the embryo, and which is known as the
hypophysis, the radicle or young root is developed, the remainder of the
Buspcnsor perishing.

The President said he was very glad they had been favoured with Mr

41

Gilburt's remarks, because he had brought the matter forward with a view
of exciting discussion, and as an addition to the paper read at their
previous meeting. The question was by no means a settled one ; but as
regarded some parts of it, the more they were looked into the more did
they become confusion worse confounded. However, there were some
Btatements of Strasburgher's— that regarding the embryo-sac, for in-
stance — which he thought could not be maintained. As regarded the
suspensor, he had made the statement on the authority of some foreign
•writer, but he did not believe that it was any part of the future stem,
Then, again, as to the embryo-sac, the observations were those of Hoff-
meister ; in the genus Pinus more than one embryo -sac was found, but
they were differentiated from several cells set apart for the purpose.

Mr. A. D. Michael said he had expressly avoided joining in the discussion,
but would just like to say that he had the pleasure of listening to Mr.
Ward's paper at the meeting of the Linnsean Society which had been
referred to. Mr. Ward had been engaged for a long time in the Kew
Museum and Library working at the subject, and his drawings were laid
before the Society, and would therefore shortly be in print. He understood
Mr. Ward to confirm Strasburgher's views as to formation by cell division,
and moving downwards and upwards ; this was, in some species at all
events, the cause of the formation. Mr. Ward had worked it out with
extreme care, but he did not appear to go with the views regarding the
Archigonia. The Botanists of the Society present seemed to consider Mr.
Ward's paper was rather confirmatory of the views of the earlier
Botanists.

Dr. Matthews said it was clear they had not lost the old gladiatorial

spirit ; but he was glad to find that, unlike those of old, the contest that

evening had been a bloodless fight, and had not ended in a victory on either

side. He had great pleasure in moving a hearty vote of thanks to the

President for his admirable paper.

The vote of thanks was then put to the meeting, and carried by

acclamation.

Attention was called by Mr. Ingpen to the exhibition by Messrs. Powell
and Lealand of Amphipleura pellacida by means of a new oil immersion

condenser, in conjunction with a | inch water-immersion objective of

large aperture.

Notices of meetings for the ensuing month were made, and members

were specially reminded that in consequence of the date of their next

ordinary meeting falling on the day after Christmas Day, there would be no

ordinary meeting held until January 23rd, 1880.

The proceedings closed with the usual conversazione, at which the

following objects w^ere exhibited : —

Section of Coriander Seed ... ... ... Mr. P. W. Andrew.

Fungus — Uromyces intrusa on leaf of Alclie- ) -^ -^ Coleq
milla vulgaris... ... ... 5

VdliitG oi Patella vulcjata ... ... ... Mr. T. Curties.

Diatoms from Gulf Weed ... ... ... Mr. C. G. Dunuiug.

42

Platypi-ia echidna ... ... ... ... Mr. F. Euock.

Hand of Human Foetus ... ... ... Mr. J. J. Hunter.

Nothrus 2:)alustr is i^Ovihsitidad) ... ... Mr. A. D. Michael.

Examples of close rulings on glass viewed by -j
reflected light ... ... ... )

Attendance— Members, 78 ; Visitors, 16

Mr. K. G. West.

December 12th, 1879. — Conversational Meeting.

The following objects were exhibited : —
Impurities in Drawing Paper
Section of Porcupine Quill ...
Strong ylus auricularis, from the Stomach of a-^

Toad... ... - ... ... )

Japanese Paper

Gizzard of Mole Cricket {Qryllotalpa Vulgaris), -^

with Zeiss' adjusting objective ... )

Cordylura spinimana
Scolopeiidron (?)
CEsophagus, &c., of Hornet ...
Bermuda Arrowroot ... ... "i

Tongue of Drone Fly ... ... )

Zeiss' Adjusting Objective ...
Polyzoa — Eiicratea chelata, ") "^,

Crisidea cornuta, , on a leaf of I
Hippothoa divaricata \ Delesseria I
Acsivma—HaJacarusnotops... "t liypoglossam, j>
Fovaminitevsi—IiotaUaormta, I showing te

Mr. F. W. Andrew.
Mr. A. Ashbridge.

The President.

Mr. A. L. Corbett.

Mr. T. Curties.

Mr. F. Enock.
Eev. H. J. Fase.
Mr. F. Fitch.

Mr. H. R. Gregory.
Mr. J. E. Ingpen.

Mr. A. D. Michael.

&c.

J

traspores

J

Messrs.
land.

Powell and Lea-

Infusoria— Forfice^Za, &c

Ohisium orthodactylus ... ... ... Mr. H. Morland.

Larva of jEstrus ovis ... ... . . Mr. T. Partridge.

Goniuyn pectorale ... ... ... ... Mr. C. Le Pelley.

Frustulia saxonica (in checks), with onC'eighth'j

immersion objective, and new oil iramer- >

sion condenser... ... ... J

Freshwater Alga — Draparnaklia glomerata and') -j^jj, j -yy ^^^^

Red Protococcus ... ... )

Fungus — XenodocJiiis carhonarius ... ... Mr.

Amphiprora rimosa ... ... ... Dr.

Attendance — Members, 77 ; Visitors, 8.

J. C. Sigsworth.
Whittell.

El.1

A.Mccfiv>u:ilL, del

R.O. Vi^S'TS UNIVEKSAL TJXTING STAQE

s Object Holdetv.

Pi..n

PIG. 1

V7J/fNf////aLU

yi)/j/^n>n)/j/j////i//////////^///.

//r/;//////7///r///j/////A

■,^7/,jyn,jj/f^nr>,//r.'rr77T77m

PIG. 2

U,!;>,^^^^^J))^/J.\ •!^V77

^\rr7.^

D

,.,,i,,,,^j?,/>j>>^n^fi^*/r7r77.

\.

E

A

'//j/„,//f/////i/j//y^//ji///jj>\

FIG . 3

''l/^ Xf/^///^//^

\i<iuuiii(iui/<i<>,"''mmft'iiiri

i>ii:>>/iini//ij >i /n>?'//)ii.-//>/iinniii///n//>/nm

JoLdBK Debys Growj-ng- Slwe.

PIG 5

m^m^wMmmMmm^^i

43

On the Resting Spores of Protococcus pluvialis.

By T. Charters White.

(Read January 23, 1880.)

In defining the " scientific frontier " between the lowest forms of
animal and vegetable life as revealed by the microscope, the student
is met by difficulties of no ordinary character — he will meet with
organised bodies sometimes simulating animal, at others vegetable
life ; but the boundaries will be so interlaced that it will be
extremely difficult to draw the line that shall mark the separation
of the two kingdoms.

The subject of my casual communication this evening deals with
one of these classes of objects, and one that by an ordinary
observer would be undoubtedly placed in the animal world, did not
chemical analysis teach him that it was a vegetable — an alga of the
simplest type. Possessed of less than ordinary powers of observa-
tion, I cannot hope to lay before you any very novel details in
reference to my subject, but I may be permitted for a few moments
to lay before you sufficient to awaken an interest in the examination
of Protococcus pluvialis, some specimens of which I have placed
under my microscope on the table. The subject has been well
studied by such eminent men as Ehrenberg, Cohn, and others, and
it is to their monographs and those of our British Algologists
that I would refer you for further and more intimate acquaintance
with a subject of much interest to the microscopical observer.
Protococcus has been variously named Chlamydococcus, Hcemeto-
coccus, &c., but as it is better known as Protococcus, it may be
desirable that I should use that name in describing it.

When first met with, the observer is impressed with the convic-
tion that what he is looking at are veritably moving animals.
They are seen jDrogressing with a rapidly rotating action, are coloured
a pale green, and are furnished with a red eye speck. A closer
examination will be needed before their true character is made
evident. Many of the old writers, as Ehrenberg, claimed them as
Infusoria ; but others , as Cohn, with a juster determination, have

JouRN. Q. M. C, No. 43. e

44 T. C. WHITE ON PUOTOCOCCUS PLUVIALIS.

placed them finally among the Algae. I cannot give a clearer
description of Protococcus than that given by Cohn, in a paper
translated for the Ray Society in 1853, entitled "Botanical and
Physiological Memoirs." He says, " The moving cell of Frotococcus
is composed of two principal parts — a hyaline spherical envelope,
formed of a delicate structureless membrane consisting of cellulose,
which immediately surrounds the colourless contents, consisting,
perhaps, of pure water. In the centre of the envelope occurs a coloured
globule composed of the universal nitrogenous protoplasm or
mucus of vegetable cells, coloured red or green by a carmine red
oil or chlorophyll, and containing in it numerous granules of
protoplasm, as well as one or more chlorophyll vesicles. This
coloured globule is attenuated at the upper end into a colourless
point ; from this point go out two cilia, which protrude into the
water through two orifices in the membrance of the envelope, and
produce the movements of the whole organism. The inner coloured
globule is not bounded by any rigid membrane, but merely by a
thickened layer of protoplasm ; hence its contour is very changeable
and passes through manifold transformations in the course of its
development." This, then, is Cohn's clear and correct description
of Protococcus as first presented to the eye of the observer, but
changes afterwards take place in them, especially towards winter,
when vegetation generally becomes somewhat dormant — changes
that may not be passed over because of the interest attaching to
their study. Cohn, in the description I have quoted, while mention-
ing the fact of Protococci containing red and green colouring
matters, does not sufficiently distinguish the areas respectively occu-
pied by them. Huxley, in his notice of Protococcus, merely states
** that the individual Protococci may be either green or red, or half
green and half red, or the red and green may co-exist in any other
proportion." As they were first seen by me, the central coloured
globule was a bright green, having a well defined red spot in its
centre, but this had the power of diff"using itself at times through
the granules of the green protoplasm and colouring it a dull red.
After careful watching, this red would be found to have collected
again and formed a red area in some other part or parts of the
green globule, and not entirely confined itself to the centre. The
movement of this Alga under consideration suggests some relation-
ship to Volvox, and it indeed belongs to the family of Volvocina.
That the green central globule is hollow like Vol vox is evident, as

T. C. WHITE OX PUOTOCOCCTTS PLUVIALI3. 45

it rolls over slowly, and although it is not clear what occupies its
centre when the red is absent or diffused, yet its walls contain many
vacuoles or vesicles, together with granules of varying size. With
these motile forms of Protococcus, you will observe some that are
three or four times larger, perfectly circular, and filled entirely by a
ruby-coloured, highly refractive protoplasm. The bridge by which
the motile forms pass over to this resting stage seems at present
unrecorded, and although I have watched them very narrowly, I
have failed in seeing any transitional stage in their developmental
history, but I have noticed in the summer time that these resting
spores have become granular and less refractive, and the ruby tint
has become paler in a band crossing the cell diametrically, and this
has again, a little later, been crossed almost at right angles by
another light band, as if the red colour was becoming thinner in
these lines — the green colour meanwhile becoming for the first time
visible in the light bands ; after a few hours the bands have become
separations, while the red matter became defined as a central mass
in each quarter of the sphere, and was surrounded with a coating of
green. Now the sphere becomes more or less ovoid, and a bulging
of the wall occurs at the small extremity of the egg-shaped cell ;
meanwhile rotatory movements are seen within, the future macro-
gonidia preparing themselves for their independent existence.
Suddenly the thinned side of the cell bursts, and the four
imprisoned gonidia swim away by means of what seems a fringe of
cilia. Professor Cohn doubted the existence of this process of self-
division, but Mr. F. Currey, in an article contributed in 1858 to the
'^Microscopical Journal" avers that he had seen it. He says, he
*' has distinctly observed it," and I can fully corroborate his observa-
tions. Some resting spores of this Alga divide into many smaller
gonidia, and I believe from what I have seen that these constitute
the so-called Frotococcus nivalis, or red snow, as I have had an
abundance of this plant develop, where before I only had the motile
forms of P. pluvialis ; but though these spores are small at first,
they seem to grow by the imbibition of nourishment from the water,
and become the same size as the red resting spores to which I first
alluded.

The specimens under my microscope present several stages ; you
will see the moving Protococcus varying in size from j-^-qq to ^oVo-
of an inch, and by careful adjustment of the light may detect its
structureless cyst and the two flagella ; you will also see its

46 T. C. WHITE ON PR0T0C0CCU8 PLUVIALIS.

circular resting cell, the primordial cell which as the season advances
will produce its macrogonidia for the continuance of the species, and
with these Algas you Avill doubtless see Amcebce and developing
Philodince. If you seek for an Amceba, you will see a red cell — the
red cell that you have been so familiar with in the study of Proto-
coccus, occupying its centre — and you will also find Amoehce coloured
with green and red ; and the question naturally arises, " Do these
Protococci undergo that alternation of generation so familiar to the
student of the lower forms of life ? " " Do these Amoehce represent
so many portions of Bioplasm the result of changes in the Proto-
cocci, or have they a separate nature, and have they swallowed the
red centre of the Protococcus?'' My impression, derivable from
an examination of many Amnehce, is that they are the results of
changes from the Protococcal state, that they are vegetable, but of
course this phase of the subject remains for future investigation.
It appears to me that the structureless envelope becomes the homo-
geneous part of the Amceba, while the granular centre becomes the
granular Amceba, This conclusion is derivable from, and is the
result of, the collation of many observations made since last spring,
and ought not to be deemed beyond the bounds of probability, inas-
much as some of the former writers on these subjects, and especially
Mr. Carter, in the '* Annals of Natural History," Vol. xvii., for
1856, mentions the rhizopodous development of the contents of
Enghna into granuliferous Amueba.

Since jotting down these few remarks, I have to-day seen an
Amceba with a well-defined homogenous circular zone, having within
it a pale green granular area, with the red oil spot, but to one side
rather than centrally situated, evidently a Proiococcus undergoing
change to an Amceba. Now the well-defined circle has broken up
into the usual Amoeboid projections, and it has passed beneath some
decayed vegetation and become invisible.

47

On the Association of Bodies Resembling Psorospermia
WITH THE Degeneration of Hydatid Cysts.

By H. T. Whittell, M.D., F.R.M.S., Con. Surgeon, Adelaide
Hospital, S. Australia,

{Read January 23, 1880.)

Plate III.

My attention has been directed to the subject of Hydatids during
the last fifteen or sixteen years, and my practice in South Australia,
where Hi/datids are common, has afforded me a fair field for investi-
gation. Viewed in some aspects, the subject of this paper is doubt-
less better adapted for discussion in a Medical Society than in one
that is exclusively Microscopical ; but, as I purpose to avoid as
much as possible its medical bearings, and to confine my remarks to
a phase in the life-history of Hydatids, which can only be worked
out by microscopical observation, I have thought it better to pre-
sent an outline of such facts as are at my disposal to a Microscopical
Society rather than to one that is purely medical in its character.
And I have been the more anxious to place these facts before the
Quekett Club, because the President of this Club occupies a fore-
most place as an original worker and a writer on the subject of
parasitic disease.

For the guidance of such members of the Club as are not familiar
with the ascertained facts with regard to the origin and life-history
of Hydatids, it may be well briefly to notice that an Hydatid is a
form of worm which infests various parts of the bodies of men or
other animals, and which, by its presence may occasion serious or
even fatal results to those in whose tissues they take up their habi-
tation. There is scarcely a part of the human body which I have
not seen infested by these worms, but their more common seats are
the liver and lungs. From the investigations of our best observers,
it is now established that the Hydatid is, in reality, an intermediate
form of existence between the ova on the one hand and a fully-de-
veloped tape- worm — Toenia echinococcus — on the other. This Tcenia
is a very minute worm, found chiefly in the intestines of dogs, and
affords a curious illustration of that form of worm which requires

4S H. T. WHITTELL ON THE DEGENERATION OF HYDATID CYSTS.

to pass into the bodies of two distinct animals before it attains to
mature life. The ova of the worm pass from the intestines of the
dog and find their way, either in food or otherwise, into the body of
some other animal — a man or a sheep for instance. Here the
embryo from the ova burrows its way into some of the tissues, and
developes into an Ilydutid. This Hydatid grows and undergoes
certain changes preparatory to its further development into a mature
worm, but this complete development can only occur when the
Hydatid is swallowed by a second dog, or possibly by the same one
from which the ova were first passed.

As seen in the human subject, the Hydatid appears as a cyst
embedded in one or other of the tissues. The outer wall of this
cyst is generally a thick membranous capsule, probably formed by
the healthy tissues, as a protection in some degree from the intruder.
The true Hydatid is found rather loosely attached within this cap-
sule, and when an opening is made through the outer wall it may
frequently be drawn out in its entirety. The walls of the Hydatid
itself are formed by a curiously laminated structure, which is so
characteristic in its appearance that a competent observer will diag-
nose the presence of the hydatid after finding a minute portion of
it in the field of the microscope. Within the cyst itself there is
commonly found a fluid varying in quantity from one or two ounces
to many pints. This appears, on a casual glance, like clear filtered
w^ater, but, on a closer examination, there will almost always be
noticed floating in it a number of parasites just large enough to be
seen with the naked eye. An expert hand can catch these in a
dipping-tube, and if they be brought into the field of the micro-
scope, they will be found to consist of one or more oval-shaped
living bodies armed with two rows of booklets. For some hours
after their removal from the cyst, they keep up a peculiar kind of
semicircular motion, extending and retracting their booklets in a
most curious fashion. These bodies are known as the Echinococci,
and it is from these that the mature worm is developed after they
have found their way into the stomach of a new host. Sometimes
only one Echinococcus is caught in the dipping-tube, but more
frequently four or five will be found attached by the posterior part of
tlieir bodies to a small portion of the inner wall of the cyst which
lias become detached. I have watched the movements of these
creatures for hours, and in very fortunate instances I have seen a
rather rapid movement of cilia just at that part of the body which
joins the membrane.

H. T. WHITTELL OX THE DEGENERATION OF HYDATID CYSTS. 49

What I have just described is the more common form of an early
Hydatid cyst. At a later stage of its existence the older cyst
becomes filled with smaller ones, which in structm-e and contents
exactly resemble the original. These, the so-called daughter- cysts,
vary in number in different cases. It is no exaggeration to say that,
in some post-mortem examinations at the Adelaide Hospital, I have
seen thousands of them turned out from one original cyst.

Although Hydatids are very destructive of human life if left to
take their course, there can be no doubt that the worm itself is not
possessed of a high degree of vitality. Both clinical experience and
post-mortem examinations lead to this conclusion. A very slight
mechanical interference is often sufficient to destroy the worm. In
Adelaide we frequently find that a simple puncture with a small
hollow needle, and the drawing-off of the fluid contents of the sac
through the needle, is all that is required to destroy the parasite,
and very few simple cysts resist this mode of attack if repeated two
or three times. Even those cysts which are supposed to contain
daughter cysts will often perish by degenerative or suppurative
changes after the surrounding fluid is withdrawn.

Having thus paved the way, I may now go on to notice that it
frequently happens that, without any interference from the surgeon,
the Hydatid dies within the body of its host, instead of passing on
through its full course of development. Sometimes this is caused
or followed by the formation of an abscess, but perhaps more com-
monly the Hydatid undergoes a form of degeneration, and leaves
nothing to indicate its former presence but a putty-like substance,
which eventually hardens into a gritty, calcareous mass, in which
booklets, cholesterine, and other products of degenerative changes
may often be found. It is no uncommon thing to find evidence of
this degenerative change having taken place in the bodies of patients
who have died from other diseases, and in whom there had been
during life no symptoms leading to the suspicion of the presence of
Hydatids. When this kind of degeneration is in progress, we find
that after the operative puncture I have already described, there
flows through the needle, instead of the usual clear liquid, a yellow-
ish creamy-looking and thicker fluid, which, without microscopical
examination, may readily be mistaken for pus. In a later stage of
the degeneration, the fluid becomes so thick that it will not flow
through a small needle, although a little may often be blown from it
on to a slide after its withdrawal. It is to this degenerative change,
and particularly to its association with what are supposed to be new.

50 H. T. WHITTELL ON THE DEGENERATION OF HYDATID CYSTS.

forms of life of a lower type, that I wish to draw your attention. I
haA^e here some specimens of the fluid found in cysts in Avhich this
form of degeneration had occurred, and also some slides mounted
with the same fluid, in which these lower organisms are distinctly
shown.

The history of the patient from whom these were obtained was
interesting and peculiar. Without troubling you with details of a
medical character, I may give you a brief outline of the case. The
patient was a rather stout gentleman, of middle life, who having
met with an accident, believed that all his symptoms were due to
this cause. It was noticed that a swelling formed just over the lower
region of the liver. This gradually enlarged, and was accompanied
With occasional paroxysms of pain and a faint jaundice. As the
swelling continued to increase, it was determined to pass in a fine
exploring needle, but no fluid came down the tube. Later on a
second exploration was made, but only a few drops of a yellowish-
grey fluid were obtained. Later still a larger sized tube was passed
into the swelling, and about half a pint of thick fluid, supposed to
be pus, was obtained. A portion of this was brought to me for
microscopical examination, with a view to ascertain whether there
could be found any of the booklets of Echinococci or any other
remains of Hydatids. I found no traces of pus ; the fluid appeared
to be composed chiefly of fatty and granular matter, mixed with the
remains of Echinococci, such as booklets, cholesterine, and portions
of the walls of the cyst. This cleared up the diagnosis, and left no
doubt that the tumour had been formed by an Hydatid, and that at
the time of puncture a process of degeneration had begun. While
searching for booklets, I discovered that the field was studded with
curious-looking bodies, such as I had never seen before. These were
so transparent and delicate in structure that I found it necessary to
adjust the illumination as carefully as one has to do when looking
for the lines on an Amphipleura, before I could get a satisfactory
view. The drawing on Plate III will give some idea of some
of the forms met with. It will be seen that they diff'er in shape
and size, but there is a general family likeness in all of them. They
appear to be flattened bodies, the greater number of which are ovoid
in shape. The largest I have measured was -^\-q inch long, and
■x-Y^is ii^ch wide. Some of the smaller specimens measured yJ^Fo
inch long, and -g-g^y^ wide. Some are considerably elongated, while
others look like mere specks under a ^ in. objective, but when care-
fully examined under a ^-^ in. immersion lens, they show the same

H. T. WHITTELL ON THE DEGENERATION OF HYDATID CYSTS. 51

appearances as the larger specimens. Dilute acetic acid does not
appear to affect them, nor do they polarize light. I have been
unable, with the highest powers in my possession, to make out any
internal structure. In some instances I have found a number of
smaller ones apparently attached to each other, and so forming one
large specimen, but I have not discovered anything like a cell wall,
and I have not been able to satisfy myself whether this appearance
is due simply to a mechanical or accidental aggregation of the bodies
to each other, or to some phase in their life-history.

Having been practising in Australia for the greater part of my
life, I had had no opportunity of seeing the parasites which some
observers had supposed to be the cause of the cattle plague, but I
tliought I could detect some degree of resemblance between the
bodies under my microscope and drawings of these parasites that
had been sent out to us. We were, however, anxious to obtain
an authoritative opinion, and it was arranged that I should send one
or two slides to Dr. Cobbold, and ask him his opinion respecting
them. In reply, Dr. Cobbold wrote, " I regard the peculiar organ-
isms contained in the slides you have transmitted as psorospermial
bodies of the nature of pseudo navicellae. They are not precisely
like any I have myself hitherto encountered, and they differ still
more from those described by foreign writers. The general facts
recorded by you remind me forcibly of the case reported by Gubler
in 1858, in which there were twenty cysts in the liver ; the largest
of which (six inches in diameter) was, during life, diagnosed as an
Hydatid. Reference to this and other cases are given in my paper,
* On the Nature of Pseudentozoa found in Diseased and Healthy
Cattle,' originally published in The Lancet, for Jan. 27th, 1868.
It has been reprinted in the supplement to my ' General Treatise on
the Entozoa,' and in Prof. Gamgee's work on the Cattle Plague.
The whole subject of the gregariniform productions requires revision,
and it needs only a perusal of my short paper to show how intricate
and involved are the facts hitherto described. Practically it is im-
portant to remember that all liver cysts are not necessarily due to
Hydatids, since Virchow, Gubler, Dressier and others, have en-
countered cystic formations of the pseudentozoal character above
described."

I found on one of the slides, mounted with some of the fluid I
have just referred to, a solitary, filiform, worm-like body, which I
would gladly have sent on to Dr. Cobbold, but as it was an acci-
dental find on a slide not prepared for the cabinet, I feared that no

52 H. T. WHITTELL ON THE DEGENERATION OF HYDATID CYSTS.

mode of sealing with which I was then acquainted would protect it
from destruction in its transit through the post. Having, however,
last year decided on a visit to Europe, I determined to try whether
I could bring it safely to London. I have not been quite successful ;
some of the glycerine has escaped, but the special object is in much
the same condition as when I first found it. I notice that our
President has referred in his last work to an outline sketch I sent
him of this find, and he suggests that it is a specimen of Filaria
sanguinis hominis. If this be so, it is certainly the only specimen
that has been found in South Australia, and we shall be stimulated
to search for other specimens in that region, particularly since the
strange discoveries lately made elsewhere tend to show that the
Mosquito may after all be of some use in tlie world, even though
that use may be nothing more dignified than serying as hosts to the
Filaria in certain stages of its development.

It may interest you to know that the gentleman whose case I
liave just sketched, was cured after the emptying of the cyst, and
lived on for several years, when he died from disease in no way
connected with his former ailment.

Since the occurrence of this case I have frequently met with
others in which a similar looking fiuid passed through the needle
after puncture of hydatid cysts, and when opportunity has served I
have searched for similar psorospermial bodies. I have not always
succeeded in finding them, but I have met with them sufficiently
often to convince me that their existence in hydatid fluid is more
than a mere coincidence. I have never found them in such numbers
as in the first case, and sometimes I have had to search through
several dippings before I have succeeded in finding any.

On one occasion a lady came to Adelaide from the Interior for
treatment of a large hydatid cyst in the liver. I drew off Irom it
about two pints of perfectly transparent fluid which, on examina-
tion, was found to contain numerous living Echinococci. She re-
turned to her home a few days after, with instructions to come back
in three or four months if she found tlie tumour had not qaite dis-
appeared. She returned about six months afterwards, when I found
there was still considerable swelling, and I performed a second
operation. On this occasion I obtained only a few ounces of fluid,
but this was quite different in appearance froni the first. It was
much thicker, and of a greyish-yellow colour. On microscopical
examination, I found numerous granular cells about the size of pus
i^lobules, numerous booklets of Echinococci, and after a rather pro-

H. T. WHITTELL ON THE DEGENERATION OF HYDATID CYSTS. 53

longed search, I found several psorospermial bodies, similar in all
respects to those I found in my first case. These were so few in
number, that not more than two or three appeared in the field under
an J in. object glass. The patient again returned home, but came
back seven months afterwards, and begged me to repeat the opera-
tion, as she thought the swelling was again increasing. I operated
in the early part of last year (1879), and used a larger tube than
before. 1 obtained, however, only a small quantity of thick fluid
resembling pus. A microscopical examination of this fluid showed
that the comparative number of psorospermial bodies had now largely
increased.

At a recent " Gossip Meeting *' of this Club, most of us had an
opportunity of seeing a beautiful preparation shown by Dr, Cobbold
of psorosperms, obtained from the liver of a rabbit. These were
much larger than the psorospermial bodies obtained from Hydatich^
and, in fact, have little or no resemblance to them. They have
more body in them, if I may so express it, and have more distinct
evidence of organization.

From the cases that have come under my observation, I believe we
are justified in concluding — 1st. That Psorospermia are frequently
to be met with in hydatid cysts, their existence there affording an
example of a parasite within a parasite. 2nd. That these bodies
are not found in the early life of the Hydatid. 3rd. That when they
are found they afi'ord evidence that degenerative changes have
already commenced in the cyst. The question yet remaining to be
determined is, What role do these psorospermia play in the degene-
rative change ? Are they the cause of the degeneration and death
of the Hydatid, or do they multiply and grow simply because a cyst
in a state of degeneration affords a favourable breeding ground for
their development ? We do not yet know enough of the conditions
of life in Psorospermia to answer this question. Our President,
long ago, demonstrated that similar bodies inay exist in the higher
animals without any apparent injury to the animals themselves, or
to those who partake of their flesh for food. I am, however, a little
inclined to the opinion that in the case of Hydatids, the existence of
these bodies have a greater significance, and I think it probable that
extended research will show that they have an active part in pro-
ducing those degenerative changes which, so far as I have been able
to make out, are always in progress when their presence can be
demonstrated.

5^

On Bleaching and Washing Microscopical Sections.

By Sylvester Marsh, Jun., L.R.C.P., &c., &c.

Communicated by A. de Souza Guimaraens, F.R.M.S.

{Read February 21th, 1880.)

Now that the practice of staining vegetable tissues, and especially
vegetable sections, is so universally adopted, it has become of moment
to determine by what means the previous decolourization of such
objects may best be effected. That by some process or other a pre-
liminary bleaching ought to be carried out previous to the applica-
tion of staining agents will be admitted by all, but the precise
process to follow so as to obtain the best results with the greatest
quickness and safety does not seem so clear. The agents most
commonly used for bleaching are : — (1) Alcohol ; (2) Solution of
Chloride of Lime; (3) Labarraque's Solution of Chlorinated Soda,
made by decomposing Lime Chloride by the action of Sodium
Carbonate. Now to each of these methods there are serious objec-
tions. Alcohol is very slow in action and not always certain in
result. Solutions of Lime Chloride and Chlorinated Soda do
bleach, it is true, but they also disintegrate and destroy ; so that
many delicate tissues when subjected to the action of either of
these solutions become utterly ruined. The former solution, in
addition to its direct destructive influence, has a great tendency to
})ermit of the formation on its surface of a scum of Carbonate of
Lime ; this, sinking into the fluid, settles itself upon the sections,
so that if they escape absolute destruction they are in danger of
becoming coated with a brittle film, which proves equally ruinous to
them. The inconveniences here mentioned led the writer to discard
tliese methods of bleaching and to resort for this purpose to the
direct action oi free chlorine. As this process proved itself capable
of being so easily carried out, and yielded such safe and satisfactory
results both to himself and to several working microscopists to
■whom he communicated the method, he has thought that a brief
description of the process might not be unacceptable to microsco-

ON BLEACHING AND WASHING MICROSCOPICAL SECTIONS.

55

pists generally. So far as the writer is aware the method is quite
original, but as '' there is nothing new under the sun," it is by no
means improbable that the same idea may have occurred to others.
For carrying out the plan, the apparatus required is simple in the
extreme. All that is required is (1) two small wide-necked
bottles — those in which chemists sell one ounce of Citrate of Iron
and Quinine are very suitable ; (2) perfectly sound corks accurately
fitting the bottles ; (3) six or eight inches of quill glass tubing ;
(4) some shellac varnish. By mean of a cork-borer or rat-tail file
a hole is to be made through the centre of each cork just large
enough to grasp tightly the quill tubing. With the aid of a spirit
lamp the tube is to be bent at right angles at each end, as shown
in Fig. 1. The two arms are not to be of equal length — one
should be about one inch and the other about two inches and a half.
These arms must now be passed through the holes in the corks, and
the corks themselves then made air-tight by a liberal application of
the shellac varnish. A notch having been cut in the edge of the
cork carrying the longest arm of the glass tube, the apparatus
shewn in Fig. 1 is complete.

/" / O . /.

^

v^^

T~~T

To use it, proceed as follows : — About three parts fill the bottle
A with filtered rain water, and to this transfer the sections to be
bleached. Into bottle B put a sufficient quantity of crystals of
chlorate of potash just to cover the bottom, and upon them pour a
drachm or so of strong hydrochloric acid. Fit in the corks, taking
care that the one carrying the long arm of glass tube be applied to
the bottle containing the sections. linmediately the yellow vapour

56

fi. MARSH ON BLEACHING AND

of chlorine (or strictly speaking of euchlorine) will be observed to
fill the bottle B, whence it will pass along the connecting tube into
the water contained in the bottle A, and effectually and safely
bleach the sections. When the water becomes supersaturated, the
excess of chlorine will accumulate in the bottle above the liquid and
find an exit through the notch in the cork. As to the time
required for bleaching, this, of course, will vary in accordance with
the nature of the sections operated upon. As a rule, I set the
apparatus to work at night, putting it out of doors in a covered
place to avoid the smell of escaping chlorine, and in the morning
the bleaching is generally found to be complete — if not, further
time may be allowed without any danger to the sections being
incurred.

Decolouration having been effected, nothing now remains but
thoroughly to wash the sections, for it is necessary to eliminate all
trace of chlorine before employing any staining agent. The usual
method of effecting this is to put the sections into a large basinful
of water, and repeatedly to change the water. As this process is

WASHING MICROSCOPICAL SECTIONS. 57

not only tedious but exposes the sections to considerable risk of
being contaminated with dust and other extraneous matter, I always
employ in its place a system of continuous washing. For this
purpose a small wide-necked bottle similar to those already
described will be required. Into the side of this, half an inch or
so below the bottom of the cork, a small hole about an eighth of an
inch in diameter must be drilled — any tinman will do this for two
or three pence. A well fitting cork being provided, this must be
pierced through the centre, so as to permit the stem of a small
funnel to pass through it. By means of small india-rubber tubing
(feeding bottle tube), the funnel stem is to be prolonged till it
reaches the bottom of the bottle on the side ichich is opposite to
that side containing the perforation. (See Fig. 2.)

All being ready, half fill the bottle with filtered water, and put
the sections into it. Fit in the cork carrying the funnel, and after
having placed a disk of filtering paper into the funnel place this
beneath the water tap, and allow a gentle stream to trickle into it.
The water will pass to the bottom of the bottle, gradually ascend,
and then pass out at the hole in the side, by which means a constant
change in the water in the bottle is brought about and a system of
continuous washing established. As in bleaching, so in washing,
I generally let the apparatus do its work in the night. If the tap
be set a-running when one goes to bed, the washing will be found to
have been most effectually accomplished by the time one gets up in
the morning.

58

Observations on Filari^, by Drs. Patrick Manson, John
r. somerville, joseph bancroft, j. f. da silva lima,
J. L. Paterson, Pedro S. de Magalhaes, and J.
Mortimer-Granville.

Communicated, with an Introduction, by the President.

{Read February 27, 1880.)

Introduction.

I almost owe an apology, not only to the Club but also to the
medical profession, for not earlier communicating the new and
remarkable facts which I have the honour to bring under your
notice this evening. I must explain that during my autumn holi-
day so large an amount of correspondence had accumulated that I
have been unable to overtake the duty of replying to letters, of
reading lengthy manuscripts, and of reporting on the various speci-
mens of parasites that were sent during my absence.

Such rapid progress is being made by additions to our knowledge of
the habits, developments, and disorders produced by the Filarice and
other parasitic nematodes, that in order to render Dr. Manson's
researches generally intelligible it is necessary that I should state,
in as few words as possible, the position at which we had arrived
prior to the receipt of the particulars which the missionary
physician now supplies.

The facts of filarial discovery in man originated and appeared in
the following order. In its embryonal state, what is now called
Filaria s'lnguinis hominis was first discovered by Dr. Wucherer on
the 4th of August, 1866. He gave no name to the parasite. Two
years later the same or similar larvse were found by Dr. Salisbury
in the urine,* in a case of chyluria (1868). He thought they
were a kind of Trichince {T. cystica). On tlie 22nd July, 1870, I
discovered great numbers of the nematode hirvse in the excretions

* Dr. Salisbury's figures are probably inaccurate as to size. Basing his
views on the supposition that Salisbury's figures are correct, Dr. Lewis
rejects the notion of the identity of the urinary worms found by Salis-
bury and myself.

OBSERVATIONS ON F1LARIJ5. 59

of a little girl from Natal, who suffered from endemic haematuria,
the disorder being occasioned by the presence of the fluke which I
have called Bilharzia hantatohia. Tens of thousands of eggs of
this trematodt; passed from her daily, and as many as fifty of the
larval Filarice were seen on one occasion mixed with the ova of
Hilharzia. Like Wucherer, I gave the young nematode no new
name. Two years later Dr. Crevaux found similar larvse in a
h^mato-chylous patient at Guadaloupe. Nothing whatever was
known of the real significance of these finds until the year 1872,
when Dr. Lewis announced his discovery of minute FilaricB in the
blood. He named the larval worms Filaria sanguinis Jwminis.
Neither Wucherer nor myself thought it necessary to give any
particular name to larvae, which might be those of some adult
Filaria, Ascavis, Strongjjlus, or other nematode genus. Dr. Salis-
bury, indeed, had the temerity to refer the worms to the genus
Trichina; and Leuckart suggested that they might be young
Strongyles. In the matter of nomenclature I thought it better to
wait and see to what type the adult worm could properly be
referred ; for these larv£e certainly possessed no distinguishing
characters of any particular genus.

Guided by certain indications which I pointed out to him,
Dr. Joseph Bancroft, as he has acknowledged, sought for and
discovered the adult worm on the 21st of December, 1876. He
wished me to publish his very short notice of the worm, because, as
he said, " I had set him on the track of the investigation."
Accordingly I announced the discovery in the Lancet for July,
1877, and afterwards more fully described the parasite in the same
journal, naming the worm Filaria Bancrofti. I also furnished
some anatomical details. Some months after Dr. Bancroft made his
discovery, Dr. Lewis also encountered the adult parasite ; and
losing no time in publishing his description, it appears that his
diagnosis of the characters of the entozoon was actually in print
before mine. Consequently, although Dr. Bancroft is the real dis«
coverer of the sexually mature parasite, I have, on this basis, been
called upon to give up the nomenclature that my description
supplied. I willingly do so ; with the distinct understanding, how-
ever, that such a step shall not deprive my Brisbane correspondent
of the honour of jDriority in this matter. Dr. Bancroft's discovery
dates seven months in advance of that of Dr. Lewis, whose verifica-
tion occurred on the 7th of August, 1877. Two months later, in
JouiiN. Q. M. C, No. 43. f

60 OBSERVATIONS ON FILARI.E.

Brazil, Dr. Silva Aranjo found the adult worm on the 16th of
October, 1877, and shortly afterwards Dr. F. dos Santos made a
similar verification (12th November, 1877). This closes the record
of the first two epochs of filarial discovery. A third epoch of dis-
covery was opened up when, writing from Amoy, in November,
1877, Dr. Manson informed me that he had discovered Filarice in
the stomach of mosquitos that had gorged themselves with human
blood. Dr. Bancroft, indeed, writing in the spring of the same
year, had remarked to me that he fully expected that the haematozoa
would be thus transferred, but his examinations of mosquitos up to
the time of Manson's discovery had not been successful. Other
discoveries and verifications rapidly followed, especially those having
reference to the power of the hsematozoa in the production of
disease. On this aspect of the subject I cannot now dwell further
than to say that the purely clinical questions have already been
pretty fully discussed by myself in a paper communicated to the
London Medical Society, and published in their recently issued
*' Proceedings " (Vol. iv, 1877-79, pp. 129-131).

I may add that all the various disorders produced by the Filarice
in question have been, as it were, rolled together into one by Dr.
Bourel-Ronciere, who calls the collective disease Wncherer^s hehnin'
thiasis. Others have called the disorders Filariasis, but, obviously,
this vague and too comprehensive sort of nomenclature cannot be
allowed to stand. It is now tolerably certain that at least a dozen
more or less distinct diseases are caused by the larval Filarice, and
amongst these are to be reckoned endemic ha^maturia, chyluria,
varix, lymph scrotum, elephantiasis, lymphatic growths (helmin-
thoma elastica), many other lymphoid afi*ections, a skin disease
termed Craw-craw {Filariasis dermathemica), jDrobably leprosy, and
perhaps also certain malarial fevers.

In the acquisition of these results — results which, of course, are
not generally accepted, and whose full value and significance will
probably not be realised for many decades or centuries to come — the
justifiable method of human experiment has played a most con-
spicuous part. Initiated by Dr. Manson himself, he was thus enabled
to trace out the higher larval stages of growth, after the ha3matozoa
had passed from man to mosquito. Having caused an infected
Chinese to sleep in a mosquito house, the insects were found gorged
with blood the next morning. On examining the contents of their
stomachs, Dr. Manson ascertained that a relatively far greater pro-

OBSERVATIONS ON FILARIJE. 61

portion of the Film-ice existed in a drop of the sucked blood than
in a drop taken from the Chinese in a direct manner. Thus, it was
not unnaturally inferred that the construction of the proboscis was
in some way or other expressly fitted for drawing the worm out of
the capillary blood vessels. Dr. Manson examined the gorged
insects at regular intervals of time, and he forwarded to me the
details that were subsequently communicated to the Linnean
Society, and published in their Journal (1879). He likewise
reported the results in the Custom's Gazette ; but probably the
summary which I have given in my recently issued work, with
illustrations reduced from Dr. Mansoh's original figures, sufficiently
explains all that need be known on this part of the question.
Thus the position stood at the commencement of last year ; and the
novel facts and deductions to which I now invite your attention,
must be regarded as a continuation of those records. I may add
that since the issue of my treatise, Dr. Lewis has published a
beautifully illustrated memoir in which he not only verifies a great
deal of what Dr. Manson had already observed, but also adds a multi-
tude of interesting details. Dr. Lewis's writings, however, do not
in any sense anticipate the data now brought forward. In the
present communication. Dr. Manson commences by referring to the
mosquitos (which I have now the pleasure to show the Club) and
to a Chinese scrotum at present in my possession. He gives par-
ticulars of the remarkable case to which the scrotal preparation
refers. He points to a newly observed fact that the worms enter
the blood periodically. He interprets the significance of this law
of periodicity in some of its more obvious bearings. He appears to
have discovered the special means by which the insects contrive to
fish up, as it were, the haematozoa. He explains the immediate
consequences of this curious phenomenon. I may add, parentheti-
cally, that this process affords a remarkable instance of so-called
free parasitic ectozoa stealing true entozoa and taking them as
prisoners from human hosts, to lodge them, as transported guests,
in their own interior. The matter does not stop here. Dr. Manson
explains how it happens that human blood does not contain FUaricB
during the afternoon. He gives a tabular record of the results of
the daily examination of the blood at different hours. He shows
how the embryos, with almost military punctuality, march to their
nocturnal quarters. Proofs of this extraordinary behaviour are
supplied by repeated observations. He hints at the importance of

62 OBSERVATIONS ON FILARI.E.

these facts in relation to the etiology of malarial fevers, and he
concludes his letter — for such it only pretends to be — by
stating his determination to carry on the investigation until the
whole body of available facts is explored and the results, in all their
professional bearings, are elucidated.

It remains for me to observe that this novelty in helminthology
savours somewhat of the marvellous. When the facts come to be
fully understood, I think it will appear that neither the parasitism
of Trichinaf nor that of Echinococcns approaches in interest that
of the human Filarice. Probably millions of victims exist in
tropical countries ; many of them suffering from grave dis-
orders consequent upon this invasion of their tissues. That in the
face of such astounding facts as have of late years come to light
there should be found professional men of standing averse to
encouraging researches of this kind is one of those retrograde social
phenomena which I greatly dc^plore ; but where the interests of
humanity are so much concerned such disparagement ought not to
be allowed to check our efforts.

It must be obvious to every one that naturalists, physiologists,
and medical men will separately view these discoveries from very
different standpoints ; and it will need some master mind to collate
all the phenomena in relation to cause and effect. At present
I have only had opportunity to converse at any length with one
physician on the subject. In the opinion of Dr. J. Mortimer-
Granville we must not look for a solution of the phenomenon of
periodical local migration as arising from any special want on the
part of the entozoon, but rather as arising from varying physiolo-
gical conditions affecting the host. Whether this view be correct
or otherwise, I think Dr. Granville's suggestions highly important ;
and as he has been good enough to communicate an abstract of
them in writing, I append them to this introduction in the form of a
separate commentary.

The communication of Dr. Somorville has more especial reference
to the closely allied microscopic Filarice infesting the dog. The
adult Filaria imniitis engaged my attention at Edinburgh some
thirty years ago ; but, in recent times, Dr. Somerville was, I
believe, the earliest to report on this subject in the Customs
Gazette. He believes that the occurrence of Filaria sanguinis
honiinis at Fuchow to be comparatively rare ; but, in this case,
as probably obtains in many others, the negative indications may

OBSERVATIONS ON PILARIS. 63

have entirely resulted from the hours of the day selected or acci-
dentally employed for the blood-examinations. He incidentally
alludes, also, to the common eye worm of horses (Filaria papillosd)
and some other helminthological points of general interest. It is
very curious to observe Dr. Somerville's remarks respecting a case
of lymph-scrotum, which he examined in company with Dr. Patrick
Hanson's brother (since deceased). The negative results of his
search for FUarice is now readily explained.

Dr. Bancroft's brief communication deals with facts that verify
his original opinion that the peculiar growth which he has termed
Helminthoma elastica is really due to the presence of Filaria
sanguinis hominis. Of more interest, however, is the circumstance
that he has ascertained from actual observation that the common
louse of the dog (Trichodectes latus) is the intermediate bearer of
the larv£e of Filaria immitis. It will be remembered that iNIelnikow
long ago demonstrated by experiment the intermediary functions of
the louse in respect of the larvse of a cestode (Tcenia cucumerina) ;
and it is therefore not a little curious that this insect should play a
similar i^ole in respect of a parasitic nematode.

Dr. J. F. da tSilva Lima's letter specially refers to a singular
affection which some persons appear to have associated with
elephantiasis. He alludes to a paper by himself on Filaria
medinensis, a translation which (from the Portuguese, by Dr. Pater-
son) I published in the Veterinarian in the spring of 1879.^
Dr. Lima encloses a paper by Dr. Paterson, which must be regarded
as the sequel to his interesting paper, entitled " Facts in Filariasis,"
which also appeared in the Veterinarian (June, 1879).

As Dr. Paterson's recent memoir, however, is of considerable
length and relates to a point respecting which there ought not, in
my opinion, to have been any controversy at all, I shall only repro-
duce a portion of it. The memoir deals exclusively with the nature
of the involucrum of Filaria sanguinis hominis. Dr. Paterson
appears to have thought that the envelope surrounding the micro-
scopic i^?7a?'/fF is no genuine worm structure, but a merely adventitious
layer of coagulated fibrin. Havmg published this view. Dr.
Magalhaes, of Rio de Janeiro — from whom I have also received

* " Remarks on the Filaria medinensis or Guinea worm ; on the occur-
rence of this parasite endemicallj in the province of Bahia ; on its
entrance into the human body by drinking-water.'' — The Veterinarian,
Feb.-March, 1879.

f>4

OHSEP.VATIOXS OX FH-Altl.TC.

communications — seeks to overthrow this theory. In the interests
of science it is desirable to publish the facts forming tlie basis of
this midiilj warm controversy, in which Dr. Magalhaes has certainly
the best of the argument. So far as my own observations have
gone, it seems pretty clear that neither Dr. Magalhaes, nor Dr.
Paterson, nor even Dr. Lewis himself, appears to have correctly
interpreted the nature of this envelope. Dr. Lewis has persisted all
along in calling the structure in question " a sheath." It seems to
have escaped the knowledge of almost all observers that the so-
called involucrum is neither more nor less than an ordinary skin-
cast, such as invariably accompanies the moultings of nematode
worms. Different larval nematodes cast their skins at dijBferent
times, and this moulting is usually accompanied with an alteration
in the form and structure of the larva, involving the loss of the
original tail.

T. Spencer Cobbold.
February 26th, 1880.

APPENDIX.

Eemarks of the Local Migration of Micro-filari.e.

By J. Mortimer-Granville, M.D.

Assuming that the change of locality is found to be habitual, and
that it is not a too hasty generalisation from insufficient data, it
will, I believe, be of great value to the student of rhythmical
phenomena like that of '' sleep." The change of place may be
fairly ascribed to change of state. Looking to the habits of life in
the lowest organisms, it can scarcely be supposed that the periodicity
can depend on the state or requirements of the Filarice. It is not
likely that the parasite needs repose, or that it resorts to special
localities to feed. It seems more probable that the state of the
circulating fluid determines the presence or absence of the Filarice in
its main current, by night and day respectively, or during the
waking and sleeping states. Your verbal account of Dr. Manson's
report is not quite explicit as to whether the change oj locality
depends on sleep)', or siinply the advent of night. The alterations and
alternations of condition which takes place in the blood are three
(perhaps four) in number, so far as any living organism present in
it is concerned.

OBSEUVATIONS ON FII.ARI^. G5

First — The rapidity of tlie current is diminished in the recum-
bent posture, and (m luomen and children at least) still further
during sleep. It seems probable that there may also be an integral
change in the relation of the red and white corpuscles approaching
that which takes place when the circulation is retarded in the web
of a frog's foot. This modification of the internal current of the
main current may cause the Filariw to adhere to the sides of the
vessels during raj^id circulations, and to fall into the stream when
it moves more slowly.

Second — The oxygenation of the blood at night and in repose
is suj^posed to be less complete than during the day ; although
some experiments made by Pettenkofer and Voit point to an oppo-
site conclusion, and make it ajDpear that of the total amount of
oxygen taken in during twenty-four hours 67 per cent, is taken in
by night, and only 33 per cent, by day ; 58 per cent, of the
carbonic acid eliminated during twenty-four hours being given off
in the day, and 42 per cent, by night. From these results Somner
drew the inference that sleep was caused by exhaustion of the
reserves of oxygen during the waking state, that oxygen was
stored during sleep, and that when the equilibrium was re-established
by accumulation the subject awoke. This hypothesis is barely
tenable, but it is worth while to mention it in this connection
because it accords with the presumption that the blood is more or
less abundantly charged with oxygen during sleep ; and this may
help to determine the location of the Filarice.

Third — The temperature of the blood is probably lower (or it
may be higher) relatively to that of the tissues during sleep than in
the alteration of state consequent on the presence, or absence, of
special elements derived from the food. It does not seem likely
that there can be any considerable change of condition consequent
upon tie periodic or occasional discharge of lymph and chyle into
the blood ; but it may happen that when the circulation is slow and
the body lies recumbent, the parasites are thrown into the main
current and therefore appear in greater numbers.

Jt is premature to speculate on the causes of a phenomenon which
may yet prove to be exceptional ; but if the conclusion arrived at
should be maintained, it will certainly be the duty of physiologists
to pursue further into detail than they have e\er yet been carried
certain neglected inquiries as to the altered conditions of the blood
during sleep, and when the brain and body are awake.

s6 - observations c>x filari.e.

Letter by Dr. Manson.

" Amoy, 20th June, 1879.
" T. Spencer Cobbokl, Esq., F.R S.

" Dear Sir, — Last mail brought me your kind letter of 28tb
April, and enclosures. I am glad your ncAv work is about coming
out, and hope my London agents have forwarded a copy long ere
this time. Had I been in possession of it, I would not have
troubled you with questions about Distoma crassum. I suspect you
are very often annoyed in this way, and I am very much obliged for
your courtesy in noticing my letter.

" I will forward by this mail filaria-impregnated mosquitos.
They are preserved in glycerine, and were fed on the blood of the
man whose case I ajDpend. His scrotum I sent to you some time
ago in charge of Dr. Holmes, a surgeon in one of Holt's steamers,
who kindly promised to hand it to you. 1 hope you will pardon the
delay in sending the mosquitos ; being in general practice here, the
many interruptions this entails make work of this sort exceedingly
difficult to carry out quickly.

" I read in the Lancet lately an account of the discussion on a
Lymph scrotum sent from India, and felt disappointed that the
Filarice were not found. I determined to send you the first scrotum
I amputated, and in which I had unquestionable evidence of Filarice.
The scrotum 1 send is the result, and to complete the case 1 send
particulars of the man's history, and the result of the examination
of his blood before and after the operation. The case is one of
much interest, as it exhibits, first, the transition from Lymph
scrotum to Elephantiasis ; secondly, it demonstrates unmistakably
that the parent worm is not necessarily present in the affected
tissues themselves, though probably in close proximity. I had
hoped you might find the Filaria Bancrofti in the scrotum, but the
embryos persisting in the blood weeks after the operation show that
this is unlikely. Thirdly, it illustrates well a new fact in the
history of the Filaria — the young escape into the circulation at
regular intervals of twenty-four hours, the discharge commencing
soon after sunset and continuing till near midnight, from which time
till the following noon their numbers gradually decrease ; by two or
four o'clock till six they are nearly completely absent. This is a
striking and most suggestive fact, and in connection witli it one
might be tempted to speculate on the causes of the periodicity of

OBSERVATIONS ON FILARIA. 67

malarial fevers. It is marvellous how Xatm'e has adapted the
habits of the Filaria to tliose of the mosquito — the embryos are in
the blood just at the time the mosquito selects for feeding.

" Another fact in adajotation you might like to know. The long
lash on the tail of the embryo has a meaning in relation to its
future life. I think so from the following experiment. Drop a few
fibres of cotton into the fluid of a milk (filarious) hydrocle.
They will subside to the bottom of the vessel very gradually.
Leave them there for a few minutes, and then place them
under the microscope. You will find them beset by thousands
of embryos in rows and clusters, each embryo attached by its tail
lash as one can attach a whip to a rope by striking it sharply with
the lash. When the mosquito penetrates a blood vessel, the passing
embryos lashing about, as is their habit, entangle themselves thus
on the proboscis, and get sucked up. Hence the enormous numbers
of embryos in the mosquito's stomach and the secreting faculty of
that insect.

" It would be well to warn observers against concluding that a
case is non-filarious from observations made during the afternoon,
and that the most reliable time to make them is at night, and, if
possible, they should employ a mosquito to make it for them. In
consequence of my ignorance of this particular point in the history
of the parasite, my statistics as to its prevalence in Amoy and neigh-
bourhood lose much of any value they may have been supposed to
possess. If I can find the time I may go over the ground again,
making examinations after sunset instead of, as formerly, between
5 a.m. and 6 p.m.

" The following are the particulars of the case belonging to tlie
mosquitos and Lymph scrotum I send you ; I copy them verbatim
from my note book : —

' F. S. H. — Lymph scrotum and Eleph. scrot. insipient. Oah.
M. ; a^t. 19 ; Khoan Kaw, Eong ; a rice miller. Parents dead;
no relatives with elephantoid disease as far as he knows. Eong is
a small hamlet of about a hundred inhabitants in the suburbs of
Khoan Kaw, Elephantiasis he has often seen in Khoan Kaw.
Drinks well water stored sometimes for several days in a large
jar. When 16 or 17, sometimes sick with an evanescent fever and
relapsing inflammation (it may be of the testicle) of the right side
of the scrotum, accompanied by enlargement of right and left groin
glands, especially of right. When 15, had an abscess in left groin

68 OBSERVATIONS ON FILARI.E.

(scar is visible), and the same year in the right leg near the ankle ;
the whole leg was swollen ; described it as " Toa kha tang " (the
expression used to designate elephantiasis). Swelling lasted for
one month, and subsided with bursting of the abscess. No thicken-
ing of leg now. Scrotal inflammation and fever recurred twenty
times a year. A year ago it discharged for the first time ; has run
daily, with the exception of three months since that time, messing
his clothes. When seen at hospital it had not been discharging for
a few hours. Since then (four days ago) it has dripped constantly.
In one hour I saw collected two ounces of white fluid.

*' May 10th, 1879. — This morning I examined the scrotum care-
fully. He had it trussed up in a head cloth. On removing this a
fine stream of lymph was forcibly projected as from a squirt from a
point at the lower part of the scrotum. Half an ounce ran in a
couple of minutes. Scrotum is as large as a small pumelo. The
skin of the penis is distinctly elephantiased, and a thickening o^
the skin is visible and palpable over both groins, lower two inches
of skin of abdomen, and over Scarpa's triangle on both sides. The
upper and thigh surfaces of the scrotum are covered with a fine
silky skin freely moveable over the thickened substratum ; a little
lower down skin thickened and adherent as in elephantiasis ; lower
still small ampullae are visible ; lower down these become larger, and
along the raphe they are the size of small beans. Pricking any of
these the usual fluid escapes. This is most distinctly a case of
elephantiasis scroti and Ijmph scrotum combined. Groin glands
are large, especially the right, but they do not feel varicose. How-
ever, yesterday I pierced the right side glands with a subcutaneous
syringe, and readily obtained abundance of straw fluid. In this I
found F. S. H., as also in the fluid from the scrotum, and a very
few in the blood from finger. While writing these notes more
than three ounces of fluid have distilled from his scrotum.

" Standing, a few ounces of the fluid a feeble coagulum forms,
which contracts till, in eight or ten hours, it is one-sixtli the bulk of
the fluid. It is now tough and fibrous. A small portion was
removed and placed between two glass slides and finally pressed out ;
in the fluid expressed and now surrounding, and in the open meshes
of the fibrine, are very many specimens of F. S. H. I found none
in the serum the clot floated in. It would appear, therefore, that
the coagulating fibrine caught the F. S. H., and, contracting,
carried, as in a net, all the F. S. H. with it, concentrating them.
Some of the FHarice were verv robust and active, others were

OBSKI'.VATIONS ON FlI.AIlI.f:.

09

languid, spotted, and shrivelled looking. In one such specimen the
lash was quite visible by a low power. Many short fibres y^oth in
length were also visible — possibly the enclosing tube, of collapsed
embryos.

" This morning the coagulum which had formed by last night in
fluid drawn the previous forenoon, had completely disappeared ; a
flocculent sediment lay in the glass, and in this great abundance of
F. S. H.

" May 11th. — Scrotum removed under chloroform — it Aveighed
l^lb. ; there was considerable bleeding and also escape of lymph
from two dilated lymphatics, one on either side just external to the
cords ; by pressing firmly on the enlarged inguinal glands lymph
could be made to well up from these two points.

" Scrotum placed in spirit and sent to Dr. Cobbold.

** The patient recovered perfectly from the operation. Being
anxious to ascertain if I might assure you that the scrotum sent
contained the parents of the embryos I had found in the blood, I
have kept this man under daily observation since the operation.
But unless the examination of the blood was made during the after-
noon, it has invariably been found to swarm with embryos. The
inference from this is that there are parent F. Bancrofti in the
patient still, and that probably you will fail to find any in the
scrotum, though you will undoubtedly come across many embryos,
especially if you search the sediment of the spirit.

" The following is the record of the daily examination of a drop
of blood placed between two slides : —

May 12

.. 12 embryos.

June 1

.. 6e

mbryos

„ 13

... 15

J)

11

2

... 11

5>

„ 14

... 13

»

If

3

... 0

))

„ 15

... 35

»

>i

4

... 0

11

„ 16

... 52

?j

))

5

... 36

»>

„ 17

... Q2

>>

>j

6

... 6

»J

„ 19

... 2

)j

11

7

... 15

11

„ 20

... 4

}y

)i

8

6

11

„ 21

... 12

5>

jj

9

... 32

11

„ 22

... 18

J)

>>

10

... 12

11

„ 26

... 42

11

11

11

... 0

11

„ 27

... 2

))

11

12

... 0

11

„ 28

... 3

n

11

13

9

1*

„ 29

... 0

11

11

14

... 56

))

„ 30

1

jj

70

OB8ERVAT10XS ON FILARIJS.

" When embryos were very few or altogether absent, the examina-
tion was made during the afternoon. To show you how punctual
tlie embryos are in keeping their time, I had this man brouglit to my
house, and had examinations of his blood made every four hours.
At the same time I availed myself of the opportunity to feed the
mosquitos I have sent you on his blood, making the case as com-
plete as possible.

ROUR.

12 P.M.

4 a.m.

8 a.m.

12 M.

4 P.M.

8 P.M.

Monday

57
21

89
41
34

6

23

18

15

2

2

5

2
1

0
0
1
0
0

1
0
0
0
0
0
0

0
0
0
0

1

0
0

43
24
105
29
29
53
17
14

Tuesday

Wednesday ...

Thursday

Friday ....

Saturday

Sunday

Monday

Average

m

101

^

1

}

39^

*' The quantity of blood examined was, as nearly as possible, the
same each time — a small drop, or as much as would keep well
together on the point of the finger without running off.

*' One evening I watched the influx of embryos, examining the
blood very frequently. At. 4 p.m. I could not find one ; at 6 p.m.
I found one, at 7 p.m. two, at 7.30 p.m. ten, at 8 p.m. 29, at
9 p.m. 37.

" As far as I have examined I find that in other cases the
embryos observe the same periodicity. I have a gardener who
comes from a filarious district. I knew his blood sometimes con-
tained worms. It was examined on three occasions during the
afternoon without finding embryos. Yesterday evening it was
again examined, about 9 o'clock, and was swarming with Filaricp.
A neighbour's chair coolie at 4 p.m. had no embryos ; at 9 p.m. he
had 28 in one slide, and so on.

OBSERVATIONS ON FlLAllI.S.

71

''If you think these facts of sufficient importance to make
public, I would be much obliged by your doing so in any way you
think best. They have not left my note-book before ; I am
gradually accumulating evidence to prove, I hope, to the satisfaction
of such cautious sceptics as [the late] Dr. Tilbury Fox and others,
tliat elejDhantiasis is a parasitic disease. I have got some strange
results from tapping enlarged groin glands with the subcutaneous
syringe, but until the chain is completed, either by myself or others,
I will keep silent on this point.

" It seems to me that Lewis by his great discovery has opened a
new field in tropical pathology. The interest and importance of F.
Bancrofti and F. S. H. is by no means exhausted yet. I hear
Lewis is in England now, but when he retuns to India I hope he
will take up the subject again. Men like myself in general practice
are but poor and very slow investigators, crippled as we are with the
necessity of making our daily bread.

'' Pardon this long and rambling letter, and believe me,
" Yours very faithfully,

"Patrick Manson."

'' I hope you will find embryos in the mosquitos. I sampled
them before placing them in the glycerine ; but their structure is so
delicate, and they are so minute, that they may be difficult to find,
shrivelled up by the glycerine. I would recommend you to soak the
insect about to be examined for a few minutes in water."

Letter by Dr. Somerville.

" Fuchow (China), 9th June, 1879.

" Dear Sir, — Knowing the interest you take in these subjects,
fas stated by you in the ' Lancet ' of 5th April last), and as a small
contribution to the literature of Filarice, I venture to send the follow-
ing notes on the filaria disease in the dog. The paper which I send
to you by present mail was published early in 1874 in the Customs
* China Medical Reports,' and it was the first, I believe (of late
years, at least), to call attention to the subject in China.

" Since that time I have had many cases of the canine filaria, and
several dissections, without, however, finding anything further that
is new. So common is the disease here, that one can hardly cut up
a native dog, or a foreign dog that has been any length of time in
the country, without finding the Filaria immitis, in greater or lesser
abundance, in the vessels or right ventricle. I have at present under

72 OBSERVATIONS ON PILARIS.

observation (with view to a post-mortem some day) a dog of French
breed, whose blood is so full of the parasites that I often have two em-
bryos in the field at the same time.

" With reference to the Filaria sanguinis Jiominis, I think it must
be much less common here than at Amoy. I have not yet found it,
and neither has my friend, Dr. Asford, of Fuchow, who has the
advantage of a large native hospital, and consequently large oppor-
tunities of searching for it. The late lamented Dr. David Manson
(brother of Manson, of Amoy) only found one subject (a China-
man) of the disease in Fuchow, and there is a curious circumstance
connected with tliis case. Dr. Manson had the man to his house to
show him to mo. He had " lymph scrotum," and we first punc-
tured one of the vesicles, and examined it, then another, but with-
out success. We then took blood from different parts of the man's
body, and, after working at him for about two hours with a micro-
scope each, we had to give up the search without finding a single
Filaria. Yet only about a week ago my friend had found numerous
embryos ! Can it be that the mature female discharges her ova into
the vessels only at certain times, and that the embryos have only a
limited period for existence in the blood ? I have not yet been dis-
appointed by the dog in this way. Once get a dog who has them,
and I have always, hitherto, been able to find when I wanted them.

" I was amused to notice the other day in the ' Lancet ' (Feb.
22, 1879, p. 268) the following, with reference to one of the speci-
mens of elephantiasis presented at the meeting of the Pathological
Society by Sir Joseph Fayrer : ' It was suggested that the numerous
small semi-circular bodies, about the diameter of red blood-capsules,
met with in the second case in the lymphatic channels, might be
transverse sections oi Filarice. If so, the number of these organisms
l^resent must be very large ! ' I should think so ! We do occasion-
ally have two embryos in the field at the same time ; but surely to
make them anything like so numerous as this is straining the subject
to an unjustifiable extent.

" In the case of the dog, it is extremely difficult to find the em-
bryo after the blood has coagulated and movement lias ceased ;
after, in short, the death of the Filaria, even when one knows it must
be present in the field, and I have never yet succeeded in discovering
one next morning after allowing the slide to stand over-night. It is
easy enough to observe them for any period within five or six hours
after the blood has been taken from the animal.

OBSERVATIONS ON PILARIS. io

" With regard to the association of jilaria sanguinis and elephanti-
asis and lymphangitis, in the way of cause and effect, I can only send
you the following facts, and they give negative results.

*' On the 2nd March of last year, Dr. Asford, of this place, asked
me to be present at an operation for the removal of a large scrotal
tumour — the ordinary elephantiasis Arabum. On removal, I made
a careful examination of this tumour (which weighed 40 lbs.) in
several different parts, and of its juices, without finding any
F'ilarice.

" There were also, at the same time, two men in hospital with
lymphangitis, and another with incipient elephantiasis of the scro-
tum, and in none were any Filarice to be found. This, of course, is
only negative evidence, but I think it is of value, pro tanto.

" About the mosquito and elephantiasis, and its allied dis-
orders, it seems to us here that if the mosquito could propagate the
disease, we should all infallibly have big legs and scrotums, for we
never (except in the rare instance of the presence of an epidemic)
boil our drinking water, but only filter it. The Chinese, on the
other hand, never on any account use water, except when boiled in
the form of tea or soup. Indeed, they look with perfect horror on
foreigners drinking cold water. Yet these diseases occur in natives
only. I have never (during a residence of 16 years in the country)
heard of a case in a foreigner in China, and Sir Joseph Fayrer men-
tions that he has only seen two instances of elephantiasis in the
pure European in India. Surely climate and race are more likely to
have to do with the causation of these diseases than the mosquito ?

" I noticed last summer a number of FilaricB wriggling about in
the glass cistern of my wet-bulb thermometer. They resembled the
Filarice we sometimes find swimming in the anterior chamber of the
eye of the horse in China (I operated on a pony for this some
years ago), except that they were larger, some of them being about
two inches long. Under the microscope they had the general ap-
pearance of the nematodes. They occurred at the same time in a
flower-pot in the garden, the bottom of which had got stopped up,
leaving a layer of water on the surface of the soil. They quite
disappeared as the cold weather set in. What were these worms ?
and is it possible their embryos could have been deposited by mos-
quitos ? They have not appeared this season as yet, but when they do
I mean to study them more minutely.

'' I forgot to state, in these rather disjointed notes, a question

7i 0B8ERVATI0XS ON FILAKI.E.

that continually occurs to one. Why is it that the mature Filaria
immitis is so easy to find in the dog, and the mature human
Lsematozoon so seldom discovered in man ?

" I must not trespass any more on your time, and would only say
thatif you find these notes of value in any way, I should be pleased
you should make what use you like of them.
" I am, dear Sir,

'' Very faithfully yours,

''John R. Somerville."
" Thos. Spencer Cobbold, Esq., M.D., &c., &c."

Letter from Dr. Bancroft.

" Brisbane, May 19, 1879.
" Dear Sir, — I have not been able to find much new re Filaria
of late, though I have worked at the subject as usual. I am sorry
to say that the old volumes of the ' Lancet' which contain the various
points of history have not been preserved.

" I have been examining tank water at a house where cases of
filaria disease reside, but have found nothing. The following matters
are of interest, and suitable for publication in any way you think fit.
I am much at a loss for guiding information.

" Believe me,

" Yours truly,

*' J. Bancroft."

" P.S. — I am preparing drawings of Trichomonas ragince, which
I think will interest Dr. Beale."

" T. S. Cobbold, Esq."

( Filaria Bancrofti.)
There can be no doubt but that the elastic groin tumour and
axillary tumour, which I ventured to call Helminthoma elastica^ are
conclusive evidence of the parasitic condition under consideration.
The fluid that exudes when the tumour is tapped contains some
blood, but when this has been allowed to subside for a few
hours, the bulk of the superstratum has all the appearance of
milk, and closely resembles chylous urine. It seems, therefore, that
this elastic structure— which, in my paper in the " Pathological
Society's Transactions " of last year, is described as looking,
when exposed by incision, like large everted piles — opens on some

OBSERVATIONS OX FILARI.E. /O

part of the surface of the urinary tract by a lymph vesicle, caus-
ing the phenomenon of chyluria.

(Filarice in the Blood of the Dog.)

I have been favoured by Dr. Araujo, of Bahia, with an account
of the Filaria immitis, as found in Brazil. I never examined the
blood of dogs until April of this year, when I found the Filaria
described by Welch in the "Lancet" of 1873, p. 337. So far,
I have not enquired into the matter of the parent worm of this
Filaria, my attention being directed to ascertain by what means
the parasite may be carried from dog to dog.

On May 17 I found that the louse, Trichodectes laius, swal-
lows the Filaria of the dog, I have seen the Filaria alive and
very active among the blood from the stomach of the louse ; in blood
of fleas so far I have not seen it.

The dog Filaria is smaller than the human parasite, shorter by
one-fourth, and about half the thickness. It has no envelope. The
head is angular, that of the human subject is distinctly oval, so by
this peculiarity alone the worms can be distinguished.

The dog worm is more active, and escapes quickly out of the
field of the microscope, whereas the human Filaria will remain in
the field or near by for many minutes, and in half-an-hour it will
not have travelled far when under a cover glass. Beck's two-
inch, with the higher eye-pieces, I find most suitable to search for
Filarice.

Letter by Dr. da Silva Lima.

The following abstract of a letter (to myself j, whilst referring to
the communication of Dr. Paterson, also notices other matters
having a more or less direct bearing on the subject under considera-
tion : —

"' Bahia, le 17 Juillet, 1879.
** Tres honore et savant confrere,

" Je me fais un devoir de vous remercier du bienveillant accueil
que vous avez bien voulu faire a mon article sur la Filai ia Medi-
nensis, en le faisant paraitre in extenso dans le Veterinarian ;
honneur qu'il ne meritait pas, et encore moins celui d'etre tire a
part. Mon excellent ami, M. le Docteur Paterson me prie de vous
envoyer son dernier (troisieme) article sur la question de la gainede

JoDRN. Q. M. C, IS... 43. G

no ORSERVATIUNS ON FILAUl.E.

\a filaria sanguinis hominis. pvihlie en portuofais dans notre Gazeta
Mtdica (Maio, 1879).

" M. le Docteur T. Hall, un confrere tres distingue de cette ville est
parti d'ici le 6 de ce mois, et apres un court sejour au Maranhao, sa-
province natale, se rendra a Londres. J'ai profite de son obligeance
pour Yous envoyer une curiosite de pathologie exotique ; dont vous
ferez ce que vous jugerez plus a propos selon I'interet scientifique
qu'elle puisse avoir. Ce sont deux pieces pathologiques de la sin-
guliere maladie que les noirs africains appellent Ainhum, mot qui
dans leur langue (Nago) veut dire scier. C'est une constriction
spontanee de la racine des petits orteils qu' a la longue finit par les
amputer. Avec ces pieces le Docteur Hall vous remettra un court
travail que j'ai publie le premier sur cette curieuse maladie en 1867,
et une petite note sur le cas parciculier d' ou proviennent ces pieces.
Quelques medicins de la marine franpaise ont observe cette maladie,
CoUas a Pondicherj (Ind. Orient), Corre a Nossi-be (Afrique),
{Archives de Med. Navale, 1867 et 1879), et la considerent, bien a
tort, comme une variete de la Lepre grecque, opinion a laquelle
se range, ce me semble, votre compatriote le Docteur Tilbury Fox.
II n'est pas moins vrai, cependant, que cliniquement et histologique-
ment, cette affection n'a rien de semblable a aucune des manifesta-
tions de V Elephantiasis Grcecorum.

" Agreez, &c.,

'*J. F. DA SiLVA Lima."

On the Involucrum of the Filaria sanguinis hominis.

By J. L. Paterson, M.D., Bahia.

(Abstract.)

Having stated frankly my own conviction that the so-called invo-
lucrum of the Filaria savciuiids hominis is not an integral part of
that nematoid, but an adventitious product, a hyaline mould of the
liquor sanguinis, through which, in process of setting, it laboriously
wriggles itself, I am content to leave the further elucidation of that
question to others, and, above all, to Dr. Lewis himself, and shall,
with equal pleasure and loyalty receive the final verdict, whether it
confute or confirm my own ideas ; and, in the present paper, would
desire simply to say a few words in justification of the spirit and
method pursued by me in this encjuiry, both of which have been

oKSERVATioxs o\ filart.t:. < i

blamed, I think, unfairly, by Dr. Magalliaes in his paper in last
number of the " Gazeta Medica."

Dr. Magalhaes, in that, as in his former paper, charges me with
calling in question what had been observed by others, notably by
Dr. Lewis and himself, for no other or better reason than that I had
not been able, as he surmises from inadequate methods, to confirm
myself the truth of those observations.

Now, as I have already explained, I never called in question any
observation ; what I called in question was the interpretation of an
observation, plain and palpable and common to all of us.

My method for the microscopic examination of Filaria, Dr.
Magalhaes finds antiquated. How he came to know my method is
to me a mystery ; for in no communication of mine have I ever
so much as alluded to that subject. When 1 spoke of the state of
the blood on the slide at the end of five hours, I spoke of that state
as the context, and the whole scope of my argument showed, not as
seen in any original observations of my own, but as seen in those of
Dr. Lewis, or of any one else, repeating those observations, accord-
ing to the method emi^loyed and described by Dr. Lewis himself.

With Dr. Magalhaes' permission, I therefore pass on the cap of
antiquity to Dr. LcAvis, for whose head, and not for mine, it must
have been intended. While on this subject, Dr. Magalhaes, who
appears to take an unwonted interest in my scientific education, will
be glad to learn that, even before his very lucid hints, I had already
acquired some elementary notions of the possibility and the means
of retarding or diminishing the natural plasticity of the blood, and
had turned that knowledge to account so far, at least, as to prolong
on the slide the life and movements of Filaria, and my observations
on the same, to periods frequently extending beyond 24, and not
rarely beyond 36 hours.

In Dr. Lewis' opinion, no difficulty ought to be encountered by
any one in detecting the involucrura, as he had never himself failed
to do so in thousands of cases, and affirms that the only requisites
for the purpose are a good microscope and properly-adjusted illumi-
nation. This assertion of Dr. Lewis I can fully bear out ; never,
with all thie mal addresse with which I am so liberally credited by
Dr. Magalhaes, having once failed, if not in thousands, at least in
many scores of eases, to detect what Dr. Lewis calls — and what
under protest, I am content to speak of as the involucrum, when,
looked for at the time, and with the slide prepared as Dr. Lewis

78 OBSERVATIONS ON FILARI^.

directs. Whence, then, all this difficulty, as conjured up by Dr.
Magalhaes ?

Dr. Lewis, in perfect consistency with his theory, that the Fila?'ia
sangmnis hominis is enveloped in an extremely delicate tube, closed
at both ends, within which it is capable of elongating and shorten-
ing itself, speaks of the shortening of the Filaria, and of the visi-
bility of the involucrum as synonymous, as convertible expressions
for one and the same phenomenon. How, indeed, could it be other-
wise ? The problem is a very simple one. Inside, but unattached
to, a very diaphanous tube, closed at both ends, there exists a
comparatively opaque body, capable of entirely filling it. Under a
low microscopic power nothing is seen but the opaque body. Under
even a high power, so closely fitting is the enclosing tube, and
of such extreme tenuity, that it cannot be distinguished as a sepa-
rate existence, so long as the opaque body continues to fill the
■whole of it, coming into view only when that opaque body is
withdrawn.

As the tube is a short one, that withdrawal can be effected only
by the shortening of the opaque body itself ; which shortening is,
therefore, the exact measure of the part of the tube rendered visible.
This shortening, like the opaque body itself, might be seen under a
power too low to bring into visible recognition the pellucid tube ;
but, under no possible circumstances could the empty tube become
visible, and the shortening of the opaque body remain unseen. The
difficulty of seeing the involucrum consists solely in its extreme
tenuity. The difference in breadth of a blood corpuscle, as it squeezes
itself through a space narrower than its transverse diameter, is an
appreciable quantity, and is, assuredly, not the ten-thousandth part
of the ordinary length of the involucrum as seen in Lewis's demon-
strations, and, consequently, not the ten-thousandth part of the
shortening undergone by the FiJaria, as Lewis says, from one moment
to another. Now, these two correlative quantities, the shortening
of the Filaria and the proportional visibility of the involucrum, that,
were Lewis's theory the true explanation of the phenomenon, ought
to be, and are spoken of by him as being, the exact counterpart of
one another, are, in the experience of every observer in Bahia, seen
to be altogether independent the one of the other ; or, rather, one
of them is seen to be altogether non-existent. We have here, all of
us, seen the so-called involucrum of all imaginable lengths, from
under one-thousandth to over one half the length of the Filaria, and

OliSliRVATlOXS ON FILAKKE. <»

yet Ave have never once, any one of us, seen the slightest lengthen-
ing or shortening of the Filaria itself. And Dr. Magalhaes, per-
fectly ready to show the involucruni, confesses his inability to de-
monstrate the lengthening and shortening of the Filaria. I can,
therefore, only repeat what I said in my former paper : — " Either
Dr. Lewis, having a preconceived idea that the Filaria exists inside
a closed sac, and seeing occasionally, as he supposed, half of that
sac empty, inferred, but did not observe, the shortening of which he
speaks — that shortening being, in fact, an inference and not an
observation — or he is there in India observing a Filaria altogether
different from ours here in Bahia."

Extract from a Paper by Dr. Magalhaes, of Rio Janeiro, on
THE Origin of the Involucrum of Filaria sanguinis hominis.

" In my preceding article I had said that if Dr. Paterson and I
lived in the same town, it might, perhaps, be possible for me to
show him on which side lay the truth ; that is, prove to him that
the involucrum of the Filaria is constituted by a true membrane, and
not by coagulated fibrine. More exacting, Dr. Paterson replies
that if I could ensure showing him the palpable changes in the
length of the Filaria, he should almost feel tempted to come to Eio
de Janeiro on purpose. If Dr. Paterson puts off his coming to this
city till I can assure him of what he thus desires, I fear that Kio de
Janeiro will not have the pleasure of welcoming such an illustrious
guest ; as the collaborator of the ' Gazeta-Medica ' must be aware
that, if in the course of innumerable repetitions of minute and pro-
longed observations, both in Bahia and in Rio de Janeiro, it was
only on some rare occasions that I succeeded in observing and
demonstrating the movements oi' shortening and lengthening, I
could not compromise myself to show him, at any given time, such
histological phenomenon, the manifestation of which I have not the
power of bringing about at will.

" If in all the FilaricB Wuchereri such movements were clearly
manifested, then, assuredly, the observation of the sheath would not
be the difficult matter it is, nor would it have escaped the search of
so many observers."

Final Note by the President.
I am sorry such savans as Drs. Paterson and Magalhaes should

80

obsehvations on filahije.

have displayed opinions so divergent as above shown. I am greatly
indebted to Dr. Paterson, but I cannot abandon the views which I
put forth in the Linnean Society's Journal, and which I find Dr.
Magalhaes has quoted and endorsed in his paper entitled " 0 envo-
lucro membranoso da, Fil a ria^Wuchereri" published in the " Gazeta
Medica da Bahia," for May, 1879, p. 223, et seq.— T. S. C.

81

Description of an Improved Microscopical Turntable.
By Chas. G. Dunning.

(Bead February 27th, 1880.^

It lias occurred to me that some modification might with advan-
tage be made in the ordinary form of Microscopical Turntable. The
principle involved in the various self-centering and clipping arrange-
ments is good so far as it goes, but the sphere of action with all
these is more or less limited, owing to the fact that, however
desirable it may be, you cannot possibly work out of the centre with
them, and it is with a view to overcome this inconvenience that I
have devised the form I now bring to your notice.

The design consists of the usual circular table as shewn at Fig. 8,

8:^ C. (i. DUNNING ON AN IMPROVED MICUOSCOITC AL TURNTABLE.

■with the addition of a dovetail groove across the centre, in which
work the two sliding blocks AA. To these sliding blocks are
attached the clips BB. One of these clips is rigidly fixed at right
angles to its guide, the other being pivoted in order that it may
adjust itself to any little irregularity which may occur from the
edges of the slides not being quite parallel. The ends of the
sliding blocks are cut and " sprung," so as to give sufficient tension
to secure a firm grip of the slide ; this tension can, of course, be
readily increased to compensate for wear. Guiding lines and circles
may be ruled on the table for the purpose of centering the slides,
but as will be readily seen, any non-central position may be easily
obtained even with slides up to two inches in width, thus facilitating
the application of the finishing varnish to, or the repair of any slide,
the covering glass of which may not have been accurately centered.

Description of a Machine for Cutting Hard Sections.

By J. Matthews, M.D., F.R.M.S.

ExhiUfed Sept. 26th, 1879.
Plate IY.

This machine is shown in Plate IV., Fig. 1 being a plan view,
and Fig. 2 a side elevation.

The apparatus, it will be seen, consists of a metal stage plate
A, supported upon four pillars or legs B B, and is mounted upon
a base board C. On the upper side of the stage A are four
vertical pivots d, upon which are fitted, so as to turn freely
thereon, the four flanged rollers D D and D^ D^. In front
of the rollers D is fitted a flat metal plate E, and at the back
of the rollers D^ is similarly fitted a flat strip of wood F, the
side of the strip bearing against the rollers being provided with a
lining of india-rubber.

The plate E and the strip F are secured together by means of the
transverse tie bolt G and the clamp H, thus forming a kind of rect-
angular frame, capable of traversing freely to and fro on the rollers
D and J)\

At the end of the stage plate A is mounted in suitable bearings
a crank-shaft I, fitted with a fly-wheel I* and a winch handle J.
This crank is connected by the rod K to the bolt G of the rectan-
gular frame E F.

In front of the plate E are secured the metal bars L and L^. The
bar L is slotted, and is secured by two screws, so as to be capable
of adjustment vertically by means of the screw /. The bar L^ is
pivoted to the plate by one screw, so as to admit of adjustment
laterally by means of the screw l^. A fine saw web m is clamped
by its ends to the two bars L L^. It will now be understood that
the saw being clamped in its place, the requisite tension can be
given to it by the screw l^, while, by means of the adjusting screw /,
its parallelism can be secured. On turning the crank-shaft I by
means of the winch handle J, a reciprocating motion will be im-
parted to the frame E F and to the saw ?n. For holding and

8-4 A M.UllINK FOU CUTTING IIAUD SECTIONS.

imparting the requisite feed to the material to be eut the followini;'
contrivance is adojited : — Beneath the stage plate A is secured a
tube M (shown detached in longitudinal section at Fig. 3.)
Sliding freely inside this tube is a solid cylinder N. This cylinder
is pressed by a spiral spring 0 against a micrometer screw P.
On the upper side of the cylinder N is secured by screws a lever
arm Q. This lever arm carries at one end a counterpoise weight
R, and is furnished at the other end with a clamp and binding screw
S. The material to be cut — say a piece of bone — is fastened by any
suitable cement (such as glue) to a slip of wood T, and this slip is
clamped, as shown in the plate, to the end of the lever arm Q.
By turning the micrometer screw P the cylinder N will be driven
forward, carrying with it the lever arm Q and the piece of bone to
be cut.

The counterpoise R will now cause the piece of bone to bear
upwards against the teeth of the saw, and a rapid reciprocating
motion being imparted to this latter, as already explained, a thhi
slice will be cut off. This operation may be repeated until the
whole of the material is cut up. The slices can then be removed
from the wooden slip by soaking in a little warm water.

A grooved pulley V is provided on the crank-shaft in order that
the machine may be driven by a fly-wheel and treadle if desired, and
saws of different degrees of fineness may be employed to suit the
various materials required to be cut.

85

PROCEEDINGS.

January 9th, 1880. — Conversational Meeting.

The following objects were exhibited: —

Fabric made from Pine Apple Fibre ... Mr. F. W. Andrew.

Koebrenteria paniculuta ... ... Mr. A. Ashbridge.

Gregarines from Liver of Rabbit, causing

rsorospermodis Jiepatica ^ ^^^^ President.

Mr. T. Curties.

Trophi of Bihis Johanais, showing external

auditory organ
Net vnug Fly {Tryi^eta reticulata) ... Mr. F. Knock.

Fungoid growth and insect ova on bark of ^

Theobroma Cacao ... ... j ^^i- ^1- I'PP-^-

Leaf of Chickweed showing rapliides, &c.... Kev. H. J. Faye.

Section of Grain of Wheat ... ... Mr. W. Goodwin.

Sections of Kidnej', Tongue, and Lip of|

Dog, stained j Mr. J. W. Groves.

Oak Spangles ... ... ... ... Mr. H. E.Gregory.

Aquatic dipterous Larva shewing anal)

appendages ] Mr. A. Hammond.

Actinophrt/s ... ... ... ... Mr. A. Martinelli.

Ftetiidium sp. (Coleoptera) ... ... Mr. A. D. Michael,

Trinacria excavaia ... ... ... Mr. H. Morland.

Section, Rhizome of Fern {Pteris aquilina),^

double stained | Mr. E. T. Newton.

Goniuyn pextorale ... ... ... Mr. C. Le Pelly.

Crystals, Platino-cyauide of Magnesium ... Mr. G. D. Plomer.
Pleurosirjma angulatum, with new oil im-'^

mersion condenser and one-eighth water >• Messrs. Powell & Lealaud.

immersion O.G. ... ... )

Apical Cell, &c., growing point of Chara ")

Fluid Cavities in Granite, showing > Mr. J. W. Reed.

Brownian movements ... )

Tsdate oi Buccinum undatum ... ... Mr. T. L. Wateiuian.

Larva of Coccinella hi-punctata ...

Head of Cysticercus fasciolaris from liver

of Rat
Halacarnus notops
Fungoid growth on Feather ... ... Mr. J. Woollett.

Attendance — Members, <!8j Visitor 1.3.

Mr. T. C. White.

80

January 23hd, 1880 — Ordinary Meeting.

Dr. T. S. Cohbold, F.R.S., &c., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club : — Mr, W. R. Browne, Dr. J. L. Cassidy, Mr. George H. Dovvsett,
Mr. F. J. Freeland, Mr. Chas. J. Holland, Mr. F. Hunt, Mr. Jas. Mackenzie,
Mr. Francis Martin, Mr. F. A. Stcessiger, Mr. W. H. Seymour, and Mr.
Whitworth Wall is.

Tlie following donations to the Club were announced : —

"Proceedings of the Royal Society" ... from the Society.
" Proceedings of the Watford Natural}

History Society" ... ... j " "

" The Popular Science Review "... ... ,, Publisher.

*' Science Gossip" ... ... ... ,, „

" The Midland Naturalist " ... ... in exchange.

*' The American Naturalist " ... ... ,,

"Grevillia" ... ... ... ... Purchased.

" Quarterly Journal of Microscopical

Science" ... ... ... ) "

*.' Annals of Natural History "... ... „

" How to Work with the Microscope,

Dr Beale ...

" Primer of the Chemical Microscope" ... from Dr. E. Cottam.
9 Slides — Sections of brain of Cockcroach „ Mr. E. T. Newton.
4 Slides — Diatoms from Chester... ... ,, Dr. Stolterfoth.

The thanks of the Club were voted to the Donors.

A letter of thanks from the Secretary of the Croydon Microscopical
Cl:ab for assistance rendered at their Soirea was read ; also a letter from
the Secretary of the New Cross Society inviting co-operation at their
Soii'ee in February.

The President called attention to some portions of liver of Ostend rabbit
containing large quantities of Cysticercus pisiformis, which had been placed
on the table for distribution, and remarked that the specimens would no
doubt be interesting, as the subject had excited much attention of late,
attempts having been made to show that many of these parasites were
merely polymorphic forms of other species. This he thought could not be
maintained. The specimens on the table were common bladder worms,
■which became transferred into the Taenia serrata of the dog.

The President exhibited a large hand cut section of bone, showing the
manner in which new bone was formed round the shaft of the femur. The
cells of the new bone completely surrounded and enclosed the old, which
had become destroyed by Necrosis. The specimen showed how difficult it
would be to remove the old bone without permanent injury to the limb.

Mr. Ingpen exhibited and described Mr. Wenham's new immersion
illuminator, illustrating his remarks by drawings on the black board.

87

Mr. Mackenzie said he had used this apparatus for the last fortnight, and
found it to work admirably, so that he was able to resolve many of the
more difficult diatoms. At first he made the illuminator adhere by a little
water, after that he made a clip to keep it on, but since then he had found
the best plan was to secure it by means of a small slip of ebonite. He did
not much like the plan of fixing the illuminator to the substage, because in
moving it about to find another object the film of water was apt to become
broken.

Mr Curties thought that this difficulty would not occur if oil were used.

Mr. Mackenzie said he had tried oil also.

Dr. Matthews enquii-ed what oil Mr. Curties used for the purpose ?

Mr, Curties said he used castor oil. The object in attaching the illumi-
nator to the substage was to avail oneself of all the movemc' ts of the sub-
stage, and it must certainly be of advantage as to adjustments to have it
attached to that part of the instrument which possessed them. Many
instruments had stages so thick as to prevent the use of rays of such
obliquity as could otherwise be used.

Mr Ingpen said that the greatest angle likely to be wanted was 45^.
Yery few wanted more. If they had this super stage they must have
something in the shape of a prism or bull's-eye to reflect the light, because
if they took it from below the stage they would get it at a greater angle
than they could use.

Mr. Curties said that it was certainly a piece of apparatus of great
value, and one that could be fitted to almost any microscope.

Mr. T. C. White made a communication " On the Resting Spores of Pro-
tococcus pluvialisJ'

The President in inviting discussion upon the subject remarked that the
great difficulty in following up such observations was the time required for
tracing out all the changes. Few, if any, amongst the members could do
as Mr. Dallinger had done.

The thanks of the meeting were voted to Mr. White for his paper.

Dr. Horatio Whittell read a highly interesting paper " On the Association
of Bodies resembling Psorosjpermice with the degeneration of Hydatid
Cysts."

The President said he was extremely glad that Dr. Whittell had brought
this subject forward. Allusion had been made in the paper to a micro-
scopic Haematozoon, a description of which was forwarded to him by Dr.
Whittell. From this and from the figure sent with it, he was at the time
led to believe that it might be the larva of Filaria sanguinis hominis.
He had now, however, looked at the specimen carefully, and had satisfied
himself that it was not a Nematoid structure, but some foreign body. The
integument was absent, and it did not correspond either in size, appearance
or measurement with the worm in question. The largest in size of the
Filarice did not exceed l-125in., whereas this object was nearly l-40in.
Dr. Whittell's paper dealt with two distinct subjects — fircst with Hydatids
and next with the formation of something else within Hydatids. He had
mentioned that he had observed cilia in or upon the Echinococci. This was

<s8

very interesting, because only two or three other persons, including Pi'of.
Huxley, had seen and described them. He (Dr. Cobbold) had never seen
them himself. Of course the important question to decide was, what was
the significance of these singular formations ? What Dr. Whittell had
noticed was something totally distinct from the psorosperms exhibited at
the last meeting, and it would seem that they must be divided into two
groups — those which were of an ovoid form and those which were of an
Amoeboid character. Undoubtedly, in the case which had been mentioned
these structures differed entirely from any of the various organizations he
had himself described. He confessed that the facts recorded in the paper
of Dr. Whittell puzzled him very much, and threw him back again upon
the notion that the formations in questions were really the result of the
degeneration of an Hydatid Cyst. He was very glad indeed to have heard
this paper, aiid hoped that it would lead to many more observations being
made. The curious part of these studies was that every time they
examined these psorospertnial organisms they seemed to find something
different from what they had seen before. They must be content, there-
fore, to wait patiently for the results of many future observations before
any very definite conclusions could be established.

The special thanks of the meeting were unanimously voted to Dr.
Whittell for his paper.

Mr. A. D. Michael called attention to a specimen of OrnitJiohin avicu-
laria found parasitic upon a Jay ; it was shoAvii for the sake of exhibiting
the nervous and muscular systems and the brain and optic nerves. It was
mounted just as it was caught.

Dr. Matthews enquired if any member could inform him of a method of
decomposing chitine, or of bleaching it in any way so as to render it
transparent.

Five gentlemen were proposed for membership.

The proceedings then terminated with the usual conversazione, at which
the following objects were exhibited : —

Fungus on Juniper ... ... ... Mr. F. W. Andrew.

Diatoynacece (Wenham's immersion "button") Mr. T, Curties.

Psocus Bark insect) ... ... ... Mr, F. Enock.

Starch, sweet potato ... ... ... Mr. H. R. Gregory.

Section, Spinal cord of calf ... ... Mr. J. J. Hunter.

Scale of Fodura, one-tenth oil immersion")
O. G ... j

Marchantia polymorpha ... ... Mr. A. Martinelli.

Ornithohia avicularia ... ... ... Mr. A. D. Michael.

Cysticercus pisiformis, from Rabbit ... Mr. W. Smart.

Double stained Vegetable Tissues ... Mr. C. V. Smith.

Fvond oi Rhipidopteris pellate ... ... Mr. J. G. Tasker.

Psoros^permia from Hydatid Cyst ... Dr. H. Whittell.

Protococcus yluvialis, &c. ... ... Mr. T, C.White.

Attendance — Members, 87 ; Visitorn, '2.

Messrs. Powell & Lealand.

89

February 18, 1880. — Conversational Meeting.

The following objects were exhibited : —
Seeds of Paivlonia
Section of Whalebone ...
Hiaman FUarioi from the stomach of

Mosquito
Triceratiiim favus
Young Oysters
Section of head of Moth
Cordylura spinimana (spiny-legged Fly)
Foraminifera — H.M.S. Challenger
Section of Cocoa-nut shell
Collection of Typical Crystals
Dicksonia antarctica (Mare's tail)
Diatoms from London Clay — Sheppy
Dipterous larva
Hand of Human foetus
Trichina spiralis

Nymph, Leiosoma palmicincta, n.s.
Surirella splendida
Trans. Section, Hydra fusca
Actinophrys, sp. ?
Young Trout ...
Ovary of Potato ... ...

>» i*oppy

„ Orchis
Vollen oi Azalea
Protococcus pluvialis
Planorbis, sp...
Eye of Beetle
Encyonema pay'adoxvrriy in situ ...

Attendance — Members, 79 ;

... Mr. F. W. Andrew.
... .Mr. A. Ashbridge.

> The President.

... Mr. A. L. Corbett.

... Mr. T. Cnrties.

... Mr, C. G. Dunning.

... Mr. F. Enock.

... Mr. H. G. Glasspoole.

... Mr. W. Goodwin.

... Mr. M. Greenhough.

... Mr. J. W. Groves.

(• Mr. A. Hammond.

... Mr. J. J. Hunter.
... Mr. A. Martinelli.
... Mr. A. D. Michael.
... Mr. H. Morland.
... Mr. E. T. Newton.
... Mr. J, M. OfEord.
... Mr. G. D. ir'lomer.

i Mr. J. W. Eeed.

... Mr. J. G. Tasker.
I Mr T. C. White.

... Mr. J. WooUett.
... Dr. H. Whittell.
Visitors, 8.

February 27th, 1880. — Ordinary Meeting.
Dr. T. Spencer Cobbold, F.R.S., &c., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club : — Mr. Alfred Fieldwick, jun., Mr. George Niven, Mr. Thos. E.
Eiley, Mr. Adolph Schultze, and the Hon. J. G. P. Vereker.
The following donations to the Club were announced : —

" Proceedings of the Eoyal Society " ... from the Society.

" Journal of the Eoyal Microscopical)
Society ' ... ... ... ... )

}

90

" Eleventh Annnal Repoi't of the Liverpool 1 -, ^x. a • ^
'^ )■ trom the Society.

Microscopical Society" ... ... J

" Proceedings of the Geologists' Associa-"

tion ''
"Seventh Report of the New Cross Micro-
scopical Society "...
" Fifth Annual Report of the Postal Micro- '

scopical Society''...

" Journal and Proceedings of the Royal "i

Society of New South Wales "... J

" Report of the Department of Mines in}

New South Wales " )

" The Midland Naturalist" ... ... ... in exchange.

"The American Naturalist "... ... ... „ „

" Science Gossip " from the Publisher.

"The Analyst" ... ... ... ... ,, „

*' New Commercial Plants " ... ... ... ,, Mr. T. Christy.

"Natural History Rambles " ... ... ,, Dr. M. C. Cooke.

" Annals of Natural History " ... ... Purchased.

" Marine Polyzoa," Hincks ... ... ... ,,

The thanks of the meeting were voted to the donors.

Mr Ingpen called the attention of members to an Album of Specimens of
Marine Algae, mounted and sent for exhibition by Mr. F. W. Smith, of 4,
Clifton Place, Falmouth, who would be glad to communicate with any
gentleman interested in the subject.

A paper by Dr. Silvester Marsh, "On Bleaching and Washing Micro-
scopical Sections," was read by Mr. Ingpen.

Mr. W. H. Gilburt said it occurred to him that for scientific purposes the
processes recommended were hardly satisfactory in several respects ; because,
if they wanted to observe the relation of the tissues the one to the other, it
was necessary to do something more than simply bleach them. So also
with regard to sections. Sometimes it was necessary to cut them thick in
order to see the relation of the parts, and it would thus be necessary to get
rid of the cell contents as well as the colour. Again, if they wanted to ex-
amine the cell contents, they must do ho in their natural condition, and not
bleached ; for they were well aware that during the bleaching process these
cell contents became shrunken ; so that for purposes of study thoy must
always be used as fresh as possible. He, therefore, thought that so far
as practical work was concerned, they would do better to adhere to the old
plan.

Dr. Matthews said there was a mode of differentiation of tissues which
seemed too often to be overlooked, and that was with the Polariscope, and
strongly commended to the members of the Club a little more careful appli-
cation of the use of Polarized light in such matters. If the object under
examination did not yield to one selenite, it would no doubt do so to another.
The thanks of the meeting were unanimously voted to Dr. Marsh for his

91

Mr. A. D. Michael having taken the chair pro. tern.,

The President read a paper " On Human lilaricB,'' which he illustrated
bv numerous diagrams and by specimens exhibited in the room.

Dr. Matthews said he should like to ask Dr. Cobbold a question. Some
years ago there was an invasion of mosquitos m some parts of London;
they were supposed to have been brought over by some ships. Some ob-
servers examined them and declared that they did not present any features
to distinguish them from the ordinary gnat. He should like to ask if there
was any difference between the two? Also, he should like to ask what
became of the Filarics which were swallowed by the mosquitos ?

Dr. Stephen Mackenzie said he had a case now under treatment in the
London Hospital, and that he had repeatedly examined the blood during the
afternoon, but found no Filarics whatever. At Dr. Cobbold's suggestion he
had also examined the blood at midnight, but found none then. In another
case of Elephantiasis the worm had been found in the scrotum, but not in
the blood. He thought the facts stated were of great importance, although
lie believed that they had not any cases in which the Filarics had survived
the journey to this country. All the cases of Elephantiasis which had come
under his notice were imported cases from tropical climates.

The President said that it had not occurred to him to look into the
question of the species of mosquitos, but he believed that Westwood ad-
mitted that nearly all the species of mosquito were reducible to two types,
although as many as twenty species had been spoken of. As to what
became of the Filarics after they had been swallowed by the insects, it was
only the female mosquito which attacked man, and as she died after deposi-
ting her eggs upon the water, the Filarics passed into the water. Accord-
ingly, when the natives drank the water in an unfiltered condition, the
parasites were taken into the stomach, and made their way thence to the
lymphatics and neighbouring tissues. He was very glad to see that the
practical importance of the matter commended itself to the judgment of Dr.
Stephen Mackenzie, but was not surprised to find that he did not know any-
thing of the peculiarity or periodicity in the habits of Filarics, because it
was an entirely new fact. The capacity of this entozoon for producing those
diseases ascribed to it, was a matter which would of course be fought and
battled over for many years to come.

Dr. Matthews said he should like to know if anyone had been able to con-
nect the periodicity of the parasites in the blood with the periodicity of the
intermittent forms of malarial fever.

The President said they had heard nothing more on the subject at present
than what Dr. Manson said in his communication.

Dr. Mackenzie said that in a form of relapsing fever they had a period of
pyrexia, succeeded by a period of apyrexia. In the pyrexial period the
Spirilla were always found. This fever could be communicated by inocula-
tion, but it was only communicable in that way at a time when the Spirilla
were present in the blood.

Mr. Michael said that he believed the question as to the mosquitos was
looked into at the time it arose, and he believed that just as in this country

JouRN. Q. M. C, No. 43. h

92

a great many difEerent species were all called by tlie name of gnat, so in
other countries anything which fed on human blood was called a mosquito.
As regarded the paper which had just been read, he felt sure that it would
be received as one of the highest importance, coming as it did from one who
wa.s facile princeps in such subjects. He had, therefore, much pleasure in
proposing that their best thanks be presented to Dr. Cobbold for his bringing
to their notice so valuable a communication for publication in the journal.
A vote of thanks to Dr. Cobbold was then put, and unanimously carried.
Mr. Dunning then read a short paper, descriptive of a new form of turn-
table, which he exhibited in the room.

Dr. Matthews said that the article was very ingenious and very simple,
as well as most efBcieut for the purposes to which it was intended.
The thanks of the meeting were voted to Mr. Dunning.
The President said he had an announcement to make as to Mr. Crisp's
donation fund. In consequence of the diflBculty of appropriating it, the
Committee had, with Mr. Crisp's entire approval, resolved to devote it to
the purchase of books and apparatus for the general use of the Club. He
could only say that he thought this was a most kind concession on the part
of Mr. Crisp, and that it was the best use to which they could possibly put
the fund.

Four gentlemen were then proposed for membership.

Announcements of excursions were then made, and it was intimated that
there would be no ordinary meeting held in March, as the fourth Friday
in that month would be Good Friday.

The proceedings then terminated with a conversazione, at which the
following objects were exhibited: —

Section of Oyster shell ... ... ... Mr. F. W. Andrew.

Co]onj oi Acinetce ... ... ... Mr. W. G. Cocks.

Section of shell of .Sa?anws ... ... Mr. A. C. Goodinge.

Cuticle, Leaf of Wallflower ... ... Mr. H. R. Gregory.

Pearls from fresh-water mussel ... ... Mr. J. W. Groves.

Cavernous hairs from Dog's lip ... ... ,,

Pappus of Thistle, stained ... ... Mr. T. S. Morton.

Trans, sec. Juncus ... ... ... Mr. J. W. Reed.

Elater and spores of jFgtfisei-ujJi ... ... „

Section of Lam-entian Gneiss from the •)

T 1 » ^ ,, [ Mr. G. Smith.

Isle of Coll ... ... ... )

Attendance — Members, 97 Visitors, 19.

93

March 12th, 1880. — Conversational Meeting.

The following objects were exhibited : —

Mosquito from Calcutta... ... ... Mr. F. W. Andrew.

Section of Mulberry, double stained . . . Mr. A. Ashbridge.

Surirella gemma. 1-12 Homogenous Im.>v

mersion o.g. Abbe condenser and Zeiss > Mr. C. Baker.

microscope ... ... ... )

Parkes' Micro. Lamp ... ... ... „

Section Jawbone and Teeth of Cat ... Mr, T. Curties.

Parasite of Honey Bee, Braula ccica ... Mr. F. Enock.

Arsenic ... ... ... ... !Mr. A. C. Goodinge.

Spores of Funaria germinating ... ... Mr. W. Goodwin.

Eggs of Coccus of the Orange ... ... Mr. H. E. Gregory.

Po ^T/c I sh' /I a from Challenger ... ... Mr. G. Green.

Sponge spicules ... ... ... „

Insect dissections ... ... ... Mr. A. Hammond.

Section, foot of Foetus ... ... ... Mr. J. J. Hunter.

Section, Lower Jaw of Pollock, showing") Mr y b M «•

hinged and developing teeth ... )

Section Stem of Bramble ... ... Mr. A. Martinelli.

Tanais vittatus (Isopoda) ... ... Mr. A. D. Michael.

Trinacria Begina ... ... ... Mr. H. Morland.

Section, Ginger ... ... ... Mr. G. D. Plomer.

JVostoo commune ... ... ... Mr. J. W. Reed.

Section, Gneiss from Bazil Wood, Charn-'i -.r r< c^ -.i

I Mr. G. Smith,
wood forest ... ... ... J

Section, Chalk with Coral, ParasmilUa')

centralis ... ... ... ) "

Podura scales (opaque)... ... ... Mr. James Smith.

Section, Brain of Cockroach ... ... Mr. W. Teasdale.

Ebonite super-stage for microscope ... „

Triceratium ... ... ... ... Mr, T. L. Waterman.

Amoebaeform bodies from Protococcus') T.r m ri ^^n -^
... J- Mr. I.e. Vvnite.

pliwialis ... ... ... )

Attendance — Members, 86 ; Visitors, 13.

April 9th, 1880. — Conversational Meeting.

The following objects were exhibited : —

Ambulacral discs of Echinus .. ... Mr. F. W.Andrew.

Wing of Lappet moth ... ... ... Mr. C. G. Dunning.

Indian mosquito ... ... ... Mr. F. Enock.

Scales of Buff-tip P. 6 wee/? ?iata ... ... Mr. A. Field wick, j an.

„ Morjpho menelaus

94

Polysiphonia sp. ?

Frullania tamarisci, Hepatica ...

Vorticella

Heliopelta, with Wenham's new illuminator

Plocamium coccinium ...

Section of lower jaw of Cat

., Dermal spine of Ray ...

„ Incisor of Rodent
Pedicellaria from Echinus miliaris
Achnanthes suhsessilis ...
Polya/t'thratrigla. Rotifer
Sponge -Hyalo7iema Sieholdii
Choetflphora elegans. Alga
Crystals of Uric Acid ...
Organic aromatic bodies from Coal Tar . .
Ihysanura-Lipura Burmeisteri ...

Attendance — Members, 76 ; Visitors

Mr.

W.

H,

, Gilburt.

Mr.

H.

G,

. Glasspoole.

Mr.

H.

E.

Gregory.

Mr.

W

. Gregory.

Mr.

D.W.

Greeuhough,

Mr.

J.

J.

Hunter.

Mr.

J.

B.

Magor.

Mr.

A.

D.

Michael.

Mr.

H.

, Morland.

Mr.

J.

M.

OfEord.

Mr.

B.

W.

, Priest.

Mr

.J.

W,

. Reed.

Mr.

J.

Walters.

Mr.

T.

>5

c.

White.

litorj

3,12.

PLJTE.W.

400 dUunij'^

Jnuml Q.M.C.

-^ ji^__ ^

^^WMm

HP.HaJies ad

95

On a Simple Method of Cleaning Diatoms.

By Dr. H. Stolterfoth, M.A.,

Scientific Secretary of the Chester Society of Natural Science.
{Read Aijril 2Zrd, 1880.)

In bringing before your Club my new process of cleaning, I do
not pretend that it is universally applicable, but I have found it so
useful, and many of my friends have used it with such good results,
that I wish to make it more generally known. I was led to it by
trying to clean some of the Welsh deposits. Very poor results
were obtained by the common acid process, and even alkalies de-
stroyed the valves of the larger Surirellce (in which these deposits
abound), before they were free from the dirt with which they were
filled. I then thought that it was thorough washing these forms
required, and what would answer better for the purpose than Soap?
— so I boiled them in soap and water for about an hour, and I was
quite astonished at the result. Since then I have tried the process
on all kinds of fresh and salt-water deposits, and should now never
think of returning to the old process, with its spirting acids and
alkalies which so often injure the valves.

The method I follow is this : I place in a test-tube (Bin. long by
lin. wide) a portion of the earth or mud about ^in. in depth, and
pour in water till the tube is :|th full ; into this I drop a piece of
common yellow soap, about the size of a small pea, and then boil
gently over a lamp. I examine the solution under the microscope
from time to time, by taking out a drop with a dip-tube, and putting
it on a slide ; as soon as I see that the valves are clean, I fill up
the test-tube with cold water, and let it stand, then wash in the
usual way, until all trace of soap is removed, and then mount in any
way you please.

In pouring on the cold water after the boiling, the solution is
quite fluid as long as the water is warm ; during this time the
diatoms fall to the bottom, but, on getting cold, the solution assumes
a somewhat jelly-like consistency, and holds the fine particles and

JouRN. Q. M. C, No. 44. i

96 H. STOLTERFOTH ON A SIMI'LE METHOD OF CLEANING DIATOMS.

mud in suspension, and is a very useful means of getting rid of
what is often a great trouble.

The advantages of this process are —

1st. Its great simplicity.

2nd. No danger from acids or alkalies.

3rd. The removal of mud and broken particles.

In deposits, however, in which there is much organic matter, we
must still have recourse to acids or fire to destroy this, but the
result will be improved by afterwards boiling in soap and water. I
have also boiled fresh gatherings in soap and water, and then burnt
on platinum-foil with good success, much of the flocculent matter
being removed.

97

On an Undescribed British Sponge of the Genus
Raphiodesma (Bowerbank.)

By J. G. Waller.

(Read April 2^rd, 1880.;

PLATE V.

During a stay of two months at Torquay, engaged eight hours a
day, there was but Httle opiDortunity for recreation in Natural
History. Nevertheless, each evening I was down by the sea-side,
either at Anstey's Cove or at Meadfoot, and, occasionally, when tide
served, at that very interesting spot, Hope's Nose, the eastern
promontory of Torbay. Abundance of the Laminaria here often
strews the coast, and their roots are incrusted with^ sponges and
other organisms. It afforded a very ready means of collection, and
thus I became possessed of some rare examples, and of the one, I
am about to describe as, new to our fauna, as well, also, of many
early states of growth, which is always interesting to observe.

It was upon a small pebble held in the root grapple of Laminaria
saccharina that I found the sponge in question, but before I pro-
ceed to describe it, I must call attention to another, found under
similar conditions in many different stages of development, and gene-
rally in the deepest recesses. It was very small and insignificant,
and might easily have escaped attention. When examined, it
was seen to be crawling over the rootlets in a very regular manner,
sometimes over small pebbles held within them. Upon this one of
limestone, we see it in its youngest development, and it is interesting
and instructive to note its peculiar mode of growth. It begins
with a few spicules, arranged in a somewhat semi-circular form, and,
at nearly right angles, are fasciculi of the same disposed with almost
rhythmical regularity, with about equal distances between each
fascicle ; and thus it proceeds in one direction only, moving for-
wards, and never reversing its steps (Fig. 1). This is remarkable in
a sessile sponge, which, in general, developes all round from a
centre, and spreads in every direction ; it is, therefore, a feature to he
noted, as it ceases to be visible, when, in a further development, there

98 J. G. WALLER ON AN UNDESCKIBED

are accumulated layers, one over the other, which may start from a
base having another axis.

Procuring a portion for microscopic examination, after giving it
a rigid scrutiny, I became convinced that it was the sponge to which
Dr. Bowerbank had given the name of Hymeniacidon macilenta,
the specific term being very expressive of its meagre condition or
habit. His description, however, in no way alludes to the
peculiarity to which I have drawn attention, or to its fascicular
arrangement of the spicules. The specimen, therefore, from which
he made his description, must have been so developed as to have
concealed this structure, which could scarcely, otherwise, have escaped
the attention of so good an observer. Let me, however, now refer
to the intimate characters of Hymeniacidon macilenta as set down
in Vol. ii., p. 176, of the '' British Spongiada?."

It is described as thinly coating zoophytes, and in the living
condition to be of a bright scarlet colour. The skeleton spicules are
sub-clavate acuate, those of the membranes of the same character,
but longer and slender ; and amongst the latter a few tricurvate-
acerate. Retentive spicula, inequibidentate and dentato-palmate
anchorate, small, and few in number, and the latter also very
minute. One of the most characteristic forms, which are most
abundant, are contort bihamate spicules of a large size.

It is unnecessary to give any further details. But we must now
turn our attention to another genus, which Dr. Bowerbank divided
from this of Hymeniacidon on account of some special characteristics,
which bear directly upon the subject in hand. Hymeniacidon is
specialised, as having its spicules disposed without any kind of
order on the membranes. It is obvious, therefore, that the sponge I
have been describing as H. macilenta cannot be consistently
considered as belonging to the genus thus defined. It is impossible
to say that the spicules are arranged without order. Yet tliere can
be no doubt, that it is the same as that above-named, but in a
different state of development. That this not only belongs to the
genus separated from Hymeniacidon under the name of Raphiodesma,
but must also be referred to a species described by Dr. Bowerbank
in Vol. iii., p. 230, I will now proceed to consider.

The genus llaphiodesma is distinguished from that of Hy-
meniacidon in that its skeleton is composed of bundles of spicules
unconnected with each other, the fascicules being represented as
compacted at their centres, but free at each end. But this latter
character will require some modification, as I shall presently show.

BRITISH SPONGE OF THE GENUS RAPHIODESMA. 99

Furthermore, these fasciculi are stated to be carelessly thrown
together in every possible direction, the interstices forming
elongated, angular areas, like that of a confused mass of netting
extended in one direction only. Sufficient for our purpose this to
comprehend the character of the genus, so we will now go to the
special form within it, to which allusion has been made, and to
which I propose to combine H. macilenta. This is Eaphiodesma
sordida, described in the " Spongiadee," Vol. iii., p. 230.

In this description, it, like H. macilenta, is parasitic — its colour
red or orange in the living state. Its skeleton spicules are sub-
clavate acuate, those of membranes the same, but more slender, a few
slender tricurvate ones. Retentive spicula contort bihamate
numerous, also bi-dentate, inequi-anchorate, dentato-palmate — the
latter congregated in rosette-shaped groups.

Now this, as nearly as possible, accords with that of H. macilenta,
and what differences appear in Dr. Bowerbank's fuller account are
too slight to warrant any separation the one from the other. Solely
we miss the rosettes in the latter, which distinguish so many of
the genus Eaphiodesma, and are sometimes so abundantly found
in the species to which I consider it ought to be referred. But,
even this must give way, for in some of my preparations I have
detected this very interesting feature, and may also state that
it is often scarce in the species, wherein it is really a constant
form. I do not, therefore, think, that there can be the smallest
doubt, but that these described as two, are really but one species in
different stages of development.* And, if this be admitted, it is
necessary to point out, that the earlier condition of growth, seen in
the fascicules, do not show the peculiarity of being attached at the
centre, but rather are fixed at the base and spread out at the apices,
somewhat resembling the venerable scholastic institution called
*' birch." Nor in the full development of Eaphiodesma sordida is
this always lost, though in E. lingua, its near ally, the fasces strictly
conform to the tabulated characters of the genus.

I have felt myself to be under a double necessity in thus intro-
ducing my subject, first, because the sponge I am about to describe
to you appeared to me, before I gave it an intimate examination,
to be that I have identified as //. macilenta, or, as rather the
early condition of E. sordida; secondly, because I cannot think

* In this opinion onr member, Mr. Priest, to whom I am indebted for
several specimens of R. sordida, perfectly concurs, and was early to express
his decision.

100 J. G. WALLER ON AN UNDESCRIBED

that the former can retain its place as a species, nor do I believe
that, had Dr. Bowerbank lived to see such facts as I have stated,
he himself vrould have retained it. The new sponge has much
in common with it in general mode of growth, especially in the
young condition as above described. The fasces proceed in one
direction from a base. They spread out birch-like in form, and
have precisely the same kind of spicules in the skeleton. Nothing
but the microscope could have separated the two, yet that also dis-
tinctly allies it to the group of Raphiodesma, to which both must
now be referred.

The sponge in question was found sessile upon a small pebble of
limestone within the roots oi Laminaria saccharina. It is extremely
small, only measuring Jin. by \. In this, its dry and well bleached
condition, no natural colours are preserved ; it is simply of a creamy
white, such as most of the siliceous sponges assume when they have
been thrown up on the coast exposed to sun and air. "We lose,
therefore, all features but those of its intimate structure, which
makes it a subject for the microscope. Its general aj^pearance under
examination is confused. But this confusion, nevertheless, has an
order, and, although it may sound paradoxical, is the result of
order. The fasciculi, which seem as if culminating one over the
other, forming a ridge in the most developed part, nevertheless
obey a law which dictates their progression in one direction only
from a base, following nearly a right line from it. Nor do they ever
reverse their route in an opposite direction (Fig. 2). And in this
they conform exactly to the rule obeyed in the sponge I have pre-
viously spoken of as H. macilenta. But, as I have shown, that as
different layers start from another base, they will naturally cover over
the one beneath at a different angle, so, in the end, the whole mass
may assume an heterogeneous mixture apparently devoid of order.

As the sponge was not found in a fresh condition, one is not able
to pronounce an opinion as to the distribution of either oscula or
pores. None of the latter are visible, but there are indications of
some of the former, though not very conspicuous. The whole of the
membranes, which are pellucid, are thickly matted with fine hair-like
acerate spicules, somewhat flexuous, as is generally the case when
such are delicate in form. These spicules, abundantly interwoven
together, (Fig. 5) and combined by a very large number of minute
anchorate forms, quite separate it from any of its congeners, though
it is intimately allied, in general character, to all others of the genus.
A portion of the basal membrane shows us the early mode of develop-

BRITISH SPONGE OF THE GENUS RAPHI0DE8MA. 101

ment, and as all sponges commence by a membranous expansion, it
is interesting to take particular note of this feature. The hair-like
spicules have a fascicular arrangement though laid in flat bands, the
spicules parallel to each other. A few of the skeleton spicules,
without any defined order, cross these irregularly, as well as a few
of the finer kinds which belong specially to the membranes, and in-
terspersed, as previously stated, are scattered small anchorate spicules
(Fig. 3). Upon this membrane the sponge developes its fasci-
cules, proper to the skeleton in that regular order described as be-
longing to this and to the sponges alluded to, as congeners.

We are a long way as yet from any cognisance of the laws which
separate one species from another, but there is no reason why they
should not be similar to those operative in the vegetable kingdom.
A slight shift of a plant to fresh earth is sometimes sufficient to pro-
duce changes which would move many observers to talk of a
separate species, so that it is not only possible, but probable, the
development of a sponge under either restricted conditions of growth,
or of a more exuberant fertility, may equally change its nature and
produce a variation. I have already shown how great is the variation
with our freshwater sponge {Spongilla fluviatilis), and there can
be no reason why it may not operate extensively amongst the marine
sponges ; I cannot help thinking that, if more accurate knowledge
was obtained, it would reduce the number of species. It is,
to my mind, far more interesting and more instructive to combine
together groups under the name of variation, than add to our
already overweighted terminology by a persistent separation. I
shall, therefore, now call upon you to follow me in an examination of
the whole of the genus Raphiodesmay to show how closely they
are allied, and how much of their divergencies may arise from slight
differences of conditions under which they have developed.

Three, out of four of the species tabulated by Dr. Bowerbank,
are marked by possessing those beautiful rosettes formed of clusters
of anchorate spicules. In the species under consideration, one of
these also occurs, thus making no doubt of its close alliance (Fig.
6). But in mode of growth, as spreading over thinly, it is nearest to
that oiR.Jloreum, separated from it, however, as from all others, in the
want of the bihamate spicule. This latter form unites R. jioreum
directly with R. sordida, indirectly with R. lingua, wherein these are
found so extremely minute as to require high powers for examination.
R. Jioreum wants the tricurvate spicule oi R. sordida, or it is difficult
to see how, in their structural details, you could separate tlie one

102 J. G. WALLER ON AN UNDESCRIBED

from the other. R. lingua is the most robust of the genus, growing
to a larger size than any other ; its skeleton spicules are corres-
pondent ; we lose the clavate form, and they are simply acuate. It
differs mostly in the larger and more compound character of its
fasciculi, in which there is no pretence of the birch-like form
or of the bases or apices being coincident. The skeleton spicules
ally it to R. simplissima, which, however, is wanting in all the other
forms found in the genus.*

I have thus shown the natural alliance of the gi'oup, and how
they diverge the one from the other. Whether they must not
hereafter, be brought closer to each other, is a matter we cannot at
present decide. I confess the tendency of my mind is to reject as
evidence of distinction of species very minute details ; at best it is
arbitrary, and the result of ouic ignorance rather than of our know-
ledge. It is, therefore, with something of a pang or twinge of
conscience I feel compelled to add a new name, but I sincerely hope
it may hereafter be disposed of. I propose that of Raphiodesma
minima, which expresses the smallness of its size as found.

In the Sponge under consideration, the form of the anchorate
palmate spicule does not differ materially from that common to the
genus (Fig. 7). In its smaller size, it is very abundant on the
membranes, intermingled with its fine hair-like spicules. These latter
may be analogous to the extremely small acuate spicule of R. lingua.
It is well to note that spicules which belong to the membranes, and
generally of a minute size, are sometimes found nearly obsolete. In
few sections of R. sordida have I found in situ the tricurvate
figure given by Dr. Bowerbank, but in those of H. macilenta^ they
are extremely abundant, interweaving with the bihamates. These
latter also are often sparsely distributed in R. sordida, and vary in
size ; but this must naturally be looked for in examples not fully
developed. Dimensions of spicula, when given, must be taken with
some little reserve, for they are not constant in the same species,
and can never be depended upon as a character to distinguish a
species.

There is still, however, something further to be said on analogies,
and the harmonious alliance between divergent forms. It is inter-
esting to trace the connection of species, still more so, when through

* Refer to Dr. Bowerbank's " SpongiadaB," Vol. iii,, Plates xxxvii, xlvii,
Ixxvii, Ixxvi, xc.

t I nsc this term as rofcrring to examples in my collection which agree
with Dr. B.'s description, ))nt my argument is that it is not a species.

BRITISH SPONGE OF THE GENUS RAPHIODESMA. 103

them, we trace the connection of genera, and thus extend the
genealogy. Raphiodesma is a progression, perhaps, we may say, to
a higher development, from the simpler structm-e seen in Hymenia-
cidon. In this latter, there is no sort of regularity in the arrange-
ment of spicules ; but, in the former, there is a beginning at least
of order in the fasciculi and their disposition, which naturally leads
on to another higher development in the genus Desmacidon. Now,
in following out this natural progression, it is interesting to observe
that we carry with us the same character of spicules.

We have seen how, in Raphiodesma, there is an attempt to form a
more regular skeleton than that of Hymeniacidon, but that the net-
work is never connected. In the next genus, Desmacidon, we find
this done and perfected. Let us now see which of the species allies
itself closest with the genus in question.

Desmacidon consists of a fibrous network, well-marked and
defined, " composed entirely of spicules arranged in accordance
with the axis of the fibre, cemented together, and thinly covered with
keratode." Out of twelve species which Dr. Bowerbank has
tabulated, six present us with forms of spicules associated together
precisely like those in Raphiodesma. This is remarkably shown in
D. copiosus, where are two forms of sub-clavate spicules in the
skeleton, as in R. sordida, small tricurvate and also two kinds of
anchorate spicules very closely resembling those of the latter
species, as well as the bihamate form. So that the two species of
two dififerent genera are in this particular nearly identical. In D.
cegagropila there are the same general forms, but without the tri-
curvate. D. constrictus presents us with the same forms as the latter,
though with a remarkable development in the anchorate spicules as
well as in those of the skeleton. D. similaris has acuate skeleton
spicules, anchorate tricurvate and bihamate spicules ; D. Peachii
the sub-clavate spicule again with a divergent form of the bihamate,
&c. Lastly, that most interesting species, D. rotalis, agrees in
possessing similar bihamate and anchorate forms with an acuate
skeleton spicule.*

Thus, I think, we clearly perceive in these three genera a pro-
gressive development from a lower to a higher type, if we can so
call that, which has a more complete network in a more definite
order ; and this progress, associated with similar forms of spicules,

* For these details I must refer to Dr. Bowerbank's " Spongiadae," Vol,
iii., Plates Ixxii., pp. 265, 357; Ixiii., Ixxxiii., Ixxi., p. J 83; Ixxxix., p. 319;
Ixiii., xc, p. 327.

104 J. G. WALLER ON AN UNDESCKIBED BRITISH SPONGE.

seems to show that there is a natural connection between them. If
so, it would be a strong argument in favour of the general arrange-
ment of Dr. Bowerbank, as founded on natural conditions, which
distinguish one genus from another, yet ally them in a close bond of
union.

To recapitulate then : this Sponge, referred to the genus Raphio-
desma, is but little removed from U. sordida, and but for the
absence of the tricurvate and bihamate spicules, and the possession
of long hair-like acerate spicules in the membranes, as it were in
substitution, might easily be pronounced to be the same. It is a
problem in the future to show why such a slight divergence exists,
or to what development it is due.

Raphiodesma minima (J. G. Waller).

Sponge, Sessile, coating. Colour, in living state, unknown.
Dried, cream-white. Pores inconspicuous. Oscula, dispersed,
simple, minute. Membranes pellucid, spiculous. Spicules acerate,
hair-like, flexuous, intermingled with minute inequianchorate den-
tato palmate spicules in great abundance, and a few of larger size
dispersed and congregated in rosettes. Skeleton. Spicules sub-
clavate, subfusiform, acuate, disposed in regular fasciculi, united at
the base, but spreading out at the apex, generally keeping to the
length of one spicule ; the bases and apices coincident. In de-
velopment these fasces seem to proceed in one direction only, at
nearly right-angles to a basal axis. The same description of spicules
are also found in the membranes, but few and dispersed.

DESCRIPTION OF PLATE V.
Fig. 1. Early development of Hyyneniacidon macilenta (Bowerbank), from a

pebble found at Torquay, showing the regular arrangement of fasces

of spicules (40 diam.).
„ 2. Development of iJap^todesma wmima, exhibiting a similar arrange-
ment of fasciculi (40 diam.).
„ 3. Early development of the basal membrane, fasciculi, &c., of the

same (90 diam.).
,, 4. Skeleton spicule (200 diam.).
,, 5. Hair-like spicules of the membranes (200 diam.).
„ 6. Rosette of anchorate spicules on one corner of the sponge ; the

only one preserved (333 diam.).
„ 7. Form of anchorate spicule, showing also side view (333 diam.) The

minute examples on the membranes do not differ materially in

form, but are about half the size.

105

\

List of Objects Collected at various Excursions,

By M. C. Cooke, M.A., LL.D., A.L.S.

{Communicated May 28th, 1880).

HAMPSTEAD HEATH, FEBRUARY 20, 1880.

Alg.« —

Spirogyra quinina.

Scenedesmus qiuidricauda.
Iniusoria —

Englena viridis.

Euglena spirogyra.

Euglena pleuronectes.

Stentor Mnlleri.

Olenodinium cinetum.

Coleps hirtus.

Uroleptus lamella.

Ptyxidhim ovulum.

P'l'orodon teres.

Paramecium aurelia.

Trachelius ovum.

Euplotes charon.

Vorticella microstoma.

Infusoria —

Vorticella conx^allaria.
Protozoa —

Actinophrys.

Am<Bha guttula.

Amceha Umax.
Rotifeile —

Metopidia acuminata.

Rotifer vulgaris.

Philodina roseola.
Entomostraca —

Cyclops tenuicornis.

Cyclops seiTulatus.

ARACHNIDiE —

Tardigrada.

Orihates lacnstris, Michael.

SNARESBROOK EXCURSION, MAY 1, 1880.

Alg.e —

Stigeoclonium thermale.
Draparnaldia plnmosa.
Zygnema cruciatum, Ag.
Spirogyra nitida.
Spirogyra communis.
Ulothrix tenerrima, Kutz.
Ankistrodesmus falcatus.
Scenedesmus quadricauda.
Pediastrum heptactis.
Hydrianum heteromorphum,

Reinsch, new to Britain.
Volvox glohator.
Oonium pectorale.

Desmids —

Sphcerozosma secedens, DeBary,

new to England.
Hyalotheca dissiliens.
Euastrum elegans.
Euastrum elegans var. inerme.
Cosmarium hotrytis.
Arthrodesmus incus.
Arthrodesmus octocorne var.
Staurastrum dejectum.
Staurastruni cuspidatum,
Staurastrum arachne.
Bocidium Ehrenbergii.
Docidium haculum.

106

LIST OF OBJECTS COLLECTED BY M. C. COOKE.

Desmids —

Closterium intermedium.
Closterium linea, Perty, new to
England.
Infusoria —

Euglena viridis.
Euglena deses.
Stylonichia mytilus,
Stentor Mulleri.
Stentor niger.

Infusoria —

Stentor polymorphus.

Rotifers —

Metopidia acuminata.
Rotifer vulgaris.
Philodina roseola,
Melicerta ring ens.

Entomostraca —
Daphnia vet^da.

MILL HILL, MAY 15, 1880.

Alg^ —

Spirogyra Weberi.

Spirogyra Weheri var. Hilseana.

Spirogyra turpis.

Vaucheria clavata.
Desmids —

Closterium Ehrenhergii,

Closterium acerosum.

Closterium lineatum.

Closterium Biance.

Closterium moniliferum.
Diatoms —

Nitszchia acicularis,

Nitszcliia sigmoidea.

Nitszchia minutissima.

Synedra ohtusa,

Pinnularia viridis.

Havicula cryjtocephala.

JVavicvla sphcero^iJiora,

Cyclotella operculata.

Pleurosigma Spenceri,

Plevrosigma lacufttris.

Surirella minuta,

Cymatopleura solea. ,

Protozoa —

AwcBha princeps ?

Amcsha guttula.

Infusoria —

Cryptomonas globulus.
Cryptomonas fusca,
Euglena viridis,
Euglena deses.
Euglena pleuronectes.
Euglena spirogyra.
Euglena longicauda.
Prorodon teres.
Coleps hirtus.
Eursaria vernalis.
Paramecium aurelia.
Vorticella, very large form.
Vorticella microstoma,
Vorticella convallaria,
Dileptus folium.
Cyclidium glaucoma.
Aspidisca lynceus.
Rotifers —

Rotifer vulgaris.
Pterodina patina.
Brachionus urceolus.
Metopidia acuminata.
Furcularia sp.

107

On Two Species of Acarina believed not to have been
before recorded as british.

By A. D. Michael, F.L.S., F.R.M.S.

{Read May 28, 1880.)

PLATES VI AND VII.

The two species which I propose to bring before your notice to-
night are very different, and I am not aware that the capture of
either in Britain has been hitherto recorded ; they are two of those
exceptional and intermediate forms which produce a feeh'ng akin to
despair in the minds of classifiers, and which will not readily
accommodate themselves to the definition of any known family.
This remark is specially applicable to the first species. Both have
been previously found in Gemiany, thanks to the industry of
Dr. P. Kramer, of Schleusingen ; as, however, there is not, 1
believe, any description of them in the English language, and as,
moreover, I have been able to trace the immature stage of the first
species, and the female and some early stages of the second species,
neither of which Dr. Kramer appears to have traced, and as I have
also some points of construction to detail which the very limited
number of specimens at his command did not enable him to deal
with, I have thought that this little paper might have sufficient
interest to justify my bringing it before you.

Labidostomma luteum. Kramer.
Plate VI.

During the spring of 1878, whilst engaged in hunting for
OrihatidcB in moss growing on the ground at Epping Forest, my
attention was arrested by an Arachnid of a bright orange colour,
which appeared new to me, but which was making off with a
rapidity which did not leave any time for consideration. I secured
it in spite of its swift movements, and brought it home for examina-
tion, and during the season I captured one other specimen ; it did

108 A. D. MICHAEL ON TWO SPECIES OF ACAIIINA.

not belong to the family I was in search of, and, indeed, at first, I
had doubts whether it was one of the Acarina at all ; I, however,
soon felt that the resemblances to the Phalangidce and the Pseudo-
Scorpiones were only superficial, while those to the Acarina were in
essential characteristics ; but when I came to decide upon what
family it belonged to, it was a very different matter. There seemed
such serious objections to including it in any known family, that,
being busy with the Oribatidce, I allowed the matter to stand over,
hoping to find more specimens and investigate further. In this I
was tolerably successful, for during the season of 1879 I found a
number of specimens, both in the perfect and nymphal stages ; but
in the meantime a notice of the creature from the pen of Dr.
Kramer had appeared in the first number of the " Archiv fur
Naturgeschichte " for 1879. Dr. Kramer does not say when he
found it, but it is probable that it was before I did ; he has given it
the name above quoted. Subsequently to my finding it, Mr.
George, of Kirton Lindsey, found some specimens ; and, not being
aware of its previous capture, was as much puzzled as myself.

I cannot say that I am any further advanced than I was in 1878
in the question of what family it belongs to, and Dr. Kramer has
evidently felt the same difficulty, but he escapes from it in a way
which I confess did not strike me ; he creates a new genus for it,
says that it is very difficult to classify, and that it is not one of the
Orihatidce — an assertion which he is quite safe in making — and
there he leaves it. I must, I fear, in the main follow his example ;
but I will briefly point out the reasons why it is difficult to include
it in any established family.

Analogies.

Firstly, as to those creatures which have a certain resemblance
but do not belong to the Acarina, From the Phalangidoi it is
divided by its unsegmented abdomen, tarsus of one joint, and the
position of the genital organs. From the Scorpionid(B it is divided
by the absence of constriction between cephalothorax and abdomen,
and by the latter not being segmented, notwithstanding the singular
resemblance of the mandibles of this species to the chelicera} of
Obisium, &c.

Among the Acarina, the hard exo-skeleton covering the whole

A. D. MICHAEL ON TWO SPECIES OF ACARINA. 109

body of the adult Lahidostomma will confine it to tliree families,
viz., the OribatidcB, the Gamasince, and the Halicaridce.

It is not one of the Oiibatidce, because, firstly, the front pair of
legs in that family is invariably a true pair of walking legs ;
whereas in Lahidostomma they are hardly walking organs at all,
but mere feeling organs, as in Gam,asin(je, Cheyletus, &c. Secondly,
the stigmata of the Oribatidce are always one on each side of the
upper surface of the cephalothorax, lead into an air sac below, and
are protected by short external tubes or rings, from each of which
issues what is called a stigmatic hau* ; this arrangement is absent in
Lahidostomma, the stigmata being placed more as in Gamasime.
Thirdly, all known Orihatidce have five joints to each leg ; Lahi-
dostomma has seven. Fourthly, most of the Orihatidce are sluggish
creatm*es, and are all vegetable feeders ; Lahidostomma is very swift
and apparently predatory. Fifthly, the claws are dift'erent. The
resemblance to the Ojibatidce is chiefly in the chelate non-retractile
mandibles, and in the different parts of the sternum being united by
apodemes.*

The Halicaridce approach Lahidostomma in the position of the
genital organs and one or two other particulars, but are utterly
different from it in the formation of the mouth organs, the form
and mode of attachment of the legs, the formation of the feet, the
breathing apparatus, &c. ; and, moreover, they are entirely aquatic,
whereas Lahidostomma is terrestrial.

There remain the Gamasince, and this family seems to offer the
greatest resemblance, the mode of arrangement of the external
stigmata, the general effect of the creature, the chelate mandibles,
the mode of using the front legs, the position of the other legs, the
number of joints in the leg, the development from nymph to perfect
creature, the fact that the dorsal plate turns over and embraces the
ventral, but in the female allows it to escape when the abdomen is

* In order that my meaning may not be mistaken, I annex a shortened
translation of Professor Robin's very clear definition of the word (" Journal
de I'Anat. et de la Physiol.," 1867, 523) : — " Epidemes are parts of the
dermal skeleton of articulata, which arise from the internal face of certain
of the pieces and project into the interior of the body, but they always
arise from a single piece, and are consequently simple. Apodeynes (in the
articulata) are internal, or occasionally also external, blades, of the same
nature as the dermal skeleton, but placed at the lines of attachment of two
segments or pieces of the edges of which they form prolongations ; thus
they are always formed of two blades pressed against each other and

soldered (anchylosed) together " This character distinguishes

them from epidemes, which are formed of a single blade.

no A. D. MICHAEL ON TWO SPECIES OF ACARINA.

distended by eggs ; and many other by no means unimportant
points agree with the Gamasiuce. On the other hand, one can
scarcely venture to include it in that family in the face of the
following differences, viz., firstly, the mandibles are not retractile ;
whereas in all Gamasinoe which I know of they can be wholly
retracted within the body, often so far that it is quite startling, and
this forms a leading character. Secondly, the genital opening is on
the abdomen close to the anus instead of in the cephalothorax as in
Gamasince. Thirdly, the anus is protected by plates differing
greatly from the Gamasince. Fourthly, the palpi have four joints ;
Gamasince have five. Fifthly, the tarsus is not provided with a
caroncle. Sixthly, the joining of the segments of the sternum by
apodemes above referred to is not found in the Gamasince.

DESCRirTION.

Adult. {Plate VI, Fig. 2.)

^ Average length about . . . . -68 mm.

„ breadth „ .... -36 mm.
„ length of legs, 1st and 4th pairs

about '45 mm.

,, length of legs, 2nd and 3rd pairs

about ..... '32 mm.

The whole creature is chitinous and of a beautiful orange, and
appears divided into three parts ; the anterior of these, which is far
the smallest, is really the rostrum and mouth organs, of which the
enormous mandibles almost hide all the rest ; the second is the
remainder of the cephalothorax ; and the third, and far the largest,
is the abdomen. The whole dorsal surface is reticulated with
raised ridges enclosing sj^aces most commonly hexagonal, but very
frequently pentagonal and of other forms ; all the ridges are marked
with regular depressed transverse striae, giving them a beautifully
finished appearance (Plate VI, Figs. 2 and 8).

The rostrum, as seen from above, would appear to consist of the
mandibles only (Figs. 1 and 2, and Fig. 4), as they arise imme-
diately from the camerostomium, and from their great size hide the
whole of the rest of the organs ; their full length (as seen from
below) is more than a quarter of that of the creature, but only about
half is seen from above. Each mandible is thin, narrow, and of

A. D. MICHAEL ON TWO SPECIES OF ACARINA. Ill

very hard, clear cliitine at the points, and contmues so about a
third of its length ; thence it suddenly enlarges into a bulb, very
round on the outside, but flattened on the inner side, so that when
the two lie together they are flask or gourd-shaped. The upper
surface of the bulb is reticulated like the dorsal shield. The man-
dibles seem to be solely holding implements or nippers, as the two
joints which form the chelcB are much bowed and only touch at their
tips, but, as from their great length they would be liable to strain
and dislocation, a beautiful arrangement exists to prevent this — the
fixed penultimate joint, which is the upper one (Fig. 4,a), projects
a little beyond the moveable ultimate one, and has a strong bi- forked
or notched tip ; the inner point (Fig. 4,c) of the bifurcation is the
longest, and the tip of the moveable joint falling into the notch is
quite protected from all lateral strain. The maxillae are excessively
fine, sharp-pointed, acicular, retractile organs ; below them lies a
thin lingula, which, doubtless, with the maxillas, forms a sucking
tube. The palpi (PI. VI, Figs. 1 and 3,c) are large, and partially seen
from above ; they consist of four joints, of which the first is short,
the second much longer, the third the longest, and the fourth short,
conical, and ending in a long spine. The palpi bear sparsely
scattered fine hairs. There is a chitinous labium (Fig. 3) ending
in the lingula.

The cephalothorax seen from above is nearly twice as broad as it
is long, and is divided into two parts — a posterior, almost oblong,
and an anterior, like an ornamental collar, lower in level, forming
the camerostomium ; its shape will be seen by the drawing. The
dorsal surface bears a pair of long hairs springing from little pits,
and standing upward and forward. These hairs are beautifully
branched or pinnate ; the branches or pinnules being sub-opposite,
far apart, and very fine. One of these hairs is shown at Fig. 7. On
the ventral surface the cephalothorax, as usual, extends much further
back.

The legs are seven-jointed ; each leg is of nearly equal thickness
throughout — the first and fourth pairs are the longest, of about
equal length, the latter being a trifle the longer ; the two centre
pairs are of about equal length. The comparative lengths of the
difi'erent joints vary greatly in the different legs, and will be best
gathered from the drawing (PI. VI, Figs. 2 and 3). All the legs are
finely striated with transverse strise. The tarsi are curiously exca-
vated to receive the claws when thrown back. It is singular that
JOURN. Q. M. C, No. U. K

112 A. D. MICHAEL ON TWO SPECIES OF ACARINA.

the claws of the front pair of legs are totally different from those of
the other legs — each of the front legs has two strong unequal
claws, slightly curved, and set at a small angle. Each of the other
legs has a triple claw, the centre one strong and curved, the lateral
ones fine, short, and bent almost at right angles. Upon the sternal
surface a central longitudinal blade (apodeme) projects inward, four
transverse apodemes run from the thickened lateral ridges which
form supports for the legs, and join the central apodeme, dividing
the whole sternal surface into eight spaces. The legs are articulated
in deep cups protected by the lateral ridges, which are rough with
projecting points.

The abdomen may be roughly described as fiddle-shaped, the
anterior margin nearly straight, slighly convex anteriorly, the centre
having a small point extending over and coalescing with the
cephalathorax. The abdomen is the same width as the
cephalothorax for a short distance, then suddenly widens with an
almost square shoulder. On the side just behind this shoulder is a
small rounded projection which Dr. Kramer regards as being an eye.
I am not satisfied that it is so ; the position would be singular, and
I have not been able to observe any pigment layer or internal
optical structure ; whatever it be it is protected by a strong
spine above it. Immediately behind this projection is a second
conical one which is perforated by the external stigma, which is
conical with the point outward. There are a few spines round the
hind margin and down the notogaster. The genital and anal
apertures are placed together in the posterior part of the ventral
surface, and form a large squarish aperture with rounded corners-,
which is closed by four hinged plates or doors— the two anterior or
genital plates (Fig. 3, g) being much the largest. The eggs are very
large, and I have not ever seen more than one mature at the same
time.

The Nymph. (Plate VI, Fig 1).

The Nymph is a most beautiful creature, which it is not possible
to do justice to by uiicoloured drawings, nor have I succeeded in
mounting it for the microscope so as to preserve the colour, which is
its principal attraction. It is of a bright rose colour, with two darker,
almost crimson patches on the back, while the depressed channel and
raised margin of the abdomen are pale grey. The Nymph resem-

A. D. MICHAEL ON TWO SPECIES OF ACARINA. 113

bles the mature form, except that the chitinous shield, instead of
covering the whole notogaster, only covers about the anterior half of
it, and ends with a rounded outline ; the posterior part of the
abdomen is membranous only, and somewhat arched in the centre,
sinking abruptly into a depressed channel some distance within the
margin, while the actual margin is raised and slightly reflexed. The
chitinous shield carries the two dark red patches above-named.

The differences from all recognised families, the disproportionately
large and exceptionally formed mandibles, the differences of the
claws on the respective tarsi, the elaborate reticulation of the dorsal
surface, and the two pairs of beautiful branched hairs, besides
numerous other matters, must always make this an interesting
species.

Pygmephorus spinosus, (Kramer.)
Plate VII.

This species, which is the second that I shall introduce to your
notice, was also discovered by Dr. Kramer. It is a parasitic or
semi-parasitic species. Kramer found a single specimen upon the
mole, and figured and described it in the " Arcliiv fiir Natur-
geschichte," 1876, p. 254, He only found a single specimen, and I
am not aware that any one has found it, or at all events recorded its
capture, since. If this has not the beauty of the last described
species it is probably quite as curious ; Kramer evidently thou^fht it
most extraordinary, and he was right. His specimen was a male ;
of course he did not know that the female and immature forms were
different, nor probably did he suspect that it is not universally parasitic
in the immature stages, which seems to me to be the fact, and,
moreover, when parasitic in an immature stage, I doubt its being
confined to the mole, as I have found on flies an acarus which I can-
not distinguish from it.

The most conspicuous peculiarity is the front leg of the male,
which is shorter than the other legs, and instead of having a
pointed tarsus carrying a double claw and sucker as they do, ends in
an almost globular mass, formed of the tarsus and fourth joint,
which is very large in comparison to the size of the creature. This
tarsus carries a single deeply curved claw, proportionate in size to
the tarsus itself, and closing over a fixed chitonous projection on
the tarsus, so as to form a holding instrument of no ordinary power.

114 A. D. MICHAEL ON TWO SPECIES OF ACARINA.

(PI. VII, Fig. 3). Dr. Kramsr naturally takes it for granted tliat
the object of this is to seize and hold the hairs of the mole, and its
great resemblance to the holding claws of such Anoplura as Pedi-
culus capitis would naturally suggest the idea — which is confirmed
by the existence of holding claws in Myohia, My copies, Listro-
phorus, &c., the nearest allies. Led by these considerations, I also
at first supposed this claw to be for holding the hairs of the mole,
but I afterwards came to doubt it, my reasons being as follows, viz.,
1st, in Myobia, Mycoptes, &c., both sexes, as well as the immature
forms, have the holding claws. In this species it is only the adult
male ; if they were for holding the hairs they would be as necessary
to the females and larvae, at all events to the former, as to the male,
and their development in the adult male only seems to point to a
different use. 2nd. There are numerous other Acarina, as for
instance, Dermaleichi, Gamasince, &c., in which the adult male has
one pair of legs specially developed for holding the female, and
little used for any other purpose. 3rd. In Myobia, Mycoptes, &c.,
the mite adheres so firmly to the hairs of the mouse that it is
almost impossible to detach it ; and if one wants the mite, one
must pull out the hair — the creature frequently dies with the hair
firmly grasped in its claw. The present species does not adhere to
the hairs, as far as I could see, but may be picked off without
difficulty, except what arises from its small size, and may be obtained
by merely shaking the mole. 4th. This species is provided with
suckers to four of the other legs for holding purposes, which are
absent in Myobia, Mijcoptes, &c.

I have stated above that I do not think that this species is
parasitic in all stages ; my reason for this is that I have found a
considerable number of immature specimens (Nymphs), which, as
usual, closely resemble the female, in moss, from whence they pro-
bably attach themselves to the mole on attaining their final stage.
It is not at all unusual amongst Acarina for a creature to be
parasitic in one state and not in another ; thus, for instance, the
Nymphs of many Gamasince are parasitic while the adults are not,
and the larvse of some Trombididce will fasten themselves to human
beings, but adults will not.

Dr. Kramer found upon the mole, together with the present
species, an Hypopial creature, which he considers to be a new
species, and calls Labidophorus talpce. It is very minute, and when
living is a clour pretty creature. In the present state of the vexed

A. D. MICHAEL ON TWO SPECIES OF ACARINA. 115

Hypopus question, I do not now propose to express any opinion as
to what an Hypoima is, but I simply record the fact that I also
found Kramer's Lahidophorus talpce accompanying his Pygme-
phorus spinosus, and I did not find them separate. I do not attach
much importance to this, but, so far as it goes, it favours the views
of those — such as Megnin, Claparede, Dujardin, and Haller — who
hold that an Hypopus is a stage in a life history, not a separate
creature.

Description.

The whole creature is chitinous, somewhat transparent, yellowish
brown, with an irregular white band down the centre, caused
by th€f excretory organs showing through ; flattish on the dorsal,
slightly convex on the ventral surface. It has the appearance of
being divided into four parts, viz. : first, the rostrum, which is small
and broader than long ; secondly, the fore part of the cephalothorax,
extending from the rostrum to the epimera of the first pair of legs ;
thirdly, the hinder part of the cephalothorax ; and, fourthly, the
abdomen. The cephalothorax extends much further backward on
the ventral than on the dorsal surface. The legs of the two front
pairs are near together, as are those of the third and fourth pairs,
but there is a wide interval between the second and third pairs. The
abdomen and hinder part of the cephalothorax seem to show traces
of segmentation, a fact which Claparede observed in Mycoptes mus-
culmus, a species which, as above stated, appears to me to be more
closely allied to the present one than any other which I am
acquainted with.

Male.

Length (without legs) about

Greatest breadth „

Length of rostrum as usually carried, about

Breadth „ „ „

Length of first pair of legs about .

„ second „ „ . .

„ third „ „ . .

„ fourth „ „ . .

Rostrum, as seen from above, slightly curved in front, coming to
a sharp point at each side. It is, however, carried bent down upon

. -88

mm.

. -18

mm.

. -025

mm.

. -05

mm.

. -15

mm.

. -12

mm.

. -18

mm.

. '23

mm.

116 A. T). MICHAEL ON TWO SPECIES OF ACARINA.

the sternal surface, and there the rostrum ends in a blunt point.
The opening of the mouth is on the under side, and is usually con-
cealed by the bending down of the rostrum. The mouth organs are
minute and obscure, and appear to consist of two curved style-like
mandibles working alternately, and somewhat similar to the trian-
gular styles of Mycoptes (which Claparede regarded as the mandible
of the Sarcoptidce with the last joint become abortive) and a
maxillary lip or maxilla with the palpi almost coalescent with it.
The mouth, and probably the first stomach, seem to form a sucking
apparatus.

The cephalothorax on the dorsal surface widens rapidly, so that
the fore part of the cephalothorax and the rostrum together form a
truncated triangle. The whole length of the under surface of this
part of the cephalothorax is occupied by the great round coxa? of
the first pair of legs. A little behind these the cephalothorax
widens suddenly over the coxas of the second pair of legs, and then
sweeps outward until it attains the greatest width over the centre of
the coxae of the fourth pair of legs, whence it narrows sharply at
the insertion of the abdomen. The posterior angle of the cephalo-
thorax projects and forms a shoulder which carries a spine directed
backward close to the abdomen and almost reaching its posterior
margin. The abdomen is almost square, with the hind corners cut
away ; the posterior margin transparent and retractile.

The anus is small and subterminal, but more on the under than
the upper surface. The legs are five-jointed. The coxae of the
first three pairs are very large, and look globular. The two first pairs
are set in indentations at the side ; the third pair are more under the
body, but still at the lateral margin. The fourth pair are entirely
different in shape, much longer, set further under the body, thickest,
almost straight at the inner edge, shortly afterwards narrowing,
becoming tubular, and curving backward and outward. The tro-
chanters of the first three pairs of legs are much narrower than the
coxae, and seem almost fitted on to the exterior surface thereof. In
the third pair in particular the coxae are really indented to receive
them. The trochanter is the largest joint, except the tarsus, and,
in the third pair, is the longest joint of all. In the fourth pair it
is only slightly longer than the coxa. The third joints (femurs)
are short and sub-cylindrical in each leg, but slightly wider at the
distal extremity. The fourth joint in each leg, except the first, is
somewhat similar in shape to the tliird, but nearly twice the length.

A. D. MICHAEL ON TWO SPECIES OF ACARINA. 117

In the first pair it appears to have coalesced with the tarsus (unless,
indeed, the projection hereinafter mentioned be the homologue of
the tarsus), and together they form a great club-like mass which is
the leading characteristic of the creature, and which is larger than
the whole rostrum, and looks utterly out of proportion to the animal,
giving it a most comical appearance when walking. A little below
the centre of the anterior margin of this mass a great clear chitinous
blunt tooth projects straight forward. It has on the lower surface
an appearance of being articulated, and may possibly be the homo-
logue of the fifth joint ; but I do not think that this will turn out
to be so. It appears to me that the great single claw is articulated
not to the tooth, but to the mass before spoken of just where the
tooth springs, and that, therefore, the tooth would more probably be
the homologue of the absent second claw. The single claw which
terminates this leg is as disproportionately large as the tarsus which
carries it, somewhat bulbed near its insertion, the bulb striated with
curved ridges. From the bulb the claw turns almost at right angles,
and is curved, thick, bluntly-pointed and striated with oblique
ridges on the inner surface. There is not any sucker to this leg.

The tarsi of the other legs are totally different, they are longer
than the third and fourth joints put together, elegantly tapered, and
terminated by a double claw set on a long peduncle; the claws stand
almost opposite to each other, and are short, stout, very sharply
curved, and have a sort of short inner claw with a pad or brush
under them in the second and third pairs of legs ; those of the
fourth pair are longer, slighter and of a more open curve, and lie
more against one another than the others ; the peduncle is straight
in the second and third pairs of legs and is continued below the
claws and terminated by a bell-shaped sucker. In the fourth pair
the peduncle is very long, the claws are terminal, and there is not
any sucker.

The skeletal strengthening of the sternal surface appears to be as
follows : A central chitinous external ridge runs from the
caraerostomium to the hind margin of the cephalothorax, and sends a
branch partly round the camerostomium. Almost immediately
behind the cox^ of the first pair of legs a strong chitinous band
starts from the sternal ridge, and passes entirely round the creature
inside the dermal skeleton ; this is conspicuous, both from- the
dorsal and sternal aspects, in consequence of the transparency of the
chitine. Near the lateral margin of the body this ridge joins the

118 A. D. MICHAEL ON TWO SPECIES OF ACAEINA.

epimera of the first pair of legs, which are short and broad. Be-
hind the second pair of legs a third ridge leaves the sternal one, and
extends to the edge of the body, where it joins the epimera of the
second pair of legs which send broad bands beneath the skin, sup-
porting the coxje of these legs and joining the epimera of the first
pair. A fourth ridge starts from the sternal ridge opposite the
cox£e of the third pair of legs, and inclines slightly backwards, but
only runs about half way across the abdomen. A fifth ridge runs
along the posterior margin of the cephalothorax, and it bears in the
centre a triangular plate. Each epimeron of the third pair is a
small, almost square, piece at the anterior margin of the coxae ; a
little outside the centre it sends a strong shaft outward and slightly
backward, where it joins at somewhat less than a right angle to a
long chitinous bar, which runs forward along the side of the
cephalothorax until it nearly reaches the coxse of the second pair,
where it turns round and soon splits into several short, fine, radiat-
ing spines or blades. The epimera of the fourth pair are short bars
between the coxte of the third and fourth pairs, and send a thin,
transparent, curved blade right across the third pair of cox^e. The
stigmata are most singular, consisting of short, flexible, bell-shaped
projections immediately behind the first pair of legs ; they are set
on a tubular peduncle, which communicates with a sub-cylindrical
air sac or peritreme, which lies along the lateral margin of the body;
from this two bunches of trachese start, one near the middle, and
one at the posterior extremity ; they are distributed to all parts of
the body. Five principal bands of muscle may be clearly seen
inserted in each coxa of the first two pairs ; they arise from the
sternal and lateral ridges before mentioned, each set of five embrac-
ing an angle of the sternal and lateral ridges, and proceeding
obliquely forward to the coxa, becoming closer together as they ad-
vance : the muscles inserted into the third coxse run almost straight
across from the sternal ridge, those of the fourth pair run obliquely
backwards from the sternal and short ridges.

The excretory organs form an irregular central band near the
dorsal surface ; they are generally filled with the usual white opaque
granular matter.

The distribution of the hairs is as follows : a pair of very long
ones each side on the above-mentioned shoulder pointing backwards,
and almost reaching the posterior margin. A strong hair standing
outward from the lateral margin, between the first and second, and

A. D. MICHAEL ON TWO SPECIES OK ACAHINA. 119

another between the second and third pairs of legs, two pairs on the
back standing nearly upright, and two pairs near the posterior
margin, all long ; and one other pair on the margin shorter, and
lower in level. There are conspicuous hairs on almost every joint of
each leg, those on the tarsi being the longest and most numerous ;
those near the insertion of the legs are sparsely pectinated. The
ventral surface has a pair of hairs.

Description of the Female.

The principal differences are that it is slightly smaller in size than
the male and the cephalothorax much shorter, the abdomen wider
and not square, but gradually diminishing, and with a rounded
posterior margin. The first pair of legs are thin and small, entirely
without the great club and claw of the male ; the second pair, on
the contrary, are thicker and stronger than in the male, but other-
wise similar ; the two hind pairs of legs are practically similar to
those of the male. The hairs are all longer and stronger than in
the male, and much more numerous round the hind margin and on
the ventral surface ; otherwise similar in position. The vulva ap-
pears to be in the central line of the ventral surface, but just behind
the fourth pair of legs, the labiae a little separated posteriorly, and
with a fine undulated sternite in front of it. The second lateral
ridge of the sternal skeleton is far less conspicuous than in the male,
and is more curved, and bends backward in two loops until it joins
the third ridge. The fourth ridge is straight, and goes entirely
across the body. The fifth ridge, on the contrary, is almost absent,
unless the sternite mentioned above be its homologue ; the fourth
epimera send bands above and almost round the hind legs.

The rostrum of the female is longer than in the male.

DESCRIPTION OF PLATES VI, VII.
Labidostomma luteum. Plate VI.

Fig. 1. — Ntmph. — (a) The mandible, (b) Ultimate movable joint of ditto,
(c) Palpus, {d) Cephalothorax, (e) Chitonous plate on abdomen, (/)
Depressed channel, (ff) Raised reflexed margin, (It) Lateral projec-
tion stated by Kramer to be, or to be furnished with, an eye, (i).
Stigma.

Fig. 2. — Perfect Creature. — The above explanations (except eto g) would
be applicable to this figure also.

120 A. D. MICHAEL ON TWO SPECIES OF ACARINA.

Pig. 3. — Perfect Creature. — Under side {a b and c) as above. The
labium and lingula are seen lying between the mandibles. 1, coxa,
Ist pair of legs ; 2, ditto, 2nd pair ; 3, ditto, 3rd pair; 4, ditto, 4th
pair, (d) Central apodeme, (e e) Transverse ditto, (//) Lateral
i-idges, (f;) Genital plates, (^) Anal ditto.

Fig. 4. — Mandible. — (a) Penultimate joint, (b) Outer point of ditto, (c)
Inner point, (d) Long hair carried by this joint, (e) Moveable
ultimate joint.

Fig. 5. — End of the tarsus and the claw of one of the first pair of legs.

Fig. 6. — The same part of one of the other legs.

Fig. 7. — One of the branched hairs.

Fig. 8. — A portion of the Chitonous dorsal surface, showing the reticu-
lation.

Pygmephorus spinosus. Plate YII.

Fig. 1. — Adult Male. — (a) Rostrum, {b) Club formed by coalescence of 4th
and 5th joints of Ist pair of legs, (c) Single claw of ditto, id)
Quadruple claw of 2nd and 3rd legs, (e) Sucker below ditto, (/)
Double claw of 4th pair of legs, (g) Stigma.

Fig. 2. — Female. — The dorsal shield is removed to show structure, (a)
Rostrum, (6) Stigma, (c) Air sac, (d) Main trachea starting, with
other smaller ones, from centre of air sac, (e) Trachea starting
from end of same, (/) Excretory organs.

Fig. 3. — First Leg of Male. — (a) Coxa, (6) Trochanter, (c) Femur, (d)
Coalesced 4th joint and tarsus, (e) Tooth-like projection, (/)
Claw, (;/) Pectinated hairs.

Fig 4. — Mouth organs seen from below.

121

■| „ Mr. J. W. Reed.

PR 0 CEEDINGS.

April 23rd, 1880 — Ordinary Meeting.
Dr. T. Spencer Cobbold, F.R.S., &c., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club— Mr. Archibald Seth Smith, Mr. Fredk. Stewart, Mr. Arthur
Williams, Mr. Henry John Whitney, and Mr. G. W. H. Gates,
There were four proposals for ballot at the next meeting.
The following donations to the Club were announced : —

" Proceedings of the Royal Society " ... from the Society.

" Proceedings of the Royal Microscopicari

Society" ... ... ... J *' "

"The Analyst" ... ... ... from the Editor.

*' Rutherford's Outlines of Practical His-
tology"
*' Annual Report of the Geologists' Associa-") « f}i Q * f

tion " ... ... ... )

" Inaugural Address of the Epping Forest")

Natural History and Field Club " j " "

♦' Proceedings of the Norfolk and Norwich |^

Natural History Society " ... )

" Annual Report of the Norfolk and Nor-")

wich Natural History Society ".. . )

" Popular Science Review " ... ... from the Publisher.

*' Science Gossip " ... ... ... „ „

*' Proceedings of the Belgian Microscopical") » f>i q • f

Society" ... ... ... j ^^^ ^ ooie y.

" The Midland Naturalist " ... ... in Exchange.

"The American Journal of Microscopy" ... „

" The American Naturalist " ... ... „

"The American Monthly Microscopical)

Journal" ... ... ... j

"Annals of Natural History " ... ... Purchased.

"Grevillia" ...

5 Slides ... ... ... ... from Mr. E. T. Newton.

8 Slides ... ... ... ... „ Mr. J. W. Reed.

A portrait of Prof. Quekett from Prof. Rupert Jones, per Mr. T. 0.

White.
Mr. T. C. White said he had very much pleasure in presenting this last

1-22

named donation from Prof. Eupert Jones. He had the pleasure of know-
ing Prof. Quekett 20 years ago, and could testify to the correctness of the
likeness. Although too large for the album, this portrait would, no doubt,
be carefully kept and highly valued by the members of the Club.

The thanks of the meeting were voted to the donors.

Mr. Ingpen said it would be remembered that some time ago a donation
of £10 was received from Miss Morrell, who desired that it might be
expended in some way for the benefit of the Club. It had been decided by
the Committee that it would be most beneficial to purchase with this money
some additional apparatus for the microscopes belonging to the Club, and
they had therefore obtained from Mr. Crouch a lin. and i objective, a
polariscope, a pair of No. 2 eyepieces, a single No. 3 eyepiece, and a
Webster's condenser. The purchase of these would absorb the amount at
disposal, and he was quite sure that the members would agree with him as
to the usefulness of the investment.

The President said they would also be pleased to hear that Mr. Crouch
had added to these articles a silver side reflector, which he presented on his
own account.

The Pi'esident regretted to announce that since their last meeting they .
had sustained a serious loss in the death of Dr. Sharpey, who was not only
an old friend of the Club, but one to whom the Club owed the privilege of
meeting in that room, for it was he who first expressed to his colleagues
the design and utility of the new Society. It was therefore most fitting
that the Club should express its sense of their loss, and that the same
should be suitably conveyed to the Dean of the Faculty of University
College. He happened to know Dr. Sharpey some 30 years ago, before he
came to London, and knew that he was one of those who always was ready
to do all he could for the advancement of young students, and he lent in
this same way a helping hand to a young body of microscopists, such as they
then were. What he had done for many individuals epitomized what he
had done for the Club, and what he had done for the Club epitomized what
he had done for science at large. His name remained indelibly connected,
first with the Edinburgh College, and afterwards with University College,
to the time of his lamented decease.

A vote of condolence was then put to the meeting, and carried
unanimously.

A paper by Dr. Stolterfoth, " On a Simple Method of Cleaning Diatoms,"
was read by Mr. Ingpen.

Mr. T. C. White thought that though the method proposed might appear
a novel one, thei-e seemed to be a great deal of truth in it ; and all who had
tried knew what was the trouble of using acid. He read a short time ago a
paper by Prof. Stanley Jevons, " On a Method of Getting Rid of Dirt by
Means of Soap." He put some chalk into a trough of water, and when it
was quite dissolved he put a small particle of soap into it, and in a short
time afterwards the particles of chalk were seen in agitation, and the
lirownian motions were very rapid.

Mr. Thos. Spencer said he should imagine that the action Avhich took

123

place in this instance arose from excess of alkali, which so often occurred
in soap. He had himself tried, and given up soap alto^ethar, and in its
place he now ased Hyposulphite of Soda, which was the best detergent
known ; it not only did not do any mischief, bat actually dissjlved the dirt
away. For very many purposes he knew of nothing so good as this.

Mr. Ingpen agreed with Mr. White that the action was rather mechanical
than chemical.

Mr. Michael did not doubt that there was a mechanical action at work
due to the Brownian movements, but thought there was also a chemical
action in the process.

Dr. Matthews said that the great majority of soaps contained Silicate of
Potash.

Mr. Spencer said that the soap which contained Silicate of Soda was
certainly the best of all.

Mr. Ingpen suggested that they could get a soap made on purpose, if it
were needed.

Mr. Spencer said that was of course supposing that soap was the best
thing to use, which it was not.

Mr. J. G. Waller read a paper, " On a New British Sponge," to which he
gave the name of " Raphiodesma mifiima.**

Mr. Priest said he had been working at the same subject for some time,
and found a specimen of Raphiodesma sordida at Ramsgate last year, which
he thought was very much like one which Mr. Waller then thought was
Bymeniacidon macilenta ; and on reference to Dr. Bowerbank's book he
found the close agreement which Mr. Waller had described.

The President said that the attention given to the paper showed the
interest which had been taken in the subject. He did not think that any
blame should be attached to those workers who had opened up these
subjects years ago, because they had not minutely followed out every detail
— they had done useful service in opening out the subject, and in preparing
the way for special work such as Mr. Waller and others had been able to
accomplish.

Mr. Martinelli read a paper " On the Structure of the Stomata in the
Holly," which he illustrated by numerous photo-micrographs.

The President thought the photographs gave a remarkably good general
idea of what these Stomata appeared to be.

Mr. W. H. Grilburt commented upon the paper, and suggested that some
of the appearances observed were due to the peculiar mode of preparation
adopted.

Mr. Martinelli, in reply, admitted the possibility of this view.

Mr. E. T. Newton described a simple section cutting machine, which
was exhibited by Mr. Curties. He did not claim it as being either entirely
new, or that it was to supersede everything else, but it was simple in
action and construction, and was produced at a moderate cost. It had the
usual hole in the centre, and a means of raising the wax up as required,
with the very great advantage that the cylinder containing the wax was
loose in the central tube^ and could therefore be raised up or pushed down

124

with eqnal facility. The wax was also prevented from turning round by
means of a small screw in the side.

The thanks of the meeting were unanimously voted to the authors of
papers.

Announcements of meetings for the ensuing month were then made, and
the proceedings terminated with the usual conversazione, at which the
following objects were exhibited : —

Section of Peppercorn

Net-wing Fly, Tryyeta reticulata

Diatoms on Polysiphonia

Melicerta ring ens

Section of Finger of Orangoutang ...

Epidermis of Holly

Section of leaf of Ficus elasticus

Gizzard of Flea

Pollen of Palm, Chamcerops fortunei ...

Mr. F. W. Andrew.
Mr. F. Enock.
Mr. W. H. Gilburt.
Mr. H. R. Gregory.
Mr. J. J. Hunter.
Mr. A. Martinelli.
Mr. J. W. Reed.
Mr. C. S. Rolfe.
Mr. J. G. Tasker.

Attendance — Members, 77 ; Visitors, 8.

May 14th, 1880. — Conversational Meeting.

The following objects were exhibited : —
Section of Luxullianite
Bahdactylus
Section of Clematis

„ Horn of Rhinocerus

Polycistina

Plant Hairs and Crystals
Volvox glohator, Chtstophorus, &c.
Sponge, Grantia ciliata
Zoophyte, Crisia ehurnea
Head of Cattle-fly, Chrysops relictus (male)
Flea of Fly, Hypopus muscorum
Circulation of Blood in a Tadpole
Fern, Lastrea spinulnsa
Soundings H.M.S. Challenger
Scales of Butterfly, P. hrassica ,
Diatoms from Cuxhaven
Leaf Pelargonium quercifoliilm
Young Water Newt
Stephanocerus Eichornii
Melicerta ringens ...
Bur sella truncatella
Desmids, Diatoms, &c.
Section of Upper Jaw of Mole
Jaw of Cat

.. Mr. F. W. Andrew.

.. The Club.

.. Mr. F. Coles.

.. Mr. A. L. Corbett.

>> >f

.. Mr. T. Cnrties.
.. Mr. A. Dean.
.. Mr. C. G. Dunning.

» j>

.. Mr. F. Enock.
.. Mr. H. Epps.

>> »>

.. Mr. A. Fieldwick.

Mr. H. G. Glasspoole
Mr. W. Goodwin.
Mr. R. H. Gregory.

» >»

Mr. J. D. Hardy.
Mr. G. Hind.
Mr. J. J. Hunter.

125

Hylra fusca ... ... ... ... Mr. J. Mackenzie.

Euglena viridis ... ... ... ... Mr. A. Martinelli.

Section of Tail of Rat ... ... ... Dr. Matthews.

„ Tongue of Cat ... ... ••• ,» „

M^marpiiZcTie^Zus and other species of Prociofj'wpi Mrs. Michael.

Sphacelaria filicina ... ... ... Mr. A. D. Michael.

Jungermannieta ... ... ... ... „ „

Section of Labrador Spar ... ... ... Mr. W. Moginie.

„ Syenite ... ... ... „ „

„ Avanturine ... ... ... „ „

,, Iron Sandstone ... ... ... Mr. H. Morland.

Pond-life, from the Serpentine ... ... Mr, J. M. Offord.

Diatom — Catnpylodiscus, n.s. from Crescent City Mr. C. N. Peal.

Planaria lactea ... ... ... ... Mr. C. Le Pellej.

Polycistina ... ... ... ... Mr. G. D. Plomer,

Diamond Beetle ... ... ... ... „ ,,

P. angulatum with l-25in. oil-immersion O.G. j ^^^^^^- ^""^^^^ ^""^ ^^^'

I land.

Leg of Diamond Beetle, Cyphus gemmari ... Mr. F. Reeve.

Elytron „ „ „ „ ... „

Fern Scales ... ... ... ... Mr. H. J. Roper.

jEcidium ranunculacearmn ... ... ... „ „

Section of Lemond-rind ... ... ... Mr. J. W. Reed.

,, Leaf of Pineapple ... .... „ „

„ Rhizome of Pteris aquilina ... Mi*. J. C. Sigsworth.

,, Leaf of Yucca gloriosa ... ••• >» »

Petal of Viola odorata ... ... ••• >, „

Section of " Gabbro," from Silesia ... ... Mr. G. Smith.

„ Nephaline Dolerite ... ... „ „

Cyclosis in ValUsneria spiralis ... ... Mr. J. Smith.

Section of Cat's Tongue ... ... ... Mr. T. L. Waterman.

Young Mussels ... ... ... ... Mr. F. H. Wood.

Attendance — Members, 125 ; Visitors, 56.

May 28th, 1880. — Ordinary Meeting.
Dr. T. 8i'ENCER CoBBOLD, F.R.S., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club : — Mr. Samuel Bennett, Mr. William Groves, Mr. Andrew Miles,
and Mr. J. M. Williams.

Nine gentlemen were proposed for membership.

The following additions to the Library and Cabinet were announced : —
" Proceedings of the Royal Society " ... from the Society.

•' Proceedings of the Geologists' Association " „ „

126

" The American Naturalist " ... ... in exchange.

*' The American Monthly Microscopican
Journal" ... ... ... )

" The Midland Naturalist " ... ... „ .

" The American Journal of Microscopy "... „

"The Analyst" ... ... ... from the Publisher.

** Paper on the Valves of the Diatomacece " „ Mr. Julien Deby.
" Lubbock's Monograph of 2'/iysanitr<» " ... „ the President.
'■ Paper on Trichinosis " ... ... ,, ,,

*' Annals of Natural History '' ... ... Purchased.

A collection of 20 slides of Fleas... ... from the Dinner Com-

mittee.
Mounted Specimen of Gigantic Flea, sp. ?... Mr. J. G. Tatem.
The thanks of the Clnb were voted to the donors.

Mr. Ingpen read a letter from the Secretary of the Ealing Microscopical
Society thanking the members of the Club who assisted the Society on the
occasion of their recent Soiree.

Dr. M. C. Cooke communicated a list showing the results of his excursions
to Hampstead Heath, Mill Hill and Snaresbrook, and exhibited a large
number of drawings of objects of interest which he had found. Some of
these he presented to the Club.

The thanks of the meeting were voted to Dr. Cooke for his communica-
tion and donation.

Dr. Matthews said he was very glad to get such a good list as Dr. Cooke
had presented them with, for it would be remembered that some few
months ago he had taken occasion to publicly lament that so few of the
results of their excursions should be allowed to appear.

Mr. Hardy thought that it might be a good suggestion that those who
attended the excursions should follow Dr. Cooke's plan and make drawings of
what they found as well as give in their individual reports.

Dr. Cooke said that paper uniform in size with that upon which he had
made his drawings had been long ago provided, and might be had from the
Secretary by any members who would make this use of it.

Mr. J. W. Reed asked if Dr. Cooke would allow these drawings to be made
use of as references on future occasions ?

Dr. Cooke said that the Algoa would be published at some future
time, and he should require them, but the others were quite at the service
of the Club.

Mr. Ingpen thought it only right to say that several attempts had been
made from time to time to g^t the results of the excursions properly com-
piled, and that they had been more or less freely responded to by the mem-
bers, but they had seldom obtained anything beyond mere lists of the most
ordinary species. Anything new was made the subject of a special com-
munication, probably to some other Society than their own.

Mr. T. C. White said he could corroborate what Mr. Ingpen had said as
to the manner in which they had endeavom-ed to carry out this suggestion,
and the results they had met with. In many cases they obtained lists of

127

genera without species, and there were often considerable doubts as to their
accuracy. He thought that some sort of sub-committee might perhaps be
appointed to carry out the suggestion, and thereby l^ey might be better
able to fulfil one of the objects for which the Club was originally started.
It would not only be of interest to know what things were to be found in
the districts visited, but it was of great importance to ascertain how
far the same things were found in different years in the same localities.

Mr, Michael said it appeared to him that nothing was a greater waste of
time than for a man to go out and collect a lot of things of various kinds,
and then to attempt to identify all he had found. He might spend days in
identifying an object, and find, after all, that he had only got something
well known to others. Unless, therefore, the things found could be classi-
fied and handed over to specialists who were competent to " spot " a new
thing amongst them directly, he was afraid very little practical value would
come of the matter,

Mr. White said that the first difficulty which met them was that they got
all sorts of things mixed up together, and it was often most difficult to
separate them.

The following communication from Mr. J. G. Tatem to Mr. Curties, de-
scribing the large specimen of Flea presented to the Cabinet of the Club,
was read by Mr. Ingpen : —

" In begging you to offer for the acceptance of the Quekett Club, and for
deposit in its Cabinet the large Flea I send you, it is as well that it should
be accompanied by such information as I am able to give concerning it.

" It was taken dead and almost decomposed from the fur of a ferret which
had been dug from a rabbit-hole at Harpenden, near St. Albans, and has
been in my possession since 1869. It is a species certainly very little
known, and, is, I believe, as yet unnamed and undescribed, no notice of it
being obtainable from either text book or periodical, so far as I am aware.

'* Mr. Champion, however, exhibited at the Entomological Society's meet-
ing on the 3rd of February, 1873, a large species of Pidex, taken by Mr.
T. Walker in a mouse's nest, in the Isle of Sheppy, but no further reference
to it occurs in the Society's Transactions. The Rev. W. Locock commu-
nicated to the December number of " Science Gossip " the capture of
another large flea on a mole at Clifton, seeking information in regard to it.
Now, these large fleas may be, and probably are, identical with my speci-
men, but without comparison or exact description of them there can be no
certainty in the matter.

** Three years ago, a former female servant, residing at Nettlebed, Oxon,
calling here, ' so regretted that she could not bring me the very large flea
which hopped from her dress that morning, but which she could not catch,*
calling it the ' grass flea,* and stating ' that it was not uncommon in her
neighbourhood on the hay- makers while in the fields,' and adding, ' that it
did not bite.' A liberal reward offered each year since, has, however,
failed to procure me a single example.

" Accepting this information as correct, and applying to our subject, and
seeing that it has (in all probability) been already met with on more than
JODRN. Q, M. C, No. 44, L

128

one kind of animal, this rare species of Pulex may be looked for
with more or less prospect of obtaining it on any one of them, you will see
that its most noticeable peculiarities, beyond its unusual size — nearly |in. —
are that the head has foar rows of fine hairs arranged transversely, a
frontlet armed with strong spines, the two anterior being somewhat directed
forward to permit the movements of the large, rather feeble -looking trophi,
and a spinose occiput. The dorsum and abdomen are hairy, the fifth, sixth
and seventh segments banded with spines, that on the fifth crossing the
dorsum, those on the sixth and seventh limited to the sides. The pygidium
is overhung with long spinose hairs. The coxae are very broad, the anterior
pair hairy. The femora have a few scattered hairs, while the tibise are
fringed with long spiny hairs, as are also the first joint of each tarsus. A
remarkable point of internal structure may still be observed — it has two
spermatothecsB ! All other fleas, of which I have any knowledge, have but
one, and that on the left side.

" This specimen is also of further interest, as still containing within it four
of the Uippopus (Acarellus) puHcis, the subject of a paper in the M.M.J,
for 1872, of Mr. M'lntyre's comments thereon, and of reference by Mr.
Andrew Murray in his work on Economic Entomology."

The President said that the largest flea he had previously seen was
one exhibited by Mr. Westwood at the Linnean Society, and which he
called Pulex imperitor. But the one now sent to them by Mr. Tatem was a
giant even to that one.

Mr. Michael said that almost all insects varied immensely in size, and
this was especially the case amongst the Lepidoptera — some being nearly
double the size of others. No doubt size was a guide, but, taken alone,
it was one of the most unsatisfactory guides in determining species.
Where, however, there were differences in structure, it was, of course, of
more importance.

Mr. Ingpen said he had been asked to describe a little contrivance for
straining out Volvox and other things from water. It consisted of an in-
verted glass syphon, with a piece of fine muslin tied over the shorter leg.
The water it was desired to strain was poured gently into the longer
leg and ran over the short end, the objects floating in it being retained by
the muslin.

Mr. Keeves suggested that it was a photographer's albumen strainer — so,
at least, Mr. Ackland called it.

Mr. Ingpen wondered whether Mr. Ackland had ever used it for collecting
purposes, and, if so, that he did not let them know of it, as it seemed to
answer the purpose very well.

The President said it was often noticed that ingenious devices struck
ingenious minds at the same time, there being no collusion but only coin-
cidence.

Mr. A. D. Michael read a paper on Labidostomma luteum and Pijgmephorus
spinosus, two species of A carina hitherto unrecorded as British. The sub-
ject was illustrated by diagrams.

129

The thanks of the meeting were unanimously voted to Mr. Michael for
his paper.

Mr. W. H. Gilburt remarked that this field of research which Mr. Michael
had made so much his own, was a very wide one, and one in which there
was much to be done. If every one would bear this in mind, they might
be able often to help Mr. Michael by collecting such things, as they had
opportunity. On two or three occasions he had come across mites, and had
passed them over to Mr. Michael for examination. He suggested this,
because, although it was very easy to find them, it was not so easy to say
whether they were rare or not.

Mr. T. C. White enquired what was the most favourable method of trans-
mitting these things when they were found ?

Mr. Michael said they would travel very well during a short journey in
wet moss or lichen, but if some days would be occupied in transit, they
should be put in glycerine or acetic acid.

Mr. Curties asked if they would keep for some days in moss ?

Mr. Michael thought they would not.

Announcements of excursions, &c., for the ensuing month were then
made, and the proceedings terminated with the usual conversazione, at which
the following objects were exhibited : —

Section ot Poly thalawda, from. Bomb&j ... Mr. F. W. Andrew.

Anchors and Plates of Synajpta in situ . . . Mr. F. Coles.

Notonecta glauca ... ... ... ... Mr. F. Enock.

Bog M.OBB, Sphagnum ... ... ... Mr. A. Fieldwick.

Leaf of Deutzia gracilis, stained ... ... „ „

Spine of JEJchinus ... ... ... ... Mr. A. C. Goodinge.

Ophrydium versatile ... ... ... Mr. H. G. Gregory.

Acarus, Pygmephorus spinosus ... ... Mr. A. D. Michael.

„ Labidostonima luteum ... ... „ „

Mandible of ditto ... ... ... ... „ „

Amphipleura pellucida, in balsam, shown by -^ Messrs. Powell and Lea-
l-25in. oil-immersion O.G., and oil-immer. > , j
sion condenser ... ... ... j

Leaf of Sweet-briar, stained ... ... Mr. J. W. Reed.

Section of Sweet-briar Leaf ... ... „ „

Diatoms ... ... ... ... ... Mr. J. WooUetfc.

Attendance — Members, 84 ; Visitors, 4.

130

Further Observations on Micro-Filari^, with Descrip-
tions OF New Species.

By Patrick Manson, M.D., Amoy.

Communicated {with a Prefatory Note) by the President.

{Read June 26th, 1880.)

PLATES VIII, IX, X.

The interesting letters which I have now the honor to submit
to the Club must be regarded as a continuation of Dr. Hansen's
former communication. Not merely does Manson refer to an
abundant confirmation of his discovery respecting the periodical
emigration and immigration of the human larval filariae, but he
here supplies us with a new fact, pointing apparently to the
lymphatic system as the probable home or head-quarters, so to say,
of the sexually mature worm (Filaria Bancrofti). For myself,
this ** find " has especial interest, inasmuch as it was the circum-
stance of my detection of the chorional envelope of an ovum in
blood sent from Australia and my communication of the fact to Dr.
Bancroft that led to the original discovery of the sexually mature
worm. This has been acknowledged by Bancroft. Curiously
enough, in a letter received only a few days back, Dr. Sonsino (who
has largely contributed to our knowledge of the filarial, as they
occur in Egypt), requested my opinion as to the precise residence or
" ordinary abode " of the sexually mature Filaria. I think Hanson's
find tends to confirm the view that I have already entertained, if not
decidedly expressed, that the home of the adult worm is to be found
in the lymphatic channels. I own that the circumstance of my
original " find " is somewhat puzzling, but the presence of the
ovum in blood sent to me from Australia may have been accidental.
Dr. Bancroft's detection of the adult worm in an enlarged gland
or " lymphatic abscess " and Dr. Hanson's present " find " point to
the conclusion just advanced. Not only as regards size, but also
as regards contour, do the empty ova detected by Manson and

p. MANSON ON MlCRO-FILARIiE. 131

myself absolutely correspond. The instant I saw Manson's figure
of the '* ovum," I recognised its identity with the empty egg-
envelope found in the blood of the Australian.

In the fii'st of the two letters forming the present communi-
cation, Dr. Manson describes new parasites from birds that are
common in China. As he has given them no names, I have called
one of these Filaria piece medice (also found in Gracupica) and
another Filaria corvi torquati. I may mention that I have already
applied the term Filaria Mansoni to another worm which infests
the eyes of domestic fowls in China. (" Parasites,^ p. 441).

The subject of avian nematode parasites is already becoming
sufficiently complicated. Long ago Dr. Sonsino, now resident at
Tantah, communicated to me some account of his discovery of Micro-
filarise in the Egyptian crow, and the subject has since been much
extended by Lewis in regard to the Indian crow, which, if I recol-
lect rightly, is the same bird by another name (Corvus splendeiisj.
In fact nematoid hfematozoa have been found in a great variety of
birds, and not unnaturally those found in crows have been conjec-
tured to hold some genetic relation with the very common Filaria
attenuata which infests, indiscriminately, crows, rooks, nutcrackers,
magpies, and even also the ground woodpeckers {Colaptince) . Evi-
dently we are only on the threshold of this enquiry, and the eluci-
dation of the subject is beset with practically endless difficulties.
In reference to the specimens sent by Dr. Manson, I regret to say
that the bottle containing adult filariee from Corvus torquatus ar-
rived broken up into a hundred fragments, but the bottle on the
table, as the label states, shows a number of '^ Chinese magpies'
hearts, with parent filariae in the semilunar valves, both aortic and
pulmonary." The pen-and-ink illustrations sent by Dr. Manson
were accompanied by brief indications of their separate nature.
These I have carefully collected and arranged in such a manner as
to form special plates. I have also ventured to amplify the de-
scriptions in order to exi^lain the plates made up from the sketches.
The latter, though little more than outlines, have evidently been
executed with great care, and thus they will become especially
valuable to systematists and others desirous of studying the genesis
of avian filariae.

In connection with Dr. Manson's previous paper, I may mention
that, as supplementing the ordinary and large circulation of our Trans-
actions, separate copies have been transmitted to savans resident in

132 p. MANSON ON MICRO-FILARI^, WITH

foreign countries, and although acknowledgments on the part of
investigators are now generally held to be unnecessary, several
foreign gentlemen interested in Manson's researches have expressed
their sense of gratification at the progress helminthology is making
at the hands of our countryman in China.

T. S. COBBOLD.

"Amoy, 19th April, 1880.
''T. Spencer Cobbold, Esq., F.R.S.

" Dear Sir, — I read in the Lancet of 6th March, with much in-
terest, the short account of the meeting of the Quekett Club, on the
previous week, and the discussion on Filaria. My only regret is
that I did not supply you with fuller details of my observations and
more decided proof of my assertion about the periodicity of the
filaria's appearance in the blood. I am very grateful to you for the
trouble you have taken in bringing these forward, and cannot but
feel that, unless for your kind assistance, my work would lie en-
tombed in the * Customs Gazette,' and be of little use to any one.
The paper I hope to send herewith, though prepared seven or eight
months ago, is only just printed. It contains a short account of
my observations on periodicity, and abundant proof of my position.
I believe it will have some interest for you, especially that part
which describes the formation of the sheath of the embryo hfema-
tozoon of Corvus torquatus, and the discovery in the lymphatics of
the ova of Filaria Bancrofti.

" Believing they are new to you, I send, under the care of Dr.
Faulkner, surgeon of the SS. ' Agamemnon,' specimens of the
parents of the haematozoa of Cormis torquatus, and also a number
of hearts of the Chinese magpie. Pica media, containing very in-
geniously located parent worms of a species of filaria common to
that bird and to Gracupica nigricollis. I also enclose in this letter
some rough sketches illustrating the embryos, etc., and will, in the
sequel, give you a brief account of what I have made out about
these interesting parasites.

'' Hcematozoa of Pica media. — I have examined many, I suppose
thirty or forty, magpies, and have never failed to find ha^matozoa in
any of them. But though I searched diligently in all the viscera
and large vessels, I was a long time in discovering the habitat of
the parents. At last I came across a female larva in a small clot

DESCRIPTIONS OF NEW SPECIES. 133

in the right ventricle, which by rough manipulation I must have
displaced. This find put me on the right track, but many birds
were sacrificed in the hunt before I could find a second specimen,
and definitely pronounce on the exact spot they occupy. At last I
observed a minute white tubercle, the size of a No. 6 shot, appa-
rently lying in the pocket of a semilunar valve, and, on trying to
turn this out, had the satisfaction of finding it was the much sought-
for worm lying coiled up with its mate, either free in the pouch of
the valve, or just under the endocardium. By splitting up the
pulmonary artery and aorta from the ventricles, one or more of
these pale yellowish tubercles can be found in every magpie. I have
seen the valves nearly all occupied by them, some of considerable
size, so that the circulation must be interfered with to quite a serious
extent. The worms are found sometimes in the pulmonary valves,
sometimes in the aortic, and often in both. A perfect tubercle con-
tains a pair, male and female. I think they are encysted, or at
least under the lining membrane of the valve, but their presence
causes so little irritation that the delicate membrane covering them
is quite transparent, allowing good eyes to see distinctly through it
the coils of the worms. To see these one must look into the opened
pouch. I believe the young are emitted into the circulation through
a minute aperture in the covering. In case the specimens I
send do not turn out well, I give you a short description of the
parents : —

*' Male.— Length, |"

Diameter at neck, ^^".
Greatest diameter, y^-^-''.
Diameter of alimentary canal, 4^''.
Ditto testicle, 5^".

" Tail strongly incurvated. Double spicule. One or two very
minute caudal papillae. Blunted and slightly bilobed tail taper-
ing down from body. Mouth simple. (Esophagus straight,
-^q" in length, terminating in alimentary canal by gradual dila-
tation. Alimentary canal parallel to testicle, straight, and filled
with dark granular material. Integument in both sexes covered
with minute characteristic tubercles or bosses ; these are largest
about the middle of the animal, and less marked towards head
and tail.

134 p. MANSON ON MICRO-FILARI^, WITH

" Female. — Length varies very considerably — about 1 J'^isthe average.
Greatest diameter, un impregnated, yIj" •

Ditto ditto, impregnated, -g^^".
Anus, ^^-g" from caudal extremity.
Vagina, infundibuliform, opens y-^^" from mouth.
Mouth CESophagus and alimentary canal as in male.
Uterine tubes unite anteriorly to form vagina which runs

forward in a straight course.
Expressed embryos measure -^-i^^" by 33^0"; they are
naked and have truncated tails.

" Free embryos. If one examines the blood of the magpie, there
is usually no difficulty in finding plenty of embryos, and at first
sight seemingly of two different kinds, one minute species, ^^" by
•g^Vjr" or thereabouts, the other larger, y^^" by ;5-^^-oo"- The
smaller are languid, the larger active in their movements. A jerk-
ing, pouting, oral movement is characteristic of both. In both the
mouth seems quite simple and the tail sharp and pointed. In
neither have I seen any trace of lash or double outline. Betwixt
the extremes of length I have given, intermediate sizes can usually
be found. Neither extreme corresponds exactly with the dimen-
sions of the embryos in the vagina of the presumed parent. There
is also considerable variation in the breadth of the smaller speci-
mens. Query — Do the embryos found in the blood belong to the
same species, and are they thus early commencing development and
separation into male and female ? Last December I examined a
female parent from the heart-valves, and found in her vagina em-
bryos of t^^-q" by -gTjV^'', and having truncated tails. In the same
bird were two male worms, and another unimpregnated female. I
found no large free embryos in the bird's blood, only numerous
small ova very short and very stout, -^^^" by -s-qqu" ; therefore, if
the valve worms were the parents of the embryos free in the blood,
their offspring must have diminished in length, increased in breadth,
and have had their tails sharpened. And if the larger specimens
of free embryos are also the progeny of the valve worms, they too
must have had their tails sharpened and grown in length at the
same time.

" You will require to use great gentleness in removing the worms
from their cysts, as they are very delicate and easily broken. I
have half extracted the wonii in some instances as a guide to the

DESCRIPTIONS OF NEW SPECIES. 135

situation the rest of the body occupies. The ventricles and vessels
have been split up, and unless the spirit has altered appearances
very much, you will have no difficulty in finding the parasites.
Perhaps before attempting their removal it would be well to soak
the heart in some solution of about the specific gravity of blood. I
find urine answer v^ery well for this purpose ; it restores the pro-
portions lost by exosmosis.

" Hcematozoa of Corvus torquatus. — About one third of the
crows I have examined contained two kinds of blood worms.
These two kinds are quite unlike each other, but whether they
are of distinct species or only different stages of the same I am not
prepared to say. Of the two kinds the larger measures from
-rio" to yi/ by ^^^-^', the smaller ^y by ^/. The former is
very active and has a lashing, free, vigorous style of movement ;
the latter is languid and has a slow, wriggling, worm-like motion.
The oral movements in both kinds are very distinct, and when it is
open four papillse can be distinctly seen surrounding the mouth. In
the larger species a bright line extends backwards from the mouth
into the body suggesting an oesophagus. The tail of the larger
kind is gradually tapered down and pointed, and the general
contour of the body and habits of this embryo resemble very
closely those of the embryo of Filaria immitis. The tail of the
smaller kind tapers but slightly and is abruptly truncated, and by
careful focussing one can in most specimens detect a thin skin ex-
tending like a loose bag or hood from the head. The truncated
tailed and hooded embryos die very soon after being placed on the
slide, but their companions I have seen alive and active in an oiled
slide ninety-six hours after their removal from the host. Though
the proportion of these two kinds of embryos varies considerably in
different birds, yet where one is found the other is sure to be present
also.

" Parents are sometimes found in the right ventricle, but most
commonly in the pulmonary artery and its branches. The best way
to find them is to open the pericardium, and after dragging the
heart well up with a hook transfixing its apex, scrape with a blunt
knife as much as possible of the soft lung tissue from the pulmonary
arteries and then divide them deep in the lung. They can then be
easily split up or divided at intervals and the worms expressed.
Those I send you were thus obtained, and are the produce of one
bird.

136 p. MANSON ON MICRO-FILARI^, WITH

" Male— Length f"

Greatest diameter -rW

1 6 O

Diameter of neck -^^"
Length of oesophagus ^-^"
Diameter of alimentary canal -^q"

" The body in both sexes is smooth and very transparent. Moiitli
simple. (Esophagus very wide near its termination in the intestine.
Spicules double. No papilla. Tail tapering to blunt extremity.
Testicle extends to near oesophagus where it is doubled on itself.
Arms close to end of tail.

" Female— Length f' to 1"
Diameter ^^"

" General appearance the same as the male. The vagina spans
about yi^" from the mouth. If the female is placed in a suitable
medium such as aqueous humour, she retains her vitality for some
time, and the movements of parturition can be distinctly seen. At
short intervals a peristaltic contraction commencing in the uterine
horns and increasing in force as it descends to the vagina expels
every few seconds a small group of embryos of the blunt-tailed
hooded description. A section of the worm some distance from the
vagina permits the escape of embryos, plainly showing the
gradations of stretching that converts the chorional membrane into
the sheath of the free embryo (see illustration). Do you consider
the sharp tailed, vigorous and larger heematozoa of the same species
and advanced in development as specifically distinct ?

" HcBmatozoa of Gracupica nigricollis. — This bird harbours two, if
not three, distinct sj)ecies of ha^matozoa. One, such as I have
described in the paper, I send you, measuring about -^" by -g-sVo"? '^^^^^
a tail not quite sharp, very vigorous and destitute of lash or hood.
Another measuring in length y^o", and a third kind (associated
with the valve worm), -^^-q" by ^g^o') probably the same as those of
Pica media — though offspring and parents were more minute in the
birds I have examined. The valve worm is exactly like that of
Pica media, having the characteristic bosses studding its integument.

" Hwmatozoa of G our a coronata. — This bird comes from the Malay
Archipelago. It lived in confinement in China for almost a year,
but last winter died — apparently from cold. Its blood contained a
fair pr()j)ortion of hajmatozoa with head and tail lashes exactly
like those of F. sanguinis hominis. I examined the heart, large

DESCRIPTIONS OF NEW SPECIES.

137

vessels and viscera, but found no parent form. The embryos
measured about -^" by -5-^077". Its tail was unlike that of F. s. h.
being truncated and slightly bulbous like the point of a " Bougie
Olivaire." I observed that there seemed to be a sort of articulation
(and something of the same sort I have seen in F. s. h.), about yoVo"
from the tip of the tail, for when in motion this part was often bent
at an angle and not in harmony with the sweep of the rest of the
body. The integumental character of the lash was very evident, and
double outline could be recognised in the body. Often the bag or
lash could be seen most distinctly long distances from the tail.
There was no trace of vessel in the body, which appeared to be quite
homogeneous even under a high power.

" I trust these notes, along with the specimens and paper I hope to
send you, may be of some interest, and I would again request you
to make what use of them you see fit.

" Apologising for the trouble I give you, and again thanking you,
" Believe me,

" Yours faithfully,

" Patrick Manson."

DESCRIPTION OF PLATES VIII, IX.

1. — Outline representation of large Haematozoa fa, b) and three blood

corpuscles (cj of Corvus torquatus. X 350 diameters.
2. — Outline of an ovum of Filaria Bancrofti found in the inguinal

lymphatics. X 350 diam.
3. — Seven illustrations (a — g) showing the mode of formation of the

sheath of the smaller haematozoa infesting Corvus torquatus,

X 350 diam.
4. — Mature examples of the male (a) and fhj female Filaria corvi

torquati (Mans, and Cobb.) Natural size.
5. — Mature examples of the male fa) and fbj female Filaria piece medice

(Mans, and Cobb.) Natural size.
6. — Head 00 > tail ChJ, and section of the body fc) of a male Filaria

corvi torquati (Mans, and Cobb.) X 350 diam.
7. — Head (aj, tail (bj, and section of the body fcj of the male Filaria

piece medioB (Mans, and Cobb.) ; the head of the female worm C^J

being also represented to show the narrow oesophagus and also the

outlet of the vagina immediately below the mouth. X 350 diam.
8.— Outline representations of nematoid haematozoa from Pica media (a),

from Gracuipica nigricollis (J), from Corvus torquatus (c), from

Gotira coronata (d) and from the dog (e), showing their relative sizes

and forms. X 350 diam.

138 V. MANSON ON MICIIO-FILARI JS, WITH

" Amoy, 4t>i May, 1880.
*'T. Spencer Cobbold, Esq., F.R.S.

" Dear Sir, — I hope you will excuse me troubling j^ou with
another letter so soon ; but it is only because I think you are in-
terested in the subject of worms even more than I am, that I
venture to tax your patience so frequently.

" First, I am sorry to say that the paper I intend sending you has
not arrived yet.* I regret this the more as it would partly explain
what I write about now. Briefly — from observations in the day I
have some reason to think that the embryos of F. Bancrojtiy while
absent from the general circulation during the day, are resting in
pulmonary circulation. To test this idea, I have for a long time
been on the look-out for cases of haemoptysis, that I might obtain
lung blood at the proper time. Hitherto I have never met with a
blood-spitting filarious patient. But some time ago a Chinaman
consulted me about some eczematous patches on his face and legs.
While he was speaking to me I observed that his voice was very
rough, and that once or twice he hawked up sputum tinged apparently
with blood. I thought he had a chance of being filarious, and so
put a little of the sputum under the microscope. But instead of
finding it swarming with filarise, I found it plentifully besprinkled
with the ova of some other parasite.

" Enquiring about his history, I learned that he was a secretary
in the salt mandarin's office in comfortable circumstances ; that he
was a native of Foochow, where he had resided till he was 21 years
of age. He is now 35. Eight of the intervening years he spent in
North Formosa, at a town called Tiek Tcham, and it was in this place,
a year after his arrival there, or about 13 years ago, that haemop-
tysis first began. The history of the hsemoptysis he describes as
follows — When 22 years of age it began. Every day he spat from
an ounce to half an ounce of blood for 19 days in succession. He
had very little cough. At first the expectoration was pure blood,
but after three or four days it became mixed with mucus. Hasmop-
tysis returned six months afterwards ; the blood was smaller in
quantity, and appeared in the sputum for three or four days only.
Since then he has spat blood for a few days at a time every two or

* Since Dr. Hanson's paper was read, I have received the printed com-
munication referred to. It came to hand July 28, 1880, and is entitled
" Additional Notes on Filarioe sanguinis hominis and Filaria-Disease."
The paper is illustrated by four photographic plates of Elephantiasis
Arabum.— T. S. C.

DESCRIPTIONS OF NEW SrECIER. 139

three months, without cough, the blood being mixed with mucus
after the first mouthful of pure blood. He is in good general health.
His eczema he attributes to a severe attack of scabies. His father
is dead, but never had cough ; his mother died ten years ago of
cough. Two brothers and two sisters alive and well. Though he
is thin, there was no auscultatory sign of phthisis, and I could not
but associate the parent of the ova and the hsemoptysis as cause and
effect. He has no filariae in his blood.

" From November 5th to December 18th, 1878, I had in hospital
here a Portuguese, for many years a resident in North Formosa. He
came over from Formosa sick. I diagnosed thoracic tumour, pro-
bably aneurism. He improved with the rest and returned again to
Formosa. In June, 1879, he died suddenly, and Dr. Ringer made
a post-mortem examination, with the particulars of which he kindly
furnished me. Death was caused by rupture of an ascending aortic
aneurism into the pericardium. He found the lungs slightly con-
gested, and on making a section, came across a small parasite lying
on the lung tissue, which he says might have escaped from a
bronchus.

" When my Chinese patient told me he had been long resident in
North Formosa, and that his hsemoptysis began there, I thought it
not at all unlikely that Dr. Ringer's parasite and that in the lungs
of my patient were identical. Dr. Ringer kindly, in reply to my
letter, sent me the parasite — the only specimen he obtained — and in
the sediment of the spirit I found ova of the exact dimensions and
general appearance of those I found in the sputum of the Chinaman.

" I could not find in your ' Parasites ' a worm to correspond, and
as I have some idea that this worm is not an unfrequent cause of
hgemoptysis in Chinese, I turn to you for more information. I send
the worm — evidently a fluke — and also a sample of the Chinaman's
sputum. I also enclose drawings of eggs and outline of the parasite
in case my package miscarries. I fear the worm is somewhat muti-
lated, but, I trust, not past recognition.

" Yours faithfully,

" Patrick Manson."

Note by the President.

'* On returning home from the Q. M. C. Meeting, I found that
Dr. Hanson's * package ' had arrived. The sputum I have not

140 P MANSON ON MICRO-FILARI^.

examined at present ; but on the 27tli of June I satisfied myself
that the fluke was new to science, and accordingly I propose to call
it Distoma Ringeri, after the discoverer. Though mutilated, the
oral sucker was well shown, as also were traces of an organ which
I regarded as the remains of the ventral acetabulum. When
flattened on a glass-slide, the capsules of the vitellarium were well
seen, and occupied fully four-fifths of the body, lying deep under the
dermal surface. The worm reminds me very much of the fluke
Distoma compactum which, many years ago, I detected in the lungs
of an Indian Ichneumon, but it is much larger and e\'idently a
distinct species.

" T. S. COBBOLD."

DESCEIPTION OF PLATE X.

Fig. 1. — Outline of a fluke obtained from the lung of a Portuguese. (Dis-
toma Bingeri, Cobb.) Nat. size.

Fig. 2. — Eggs of a fluke from the lung of a Portuguese. X 350 diameters.
a, h with the operculum detached ; c with the contained embryo.

Fig. 3. — Five separate views of ova taken from the sputum of a Chinese;
a, h and c with their opercula detached ; d and e with the shells
ruptured by the covering glass. X 350 diameters.

lU

HBLMINTHaLOGICAL OBSERVATIONS UPON THE EndEMIC DiSEASE

Developed among the Labourers in the Tunnel of Mount
St. Gothard.

By Eduardo Perroncito, M.D., Turin.

Communicated (with an Ajypendix) hy the President.

{Read June 25, 1880).

The observations already made by me * authorise me to declare
that amongst the workmen of Mount St. Gothard, together with
symptoms of Oligsemia perniciosa, are found (abstracting the common
Ascaris, Oxyuris and T richocephalus) three dififerent helminthic
species, in greater or lesser number in their intestines, producing
identical clinical phenomena. These three species are : the Anchilos-
toma or Dochmius duodenalis of Dubini, the intestinal AngiiiUula and
liavay's A. stercoralis. I have observed that some individuals are
affected only by anchilostomes, or chiefly by these parasites ; others
are affected only by anguillule, or chiefly by anguillule, without being
able always to determine the differential diagnosis between the two
affections according to the facts hitherto acquired by science. My
deductions are essentially based on the fact of having found indi-
viduals, who evacuate nearly exclusively eggs more or less abound-
ing with the characteristics of those of the Anchilostoma ; other in-
dividuals who evacuate eggs more or less in number, with the
anatomical characteristics and the very irregular opening, like those
of the Anchilostoma, which, cultivated, give origin to embryos and
larvae with anatomical characteristics and habits different from
those of the Anchilostoma, and which I declare to belong to the
Anguillula intestinalis of Bavay. In patients specially affected by
Anguillula intestinalis I have repeatedly found in the substances
newly evacuated, amongst a greater or lesser number of eggs,
numerous larvse, moving rapidly in divers ways, having the anato-
mical characteristics of those denominated by Bavay the Anguillula
stercoralis.

* See Appendix.

142 E. PERRONCITO ON THE ENDEMIC DISEASE OF THE

ON THE LARVAL DEVELOPMENT OF THE ANCHILOSTOMA OR
D0CHMIU8 DUODENALIS OUT OF THE HUMAN FRAME.

The eggs of the Anchilostoma are oval, thin shelled, sometimes so
thin as to appear only veiled, of simple form, transparent, the
medium longitudinal diameter being 52/z. and the transversal 32^.
Cultivated by proper means and necessary heat, they proceed more
or less rapidly in their process of segmentation, and thence to the
formation of the embryo. Already, after from 12 to 14 hours of
incubation, the first larvse are very rarely found ; after a day and a
half to two days the greater part of the eggs are open, or present
the embryo in different stages of development.

At the second, third and fourth day of incubation, the number of
larvaB always augments in progressive stages. Besides, the matura-
tion and hatching of the eggs never happens regularly, and even
after many days of incubation embryos are formed, and the hatching
of new larv£e effected.

I frequently saw the larvae make their exit from the shell head
first in more or less time, according to the temperature at which I
kept the preparations. Keeping the mature eggs at the heat of
28 to 33 degs. centigrade, the opening may be seen to occur in two
or three motions, which succeed each other in less than a minute.
The larva with its head usually opens the Qgg rather laterally from
the point ; springs half out, and then with strong lateral move-
ments of the whole body holding by the head to the shell of the
same egg. The newly-born larvae usually seem torpid ; in some
cases they repeat the same motions as when they were enclosed in
the shell. Thus, the new larvaB execute movements which may be
called automatical, and employ different lengths of time before being
able to extend themselves fully. If one observes the embryo through
the egg-shell before hatching, one sees it already formed like the
newly-disclosed larvas or like those that are two, three, four, or
more days old. As soon as hatched the larva is about 200/i. long,
and the greatest transversal diameter is 14/x. It presents itself as
more slender upwards from the bulb of the pharynx ; it terminates
downwards with the tail lessening and awl-shaped. The head is
three-lobed and the mouth is represented by a small rectangular tube
12yLi. long, which is continued into the pharyngeal canal. The pharynx
has an anterior dilatation, which is gradually restricted to form
afterwards a fresh globose dilatation, or pharyngeal bulb furnibhed

MOUNT ST. GOTHARD TUNNEL LABOURERS. 143

with chitinous (?) teeth, bounding a triangular space in the central
portion. The pharyngeal canal has very strong and muscular par-
titions. It is continued in the intestine of a cellular nature, with
its internal cavity disposed in zigzags, more or less wide, and termi-
nates in the arms situated upon a small external lateral projection.
Towards the middle, on the oral side of the larva is already to be
seen a small ovoidal body which pushes inward the intestine and is
found on the external part, niched in a corresponding depression of
the muscular-dermical layer of the larva. This small body is the
rudiment of the genital apparatus which appears very conspicuously
.in the embryo, and is observed more or less distinctly in the diffe-
rent periods of development of the larva towards the free state.
When one day old, the larvae are already 250/z. long, and, in the
mean, I have calculated that, if the temperature does not exceed 24
to 25 deg. centigrade, with temporary diminutions, they attain about
50^. each day. At a higher temperature and under more favourable
conditions, they may even attain from 80 to 100^. in length, and
2/jL. in transversal breadth per day. Their greatest length, how-
ever, is about 550;Lt. and breadth from 20 to 24^.

After eight hours' life of the larvae, I have seen the waving zig-
zag disposition of their intestinal canal disappear with increase of
growth, the intestines become straight and indicate the longitudinal
axis of the body. The larvse, at first weak and moving only in the
temperatures adapted to them, become robust, and in a few days
have a snake-like motion, even at a temperature of 14 to 16 deg. cent.
They undergo no change ; but when they have reached the maxi-
mum length and breadth, a great change manifests itself in their
pharyngeal canal. It may be said that this canal melts, to be trans-
formed gradually (in a day and a half to two days) into another
pharyngeal canal differing in its structure to that met with in the
new-born larvae before the incapsulation. Whilst the pharynx is
greatly modified, the skin separates a substance chitinoid (?) glassy,
transparent, which in a very short time is condensed, and forms a
capsule which encloses the living larva. This is seen to move freely
in its capsule or cyst, which completely repeats its shape. The in-
capsulation having taken place, the mouth changes, presenting
already the rudiments of the hooks and stings ; the new pharyngeal
canal is perfected, whilst the intestine loses its primitive structure,
the number of granules diminishes, becomes more transparent, with
very fine granules and particular disposition of the elements. Be-

JouHN. Q. M. C, No. 44. m

144 E. PERRONCITO ON THE ENDEMIC DISEASE OF THE

tween the 6 dpg. anteriorly and the f posteriorly appear the repre-
sentatives of the papilla which are found laterally in the perfect
Dochmius duodenalis.

At first the body of the larva is not perfectly adapted to the
capsule ; between the one and the other is a vacant space which
sometimes diminishes by degrees, so as to succeed in being better
adapted, especially at the two extremities of the body. After from
one to two days, their skin separates from the salts of chalk (par-
ticularly from the carbonate of chalkj which, at first under the form
of granules, and after of corpuscles, shining, rounded, rectangular,
become one with the capsule. Thus this becomes always more-
rigid and friable, is sometimes easily broken by the movement of
the capsuled larva or in manipulating the preparations. At other
times it constitutes a protecting cuirass that resists rather strong
pressure.

Arrived at this point, the calcified capsule is easily dissolved by
the gastric juice and by dilutions of chloridic acid without producing
efi'ervescence, and thus is set at liberty the beautiful larva, of yellow
colour, full of life. But its development stops here, and its death is
inevitable, unless it be carried into the human organism. The cap-
suled larvse resist a desiccation of 24 hours, and with the addition
of liquids, indiff'erent to preparations allowed to dry for that lapse
of time, they were seen to revive and become gradually as lively as
before. This particular resistance of the mature larvae to pro-
tracted desiccation demonstrates how the capsules containing
the living parasite can, by their great fineness and resistance,
be sometimes transported by the wind to a great distance, with
the dust suspended in the air, and infect localities previously
healthy. Once that the larvse are mature, or nearly so, that
is, capsuled, they live in limpid or in muddy water, explaining
thus an infection even to a distance with the translation of living
larvse. In waters containing little albuminous material or chalky
salts, I kept some that were most lively for more than 17
days after the incapsulation. The intensity of the infection from
waters containing them is shown in my own preparations, in some
of which in less than one drop of liquid more than a hundred mature
larvse might be counted. After two days of desiccation, by adding
water, I obtained the return of the larvje to their normal physical
state ; but though I warmed them to the proi)er point, there was
only in one any signs of vitality.

MOUNT ST. GOTHARD TUNNEL LABOURERS. 145

ON THE DEVELOPMENT OF THE SO-CALLED ANGUILLULA INTES-
TINALIS OF BAVAY.

The eggs of the so-called Anguillula intestinalis are more ovoidal,
less elliptic, that is, with the ends less acuminated, less obtuse ;
they have, however, very variable diameters, like those of the
Dochmius duodenalis. Their longitudinal diameter is between 50
and 58/x. and rarely reaches 60/x., the transversal between 30yu. and
34yu., rarely 36;u.

The eggs scarcely emitted present themselves with the yolk
segmented in 2, 3, 4, 5, 6, even 8 cellules. Placed in incubation
in places adapted, and at a temperature of 25 to 26 deg. cent.,
they are developed rapidly, though in an irregular manner. For
these also the rajDidity of the development essentially depends on
the degree of heat in which are maintained the substances of incu-
bation. After 12 to 16 hours of incubation, many eggs are found
with the embryo nearly or entirely developed, which rolls in diffe-
rent ways inside the Qgg^ and after 14, 16, to 20 hours, more or less,
numerous embryos will be found issued from the respective eggs.
These entirely developed embryos appear already through the shell
of the eggs with greater brightness than those of the Anchilostoma,
and have more rapid motion. They adapt themselves, like the
others, to the convexity of the sides of the eggshell, and reach a
length about four times that of the egg. The hatching is rapidly
accomplished, and usually by means of the head. Once, however,
I saw an embryo issue tail first from the egg ; the tail was straight
and without motion, because, with the hope of finding the larvae at
the moment of opening the egg, I examined the preparations at a
comparatively low temperature (10 to 12 deg. cent.).

The embryo is usually torpid for a short time after first issuing
from the egg, but not always. Soon afterwards the larva moves in
different directions, with a rapid, serpent-like motion, particularly if
the preparation be maintained at a proper heat. The larvae, as soon
as born, have a length of 200 to 240yu., a transversal diameter of
12^. ; are slender anteriorly, and terminate with a very sharp tail,
so that it is difficult to distinguish them from the larv^ of the
Anchilostoma. They have also an apparently three-lobed head, a
rectangular mouth-like cavity, which iscontained in a first swelling
of the pharynx, which becomes restricted, to constitute afterwards
an inferior swelling or pharyngeal bulb. The intestine is also cellular,

146 E. PERRONCITO ON THE ENDEMIC DISEASE OF THE

first in zigzags, and then straight with the lengthening of the larva.
It presents on the anal side, towards the middle part of the body,
between the intestine and the mnscular-dermal stratum, an ovoidal
corpuscule smaller than in the larvae of the Anchilostoma, evidently
the representative of the genital rudiment. The larvae of the
Anguillula intestinalis are distinguished from those of the Anchilo-
stoma by their different habits and mode of life. Whilst the larvje
of the Anchilostoma, before incapsulation, do not live in liquids,
i\\o^Q oi ih.Q A ngmllula seem to need them. Substances rather
hard put in incubation, after 24 hours, gave a strong contingent of
open larvge, which were, however, for the most part dead. This is
always revealed, as in the larvae of the Anchilostoma, by a fatty
granular degeneration of the tissues constituting the larva, so that
the change supposed or described by others for the larvse of the
Anchilostoma becomes simulated even in these dead larvsB of the
Anguillula. Repeated experiments convinced me of the necessity
of changing the mode of cultivation for the Anguilhilce.

And this method was especially suggested to me from having
observed that the larvse of Anguillulce lived capitally in preparations
with distilled water, common water, and with dilutions of chloride
of soda and sulphate of soda in different degrees of concentration
up to 5, 6 and 7 per cent., as will be the better proved by the de-
scription of the experiments made thereof.

If to the substances containing eggs of Anguillula water be
added, so that the larv^ as soon as born can swim and freely
exercise their serpent-like motion, after 24 hours they may be
found of the length of 480yu. So that, supposing the medium
length of the newly hatched larva to be 240/z. it grows in one day
to double its length. In a very short time they present a trans-
formation in their internal organisation. They still maintain the
same breadth of 12yLi. and arrive at most to 16yu. on a length of
400 to 500/x. Their head becomes rounded, the pharynx and the
mouth are completely changed, and are substituted by a granular
protoplasmic substance, which supposes the formation of other
organs. The internal cavity of the body, for the whole length of
the larva to the anus is seen to be granular and compressed be-
tween the muscular-dormic structure of the two sides forming the
skin. With the transformation of the aUmentary canal, analogously
to what succeeds in the larvae of the AncJiilostoma is produced the
capsule that encloses and takes the form of the larva. This capsule,
observed with my pupil in the laboratory, acting as assistant, Dr.

MOUNT ST. GOTHARD TUNNEL LABOURERS. 147

Vittore Carita, is 503/u. long, and the maximum diameter 16yu. It
is chitinoid, very thin like a veil, so that it easily escapes observa-
tion if it be not very intent. With the maturation of the larvse
comes the calcification of the cyst or capsule like that of the Doch-
mius. Previous to the calcification of the capsules the Anguil-
lulce are still more lively than the Anchilostomatay and move very
rapidly in the water.

ON THE LARVAL DEVELOPMENT OP THE SO-CALLED ANGUILLULA
STERCORALIS OUT OF THE HUMAN BODY.

The eggs of the Anguillula stercoralis develop the embryo in
the maternal uterus, and the larvee are emitted with the excrements
in divers degrees of growth, sometimes already capsuled. Generally,
however, they are found in varying number, very lively, and not
capsuled in newly evacuated excrements. Having measured several
of these larvae, I have found them to be from 200 to 260yLi. long,
and 14 to 16/x. broad. They have the anterior part of the body
more uniformly large than the larvae of the Anchilostoma and of the
so-called Anguillula intestinalis ; the head is larger, the buccal cavity
shorter, the pharynx more dilated but shorter, the intestine wider
and longer, with swellings or tumours, the genital rudiment very
distinct, of navicular shape, very characteristic, about 25/x. long, in
the middle 8^. wide. These larvae, after one day of free life, are
usually found capsuled.

Experimenting on the larvse of the three helminthic species briefly
described, the action of a graduated temperature with a Schultz's
table, I have repeatedly seen that they die at 50 degs. cent, in a
space of time never more than 55'.

On the larvae of the Anchilostoma I have experimented the action
of different medicated substances, whose action will be described
in my work with illustrative figures. Meantime the fact is that
in all the individuals aflfected by Oligemia perniciosa coming
from Mt. St. Gothard and examined by me (and they are numerous) I
have found in their evacuations more or less number of the eggs of
Anchilostoma and Anguillula intestinalis, and in some also innu-
merable larvee of the Anguillula stercoralis of Bavay. In all the
cases the Anchilostoma and Anguillula are in such considerable
number as to explain by their presence alone a more or less serious
Anaemia. For which I believed myself justified in asserting that the
Anaemia perniciosa becomes epidemic among so many poor creatures

118 E. PEllRONCITO ON THE ENDEMIC DISEASE OF THE

obliged to work in conditions favourable to the development and
multiplication of the above parasites, (as I can better demonstrate
in my complete work,) has been sustained by a helminthiasis for
Anchilo stoma, or Anguillula, or for all three specimens simultane-
ously in the same individuals. It would seem to be an endemic of
a nearly parasitical nature. The mode in which especially the A7i-
guillula intestinalis is developed authorises me to take this nemato-
helminth from the genus assigned it by Bavay. It should be placed
in the genus Strongi/lus, and might opportunely be named " Strongy-
lus jyapillosus/^ as I hope to prove.

Appendix by the President.

The foregoing observations on the part of Professor Eduardo
Perroncito were originally communicated to the Science Academy
at Rome (May 2, 1880). So important are Perroncito's researches
in themselves that they are worthy of republication in their present
form in the Transactions of our Club ; but, apart from their in-
trinsic merits, it is of some moment that their relation to other
records of parasitism should be made clear. Endless confusion
exists on this subject.

I may observe that, notwithstanding the admirable clearness of
Professor Perroncito's descriptions, there are some few passages I
have not quite understood. However, I have taken as few liberties
with his English manuscript as possible, altering only such words
as were absolutely necessary. It may be as well to add that the
symbol employed by Professor Perroncito (namely, the Greek fx,)
means the thousandth part of a millimetre.

Through its Geneva correspondent, the I'iines newspaper re-
cently called the attention of the English public to the so-called
Mount St. Gothard outbreak of '* Tunnel Trichinosis." It was in
this way that an unwarrantable use and abuse of the term Trichi-
nosis originated in this country. Had the error stopped where it
commenced, no harm would have been done ; but, to make matters
worse, our leading medical journal fell into a similar mistake, and
described yet another form of parasitism — which had no more to do
with Trichinosis than with A nchylostomosis itself — as Trichinosis 1
In an article entitled " Trichinosis and Trichinosis," the Lancet in-
cluded a parasitic affection which was found to be associated with
an outbreak of typhoid fever on board H.M. training ship " Corn-
wall." Not a single Trichina was found in any case, not even in

MOUNT ST. GOTHARD TUNNEL LABOURERS. 149

the exhumed body, and moreover, the symptoms did not correspond
with those of Trichiniasis. It will scarcely be believed that in spite
of all this, the official reporter to the Government actually had the
boldness to affirm, in the title of the report, that the " Cornwall "
fever was " proved to be Trichinosis." As the subject had been
brought before Parliament on several occasions, I felt it to be fairly
within my prerogative to correct the error. Accordingly, in the
Times newspaper I was permitted to contradict the major conclu-
sion sought to be established by the Government report, and subse-
quently in the pages of the Sanitary Record I repeated the same
statement. It was this that brought the Lancet into the field, and
in the article entitled " Trichinosis and Trichinosis," directed against
myself, that journal sought to screen or modify the palpable error of
the Government reporter. The professional public at home having
thus been misled, the error did not stop here, for after a short in-
terval an American professional periodical followed suit, and quoted
the '' Cornwall " outbreak as a genuine instance of Trichinosis.

Not less than half a dozen kinds of nematoid parasites have been
falsely relegated to the genus Trichina, and as if this fact were not
in itself sufficiently misleading, we have now to deal with a new set
of yet more grievous misconceptions. I do not stop here to indi-
cate again the probable source of the rhabditiform larval parasites
found in the " Cornwall " fever patients, but I may state that in
reply to a letter from Dr. Buchanan I suggested to him that the
new worm described in the Government report should be named
Rhahditis Cornwalli. It is questionable if they be not immature
examples of Rhahditis terricola.

In the presence of so much confusion of terms, it may be desir-
able by-and-bye to catalogue the misnomenclatures of the genus
Trichina, but at present I will only refer to one of these in connec-
tion with the supposed disease. I allude to the error of Herr
Borell, who, in Virchow's Archiv for 1875, has permitted himself
to call the micro-filarial infection of crows a form of Trichiniasis !
It is satisfactory to see that Dr. T. R. Lewis has recently exposed
the folly of this proceeding. It is needless to say that the
avian disorder would be more correctly designated Filariasis. It
is impossible to conjecture when the literary absurdities to which I
have alluded will cease ; but to those of us who are interested in the
advance of Helminthology it seems a waste of time to occupy oneself
in correcting misrepresentations. These errors are mostly incurred
by individuals who, though highly cultured, have no practical

150 E. PERRONCITO ON THE ENDEMIC DISEASE, &C.

knowledge of the parasites about which they write so authori-
tatively.

In his introductory remarks, Professor Perroncito alludes to a
former paper (written in conjuction with Prof. Concato). As he
has been good enough to supply me with a copy of that paper,
in French, I think its republication will materially add to the value
of his present contributions. I append it accordingly.

T. S. COBBOLD.

The Anchylostomosis of St. Gothard..

(Communication que MM. les Professeurs L. Concato et E.
Perroncito ont fait a la R. Academic de Medecine a Turin, dans la
seance du 27 Fevrier, 1880, sur une maladie produite par I'Anchy-
lostome duodenas).

A la clinique dirigee d'un de nous (Concato), ont ete accueillis,
en peu de jours, trois individus affectes d'Anchylostomiose. A ce
qu'on peut juger par I'examen des feces, le nombre des anchylos-
tomes qu'ils tiennent dans leur intestin, est assez grand, et y corre-
spond I'etat du patient. Ces individus sont tons extremement
denourris en suite de grave et menayante oligoemie. Aussi faisant
abstraction du fait meme de la multiplicity des cas de cette maladie,
jusqu'ici retenue bien rare, ce que nous exposons maintenant se
fait tres-important parce que tous ces malades sont des ouvriers
travail] ant au tunnel du Gothard. lis nous rapportent que leurs
camarades s'y trouvent en centaines affectes par la meme maladie,
et cette assertion nous vient d'etre confirmee par Mons. le Medecin
d'Ajrolo, a qui nous avons ecrit pour d'autres renseignements.

Nous nous faisons devoir d'appeler I'attention sur I'insurger
epidemique, et en proportions si considerables, d'une maladie qu'on
croyait rare. De nouvelles etudes nous renseigneront plus exacte-
ment, et nous nous empresserons de f aire part a 1' Academic du resul-
tat. En attendant, nous appuyant aux observations experimentales
faites d'un de nous (Perroncito), selon lesquelles les anchylostomes
soumis a I'echauffement ne survirent pas a la temperature de 45 a
46° C, nous avons tente I'interoclisme avec I'eau chaude a 48 — 50°
et plus C. Les preuves deja faites sur les animaux et liasardees
sur I'homme nous font esperer un heureux succes.

OBSERVATIONS ON PILARIS. 65

First — The rapidity of the current is diminished in the recum-
bent posture, and {in women and children at least) still further
during sleep. It seems probable that there may also be an integral
change in the relation of the red and white corpuscles approaching
that which takes place when the circulation is retarded in the web
of a frog's foot. This modification of the internal constitution of

the main current mnv onnsp tho Wilnvim +r» nrlliprp \r\ flip «iflp<a of

an(

DIRECTION TO BINDER.

Pages 65-6 and 81-2 of the last number are to be cancelled.
1 their places supplied by those reprinted herewith.

L^_'VJC^lU^v/l^ \Ji. ujav> j.'

Third — The temperature of the blood is probably lower, relatively
to that of the tissues (or it may be higher) during sleep than in
the alternative state, consequent on the presence, or absence, of
special elements derived from the food.

It does not seem likely that there can be any considerable change
of condition consequent upon the periodic or occasional discharge of
lymph and chyle into the blood ; but it may happen that when the
circulation is slow and the body lies recumbent, the parasites are
thrown into the main current and therefore appear in greater
numbers. It is premature to speculate on the causes of a pheno-
menon which may yet prove to be exceptional, but if the conclusion
arrived at should be maintained, it will certainly be the duty of
physiologists to pursue further into detail, than they have ever yet
been carried, certain neglected inquiries as to the altered conditions
of the blood during sleep, and when the brain and body are awake.

150 E. PEERONCITO ON THE ENDEMIC DISEASE, &C.

knowledge of the parasites about which they write so authori-
tatively.

In his introductory remarks, Professor Perroncito alludes to a
former paper (written in conjuction with Prof. Concato). As he
has been good enough to supply me with a copy of that paper,
in French, I think its republication will materially add to the value
of his present contributions. I append it accordingly.

.,: J «»v,v*.^xiu vii v/ciiLtnut;» auecies par la meme maladie,

et cette assertion nous vient d'etre confirmee par Mons. le Medecin
d'Ajrolo, a qui nous avons ecrit pour d'autres renseignements.

Nous nous faisons devoir d'appeler I'attention sur Tinsurger
epidemique, et en proportions si considerables, d'une maladie qu'on
croyait rare. De nouvelles etudes nous renseigneront plus exacte-
ment, et nous nous empresserons de f aire part a 1' Academie du resul-
tat. En attendant, nous appuyant aux observations experiraentales
faites d'un de nous (Perroncito), selon lesquelles les anchylostomes
soumis a I'echauffement ne survirent pas a la temperature de 45 a
46° C.,nous avons tente Tinteroclisme avec I'eau chaude a 48 — 50°
et plus C. Les preuves deja faites sur les animaux et hasardees
sur riiomme nous font esperer un heureux succes.

OBSERVATIONS ON PILARIS. 65

First — The rapidity of the current is diminished in the recum-
bent posture, and {in women and children at least) still further
during sleep. It seems probable that there may also be an integral
change in the relation of the red and white corpuscles approaching
that which takes place when the circulation is retarded in the web
of a frog's foot. This modiJBcation of the internal constitution of
the main current may cause the FilaricB to adhere to the sides of
the vessels during rapid circulation, and to fall into the stream
when it moves more slowly.

Second — The oxygenation of the blood at night and in repose
is supposed to be less complete than during the day ; although
some experiments made by Pettenkofer and Voit point to an oppo-
site conclusion, and make it appear that of the total amount of
oxygen taken in during twenty-four hours 67 per cent, is taken in
by night, and only 33 per cent, by day ; 58 per cent, of the
carbonic acid eliminated during twenty-four hours being given off
in the day, and 42 per cent, by night. From these results Somner
drew the inference that sleep was caused by exhaustion of the
reserves of oxygen during the waking state, that oxygen was
stored during sleep, and that when the equilibrium was re-established
by accumulation the subject awoke. This hypothesis is barely
tenable, but it is worth while to mention it in this connection
because it accords Aviththe presumption that the blood is more — or
less — abundantly charged with oxygen during sleep; and this may
help to determine the location of the Filarice.

Third — The temperature of the blood is probably lower, relatively
to that of the tissues (or it may be higher) during sleep than in
the alternative state, consequent on the presence, or absence, of
special elements derived from the food.

It does not seem likely that there can be any considerable change
of condition consequent upon the periodic or occasional discharge of
lymph and chyle into the blood ; but it may happen that when the
circulation is slow and the body lies recumbent, the parasites are
thrown into the main current and therefore appear in greater
numbers. It is premature to speculate on the causes of a pheno-
menon which may yet prove to be exceptional, but if the conclusion
arrived at should be maintained, it will certainly be the duty of
physiologists to pursue further into detail, than they have ever yet
been carried, certain neglected inquiries as to the altered conditions
of the blood during sleep, and when the brain and body are awake.

66 observations on pilaris.

Letter by Dr. Manson.

'' Amoy, 20tli June, 1879.
*' T. Spencer Cobbold, Esq., F.R.S.

" Dear Sir, — Last mail brought me your kind letter of 28tli
April, and enclosures. I am glad your new work is about coming
out, and hope my London agents have forwarded a copy long ere
this time. Had I been in possession of it, I would not have
troubled you with questions about Distoma crassum. I suspect you
are very often annoyed in this way, and I am very much obliged for
your courtesy in noticing my letter.

" I will forward by this mail filaria-impregnated mosquitos.
They are preserved in glycerine, and were fed on the blood of the
man whose case I append. His scrotum I sent to you some time
ago in charge of Dr. Holmes, a surgeon in one of Holt's steamers,
who kindly promised to hand it to you. I hope you will pardon the
delay in sending the mosquitos ; being in general practice here, the
many interruptions this entails make work of this sort exceedingly
difficult to carry out quickly.

" I read in the Lancet lately an account of the discussion on a
Lymph scrotum sent from Lidia, and felt disappointed that the
Filarice were not found. I determined to send you the first scrotum
I amputated, and in which I had unquestionable evidence oi Filarice.
The scrotum I send is the result, and to complete the case I send
particulars of the man's history, and the result of the examination
of his blood before and after the operation. The case is one of
much, interest, as it exhibits, first, the transition from Lymph
scrotum to Elephantiasis ; secondly, it demonstrates unmistakably
that the parent worm is not necessarily present in the affected
tissues themselves, though probably in close proximity. I had
hoped you might find the Filaria Bancrofti in the scrotum, but the
embryos persisting in the blood weeks after the operation show that
this is unlikely. Thirdly, it illustrates well a new fact in the
history of the Filaria — the young escape into the circulation at
regular intervals of twenty-four hours, the discharge commencing
soon after sunset and continuing till near midnight, from which
time till the following noon their numbers gradually decrease ; by two
or four o'clock till six they are nearly completely absent. This is
a striking and most suggestive fact, and in connection with it one
might be tempted to speculate on the causes of the periodicity of

81

Description of an Improved Microscopical Turntable.

By Chas. G. Dunning.

(Bead February 27tn, 1880.^

It has occurred to me that some modification might with advan-
tage be made in the ordinary form of Microscopical Turntable. The
principle involved in the various self-centering and clipping arrange-
ments is good so far as it goes, but the sphere of action with all
these is more or less limited, owing to the fact that, however
desirable it may be, you cannot possibly work out of the centre with
them, and it is with a view to overcome this inconvenience that I
have devised the form I now bring to your notice.

The design consists of the usual circular table as shewn in the figure.

82. C. G. DUNNING ON AN IMPROVED MICROSCOPICAL TURNTABLE,

with the addition of a dovetail groove across the centre, in which
work the two sliding guides AA. To these guides are attached the
clips BB. One of the clips is fixed at right angles to its guide^
the other being pivoted in order that it may adjust itself to any-
little irregularity which may occur from the edges of the slides
not being quite parallel. The ends of the guides are cut and
'' sprung," so as to give sufficient tension to secure a firm grip of
the slide ; this tension can, of course, be readily increased to com-
pensate for wear. Guiding lines and circles are ruled on the table
for the purpose of centering the slides, but, as will be readily seen,
any non-central position may be easily obtained even with slides up
to two inches in width, thus facilitating the application of the finish-
ing varnish to, or the repair of any slide, the covering glass of
which may not have been accurately centered.

PLATE y

J OURN^ Q M C . N°44.

PLATE , 6

A,E MicKael adiiatdel.

Mintem Bros .litK

Labidc) st OTiini n Inteum .

JOURN^ Q.M G.K044.

PLATE

A Tl Michael. adnatdi

FygmephoT^us spinos

Mintern Broslith.

SllS.

FLATE mi.

^.

i

1^

IW

Mayjiaondei.

rLATE H

TZA^rj:

151

Notes on the Histology of Pitcher Plants.

By W. H. GiLBURT, F.R.M.S.

{Read June 25, 1880.)

PLATE XL

In the '* Midland Naturalist," recently, a series of papers by Dr.
Lawson Tait have appeared, entitled " Notes on the Structures of
Pitcher Plants."

In the first paragraph the following sentence occurs : — " Some of
the observations are, I know, not new, and others, I am equally
certain, will not be admitted without further corroboration." With
the opinion here expressed, I most certainly agree ; as some of the
structures described are so different to anything hitherto known to
exist, and the origin ascribed to others so opposed to that which is
generally held, that any one familiar with vegetable histology would
at least hesitate and wait for corroborative evidence before accepting
such descriptions as correct.

There is one point to which I would refer before proceeding
further, and that is, the use by the author, whether intentional or
otherwise I am unable to say, of the term " epithelium " instead of
"epidermis." If it be intentional, it appears to me altogether un-
necessary and uncalled for. The term at present in use is one which
our best authorities employ, and it, moreover, expresses the analogy
which exists between the layer of cells referred to, and that
covering which is continuous over the exterior surface of the
animal body.

The first structures referred to by Dr. Tait are the branched hairs
which are found, for example, on the exterior surface of the pitchers
of Nepenthes, and which he regards and describes as having the func-
tion of absorption. Concerning this particular point, I hav^e had
no opportunity of forming an opinion, as the pitcher upon which my
observations were made had been severed from the plants for some

JouRN. Q. M. C, No. 45. n

152 W. H. GILBURT ON THE

time before coming into my possession, so that any conclusions as to
function at which I might have arrived would have been alto-
gether unreliable. However, there is no doubt as to their morpho-
logical value, viz., that they are trichomes or hairs, being developed
from and outgrowths of a single epidermal cell. For these organs
Dr. Tait proposes the name of " Multifids," from their similarity
to the four-armed hairs existing in Utricularia, and which Dr.
Darwin has called " Quadrifids." The author then goes on to say
that in some cases the multifids are only raised slightly above the
surface of the epidermis, when he speaks of them as " multifid
buds," and continues : — '' In certain pitchers the multifid buds,
instead of appearing wholly above the epithelial surface, are seen to
dip partially under it, and this may be seen in favourable instances
to advance till the epithelium almost meets over the top of the bud.
In this case the protoplasm of the bud may be seen marked by
distinct divisions, varying in number from two to nine, the latter
being the largest number which I have seen. These divisions of
the cell seem to send up processes which appear at the surfaces
between the interstices of the epithelium, and such modifications are
generally associated with a peculiar system of intercellular canals to
be afterwards described. This involution of multifid buds is seen in
many surfaces, but it is especially associated with the absorption of
decayed or digested animal matter. When the epithelium com-
pletely covers these structures I propose to call them included
glands, for similar, if not absolutely identical glands, are found in
the tissues of many plants, some of which are already known as
digesters, as in Drosera and Pinguicula.''^ And again : — " In very
many cases where they are included they may be seen to occupy
lacunar enlargements in the system of intercellular canals, and even
where no such canals can be seen they occupy the spaces between
the large cells of the parenchyma (as in Pingidculci) in a position
where their aid would be almost as efi"ectual."

Now the theory implied here, though not stated, can hardly be
considered satisfactory, and is simply this : that these trichomes or
hairs, surface glands, and sub-epidermal glands in pitcher plants
and in the other plants referred to are but modifications the one of
the other. That this estimate of their value is unreal, will, I think,
readily be seen, if we look for a moment at the origin of the several
structures, and remember that trichomes or hairs — no matter how
complicated or elaborate their ultimate form may be — result from

HISTOLOGY OF riTCHER- PLANTS. 153

the outgrowth and subsequent division of a single surface cell ; that
surface glands maj consist of a single surface cell, unaltered in
form, but assuming a different function, or divisions may arise in
one or more of these cells prior to or at the same time that the new
function is assumed ; while sub-epidermal glands are the result of
the modification of cells which originally occupy that position.

Another curious thing is that Dr. Tait should refer to Drosera
and Pingtiicida for examples of included glands. In the former we
have only two forms of glands, viz., the large ones at the summit of
the tentacles and the small sessile ones which are found both on the
upper side of the lamina of the leaf and on the tentacles as well.
The latter, wherever they exist, are certainly surface glands, the
upper cells being slightly elevated above the general level of the
surface upon which they are found.

But the reference to Pinguicula is the most extraordinary ; and
how our author could have arrived at the conclusion that the
glands of this ])lant '' occupy the spaces between the large cells
of the parenchyma," passes my comprehension, as they are
most undoubtedly glandular hairs, having a distinct unicellular
pedicel.

Farther on we have another paragraph, which appears to me as
very remarkable. It runs as follows "Another variety of epi-
thelial absorbent is the tubular trichome found in certain pitchers.
It is always associated with a system of intercellular canals, and
seems really to be developed from the protoplasm contained in these
canals more than from a cell, the cell wall apparently going to con-
stitute the lining membrane of the tube, its protoplasm disappear-
ing. At the upper side of the margin of the base of the trichome
its protoplasm can be seen to be continuous with that of the inter-
cellular canals ; and in the growth of the hairs this can be seen to
be deepening in colour and increasing in quantity at the lower part,
so as to form the process of the trichome."

In the next paragraph he also says : — " The system of inter-
cellular canals to which I have referred are best seen on such sur-
faces as absorb digested food. Thus on the inner surface of a
Nepenthes pitcher examination by high powers will demonstrate
these canals beyond dispute. They are walled and contain proto-
plasm, for its columns may be seen broken at irregular spots." And
again : — " The most complete proof of the actual existence of these
canals is to be obtained from diseased epithelial surfaces where

154 W. H. GILHURT ON THE

fungous growtli is found to be extending into them from an ostiole
and distending them."

The structures here described and the origin ascribed to them
were so at variance with anything of which I. had read or observed,
that, I confess, a doubt arose in mj mind as to their existence, and
yet they were described so circumstantially that I could not reject
them. I therefore aj^plied to Kew for specimens, and by the kind-
ness of the Curator obtained all I required, and was thus enabled to
satisfy myself as to their existence or not.

It was not long before I arrived at the conclusion that Dr. Tait
was mistaken in his observations ; that his intercellular canals were
not present, and that the tubular trichomes described must have
originated as do all such organs ; but what it was which he had
interpreted as a canal I was at a loss to make out, till that portion
of his article treating of Nepenthes appeared, when I obtained a
clue which seemed to explain it all, save the statement that he had
seen '' fungous growth " in the canals.

That he was mistaken will, I think, be made apparent as we
proceed in dealing with the several species.

With regard to the general histology of all the genera, it will be
sufficient to say that in the main they agree with ordinary leaves,
the epidermis is continuous over both surfaces, and the arrangement
of the intervening tissues, the mesophyll, is very similar, those cells
next the outer surface of the pitchers being smaller and closer
fitting, thus corresponding with the pallisaded layer of the upper
surface of a typical leaf ; adjoining that and extending to the inner
surface cells is a very loose parenchyma, enclosing many and large
intercellular spaces, the vascular system ramifying amongst the cells
in all directions. The stomata are found in great abundance upon
the exterior of the pitchers and likewise on the upper zone of their
interior surface.

The Pitcher plants belong to four different genera, viz., Sarra-
cenia, Darlingtonia, Cephalotus, and Nepenthes ; and, together, con-
stitute a group as interesting as they are unique.

The species of Sarracenia of which Dr. Tait gives the fullest
description, is S. pvrpnrca. The interior surface of this pitcher is,
as lie points out, divided into four zones. On the first one, or that
nearest the mouth of the pitcher, are numerous stomata, and also a
large number of strongly developed rigid hairs, which point down-

HISTOLOGY OF PITCHER PLANTS. 155

ward. The second zone is characterised bj the fact that each
cell of the surface is prolonged downward into a short mammillary
process, its wall being striated longitudinally. We next come to a
division which is smooth, hairs are entirely absent, and the cells are
sinuous in outline. The fourth division is by far the longest, and
is crowded with long hairs, the points of which are all directed
towards the base, but they are not so stout or strong as those found
near the mouth of the pitcher.

In speaking of the upper zone of this species. Dr. Tait says : —
" There are numerous stiff hairs, not tubular, but made up of long
rod-like cells." In Fig. 2 is shown an actual section of one of these
hairs, by which it will be seen that it agrees in all respects with an
ordinary trichome, being simply the outgrowth of a single cell. I
can understand how Dr. Tait was deceived, and led to describe them
in the words quoted. These hairs on their exterior surface show a
few deeply cut longitudinal striations — in fact, so well marked are
they that the hair might almost be described as fluted. Taking
each of these divisions to represent a cell, he has been led to describe
the hair as made up of a bundle of rod-like cells ; had he, however,
made a section of one, their true nature would have been at once
apparent.

The next point to which I would refer is to the structures called
by Dr. Tait " multifid buds," and which you will remember he
regards as modified or arrested " multifids," the name he gives to
the branched hairs found on the exterior of some pitchers.

Speaking of the outside of the pitcher, he says : — " The outer
surface was scattered with stomata and multifid buds," and when
describing the second internal zone — " On this surface the inter-
cellular spaces are evidently canalicular, and multifid buds abound,
but they are covered by the altered epithelium." In Figs. 1, 3, -I
are shown some of the so-called "multifid buds," Fig. 1 being a
section of a gland from the interior surface of S. i^urpurea, Figs.
3,4 a surface view and section of one from the exterior of iS'. Drinii-
mondii ; and they show without doubt that instead of their origin
being akin to that of a hair, the external gland is produced by
a differentiation of one or more epidermal cells, while in the for-
mation of the intei'ior glands some of the sub-epidermal cells are
also involved. In a section they are at once distinguished by the
darker colour of the contents, and in all cases it will be noticed that

156 W. H. GILIiLTvT ON THE

they are in close contact witli the snrronnding cells of the paren-
chyma. Both forms of glands are peculiar in that the cell-walls
are somewhat strongly thickened.

We now come to the intercellular canals and absorbent hairs
described by Dr. Tait. At the risk of repetition, I think it will be
better to quote what is said concerning them—" Another yariety of
epithelial absorbent is the tubular trichome found in certain pitchers.
It is always associated with a system of intercellular canals, and
seems really to be developed from the protoplasm contained in these
canals more than from a cell, the cell-wall apparently going to con-
stitute the lining membrane of the tube, its protoplasm disap-
pearing."

Also in his description of the inner surface of S. jiurpicrea he
states that these intercellular canals are present in the three lower
zones into which it is divided.

Taking this species, which he states is the best for observation,
after long and patient examination I have failed to find anything
which could be looked upon as a canal. Sections horizontal to the
surface and in every other direction have been made. I examined
them with the cell contents in place, and after they had been
removed, but still without success. I, of course, naturally looked to
find them, as they had communication with the hairs, coming up to
the surface from the deeper layers of the leaf ; but that could not
possibly be the case, the very form of the two outermost layers of
cells precluding it. The arrangement here is the reverse of that
which usually obtains. In Figs. 6, 7 are shown the forms of the
cells of these two layers, Fig. 6 being the surface layer of the second
zone, and Fig. 7 the layer immediately beneath, the latter being
sinuous in outline, a character which we generally find belonging to
superficial cells. Between the cells of this second layer there are
no openings, so that no canals could ascend from the deeper tissue ;
therefore, if they exist in connection with the trichomes, they must
be confined to the epidermis, but there was nothing that I could
recognise as answering to the description. When, hoAvevor, I came
to his account of similar structures in Nepenthes, I saw how in all
probability he had been misled. The epidermal cells in Sarracenia
have thick, highly refractive cell-walls, and it seems to me that it is
these which Dr. Tait has interpreted as canals.

This conclusion receives support from what he says concerning
the origin of the tubular trichomes. He observed that the hairs

HISTOLOGY OF riTCHEll PLANTS. 157

appeared to possess a double cell-wall, the outermost one being
more refractive than the inner, in fact presenting the same appear-
ance as the so-called canals, the inner being evidently different in
texture, and wholly enclosed. This inner layer Dr. Tait refers to the
epidermal cell, and the outer one to the protoplasm of the so-called
intercellular canals, for their origin. Fig. 5 is a section of one of
these hairs, and it is seen that there is no communication between
it and the adjoining cells. In Fig. 2 their structure is distinctly
shown. The section from which this figure was drawn, after having
the cell contents entirely removed, was stained in aniline blue. Tlie
whole of the tissue took the colour with the exception of the cuticle,
which remained colourless and highly refractive. The inner layer
of the hair was stained, but the outer one was not.

In the process of bleaching, contraction of thin-walled cells often
takes place, and tlie cuticle sometimes separates from the cells
which it overlays. This has partially happened in the case of this
hair ; a separation has taken place at two points, and we have in
section what appears as two colourless loops projecting from the
blue interior cell-wall, and a moment's examination will suffice to
show that this outer layer is of the same nature and continuous with
the cuticle which covers the whole of the epidermis.

I cannot for one moment think that these trichomes are in any
sense absorbents, those figured being evidently fitted to serve
another purpose. It must be remembered that all surface appen-
dages in the pitchers of Sarracenia point in one direction — that is,
downward toward its base ; that the first zone is furnished with a
considerable number of the strong hairs shown in Fig. 2 ; that then
we have another space in which each of the small epidermal cells is
prolonged outward and downward into a strong and thickened
mammillary process. Next we have a zone with a smooth, highly-
polished surface, the remainder of the walls of the deeper portion
of the pitcher being furnished with the strong thick-walled trichomes
shown in Fig. 5, closely set together and inclined at an acute angle.
Now, all these modifications of surface are, without doubt, of value
to the plant, and in this direction : that while they will allow an
insect to enter and pass down the tube, it is almost impossible for it
to return. They thus become veritable insect traps. The pitchers
of many species contain fluid, but nothing corresponding to a diges-
tive fluid has been detected in them ; so that if the insects which
perish in the pitcher are of any value to the plant and afford any

158 W. H. GILBUltT ON THE

nutriment, it must be simply by maceration, and the glands can be
regarded as absorbent only.

One other little matter should be noticed in passing. Dr. Tait
says : — " I have not seen spiral vessels in the tissue of S. purpurea^
This could only have been because his sections were unfavourable,
as there is an abundance of both spiral and reticulated vessels in
the vascular bundles. They are, however, of a smaller calibre than
usual.

We now come to Darlingtonia. Of this genus very little need
be said. It is a most extraordinary plant, being quite grotesque in
form.

Thickly scattered over tlie upper part of the pitcher are curious
patches, where the structure is reduced to three layers of cells, none
of which at maturity contain either protoplasm or colouring matter.
They are therefore translucent. In between and around them the
vascular system is to be found surrounded by a greater or less
quantity of ordinary chlorophyl bearing parenchyma. From the
mouth of the pitcher, which is placed some little distance below the
summit, depends a curious two-lobed organ, the structure of which
I was unable to examine owing to its bad condition in my specimen.

The inner surface of the pitcher is divided into two zones ; the
upper one is furnished with short, thick, spike-like trichomes, com-
paratively wide apart, while the lower one has the same kind and
arrangement as exists in Sarrcicenia.

Dr. Tait describes certain epidermal cells containing brown proto-
plasm, and having a bright nucleus, which he found in the curious
appendage to the mouth referred to above. These he regards as
nectaries, which may well be the case, as he says that Dr. Hooker,
on the authority of Professor Asa Gray, states that this peculiar
organ is found smeared with honey.

The glands oi Darlingtonia Sii'Q the simjolest in structure of any found
in the group, and appear to have been overlooked by Dr. Tait, who
states, when speaking of the upper zone of the pitcher, that " there
is an abundance of spiral tissue, but no brown cells, stomata, or
glands were found." The epidermal cells of this division of tlie
surface have the common sinuous line, but scattered among them are
a considerable number of large sjiherical cells, one portion of their
wall being exposed at the surface, and the remainder dipping below
the epidermis into the subjacent tissue. These glands are very incon-
spicuous when the tissue is in its natural condition, but if the

HISTOLOGY OF PITCHER PLANTS. 159

colour is discharged from a portion of the plant by means of alcohol,
they are at once apparent, and their contents are seen to be different
from that of the surrounding cells, the chlorophyl corpuscles being
absent. These I take to be glands, but what their function may be,
if any, is rather difficult to imagine.

In this plant also Dr. Tait failed to find any evidence of a true
digestion.

Our next species is Cephalotus folliailaris, (he smallest, but one
of the most interesting of the group. It has two forms of leaves —
ordinary unaltered foliage leaves and ascidiform leaves or pitchers.

An account of tlie structure of the latter was given by Dr. Dick-
son in the " Journal of Botany " for January, 1878, with which I
agree in all particulars. For a general description, therefore, of the
pitcher I would refer you to his paper. While, however, he de-
scribes the various forms of glands possessed by the plant, he does
not figure them, neither does he in either case give certain details
which I am now able to supply.

Cephalotus possesses no less than four forms of glands, one of
which (Fig. 11) is to be found alike on both surfaces of the un-
altered leaves and on the outside and upper portion of the inside of
the pitcher, the other three forms (Figs. 8-10) being confined to
the secreting and absorbing surfaces of the interior.

Dr. Tait, in speaking of the unaltered leaves, says : — " Beside
[stomata] there are papillary prominences with deep crypt-like
cavities. In a young leaf the occurrence of transition forms between
these craters and the stomata make it certain that they are deve-
loped from the latter, and ought, therefore, to be regarded as respi-
ratory organs. We might call them tracheoles, for stomata are
sometimes visible within them."

Now, the only organs beside the stomata which are to be found on
the unaltered leaves are the glands shown in Fig. 11, which are
thus described by Dr. Dickson when treating of the exterior of
pitcher and lid — " Here occur stomata of ordinary type and
peculiar glands, each consisting of a group of small cells. Each
group as viewed from the surface is of oval form, two cells forming
a central oval, with their line of contact across the short diameter,
these two cells being surrounded by four others. Similar six-
celled glands are to be found on the inner surface of the pitcher lid,
on the corrugated rim of the pitcher, and on both surfaces of the
nonascidiform leaves."

IGO W. II. GILBUP.T 0\ THE

To this description of the gland I would only desire to add that
the waUs of the surface cells are much thickened, and that beneath
them, forming part of the gland, is a more or less spherical basal
cell with a thin wall. Such, then, being their structure, it follows
tliat they cannot possibly possess the function ascribed to them
by Dr. Tait.

Another form of gland is that which is to be found on the general
secreting surface of the pitcher, and is represented in Fig. 8. You
will observe that in section there are three cells, the ends of which
are slightly elevated above the general surface, and whose greatest
length is at right angles to it. These might be called the neck cells.
Below them a variable number of thin- walled irregular shaped cells
make up the body of the gland, and among them there are no inter-
cellular spaces or passages.

On the lateral walls of the pitchers near to the base there are two
crescentiform raised patches inclined forward and downward towards
the front of the pitcher at a very acute angle. These are without
doubt the most active secreting organs of the plant. In mature
pitchers these patches are coloured a deep crimson ; whether they
serve in any sense as a bait to lure the insects into the pitcher I do
not know, but such an. idea is not improbable.

Imbedded in these coloured patches are a number of very large
glands, one of which is shown on section in Fig. 9. Here we have
five neck cells exposed in section instead of three, as in the smaller
gland, and the body of the gland is much larger. Another modifi-
cation, and one which points to a higher differentiation, is that the
whole of the deeper portion of the gland is surrounded by an
envelope of small flattened cells, not glandular in character ; these
I propose to call the gland sheath. Dr. Dickson calls attention
also to anotlier peculiarity on these glandular patches, viz., that
" among the pigment cells are numerous oval bodies, each consisting
apparently of a central, somewhat elevated, oval cell, surrounded by
two or four others. These bodies are colourless, or slightly
yellowish, with brilliantly refractive cell walls."

In a postscript, speaking of some notes he had received, he
adds : — " Sir J. D. Hooker has called them stomata, and certainly
tliey sometimes, especially in young pitchers, are often puzzlingly
like them. I have no doubt, however, of the centre of each being
filled with a ' central cell,' and from the observations I have made,
1 am disposed to think that, in a sense, they may be stomata, for

HISTOLOGY OF PITCHER PLANTS. 161

the central cell seems to be one bulging up from a somewhat lower
level between the 2-4 peripheral cells of the body which would
otherwise constitute a stoma-like opening."

I am pleased to be able to confirm this conclusion of Dr. Dick-
son's, and to give a figure (Fig. 10) of one of these stoma-like
glands. That this central cell is glandular, I have no doubt — both
from its appearance and from the fact that, treated with aniline blue,
it takes the colour much more quickly and intensely than does the
surrounding tissue.

Dr. Dickson, in conclusion, adds : — " If the above surmise be
correct, these bodies may be regarded as analogous to the ' Wasser
Spalten,' recently described by De Bary, in which case their secre-
tion would probably serve to dilute the other secreted matter ; to
which an interesting parallel might be found in the dilution of the
secretion of the urinary tubules by the water given off from the
Malpigian tufts of the kidney."

In Cephaloiifs, as in the other sj^ecies described, there are special
appliances for preventing the escape of insects after they have once
entered the pitchers. In this sjDccies we have, first, the corrugated
rim, which is involute ; then a mass of tissue projecting downward
into the cavity of the pitcher, and having a sharp edge — this Dr.
Dickson calls the " conducting shelf " — affording, as it does, sj^ecial
facilities for the entrance of the insect, but assisting most effectually
to prevent its return. Below this there is a series of strong close
set hairs, the direction of which is still downward, and, together,
these three structures must present an insurmountable barrier to the
escape of the poor creature when once it has passed their lowermost
limit.

With regard to the digesting powers of the plant, Dr. Tait
says : — " In two pitchers I found insects bathed in fluid with a
strongly acid reaction, and this fluid digested shreds of albumen
exactly as I found the fluid of Nepenthes pitchers did. I conclude,
therefore, that a true digestion of its victims is carried on by the
Cephalotus pitchers."

We now come to our last genus. Nepenthes, in which the pitchers
are formed, not by the. transformation of an entire leaf, as on the
three genera already dealt with, but by the modification of the upper
portion of a leaf, a spine-like projection at the hinge of the lid
representing its true apex. In some species the whole, and in
others the greater part of the interior surface is covered with large

162 W. H. GlLBUr.T ON THE

and remarkable glands. They differ in three important respects
from any yet described. A sectional view of a small portion of the
glandular surface of N. chehoni is given in Fig. 12.

All the glands we have hitherto treated of are imbedded ; these
project entirely above the surface. They are also over-arched by a
canopy crescentic in form, and have each of them direct communica-
tion-with a twig of the vascular system. The arrangement of the
position of these glands is quite irregular and unsymmetrical. The
canoj^ies or hoods, however, of those nearest the mouth of the
pitcher, cover the glands more completely than do those lower down,
while at the base the glands are wholly exposed ; the one figured
shows the relation of hood to gland about midway between tlie
two extremes.

The glands vary very much in size, and are composed of five or
six layers of thin-walled cells without intercellular spaces. The
cells of the superficial layer have their longest diameter at right
angles to the surface, those of the next layer are about equal in all
directions, while those beneath are flattened horizontally, and have
walls of extreme thinness. At the base of the gland are generally
to be seen one or two spirally-marked cells, in a group of which the
vascular twig always terminates.

Nepenthes has a true digestion, and in some species the fluid
secreted is extremely active.

We must now return to a consideration of the so-called inter-
cellular canals.

Dr. Tait, speaking of the pitcher of N. Rafflesiana, says : —
*' The epidermal surface is composed of irregularly polygonal cells,
which in the young pitcher are regularly nucleated ; between these
run continuous interspaces, forming a network over the whole
surface. On the surface of the hoods the cells are elongated, and
the spaces run up between them at right angles to the lip of the
hood, where a canal seems to run, into which they all enter."
** The stream of protoplasm in the canals can occasionally be seen
broken, and in such a state the reality of their canalicular structure
can be demonstrated." In another place he says : — " In a few
cases I have seen appearances as if the intercellular canals had
direct communication with the spiral tissue." " Examination by
high immersion i)o\ver has convinced me that these intercellular
canals are really walled, and that they contain streams of colourless
protoplasm which is in a state of slow movement."

HISTOLOGY OF PITCHER PLANTS. 163

Kow all this is so circumstantial that it is difficult to suppose
that the author could have been in error. Yet, I think, that in
wliat he says about the structure of the hood, we have a clae as to
Avhat it is which he lias seen, and which, misinterpreting, he has
described as canals.

He states that the hoods are formed of elongated cells, between
wliich canals run, having communication with another canal running
along the edge of the lip ; that these canals contain protoplasm, the
column of which can be sometimes seen broken at intervals. In
Fig. 13 a group of these cells are shown, having been first bleached
and any cell contents that might have been present removed, and
the preparation afterwards stained.

It will be observed that the cells of the lip are elongated, as
described, and that they are greatly thickened, of which fact no
mention is made ; that in the secondary or thickening deposit a
number of simple pits are present, extending to and sometimes
appearing to pierce the primary cell-wall, which, being more highly
refractive, is easily made out. In Fig. 12 a section of one of these
lip-cells is shown in section, exhibiting the same features and also
the presence of the greatly developed cuticle which overlays them,
but which gradually decreases in thickness, till just before reaching
a gland it entirely disappears. So, also, the surface cells, which all
have thickened walls, showing simple pits (though not nearly so thick
as those forming the lip of the hood), become thin as the glands are
approached.

Now it seems to me that it is either these thickened cell walls or
else the primary cell wall which Dr. Tait has described as canals
containing protoplasm, the breaks in its column being the simple
pits which are always found in such thickened cells, and which, when
seen in section, seem to indicate a break in the continuity of the
substance. At least this is the only way in which I can account for
his being so misled ; but as to the non-existence of the canals I am
perfectly satisfied.

One other point before I conclude. In the mesophyl of Nepen-
thes chelsoni there are some curious structures, the interiors of
which are lined with a number of very coarse spiral fibres — in one
instance I counted as many as seven strands. They cannot be re-
garded as true vessels, as they are comparatively short, and their
outline very irregular, appearing as though they occupied inter-
cellular spaces. Their diameter often varies somewhat abruptly

164 W. H. GILBURT ON THE HISTOLOGY OF PITCHER PLANTS.

within verj^ wide limits, and their two ends terminate in several
angles, as though filling up the space formed by the partial union of
a number of rounded cells, and the spiral fibres are continuous over
their angular terminations. They appear to have no connexion with
the vascular system, sometimes passing across the bundles at a
higher or lower level. Their average diameter is often five or six
times that of the true vessels.

As to the nature of these structures and their value to the
plant, I am not in a position to offer an opinion, and probably no
reliable view can be arrived at, save upon developmental evidence.

I regret that so much of this paper has been taken up by matter
which largely partakes of a controversial nature ; still it is in no
carping spirit that I offer it, and trust that with it I have been
enabled to bring before you something of more general interest.

EXPLANATION OP PLATE XL

Fig. 1. — Section of gland from interior surface of Sarracenia pwyurea.
„ 2. — Section of hair from upper zone of same.
„ 5. — ,, „ lowest zone.

„ 3-4. — Surface view and Section of gland from exterior of 8. Drum-

mondii.
„ 6. — Outline of surface cells ; 7, — of deeper layer of B purpurea,
„ 8. — Small gland from interior surface of Cephalotus.
„ 9. — Large gland from crescentric glandular bodies of same.
„ 10. — Small gland produced from modification of stomata.
,, 11. — Superficial aspect of exterior gland of same.
„ 12. — Section of hood and gland of Nepenthes clielsoni.
„ 13. — Thickened cells from margin of hood of same.

Figs. 1-9 X 225 reduced one half.
„ 10-11 X 382
„ 12 X 98
„ 13 X 225

165

*' Receipts for Microscopists."
Bj JuLiEN Deby, C.E., F.R.M.S.

(Read June 2oth, 1880.)
PLATE XII (Lower Part.)

All those wlio Lave had practice with the microscope have, through
personal experience, discovered for themselves some special " dodges'
which have facilitated their researches, or enhanced the efficiency of
their instruments. If such persons would condescend to publish
their results in this respect, they would render service to others
labouring under difficulties which they have overcome. It is in
order to induce members of the Quekett Club to folloAV my
example, that I this day draw their attention to a few simple adap-
tations of means to ends.

I. — When allowing all but adepts in the use of the microscope to
peep through my high-power glasses, I have often felt a certain
degree of uneasiness, not to say of alarm, regarding the fate of valu-
able test-slides, or still more valuable objectives. Many others here
2)resent have no doubt experienced the same discomfort which I find
an easy matter to attenuate to a considerable extent, by focussing
from the eye-piece instead of from the coarse or the slow motion.
All that is needed for this is a rack and pinion to the eye-piece of
considerable length. An inch or two up or down corresponds here
to a fraction of a turn of the fine adjustment of the microscope, so
that very little danger exists of any sudden contact with the cover-
ing glass. As soon as an indistinct view of the object is obtained
through the ordinary coarse adjustment of the microscope body,
the focus is brought to exactness by means of the coarse motion of
the eye-piece without much difficulty. For demonstrations or ex-
hibitions in public, microscopes could thus be made without the
ordinary fine motion.

II. — When mapping with Micro-spectroscope, the difficulty of
measuring exactly the position of fine lines or absorption bands is

1G6 J. DEBY "KECEIPTS FOR MICROSCOnSTS."

often great, even when using the admh-able micrometers invented by
]\Ir. Browning and Mr. Sorby. I find that in most practical
cases the microrspectrum can be thrown upon a sheet of white
paper by means of an ordinary camera lucida placed over the eye-
piece of the spectroscope. Strong light by means of a condenser
has to be thrown through the liquid under examination. By means
of an ivory rule, finely divided, and brought back to a known line,
say D, all other lines or bands may be directly measured off on the
rule, and, if desired, the exact results in raillionths of a millimetre
may then be computed by any of the known interpolation formulae,
such as are given in Suffolk's useful little book.*

III. — The arrangement of small microscopic objects, such as
diatoms, foraminifer^e, etc., on slides in regular lines, circles, or
patterns, can be much facilitated in the following way : — Draw
with a pen and ink cross lines, or circles, or any other figure required
on the surface of the plain mirror of the microscope ; then focus
down until the image of these lines is seen on the upper surface of
the top lens of the condenser. By means of a mechanical finger, or
of a steady hand with a rest, no difficulty will now be experienced
in placing the objects in perfectly regular order.

IV. — I now obtain excellent condensed monochromatic light by
means of a bull's-eye of unusual external shape, the internal
portion of which, however, is filled with glycerine or oil of cloves
coloured to suit. This bull's-eye has a plane back and a concavo-
convex front, and the liquid is introduced through a hole in the flat
side, closed by a small ground stopper. This apparatus is furnished
with universal motions, and has a rack and pinion foot. It was
made for me by Mr. J. Browning. When using blue light, produced
by ammonia sulphate solutions, I have resolved, by means of this
monochromatic bull's-eye amphipleura, with objectives in my pos-
session, which will hardly show Pleurosigma angulatum under
ordinary condenser illumination.

V. — Some time ago, Mr. J. E. Ingpen, on my behalf, made a
communication to the Club in regard to a growing slide I had devised
for some special researches I was following at the time. Some diffi-
culty seems to have been found in the making of these slides, so
that it is with pleasure I now offer a still more simple contrivance
for obtaining the same results. Here is the receipt : — Take an

* " Spectrum Analysis as Applied to Microscopical Observation." W. T.
Suffolk, F.ll.M.S. Loudon, John Browning, 63, Strand. 1873.

J. DEBY "receipts FOR MICROSCOTISTS." 107

ordinarj glass slip with a circular hole, say half an inch or more in
diameter in the middle ; lay this slip on an ordinary glass slide, not
perforated. Then grease the top of tlie upper or perforated slide
just a little way around the circular hole, and join the two slips of
glass by means of two rubber rings. The object is then placed on
a thin cover-glass, somewhat larger than the hole in the slide ; it is
then covered by a thin glass cover, ^ inch in diameter ; the whole
is then turned down and fastened to the slide by the adherence with
the grease, while the small cover prevents the running of the liquid.
The plant or animal under examination finds itself confined in a sort
of miniature Ward's case. When not under observation, the grow-
ing slide is laid flat in a shallow plate with water just above the line
of junction of the two slips of glass, where, by capillarity, it creeps
up to the central cell, where evaporation keeps the contained
atmosphere in a state of constant and healthy saturation. (See
Plate XIT, lower portion.)

VI. — Copal Varnish. I find this varnish dries very rapidly
if slightly heated, or even if j)laced on a previously warmed slide.
I have many hundred slides of diatoms prepared in copal varnish,
and my friend, Mr. Van Heurck, of Antwerp, who was the first to
use this material, has many thousands. The varnish to be used is
what is called the " pale copal," and its consistency ought to be
that of oil.* It is much pleasanter to use than Canada balsam, does
not make bubbles, and its refractive index is not very different from
that of balsam, and does not interfere with the solution of diatom
markings. I have of late made many preparations in copal dis-
pensing with the cover glass altogether. The drop of copal is placed
on the diatoms and heated lightly over the spirit lamj^. It soon
takes the consistency of amber, and is hard enough to sustain
"wiping and brushing with a soft brush with impunity. The optical
aberrations produced by the cover glass are thus done away with.

I hope at some future day to add a few more '' Receipts for Micro-
scopists " to the above list ; may the above, however, in the mean-
time lead to similar communications from brother microscopists.

* This varnish can be obtained from Wallis & Co., 64, Long Acre, London.
It is very much cheaper than balsam.

JouRN. Q. M. C.J No. 45.

168

Note on some Peculiarities of a Flea.

By E. T. Lewis, F.R.M.S.

{Read June 2oih, 1880.)

It will, no doubt, be remembered by those who were present at
the last meeting of the Club, that a remarkably large specimen of
Pulex — species undescribed — was then presented to the Cabinet, on
behalf of Mr. J. G. Tatem, of Reading, Thinking that perhaps a
drawing of it might be useful for future reference, as an aid to its
identification, I took home the slide for the purpose of making one.
The sketch — merely made with pen and ink — is, I fear, somewhat
rough, but it is, I believe, made accurately to scale under a lin. ob-
jective, by Dr. Beale's reflector, and is offered to the collection of the
Club for what it may he worth.

Mr. Tatem mentioned, in the note which accompanied the slide,
that it was interesting as containing, within the body of the flea, four
specimens of Acarellus, which he had described and figured in the
M. M. J., for December, 1872. The careful attention, however,
which drawing demands, soon showed that the body of the insect
was tenanted by a much greater number of these minute creatures —
how many it is not quite easy to determine with accuracy — but the
mean of six separate counts under a lin. objective, gives the number
as 51, distributed throughout the abdomen. (Those situated in the
6th and 7th segments only, are lightly indicated in the sketch).

My attention was, however, chiefly arrested by a pair of organs
or processes situated immediately above the Pygidium, not alto-
gether unlike Palpi, and the use or nature of which is by no means
clear. One of them is seen upon the upper surface, and the other
is by deeper focussing fairly well seen through the double thickness
of the flea's cuticle. A drawing of the Pygidium and its appen-
dages is annexed to that of the Flea, and will convey some idea of
these processes and their well-marked structure.

On communicating the observation to Mr. Tatem, he replied as

R. T. LEWIS ON SOME PECULIARITIES OF A FLEA. 169

follows : — " The Pygiclial appendages you enquire about have alto-
gether escaped my notice, but then I am not aware that I ever
examined the object with a higher power than lin. In the Eabbit
Flea I find something analogous situate on the last segment above
the Pygidium — but the slide shall be sent for your inspection. I
have not the smallest notion as to the probable uses of these appen-
dages. They are non-existent in any other Flea in my collection,
which numbers ten species." Mr. Tatem was kind enough subse-
quently to send me the slide of Rabbit Flea referred to, and the
sketch of the same now submitted is made upon exactly the same
scale as the larger one. The appended sketch of its Pygidium is,
however, on a considerably larger scale. The two small processes
which he mentions are easily seen, but neither in position, relation,
nor structure do they bear any resemblance to those noticed in the
giant specimen. A noticeable feature of the Pygidium of the large
Flea is the great number and comparatively small size of the areolae.
Those of the Rabbit, Cat, Mole and Hedgehog Fleas respectively,
count 28, 28, 28 and 24, as against 64 in this.

The observation may not be of any particular value, but I should
like to make use of it to add further point to the recommendation so
often urged in this room, that our members should make drawings
of what they see. In no other way can things be so well impressed
upon the mind, nor is there any better training than this for habits
of careful observation ; the minute attention required in filling in
the details of a drawing will often reveal as literally as in the
present instance that, however simple may be the object, there is
very much more in it than at first appeared.

170

On a Swinging Sub-stage for the Microscope.
By James Mackenzie.

C Communicated June 25th, 1880J

Plate XII., Upper Fart.

In the sketch, A shows a portion of the fixed stage-plate of a
microscope, B is an angular plate fixed to under part of A, and hav-
ing a swivel joint at C, on which the stem with rack F swings, and
can be tightened by the nut or screw G. A pinion D, works on
the rack, and carries an arm, H, with either a single or compound
lens, E, which should be so adjusted as to be central with the optical
axis of the objective of the microscope. I is an ordinary small
concave mirror.

It is obvious that the condensing lens E maybe of any convenient
focal length, (I have used i inch,) and it may be raised or lowered
at pleasure by the pinion D, and can be swung aside to any angle
either below or above the stage. The angle-plate B should be made
and fixed so that the centre of the moveable joint or swivel coincides
with tlie top of an ordinary object-slide when it lies on the stage.

171

THE PRESIDENT'S ADDRESS

Delivered at the Annual General Meeting, July 23rd, 1880.
By T. Spencer Cobbold, M.D., F.R.S., F.L.S.

Gentlemen, — In selecting a subject on which to address you, I
must apologise for stepping out of the more or less well beaten
track of mj predecessors. Doubtless the great success of this Club
arises from the fact that its practical working rests upon the broadest
possible basis ; that basis being but an expression of the principle
of equal giving and receiving. As long as this principle of action is
retained, and as long as its office-bearers continue to be animated by
that unselfish spirit which formed so conspicuous a feature in the
career of John Quekett, so long will the Club that bears his respected
name continue to flourish.

As I do not despise the humblest efforts in microscopic in-
vestigation, you will permit me to remind you that the ultimate
aims and profits of science do not solely rest either with the
power of appreciating the loveliness of the objects presented to
view, or even with the accuracies of description that may be made
to accompany specimens. We neither undervalue the beauties of
externa] form nor the mechanical adaptations shown by the com-
plexities of internal structure, when, taking all the characters of any
given organism into view, we draw what may be termed the higher
conclusions which their consideration legitimately yields. It is only
by the philosophical method of which I speak that the full value and
significance of Nature's teachings are arrived at ; and, moreover, in
this way only can the area of science become enlarged. To enlarge
the borders of science is the object of every scientific association, and
we think that the practical work, as embodied in our proceedings and
in the Journal of the Club shows that, however inconspicuous that
work may be, we have at least some clearly defined part and lot in this
matter. The Club does not unduly flatter itself by fearlessly asserting
that it contributes towards the "extension of the known." Viewed

172 THE tresidext's address.

broadly, that extension involves issues of the highest possible con-
sequence to society in general ; for, it not only helps to advance the
material comfort of individuals, but at the same time it enlarges the
capacity for intellectual enjoyment, carrying with it a higher sense
of the value of this present life. I should not be true to the views
I hold of the exalted aims and objects of science did I not deliber-
ately express the belief that the discipline of natural science exerts
an immeasurably greater power for mental and moral culture than
all the inculcations of ancient dogmatic systems of theology rolled
together into one.

Other conditions being equal, the relative degree of personal
superiority which one individual acquires over another is dependent
upon and in strict accordance with the amount of culture and dis-
cipline of the mind. With this proposition I start ; and. though
the subject before us is a large one, even the few remarks I have to
make will, I think, be sufficient to prove its truth.

Eightly or wrongly I am with those who hold that the intellec-
tual culture and moral training of the mind should go hand in hand ;
for the former process, unaided by the latter, is apt to induce a dis-
torted view of the economy of nature, leading finally to an unsatis-
fying phase of materialism. Some people are sufficiently illogical
to petition for a "right judgment in all things," who nevertheless
take no steps to promote the culture of their own proceedings.

Now the most ordinary standards of mental and moral acquire-
ments demand, above all things, that we should be open, honest,
straightforward, and sincere ; and a yet higher principle teaches
that we should be gentle and unselfish. In the prosecution of our
various outside callings — no matter how humble they may be — we
soon find ourselves possessed of power over the minds and hearts,
so to speak, of those by whom we are surrounded. The higher our
intellectual attainments the greater our responsibilities, and there-
fore also the more necessary that we should exercise such powers as
we may possess discreetly and for the best ends.

Some may think that in matters of science this high standard of
action is altogether out of place, and the caution therefore unneces-
sary. Pardon my freedom. All history proves that it is given to
few men to exercise power wisely and well. If you have any doubt
respecting the truth of this general statement, I invite you to consult
Lecky's " History of Rationalism." Read it attentively. Think over
its startling records. Generalize for yourselves. You will there find
quoted abundant instances of misdirected power. You will note the

THE PRESIDENT S ADDRESS. 173

fact that relentless tyrannies have been employed solely for the pur-
pose of supporting particular opinions. These opinions took the
form of dogmas which at the present day comparatively few intelli-
gent persons would for a moment entertain. They were the result
of that most dangerous of all forms of ignorance, namely, an
educated ignorance. I hope my meaning is fully understood.
Ignorance which is the result of mere neglect of education, seldom
injures anyone but its possessor ; but ignorance which is the result
of erroneous teaching, spreads its fatal poison far and wide, cramp-
ing the intelligence of entire generations.

The love of power — political, social, and religious — is very fascinat-
ing ; and it is particularly worthy of remark that the gross persecu-
tions of former times were perpetrated by men who in private life
were rightly considered amial)le, pious, and even learned. The
evidence on this score is thoroughly trustworthy. It is certainly
also most instruct iA^e. Some think this phase of human conduct
peculiar to the past — a mere development of the so-called dark
ages. Than this view, nothing could be more unphilosophical. The
same phenomena show themselves at the present day, only their
manner of display is somewhat altered by modern environments.

The evil results of misdirected power are, of course, best realised
when exhibited as the deeds of strong organisations. A perfect
parallelism subsists between the persecutions exercised by educated
authorities of early times and the petty tyrannies exercised by
bullying boys at public schools. Not only so, uneducated working
men, when misguided by self-seeking trades-union leaders, lend
themselves to unjust deeds of a precisely similar order. Rightly
guided by men of high mental and moral culture, societies of the
kind referred to might become, and, indeed, in some places, have
already become centres of incalculable good. At present, however,
it may be that our improvement is more imaginary than real.
Power is the same dangerous weapon now that it ever was in olden
time. It holds the same sway over the individual that it does over
the organised community. It is an instrument for good or evil
according as you wield it. Probably, if a fair estimate could be
formed, relatively, of the motives which have led men to persecute
their fellows in earlier and later times, we should have to own that,
of the two, the baser sort characterise the present age. Intolerant
and ignorant bigotry induced the former — " educated ignorance^''
and yindictive selfishness the latter.

As already hinted, the weapon may be employed individually as

174 THE pkesident's address.

well as collectively. Armed with it the most amiable of men have
been converted into veritable fiends ; and even in the ordinary affairs
of ever J day life, it is rare to see power exerted with purely dis-
interested and unselfish aims. Asa combination of intelligent men,
however, I claim for the true votaries of science conspicuous virtue
in this relation. Probably there are few walks in life in which the
exercise of authority and party spirit for selfish ends are so little
known. Occasionally our leaders in science, doubtless animated by
the best intentions, act imprudently in their official recommenda-
tions. Something of the kind recently occurred at one of our
learned societies, when the action in question was instantly dis-
approved by the rank and file of the distinguished body in question.
It is not often that science apes the function of the autocrat ; nor
are the recommendations of scientific leaders either to be viewed
uncharitably, or to be superseded without good reason. At all
events I can with confidence assert that there is no calling — if
science may be thus denominated — in which personal independence
and individuality are so remarkable. Organisations to enforce par-
ticular views, dogmas, or modes of thought are almost entirely un-
known ; but where any great or good work likely to promote the
social, moral, and intellectual welfare of the people is concerned,
there you will find these lovers of science (however divergent their
liabits in respect of otiier matters which necessarily engage their
attention) unite together as one man. Trickery of all kinds they
utterly despise ; nor is it scarcL'ly possible for a truly scientific man
to indulge in speculative follies which will not bear the light of day.
I have sometimes observed that persons, whose mental and moral
culture has never been exercised, either in looking through a
microscope or in acquiring the rudiments of biological and physical
science, a positive inability to tell " the truth, the whole truth, and
nothing but the truth."

If exhibitions of inaccuracy and untruthfulness are admitted to
be humiliating and barbaric, let not those who disapprove flatter
themselves that the practice of absolute integrity is easy. Unfor-
tunately, criteria of smallness of j^rinciple are sometimes noticed in
men of sci(.*nce, or ratiier in some who have worked in science, but
who have missed the higher aims of science. (Such displays are
doubtless rare ; but when they occur they are not difficult of
detection, since tliey appear without being sought for. (Greatness
of principle is all the greater by contrast. When on a former

THE president's ADDRESS. 17 5

occasion I had the honour to address you, we placed some of these
elements of scientific strength and weakness side by side ; and in
particular I singled out the confession of the father of the healing
art, who, in the interests of medical science, thought it his duty to
make admission of an error. In like manner I pointed to the very
similar conduct of other leaders in science, both past and present.
With such splendid examples of generous conduct before us, I hold
that a perfect reciprocity should characterise the dealings of all
scientific associations, as well as individuals; for certainly, whatever
mental endowments our generalised anthropomorphic ancestors dis-
played, a monkey-like selfishness lies at the bottom of all untruth-
fulness. Mental littleness so ill consorts with the pursuit of
science, that where it exists it renders its unfortunate possessor one
of the most unlovely objects it is possible to contemplate.

It must be clear to you that the attainment of high excellence in
any walk of life is necessarily reserved for the few. Men having
eight or nine feet of physical stature are not more rare than intel-
lectual giants of the Shakespearian or Newtonian type. So long,
however, as we aim at the highest improvements attainable under
the varied conditions in which we are severally placed, we have no
right to be dissatisfied with an elevation which may be extremely
low when contrasted with that acquired by others more favourably
placed. Think for a moment what a multitude of circumstances
must combhie in a man's favour to make him really eminent. The
patronage of the great and wealthy will not accomplish it. Dis-
tinctions allotted by their capricious favour will only receive
endorsement from an immediate and very limited posterity. The
more enduring credit rests upon a securer basis. Even the com-
paratively dwarfed intellect may by the exercise of perseverance and
its best powers secure a better future record than is likely to be
obtained by the more fortune-favoured man of undoubted ability.
If any one present be tempted to murmur at his narrow chances in
this relation, I pray him reflect upon the thousandfold more limited
opportunities of certain of his fellow men. I do not refer to the
strangely conditioned inhabitants of remote geographical areas ; but
I simply allude to the uneducated peasantry of our own loved
island, who, whatever may be their natural capacities, have not the
vestige of a chance of rising above a level which many of us would,
if we had to occupy it, think degrading. Yet we might descend
much lower. I, for one, cannot doubt that amongst our myriads of

176 THE rr.ESIDENx's ADDRESS,

poor tliere are germs of greatness wln'cli — Tvere all the circum-
stances favom-able — would cleveloiD intellectual prodigies capable of
astonishing the civilised world. The biographies of some of our so-
called self-made men testify to the truth of this assumption.
These self-made individuals achieved success and overcame the
otherwise insuperable difficulties of their j)osition not alone by their
high mental and moral qualities. In the first instance, doubtless,
these qualities attracted the sympathy or goodwill of benevolent
and intelligent persons (higher up in the social scale). The patrons,
again — themselves probably possessing sound mental culture —
voluntarily promoted their advancement ; but, mark you, success
would, even now, never have followed, had not the essential elements
of strength been afterwards supplemented by sustained energy and
perseverance. Facts of this kind, duly weighed in our minds,
inevitably lead to the conclusion, that for every one such favoured
individual, ten thousand others, of equal capacity, have intellectually
perished. If I may do so without offence, I would add that reflec-
tions of this sort, borne out as they are by similar dispensations
affecting the welfare and even the existence of every living thing,
whether plant or animal, should tend to make us active and diligent
in improving the measure of means and capacity we may severally
happen to possess. If to rise be difficult, to sink is easy ! Ihe
maintenance of a fair level in this struggle is not of ready accom-
plishment, especially if the point of departure has been moderately
elevated. Certainly, it is a gratifying sight to see a man, however
humble his outward position in life, hold his own either in an intel-
lectual or moral point of view. It is refreshing to see him bearing
down, though it be by painfully slow degrees, all opposition to his
progress ; for, rest assured, each individual success is an important
contribution to the sum of human advancement, and who can tell
that it may not be by such achievements — coupled with the side-by-
side growth of a multitude of other social, political, and even reli-
gious developments — that the further progress of our race shall be
secured, and ultimately precede or actually eventuate in that high
destiny which has formed the subject of predication and hope by
the most enlightened in all ages ?

I have casually refei'red to the uncivilised of foreign lands.
We all remember the strange effect which the sight of the ocean
had upon the Makalolo followers of Dr. Livingstone. In one case
the shock was so great that the native leaped over-board and dis

THE president's ADDRESS. 177

appeared beneath the waves. This was the effect of the sudden in-
rush of new ideas. The remarks which some untutored minds utter
when they look tlirough a microscope for tlie first time, show a
bewilderment which, though not leading to the same disastrous
results, forcibly remind one of the stupidity of the unhap^Dy savage.
The mental phenomena arc identical in kind, though differing in
degree. The extreme case is, of course, the more striking, and
therefore, in some senses, the more instructive. On my mind, at
least, it forces the conviction that uncultured mental processes, like
erratic meteors, are apt to fly off at a tangent when subjected to
impulses that are entirely new to them ; but where the brain-pro-
cesses are trained aright, they will, despite all accidents, maintain
their own orbit and travel safely onwards in that legitimate sphere
of activity which Nature has assigned.

Let me now offer you some other reflections. As society is at
present constituted, a very palpable want of sympathy exists
between different bodies of educated men. This arises from the
fact that we are hopelessly specialised, both as to our modes of
thinking, as well as upon the general subject-matter of our thoughts.
The majority are only interested in those things which belong to, or
rather, are supposed to be proper to their particular calling. They
will converse on little else than mere business or professional
topics ; consequently they naturally tend to group themselves in
coteries whose dimensions are commensurate with their neces-
sarily abridged sympathies. In some cases there exists a positive
antagonism, more or less strongly pronounced. Perhaps this is best
seen in the respective attitudes of the men of theology and science.
What a painful process it is to wade through the " History of the
Conflict between Religion and Science," even as it is recorded in
the attractive little volume by Professor Draper, of the New York
University. In spite of all this I sometimes do not feel very sure that
we ought to deplore this antagonism, since the economy of things
in general seems to imply that all progress is the resultant of
mutually conflicting agencies. Be that as it may, the facts of the
case are palpable. Let us take an illustration from ordinary dafly
life. It is only a false delicacy which refuses to face a feature re-
presenting a palpable blot in our social system.

Fifty-two days in every year a large proportion of the inhabitants
of this country are induced by choice or habit, blended with a sense
of duty, to listen to pulpit teachings. I have followed and enjoyed

178 THE tresident's address.

the same privilege. The clerical body abounds with scholars and
learned men ; and from personal knowledge and friendly relations,
I can testify that it contains many of the most estimable, gracious,
and gifted of our race. We are proud to number some of them
amongst our members. Why, therefore, it may be asked, should
there be any impropriety in unveiling impressions which contact
with their persons, and, as a rule, honestly enough imparted instruc-
tions are intended to supply? The reason is very simple. It is
tfie sight of our manifest divergencies, coupled with the fear of
perfect freedom of utterance. Of course no rightly constituted mind
would desire to give needless offence. Let me state the case more
fully. The clergy and ministers looking back, not without legiti-
mate pride, to the time when their predecessors were almost the sole
instructors of our race, naturally advise in a ruling way ; whilst, at
the same time, they submit their own intelligences to preconcei\ed
opinions which the necessities of their position oblige them to enter-
tain. The contrast between them and men of science thus becomes
striking. Our fetters are of the slenderest kind ; their's are as links
of iron. The bond of union between us is human sympathy ; yet
our several studies and pursuits tend to disunion. There is even
an antagonism in the method and subject-matter taught here, as
contrasted with the educational antecedents of those who are placed
over us by the verdict of what is called '' Society." Here, for
example, we dare to think for ourselves, and neither up nor down to
any particular standard of authority ; and, moreover, in view of sup-
plying ourselves with the means of mental improvement, we seek to
acquaint ourselves with some of the grandest truths which the
microscope, aided by the study of Nature in the field, is cajjable of
unfolding. Thus it is tiiat tlie biological and physical sciences open
up to our view the character and uniform working of some of those
laws by which all existing things are sustained from day to day. By
the method pursued in our Club and elsewhere, onlinary facts,
which to the common vacant mind, have no sort of definite meaning
or significance, are marshalled together so as to constitute an un-
broken sequence or harmonious whole. By-and-bye the relations
subsisting between these facts become more and more evident ;
whilst, eventually, the ultimate intention of the relations themselves,
and even also sometimes the particular why and Avherefore of their
behig bursts upon the mind with all the glowing influences of a
newly acquired truth. Tiius, also, it becomes clear that the power

THE PKESIDEyx's ADDRESS. 179

of iDerceiving scientific truth and its actual acquirement together
involve a large amount of moral discij^line ; and it is nothing but
daily and hourly contact with those whose intellects are unduly
bowed down by the business of mere money-getting that the gratifi-
cations aiforded to a mind thus taught are lessened.

How different is the case with those of our clerical friends or
ministers who do not cultivate scientific tastes. Taking an average
pastor, what is the net result of his collegiate career ? The educa-
tional environment has of necessity exercised its differentiating
power, and in cases where natural amiability has not operated to
lessen the divergence, he stands quite apart as a highly specialised
individual, sometimes so painfully so as to be quite unapproachable.
If, for example, in conversation, the bent of your mind should
suggest comment on a recent scientific discovery, see what difficul-
ties you would have to encounter. You refer to the record, let us
say, of an eclipse of the sun on one of the Assyrian tablets ; unfor-
tunately, that is likely to throw doubt on his ordinarily received
chronology. You change about, and speak perhaps of a remarkable
fossil recently discovered in the lowest palaeozoic strata ; it must have
lived eons and eons of years gone by, and therefore (contrary
to his notions) enables you to affirm that death occurred millions
of years before the appearance of the race of man. One step further,
and you venture to remark upon the " evidence as to man's place in
Nature," his alleged antiquity, and the distinguishing characters
between the lowermost types of the human race and those of the
anthropomoriDhous apes. Well, now, you are not necessitated to
believe all that has been said or written upon this subject ; but
certain it is that the pastor, unless he be of the Canon Kings-
ley type — happily increasing in numbers and influence every year —
will by this time have classed you with those dangerous individuals,
geologists and the like, who are of all men to be avoided. Mean-
while, the conversation has become restrained and without much
further ceremony you respectfully bid each other adieu. In plain
terms, the results of scientific discovery do not accord with his
views, and he entertains a profound suspicion as to the safety of
your evolutionary doctrines.

A few words more. I think it one of the chief glories of biologi-
cal or Natural History Science that it affords the most readily
accessible means of invigorating the mind, at the same time that it
regulates the moral and intellectual process. The carefulness,

180

THE PRESIDENT S ADDRESS.

patience, self-discipline, and general accuracy wliich the pursuit of
any one of its various branches begets is remarkable. The man
whose mind is totally deprived of such aids is apt to become
dogmatic and narrow in the extreme. His views of Nature are in-
adequate, and dwarfed by a thousand prejudices. Popular errors
SAvay his mind to and fro after the fashion of an angler's float upon
the ruffled stream. Day dreams of the past are to him as present
realities. He may even look to the form and visage of the moon to
guide him as to probable changes in the weather, and he is entirely
unaware how much he remains the child of a diluted superstition.
Clearly it is nothing to him, that " the highest meteorological
authorities, after a series of minute observations, continued through
many years, have come to the conclusion that no influence of any
sort can be traced" in this relation. Ignorant of his own igno-
rance, he is minded to remain so ; and he fortifies his position by a
record of the experiences of his fellow men, who, guided by the
same teachings, are necessarily as unenlightened as himself. I am
free to confess that it is not pleasant to unveil truths, the enuncia-
tion of which implies defects so generally prevalent. Yet, how
can those of us who love science for its own sake do otherwise ? It
is a disadvantage to the votary of such knowledge that his sense of
its value constrains him to invite others to share the intellectual
feast ; for you must perceive that the mere assumption of his
legitimate position lays him open to the charge of immodesty. Be
it so. I am fully sensible of the tendencies of the present hour ;
yet I believe that even wealth, without " mental and moral culture,"
is a poor possession. What painful proofs of the want of scientific
culture does " Society," in the so-called upper ranks, afford. To
kill time, its members are obliged to saturate themselves with
frivolous pursuits. An enlightened daily press even ventures to
condemn their craze for tableaux vivants and private corps de ballet
competitions with theatrical managers. Far be it from the votaries
of science to seek to lessen personal delights and social enjoyments.
We contend that whilst science does not lessen life's pleasures, its
votaries rarely become the victims of a frothy and unsatisfying
ambition.

Not without strong convictions have I ventured thus to utilise the
honoured position which your suffrages have so kindly conferred.
If I appear to have exceeded my official liberty, you will lay it dowm
to my desire to err rather on the side of zeal than on that of

THE president's ADDRESS. 181

indifference to the cause we all have at heart. I would say to each
fellow-member, "go on seeking knowledge, microscope in hand, and
never mind the toil and trouble involved." In some shape or other
reward will sooner or later follow, but I neither dare nor care to
promise that it shall end in pecuniary increase. In the future, as in
the past, let every true representative of natural or physical science
claim a measure of your esteem and regard ; and should you at any
future time realise more fully than you do now, the advantages you
have derived from joining the Quekett Microscopical Club, do not
forget that most of these were due to the hearty and disinterested
efforts of as genial and devoted a set of office-bearers as it was
ever a President's privilege to work with. Gentlemen — I bid you
farewell.

182

PROCEEDINGS.

Mr.

F.

W. Andrew.

The President.

Mr.

F.

Coles.

Mr.

T.

Carties.

June 11th, 1880. — Conversational Meeting.

The following objects were exhibited : —
Substance taken from the inside of the

Glass Cover of a Miniatoi-e Painting
Larval Cestode Micrecystis paradoxus,

from intestinal wall of Night Heron
Anchors and Plates of Synapta ...
Desmidiacece — Closterhim ohtus-angulimn .
Wing of Butterfly (exotic)

„ Dragon-fly, Neurobasis chinensis
Jjeat ot Deutzia gracilis...
Floscularia cornutn, Limnias, &c.
Melicerta ring ens
Dileptus (developing)
Section of Cat's-eye Mineral
Euchlanis (unarmed species)
Aquatic larva, species unknown
Section of Acicular leaf of Pinus pina ster
Section of Stem of TJlex europoeus (Furze
Section of Toe of Mouse

Mr. A. Fieldwick, jun.

Mr.
Mr.
Mr.
Mr.
Mr.
Mr.

H. E. Gregory.
R. Hailstone.
J. D. Hardy.
H. Morland.
J. M. Offord.
F. A. Parsons.

;}

Mr. J. W. Eeed.

Mr.

J. Woollett.
Attendance — Members, 67; Visitors, 8.

June 25th, 1880. — Ordinary Meeting.

Dr. T. Spencer Cobbold, F.R.S., President, in the Cliair.

The minutes of the pi'eceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club: — Mr. Chas. A. Adams, Mr. John Cambridge, Mr. Charles li.
Curties, Mr. Walter I. Curties, Mr. C. F. George, Mr. H. S. H. Hancock,
Mr. Walter Jacques, Mr. Henry J. Waddington, and Mr. W. D. Wickes.
Five gentlemen wei'e proposed for membership.
The following Donations to the Club were announced : —

" Proceedings of the lloyal Society" ... from the Society.

" Journal of the Royal Microscopican

Society" )

" Report of the East Kent Natural History')
Society" )

183

" American Jonrnal of Microscopy " ... in exchange.

" The Midland Naturalist " ... ... „

"The American Naturalist " ... ... „

*' The American Monthly MicroscopicaH
Journal" ... ... ... )

" Science Gossip "

Part 1 of Dr. Braithwaite's " British Moss'

Flora " (special proof copy)
Paper *' On Parasitic Diseases in Sal-~

monidae, &c."
*' Balfour's Comparative Embryology "
" Grevillea" ...
"Annals of Natural History"
" Quarterly Journal of MicroscopicaH
Science" ... ... ... )

24 Slides

The thanks of the meeting were voted to the donors.

The Secretary read the following list of nominations for oflBcers of the
Club to be elected at the annual meeting : — For President, Mr. T. C. White ;
Vice-Presidents, Dr. Cobbold, Dr. Cooke, Dr. Matthews, and Mr. Stewart ;
Hon. Treasurer, Mr. Gay ; Hon. Secretary, Mr. Ingpen ; Hon. Foreign
Secretary, Dr. Cooke.

The President intimated that Mr. Hailes had resigned the oflSce of Hon.
Secretary, and consequently his name did not appear in the list of nomi-
nations.

The members of the Club were then requested to nominate some of their
number to fill six vacancies on the Committee, caused by the retirement of
Messrs. Gilburt, Parsons, Priest, Spencer, Cottam, and White.
Mr. E. T. Newton, proposed by Dr. Matthews, seconded by Mr. T. C. White.

from the Publisher.
,, Dr. Braithwaite.

„ The President.

„ Mr. T. C. White.
Purchased.

from Mr. John Cocken.

Mr. J. W. Goodinge
Mr. G. D. Brown
Mr. W. H. Gilburt
Mr. A. D. Michael
Mr. W. J. Scofield
Mr. H. F. Hailes
Mr. W. W. Beeves

Mr. Crisp „ Mr. Mackenzie.

Mr. Dobson ,, Mr. Mackenzie.

Mr. Eeed „ Dr. Cooke.

Mr. Newton „ Mr. Alph. Smith.

Dr. Cooke „ Mr. Goodwin.

Mr. Michael „ Mr. Parsons.

Mr. Parsons „ Mr. Sigsworth.

Mr. E. T. Newton thought it desirable that the Hon. Librarian should be
an ex-officio member of the Committee, and gave notice that he should move
at the next meeting that the second rule which provides for ex-officio
members of Committee should be added to for that purpose.
Mr, Parsons seconded the proposal.

Mr. Alpheus Smith said he was much obliged to Mr. Newton for proposing
the matter, but thought his attendance at the Committee meetings would be
a matter of inconvenience, because the hour at which the Committee met —
from 7 to 8 — was his most valuable time for attending to the issue of books
and other matters connected with the Library.

JouHN. Q. M. C, No. 45. p

184

Mr. Parsons said there would be no necessity for regular attendance, but
the object was to give him the right to attend whenever he found it
desirable.

Mr, J, W, Reed proposed to include the name of the Hon. Curator with
that of the Librarian in the motion just made by Mr. Newton.

The Secretary said it would be necessary to appoint two Auditors of the
accounts. Mr. Hainworth had been appointed on behalf of the Committee*
and it was for the members to elect some other gentleman to act with him
on behalf of the Club.

Mr. Hardy was proposed by Mr. Curties, and seconded by Mr. Sigsworth,
and duly elected by show of hands.

Mr. Crisp said there was an impression amongst the members that the
persons proposed for members of Committee were generally elected accord-
ing to the position of their names on the Balloting list, so that whether a
man was elected or not might depend upon whether his name began with
an early letter of the alphabet. At first it might seem like a coincidence,
but it had now become to be regarded as almost a settled fact, and he asked
the Secretary whether he had ever taken out a list of the nominations at
various elections to see if it were really as stated ?

The Secretary said that some time ago he made such a list, and his im-
pression was that unless the name of any person nominated either began
M'ith an early letter, or he was very well known, there was not much chance
of his election.

After some further conversation upon the matter,

Mr. Crisp gave notice that he would at the next meeting move that the
words " in alphabetical order" be struck out from Rule 3, and the words
"in order to be determined by lot " be inserted instead.

The Secretary read the following communications from Mr. Julien
Deby :—

" On Focussing with the Eyepiece."

" On Mapping with the Microspectroscope."

" On the Arrangement of Microscopic Objects such as diatoms, &c."

" On a Hollow Condenser filled with Glycerine as an illuminator."

" On an Alteration or ImproTement in the Growing Slide."

" On the use of Copal Varnish."

The Secretary exhibited and described Dr. Edumnds' new parabolized
gas slide.*

Mr. R. T. Lewis read a note "On some Peculiarities in the large Flea
presented to the club by Mr. Tatem." Pen and ink drawings of this flea
and also of a rabbit flea were presented to the Club.

Mr. J. Mackenzie described a swinging substage. This was arranged to
screw on to the front of the stage.

Mr. lugpen thought that the diflSculty in the way of carrying out the
idea might be the possible infringement of a patent.

Mr. Michael inquired how the stage was centered ?

• For a description and illustration of this apparatus, see tlie " Journal of the Uoyal
Microscopical Society," Vol. hi., j). iM.

185

Mr. Mackenzie said thei-e was no special arrangement for centering.

Mr. W. H. Gilburt gave a resumS of his paper " On the Histology of
Pitcher Plants," the subject being fully illustrated by diagrams.

The President said they must all feel very much obliged to Mr. Gilburt
for having brought this subject forward. It was evident that Dr. Lawson
Tate had fallen into some errors, but they were no doubt eiTors of inter-
pretation rather than of observation.

Dr. Matthews said that this plant was interesting as having been at one
time proposed as a remedy for small-pox. Was there any acid principle
found in it ?

Mr. Gilburt said it was altogether neutral, giving no acid reaction what-
ever.

Mr. J. W. Eeed asked Mr. Gilburt if he had any theory as to the thicken-
ing of vegetable cells ?

Mr. Gilburt thought the thickening of ligneous cells was for the purpose
of strengthening them, and he could only suppose that this was the case in
Pitcher Plants.

The President said if he understood Mr. Gilburt inghtly, the so-called
intercellular canals described by Dr. Lawson Tait were merely the effect
produced by the thickening of the cells ?

Mr. Gilburt said that Dr. Tait had not recognised the fact that the cells
were thickened, but regarded all that was between them as protoplasm.
But it was quite clear that the sui:face cells of all the Pitcher Plants were
so thickened, and there was nothing else that could be taken for a canal.
It was, however, quite certain that these were not canals. The thickening
of the cell wall he evidently regarded as the boundary of the cell itself,
and all else between he took for a channel ; it was undoubtedly a case of
misinterpretation.

The I'resident read " Some Further Observations on Human FilaricB,'" by
Dr. Manson, in which he not only confirmed his previous observations, but
indicated the lymphatic tissues as the locality in which these worms were
to be found. The presence of Filarice in the brains and hearts of birds was
also mentioned, and a bottle was exhibited, containing a number of hearts
of Chinese magpies, each of which swarmed with these parasites.

The President also communicated translations of some recent papers
by foreign helminthologists on the so-called Tunnel Trichinosis and
other subjects, which he thought the Club would do well to publish.
There was really no such thing as Tunnel Trichinosis ; the disease to which
the name had been applied bore no resemblance whatever to Trichinosis
proper, and though this had been explained again and again by himself
and others, the error was being constantly repeated in the newspapers and
elsewhere.

Dr. M. C. Cooke said he could quite confii-m the last remarks of the
President from what he often met with in his own branch of science. He
had come to the conclusion that it was a waste of time to combat such
errors, and he believed that they would die much sooner if they were let
alone.

18(;

The President said that in one of his communications Dr. Manson
referred to a report in the Lancet of the meeting of the Q.M.C. at which
his former paper was read. He hoped that they shonld at a future time
have the pleasure of receiving other communications from him. It was
curious that the hearts of birds as well as of carnivora should be found
literally stuffed with these nematoid worms — the mature forms were usually
found in the heart in birds, whilst the immature forms were found in the
blood.

Mr. T. C. White proposed a vote of thanks to the President for the very
interesting communications which he had brought before them. The subject
was one which required a great deal of study, and they could scarcely hope
that many of the members would take it up, but the President had given
them a very interesting introduction to it.

Dr. Matthews having seconded the proposal, it was put to the meeting
and carried unanimously.

Announcements of meetings for the ensuing month were made, and the
proceedings terminated with a conversazione, at which the following objects
were exhibited : —
Epsom Salts ...

Glands and Hoods of Nepenthes Chelsoni "^
Gland of Cephalotiis foUicularis... )

Navicula angulutum, with a cheap substi-")
tnte for a swinging substage ... )

Section of Luxullianite

Aspidogaster conchiola from an Anodon ")
Section of Eye of Cray-fish ... j

Leaf of Camellia japonica
Parietaria diffusa

Proventriculus, stomach, &c., of Lithohius"
vulgaris

Attendance — Members, 54 ; Visitors,

Mr.

F.

W. Andrew

Mr.

W

H. Gilburt.

Mr.

J.

Mackenzie.

Mr.

H.

Moriand.

Mr

E.

T. Newton.

Mr. J. W. Reed.

Mr. T. C.
2.

White.

July 9th, 1880. — Conversational Meeting.

The following objects were exhibited: —

Leaf of Rice paper Plant

Section of Sarsaparilla Root

Argulus foliaceus

Diatoms — Rhipidophora nubecula

Dissected Thorax of Blow-fly

Tongue of Empis

Acarus — Notaspis lucorum, full grown ~^
nymph, showing perfect creature in- >
side ... ... ... 3

Section of Chalk from Co. Antrim 'i

Section of Crocidolite ... )

Mr. F. W. Andrew.
Mr. W. R. Brown.
Mr. D. B. Cazaux.
Mr. C. G. Dunning.
Mr. F. Fitch.
Mr. R. Hailstone.

Mr. A. D. Michael.
Mr. H. Moriand.

187

Spicular Cells in stem of Araucaria inibricata Mr. J. W. Reed.
^cidium Taraxaci ... ... ... Mr. H. J. Roper.

Section of stem of Cherry ... ... Mr. J. WooUett.

Attendance — Members, 56 : Visitors. 6.

July 23rd, 1880. — Annual Meeting.
Dr. T. Spencer Cobbold, F.R.S., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.

The following gentlemen were balloted for and duly elected members of
the Club :— Mr. E. Carr, Mr. Jas. Funston, Mr. H. V. Shaw, Mr. A. S.
Hardingham, and the Rev. William Reade.

On the recommendation of the Committee, Mr. F. H. Wenham was unani-
mously elected an honorary member of the Club.

The following donations to the Library and Cabinet were announced : —

*' The Popular Science Review "

" Science Gossip "

" Part II. of the British Moss Flora "

" McAlpin's Biological Atlas " ...

" Huxley's Cray-fish '' ...

" Kirby and Spence's Entomology" ')

*' Curiosities of Entomology'' ... )

" Greene's Protozoa and Coelenterata "

" Ninth Report of the South London )

Microscopical Club "... ... )

"Transactions of the Watford NaturaFi

History Society '' ... ... j

"The Analyst"

*' Annals of Natural History "

6 Slides of Sponges

1 Slide

from the Publisher.

,, Dr. Braithwaite.
„ Mr. J. W. Groves.
„ Mr. J. C. Sigs worth.

„ Dr. Matthews.

„ Mr. Ingpen.

„ the Club.

,, the Society.

,, the Pablisher.
Purchased,
from Mr. Priest.

,, Mr. Morland.

The thanks of the meeting were unanimously voted to the donors.

Mr. Frank Crisp, in pursuance of notice given at the previous meeting,
moved an altex-ation in Rule 3, by removing the words " in alphabetical
order," and substituting for them " in order to be determined by lot, as
drawn by the President and Secretary." He explained that it had been
commonly observed, that when there were more persons nominated than
vacancies for election, those who stood at the top of the list were almost in-
variably elected, and those at the bottom struck out, merely because of the
position in the alphabet of the letter with which their names commenced;
so that whilst Mr. White had no chance at all, Mr. Black was sure to be
successful. The proposed alteration would determine the order of the
names upon the ballot papers in another and, he thought, a more satisfactory
way to the general body of the members.

]<s8

Mr. Chas. Stewart seconded the proposition, which was put to the meet-
ing by the President, and carried unanimously.

The Secretary said that having regard to the probability of this motion
being carried, the President had drawn lots, and the names of the gentle-
men nominated had been printed on the ballot papers in the order thus
obtained ; but there was also another set of ballot papers, on which the
names appeared in alphabetical order.

Mr. E. T. Newton moved an alteration in Rule 2 and the other Rules
dependent upon it, so as to include the Librarian as an ex-officio member of
Committee. It had occurred to him and to others as singular that neither
the Librarian, Curator, or Reporter had any voice in the management of the
Club, although their work was of great importance. As his motion stood,
it only referred to the Librarian, but as Mr. Reed had an amendment to
propose which would include the names of the Curator and Reporter and
he should support the amendment — he felt he need not alter the terms of
his resolution.

Dr. Matthews had much pleasure in seconding the resolution, which he
thought was so obviously proper and right that it must commend itself to
every one.

Mr. J. W. Reed having altered the terms of his amendment so as to make
it an addition to the proposal of Mr, Newton, and include the Cui'ator and
the Reporter as well as the Librarian,

Mr. T. C. White seconded this proposition.

The President having put the two motions to the meeting, declared them
to be unanimously carried.

The Secretary then read the loth Annual Report.

The adoption of the Report having being moved by Dr. Matthews, and
seconded by Mr. T. C. White, w^as put to the meeting and carried unani-
mously.

The Secretary read the Treasurer's Annual Statement of Accounts duly
certified as correct by the Auditors.

Mr. Scofield moved the adoption of this Report, congratulating the Club
upon the very satisfactory statement which had been laid before them.

Mr. Curties having seconded the motion, it was put to the meeting by the
President, and carried unanimously.

The President then appointed Mr. Curties and Mr. Adkins to be scruti-
neers, and the ballot papers were distributed.

The President then read the customary Annual Address, taking as his
subject " Science in Relation to Mental and Moral Culture."

Dr. M. C. Cooke said that during the past twelve months they had
frequently had the pleasure of listening to the President, and now they had
met to hear his farewell address. He believed that he spoke for all present
when he said that they had listened to that address with great pleasure ;
but it was a matter for great regret that circumstances prevented Dj*.
Cobbold from holding the office of President for another year. It was no
mere desire to flatter that led him to say this, for, from his own
observations at excursions, at their convivial parties, under the high and dry

189

scientific as well as on the jovial side of their character as a Club, there was
still the same feeling^ that thej had a President after their own hearts. He
asked them to join with him in thanking their President for his last words,
and in asking him to allow them to be pr'nted and cii^culated in the usual
way. As regarded the Address which they had just heard, he had on some
points felt inclined to join issue with the speaker, and on others to offer
some comment and criticism, but he should refrain from doing so at that
time ; it was, however, clear to all that the President had struck out a new
phase, and that they had heard an address different in many respects from
all that had preceded it. It was a difficult matter to strike out a new
course in an annual address — more difficult than most persons thought it to
be. He asked them to join with him in a hearty vote of thanks to the
President.

Mr. Ingpen said he claimed the privilege of seconding this vote of thanks,
because it enabled him to bear testimony to the services of the President.
He desired to refer to the great interest the President had taken in the
welfare of the Club, his care in informing himself of all the circumstances
connected with its objects and procedure, his constant attendance at meet-
ings, and his anxiety to render the Club all the assistance he could both a>s
President and otherwise. These were matters of which only a secretary
could be fully aware, and for which the President deserved their best thanks.

Dr. M. C. Cooke having put the motion to the meeting, it was carried by
acclamation.

The President said he felt extremely gratified by the kind way in which
they had received this vote of thanks, and for the way in which it had been
moved by Dr. Cooke and seconded by Mr. Ingpen. One observation, how-
ever, had been made, which led him to think that even Dr. Cooke was
labouring uuder a delusion, for he seemed to think that on resigning his
position as President, his connection with the Club was forthwith and for
ever to be severed. Such a thing had never entered his cranium. It wasau
official severance, it was true, for reasons which he need not then explain j
but for all that, whenever he had anything worth bringing before them he
should count it a pleasure and privilege to be a contributor as one of their
rank and file. He had only further to thank them for the kindness which
he had always received, and to say that he should always look back upon
the past as one of the most charming of scientific years, and that he
should still continue to be with them in spirit, though absent in person.

The President then moved a vote of thanks to the Council of University
College for their continued permission to hold the meetings of the Club in
the Library of that building.

Mr. Ingpen had much pleasure in seconding this vote ; he had more to do
with the College in connection with the Club than any one else, and could
therefore speak of the great kindness and courtesy with which, on all
occasions, his communications with them had been received.

The vote of thanks was then put and carried unanimously.

Dr. Braithwaite moved a vote of thanks to the Officei's of the Club for
their services during the past year.

190

Mr. J. G. Waller seconded the vote, and in so doing made special allusion
to the services rendered by the Hon. Secretary.

This vote of thanks was also carried unanimously.

Mr. J. W. Eeed moved a vote of thanks to the Auditors and Scruti-
neers.

Mr. Moginie seconded the same, which was put and carried unani-
mously.

The Secretary then announced the result of the ballot to be as
follows:— President— Mr. T. C. White; Vice-Presidents— Dr. Cobbold,
Dr. Cooke, Dr. Matthews, and Mr. C. Stewart ; New Members of Com-
mittee—Mr. W. H. Gilburt, Mr. J. W. Goodinge, Mr. H. F. Hailes, Mr. A.
D. Michael, Mr. E. T. Newton, and Mr. W. W. Reeves ; Hon. Treasurer —
Mr. r. W. Gay; Hon. Secretary, Mr. J. E. Ingpen; Hon. Foreign Secre-
tary— Dr. M. C. Cooke ; Hon. Reporter — Mr. R. T. Lewis ; Hon. Librarian —
Mr. Alpheus Smith ; and Hon. Curator — Mr. C. Emery.

The President said that in quitting his office it was some personal satis-
faction to him to know that the chair would be occupied by one who had
the interests of the Club so much at heart as Mr. White. In him they
would find one who had borne the burden and heat of the day. The posi-
tion was one of confidence, and was conferred as an expression of more
than goodwill, but he could not fail to notice the accidental alternations in
the list of Presidents by which an outsider and an insider seemed to follow
one another, and he thought it rather a good thing, and quite right that it
should be so. He had great satisfaction in leaving in the chair one who had
worked in perfect harmony with himself, and had great pleasure in con-
gratulating Mr. White on the occasion.

Mr. White having returned thanks, the proceedings terminated in the
usual manner, the following objects being exhibited : —

Fredricella ... ... ... ... Mr. J. D. Hardy,

Citrus aurantium (transverse section of leaf) Mr, J. W. Reed.
Attendance — Members, 75 ; Visitors, 5.

DESCRIPTION OF PLATES XI. and XII.

Fig. I. — DiagiLimmatic represeutatiuu of a sextaut iu Aciin'ia. — {a)
Primary, (6) Secondary, (c) Tertiary, and {0.) Quaternary septa-
Figs. 2 & 8. — Fluted organ of A. iire.<e>nhrijantheiuani (see text). — («) Sep-
tum, ('./) White spots.
Fig. 3. — Transverse section of a sextaut of .4. iiu'semhrijantheiniu)/, made

close under the disc.
Fig. 4. — Ditto, made half-way down.
Fig. 5. — Base of ditto.
Fig. 6 — Tertiary septum of .4. raest'inhrtjautheinain, with eggs; craspedum

cut away ; fluted organ iu wavy line.
Fig. 1. — Quaternary septum of S. parasitica ; early ovarian stage (Sep-
tember). No craspedum carried by this septum ; fluted organ seen
lifted up.
Fig. 9. — Quaternary septuui of T. cra.'isicornis ; craspedum at foot and
edging septum, and followed by fluted organ running to back of
stomach Avail ; eggs cover septum.
Fig 10. — Eggs of S.yarasitica.
Fig. 11. — Quaternary septum of S. parasitica ; advanced ovarian stage

(Noveuiber) ; fluted organ removed.
Fig. 12. — Fluted organ in S. parasitira, showing keel-like process.
Fig. 13. — Marks seen through disc of -1. lucseiabryaiitheiiiaiiv (tiCQ text).
Fig. 14. — Relative shapes of the four septa in ditto.
Fig. 15. — Marks seen through disc of ,S'. para.sitii-a.

PLATE 11.

h^H Gdhixrt d^l

EXooheTlUh

PI^ATHJDJ

J MojTjkmirik, djU>-

'«m^^^^^^^^mmmi^^.

JLeby dtJ.

191

On Certain Immature Forms of Diatomace.e.

By G. C. Karop, M.E.C.S., &c.

{Read August 27th, 1880.)

I slioukl like the attention of Diatomists to be drawn at the present
season, when field excursions are being organised, towards the eluci-
dation of the true sexual generation in these plants. Whilst recently
examining the rootlets of some duckweed, I was much struck by
finding little groups of the tiniest diatom-like bodies, by far the
smallest specimens of such forms I had ever seen. Having no
means of measurement at hand, I should estimate them of the length
of -J- the width of a human blood- corpuscle — that is to say, if the
blood corpuscle were square, three average ones would just cover it.
They varied in size somewhat, and nearly all seemed in a healthy
condition, possessing clear yellow-brown endochrome. In their im-
mediate neighbourhood were some very small Goinphonema, usually
only two on a \/-shaped stipes, and one or two larger ones under-
going binary division. Altogether the whole group gave one the
idea of a family, but for the fact that the bodies composing the mass
of small frustules were distinctly navicular, and were lying flat on
the cells of the rootlet ; a very feAV only standing upright. On this
account, and from finding no mature purely navicular forms any-
where on the duckweed — although, bear in mind, my stock was
extremely small, being the washings of a bundle of watercress only —
I conjectured them to possibly be the pseudo-navicellas of some
Gregarine inhabiting Entomostraca ; so I got rid of the surplus
water with blotting-paper, and added strong nitric acid again and
again in the gentlest manner in small drops, sucking it up each
time with paper, until everything but the diatoms was destroyed,
the small bodies remaining intact ; this proving them to be inter-
penetrated with silex or other powerfully resisting matter. I need
scarcely say I could detect no markings which would have set the
question at rest, but I feel convinced they were a brood of young
JouRN. Q. M. C., No. 46. q

192 G. C. KAKOP ON CERTAIN IMMATURE FORMS OF DIATOMACE.E.

diatoms produced from a sporangium or gonidia following the sexual
congress between two mature forms.

Of course this method has long been surmised, but to my know-
ledge never witnessed ; so I merely wish to point out to those micro-
scopists who have sufficient means of research and leisure, a favour-
able opportunity of distinguishing themselves.

193

On a Method of Dhy-Mouxting for OrAQUE Objects.
By Henry J. Roper, F.R.M.S,

(Read August 27th, 1880.)

A former President of tlie Club once remarked that he should
like to see more papers for beginners among the work done by the
members. In offering a few observations on a very easy and sim23le
method of dry-mounting, I feel that I am, at any rate, supplying
one paper of this description.

The first attempts of the possessor of a microscope at mount-
ing objects are generally in this direction, and to speak from my
own experience, are not always satisfactory ; but a few hints on trifles
which much practice has shown to be really essential, may prove
useful to many.

The materials for mounting in the form suggested are neither
many, expensive, or complicated. A supply of mahogany slides,
3 X lin., with central circular cell pierced partially tlirough the slide
leaving a "floor" of the wood (these may be procured at Is. per
dozen), some square covering glass, some sheets of wax, such as is
used for making wax flowers, which cost, I believe. Is. 6d. per
dozen small sheets (green and white are perhaps the most useful
colours, black is not made), and some covering papers of the ordi-
nary kind ; when some name labels are added, the whole of the
necessaries are to hand, except a penknife, which everyone carries in
his pocket.

To mount any easy opaque object — for example, a portion of leaf
with a parasitic fungus on it — first cut a square, say about an inch
across, of the green wax, and lay it over the aperture in tlie slide ;
press it firmly down, and it will line the whole cell smoothly, and
leave a margin of wax projecting all round the upper surface of the
slide ; having made sure that the leaf has no foreign matter on it,
cut it so as to nicely fit the sunken cell, now lined with wax, if pre-
ferred leaving the wax showing all round, and a very slight pressure
with the forefinger will ensure its adherence to the floor of wax,

194 H. J. ROrER ON A METHOD OF

without in any way damaging the leaf or fungus ; now take a clean
covering glass, place it over the wax cell containing the object, and
press it firmly but gently down, then remove with the penknife all
superfluous wax close to the edges of the covering glass ; place over
this the covering paper, not applying too much moisture round the
central aperture, and the slide is complete, and can be labelled and
placed in the cabinet at once.

It will sometimes happen that a slide is bored so deeply that it is
necessary for the convenient illumination of the object, that something
more than one thickness of wax should be placed in the cell, so as
to bring the object nearer to the covering glass ; this can be taken
advantage of to produce a very pretty effect. Before proceeding to
line the cell \vith the wax, place an ordinary wafer in the bottom of
it, moistening only the loiver surface, choosing one, say, of a deep
red colour; place over this a square of the white wax, which is always
semi-transparent, and the result will be a delicate pink ground, well
calculated to show up to advantage many opaque objects ; other
coloured wafers will produce at pleasure grounds of different tints,
quite destitute of " glare " or " reflection," and " soft " and pleas-
ing to the eye.

The advantages of this method, which is not new, except in slight
but not unimportant ntodifications, are the unfailing certainty of the
process, its celerity, total independence of turntables and varnishes,
the lightness of the slides, the non-liability to breakage (for there is
nothing frangible but the covering glass), and last, but not least, the
permanence of the preparation.

I see that an American professor is discarding a somewhat similar
method on account of, as he says, " the covering glass, sooner or later,
becoming covered inside with a dew-like deposit, which, when illu-
minated, will glisten like so many minute points of quicksilver." I
have myself noticed this occasionally in specimens mounted some-
thing in this style, on glass slides, but very rarely (not per-
haps one per cent.) when mounted on wooden ones ; and then no
doubt the wax was used when too new, sufficient time not having
been allowed for its volatile properties to evaporate ; it is probable,
too, that the wood itself may absorb the slight moisture which, in
the case of the glass, can obtain no other refuge than the covering
glass ; at any rate, speaking from one's own experience, I have
found no inconvenience on this score, after mounting many hundreds
of slides, extending over several years.

DRY-MOUNTING FOR OPAQUE OBJECTS. 195

The result of this very simple, quick, and easy process is, that
the object is enclosed in a cell at once air-tight and water-tight, the
adhesion of the wax to the wood, and the covering glass to the wax,
strengthened by the adliesive cover paper, ensuring immunity from
damp, while I have never known an instance in which any object was
in the least affected by contact with the wax itself.

196

On Mounting Opaque Objects with Bees-Wax.
By Henry Morland.

(Bead August 27th, 1880J

Although the plan of mounting certain microscopic objects with
bees-wax cannot be called a new one, having been in use to my
knowledge at least four or five years, yet I trust the few remarks I
can offer on this subject may prove acceptable to the members of
the Club.

It is not my intention either to enter into a history of this method
of microscopic mounting, or to give details of the various plans
which I have seen or myself adopt, but to confine myself to one plan
only, the one which I find most useful for a variety of opaque objects,
and which, if properly carried out, will, I am sure, give every satis-
faction.

To begin ab initio ; I procure bleached bees-wax in cakes, and
colour portions of tlie same by melting them down in an oven with
either ultramarine or vegetable black, and stirring the whole well
together ; after allowing the mass to cool, I have a stock of white
and coloured bees-wax with which to commence operations.

Care must be taken not to use too much ultramarine, as any
excess will crystallize out on the surface of the wax, and spoil
any slides mounted with it. This remark does not apply to the
vegetable black, this latter ingredient being amorphous.

To mount an opaque object, I take an ordinary thick tin ring, and
place it on a 3" x 1" glass slip with a piece of wax in the centre ;
then moving the slip to and fro over a spirit lamp, for fear
of cracking the glass, the wax gradually melts and forms a cup-
shaped bottom to the cell ; I then at once take the slip away and
cool it under cover to exclude dust.

When cooling the wax-cell I always place the warm slide upon
metal or marble, as the quicker the cooling is elfoctcd the finer the
surface will be ; there is little danger of cracking the glass slip, as

H. MORLAND ON MOUNTING OPAQUE OBJECTS WITH BEES-WAX. 197

it is not heated to any extent, in proof of which I always hold the
slip in my fingers when warming it.

"Whilst melting the wax I sometimes find it advisable to stir
it on the slip so as to evenly distribute any colom-ing matter
employed ; it is always a good plan to lift out with a penknife the
last portion of wax melted in the cell, as otherwise there will occa-
sionally be left a sort of soil spot on the surface of the wax.

Having prepared my cells, which ought to be done only at the
last moment, so as to ensure perfect freedom from dust, I then place
the object or objects in the same. When this has been done to my
satisfaction, I proceed to the fixing, which is efi'ected, not by means
of any cement, turpentine or benzole, but merely by placing the slide
upon a block of iron, heated to about 140° Faht. ; this gradually
softens the wax and fixes the object ; if, however, the object be
large, it may require to be pressed slightly into the wax, whilst the
same is still soft.

Immediately the object is fixed, I cool the slide on a cold surface;
when cold, to test the fixing, 1 reverse the slide and. rap it on a table
or otiier substance.

I fix on the covers by soldering them down with wax, using a
piece of brass wire, about \ inch thick, beaten out at one end, as a
soldering " bit." The slides I afterwards finish off with white
cement, &c., in the ordinary manner.

Each method of mounting has its own advantages. I claim the
following for the present plan : —

1st. A particularly clean and uniform surface free from dust, the
cell being prepared only at the last moment.

2nd. Provided the object be dry, perfect freedom from damp, heat
being applied throughout the whole process.

3rd. The objects appear, even under the microscope, to be merely
laid on the surface of the wax ; there is no danger of a *' wall "
ever appearing round the object if the cover has been hermetically
sealed with the wax. I may here mention that this objectionable
''wall" round an object is generally caused either by the back-
ground not being sufficiently dry or by the vapour of the solvents
of the cements used for fixing down the covering-glass passing under
it into the cell, and re-dissolving the background ; a good plan to
meet this latter contingency is to employ a background having a
solvent different to the cement used for fixing down the cover.

In arranging a number of objects in one of these wax cells, I

198 H. MORLAND ON MOUNTING OPAQUE OBJECTS WITH BEES-WAX.

always place the deeper objects in tlie centre, on account of the
greater depth in that part.

I can cordially recommend the use of blue wax as a background
for dead white objects ; the effect is most pleasing, and is enhanced
by illuminating the wax by throwing up a light from underneath by
means of the mirror ; a proper thickness of wax is essential in
order to produce the best effect ; this, of course, can only be learnt
with a little experience.

I object to fixing small objects down with any cement, as either a
" wall " will appear round the object, or a glistening surface will be
produced, or else the surface of the wax is liable to be soiled.

199

On the Use of Arabin in Mounting Microscopical Objects.
By H. J. Waddington.

(Read August 27th, 1880.)

It will have been observed that, when a solution of gum Arabic
has been used as an adhesive medium for attaching diatoms or
other delicate material to slips, that there is often present a granular
appearance, which is owing to the earthy matters contained in the
gum. It is impossible to get rid of this by the most careful filtra-
tion, these earthy matters being soluble in the same liquids as the
gum itself. As there is no adhesive medium so suitable as gum for
microscopical purposes, I have thought that a preparation of per-
fectly pure gum, free from the objection thus mentioned, would be
of some value to microscopists. Such a medium I find in the body
known to chemists as Arabin, and which is in reality gum Arabic
from which these impurities have been removed.

To obtain Arabin for microscopical use, gum Arabic should be
selected as clear and white as possible. This is to be dissolved in
distilled water to the consistence of thin mucilage. It should then
be filtered, and the filtrate poured into rectified alcohol, and well
shaken. The Arabin immediately separates as a white pasty mass,
and the whole becomes semi-solid. It must be placed on filter-
paper, and washed with alcohol, until the washings are perfectly free
from water, and the alcohol comes off as pure as it went on. The
Arabin may now be allowed to dry spontaneously. The edges of
the surface of the mass will probably be found to be viscid, owing
to the absorption of water from the atmosphere or from the alcohol
— but the remainder will be a perfectly pure white powder. This
should be shaken off the filter and preseiTed.

Arabin possesses for microscopical purposes all the properties of
ordinary gum. It is freely soluble in water (more readily so than
gum), insoluble in alcohol.

Like ordinary mucilage, it is very liable to become mouldy if kept
in solution, but when once dry on a slip it undergoes no change, and
shows, at least as far as my own observation is concerned, no dete-

200 H. j. WADDINGTON ON THE USE OF AEABlN.

rioration after a considerable time. It is undoubtedly a troublesome
and expensive matter to prepare, owing to the quantity of alcohol
required, but, when once obtained, a little of it goes so far that prac-
tically it costs little. Methylated spirit must not be used in its
preparation, as, containing always a proportion of shellac, or other
gum resins, this is sure to remain as an impurity.

For use, a portion should be dissolved in distilled water to any.
required consistence, and passed twice through filter-paper, which
should have been previously washed with distilled water. It may
then be placed on the slips, drained, allowed to dry, and the slips
put away for use. In this condition, and with ordinary precautions
as to dust and damp, it may be preserved indefinitely.

201

On a Simple Growing Slide.
By T. Charters White, M.R.C.S., &c., President.

{Read Septemher 24t7t, 1880.)

As there is miicli to interest tlie microscopical observer in watch-
ing tlie developmental changes taking place in what are called the
lower forms of life, such, for instance, as the Infusoria ; and as the
appliances for this purpose have not satisfied me, I have brought
this evening a Growing Slide that is simple, easily constructed, and
the use of which will enable the observer to keep his subject in the
field ready for daily or even hourly observation. Most of the grow-
ing slides with which we are familiar, are made upon such princij)lcs
that their removal from the microscope is necessary, and, therefore,
when next placed under it the special subject of observation is not
easily found ; but this growing slide contains its own fluid, and may
be left under the microscope for an indefinite period, and the obser-
vations and notes made of every cliange occurring from day to day ;
and though tlie idea is carried out roughly, I bring it more as a
suggestion for others to work upon and improve, rather tlian as a
perfectly devised contrivance. Its construction is simple ; the sides,
which may be of any dimensions for which you can get thin glass
covers, are constructed out of the strips of tliick phite glass which
you can get from any glass-merchant's warehouse, and whicli have
been cut off to reduce large plates to the required size for frames,
and these are virtually waste pieces, and for a few pence may be
procured in any quantity ; having built up a cell with these, to a
suitable and convenient size, then cement a piece of the same plate-
glass in the centre of the cell with Canada balsam ; you have now a
water-tight cell, having a table of plate-glass in the centre, the
space round which you may fill half up with water. Placing your
Infusoria or whatever your subject may be, on this table in Avater,
you cover it with the thin glass, and the water in the trough will
keep up any loss by evaporation witliout any saturation of the table.
The only drawback to this growing slide is, tliat it must always be
used with the microscope in a vertical position, but as observations

202 T. C. WHITE ON A SIMPLE GROWING SLIDE.

may be made at frequent intervals, it does not necessitate standing
over the instrument for long at a time. However, I bring up a
rouglily-constructed specimen of sucli a cell, as I knew we wanted a
casual communication this evening, and perhaps others may improve
on the suggestion.

203

On Some Desmids N"ew to Britain in 1880.

By M. C. Cooke, M.A., LL.D., F.L.S.

{Rea^l Odooer 227id, iSSO.)
Plates XIII, XIV, XY, XVI.

My first intention was merely an enumeration of tlie D,;smi(Uce
found in the British Islands, and especially in England and Wales
during the year now drawing to a close. This seemed to be so un-
interesting a method of sj^ending an evening, that I resolved upon a
more detailed account of some of the species belonging to one genus,
hoping by this means to secure greater concentration, and to impart
more clear and distinct views than by the former method.

I must premise that I am indebted to my friend, Mr. A. W.
Wills, of Birmingham, for a knowledge of the species to be intro-
duced to you as British species. A splendid gathering made by
him at Capel Curig afforded a large number of species not before
recorded in England or Wales, although some of them had been
found in Ireland. Only a portion of the new species need be men-
tioned, as I purpose confining my remarks solely to the genus
Staurastrum. Others may find a place in an AjDpendix.

It is unnecessary to introduce the subject by informing an
audience like the present of the nature and affinities of the Des-
imdice. I take it for granted that all microscopists are acquainted,
cursorily at least, with these interesting little plants ; that they
form a portion of fresh-water Algte, are characterized by a green
endrochrome and absence of silex, in which features they differ from
the Diatomacece.

Most of you are aware that Desmids are found only in fresh
water, and that the majority prefer clear to stagnant pools or run-
ning streams.

Desmids consist of but a simple cell, which is usually more or less
constricted, and divisible in the centre into two equal and symme-
trical halves.

A portion of the numerous genera is characterized by a greo-a-

204

M. C. COOKE ON SOME DESMIDS

rious mode of growth, the cells being united end to end in a con-
tinuous chain. These threads are at first attached to some object
after the manner of Confervee. We may, for convenience, call these
the Jixed Desmids.

Others, and by far tlie greater number, are unattached, free, float-
ing cells, and these we may term free Desmids.

We have nothing further to do with the Jixed Desmids on this
occasion.

The free Desmids may also be subdivided into two artificial sub-
groups, in one of which the cell is elongated so as to be almost
cylindrical, or fusiform, and in the other oval, or with a length but
little exceeding the breadth. To the former belong as types Clos-
terium, Docidium, and their allies ; to the latter, Euastrum, Cosma-
rium, and Staurastnim, with some others.

We may banish from our minds the cylindrical free Desmids, and
concentrate our attention upon the sub-group, which includes Stau-
rastrum, for that is the genus to which I am purposing to allude
more in detail.

Before doing this you will permit me to refresh your memories
with the distinctive features which characterize the different genera
in this group. They are only six, or at any rate six will serve our
purpose ; and these are Micrasterias, Euastruni, Cosmariwn, Xan-
thidium, Arthrodesmus, and Staurastrum. The two genera Scene-
desmus and Pediastrum, which are included in Ralfs's book, are not
Desmidice at all.

In Micrasterias the cell is flattened, and almost lens-shaped,
nearly circular, with deep sinuses, which are directed towards the
centre, and a deep central notch on each side, nearly dividing the
cell into two semicircular equal halves ; the side view is consequently
narrow and but slightly constricted at the centre. There are no
inflated prominences on the face, and consequently no projections in
the side view.

In Euastrum the cells are usually longer in proportion to their
breadth, with a deep notch in the centre on each side dividing the
cell into two equal sinuated or lobed halves, generally with a notch
at each end, and wart-like inflations on the surface, which show as
projections in the side-view. Each segment is usually narrowed
from the base upwards.

In Micrasterias and Euastrum therefore the frond or cell has a
more or less lobcd outline.

NEW TO BRITAIN IN 1880. 205

In Cosmarium the cell is more or less constricted in the centre,
without sinuses or lobes at the margin, and each serai-cell as broad
or broader than long (with a few exceptions). There is no notch at
the ends, as in Euastrum, and the side view is a double circle or a
double ellipse, whilst the end view is oval or elliptical, sometimes
warted, but without spines.

In Xanthidium the general form, and the side and end views, are as
in Cosmarium^ except that the segments are spiny. It is, in fact, a
Cosmarium with spines.

Artlirodesnius is a simple form of Xanthidium^ each segment hav-
ing but a single spine on each side.

We may now compare these three genera which have a simple con-
stricted cell without lobes, and an oval end view, thus —

Cosmarium — spineless.

Xanthidium — many spined.

Arthrodesmus — with a spine on each side of each semi-cell.

We have now left to us the one genus Staurastrum, in which the
forms are exceedingly variable, but uniformly consisting of a deeply
constricted cell, with or without spines or projections, but the end view
is angular, often triangular, sometimes quadrangular, or, if circular,
then with a lobed margin. Hence it will be evident that the end
view is of the greatest importance in determining this genus and its
numerous species. -In a front view some species might easily be
mistaken for Cosmarium, others for Xanthidium^ and others for Ar-
throdesmus, but the end view settles the question at once by its
angular form.

Staurastrum includes more species than any other genus, and
these again exhibit a greater variety of contour. In fact, so variable
are they, that most elaborate modes of sub-grouping have been
adopted, and although some method is absolutely essential, no one
yet proposed is wholly perfect. To my mind it seems preferable to
collect closely allied species around definite types, rather than to
subject them to the hard and fast lines of an elaborate technical
analysis. At any rate such a method will be all-sufficient for the
jDurpose of this evening.

I have already said that the front view of some species closely
resembles Cosmarium, such as the large s^iecies Staurastrum tumidum,
and the smaller ones, St. orbiculare, and St. brevispina, notwith-
standing the small projecting nipple.

Allied to these I have to record from Capel Curig the large Stau-

206 M. C. COOKE ox SOME DESMIDS

rastrum grande of Bulnheim (^' Hedwigia," t. ix. A, f. 14), '084-
•088 mm. to -1 mm. long, and •08-'082 mm. or more broad, which
is large for a Staurastriim ; each semi-cell is elliptical, without pro-
cesses, and the end view triangular with obtuse angles, and slightly
concave sides. The endochrome is banded. It was first found in
Germany, then in Sweden, and now in Wales. The characteristics
are so distinct that it cannot well be confounded with any other
species.

A smaller species is Staurastrum aversum, Lund., which is some-
what similar to Staurastrum hrevispina, Breb. It was found in
Ireland by Mr. Archer, but this is" its first aj)pearance in Britain.

Its length is about •045--05 mm., and its breadth -036- 042 mm.
The semi-cells are somewhat elliptical, slightly concave on the outer
margin, and bearing a minute rounded nodule on each side. The
end view is three-sided, with rounded angles, and a rounded nodule
at each angle ; the sides are slightly concave. By comparison of
the figures with tliose of its nearest ally, Staurastrum hrevispina^
on the same diagram, tlie diflerences will be manifest.

A larger species, with somewhat similar outline, except that the
outer margin of the semi-cells is slightly convex, is Staurastrum
longispinum. It was first discovered many years ago by Bailey, in
the United States,^ afterwards it was found in Sweden, then it was
recorded in Ireland, and now in North Wales. It is certainly a
fine species, with two spines on the outer margin on each side of
each semi-cell. The end view is three-sided with rather obtuse
angles, armed with a long straight-pointed spine, and the sides are
slightly concave. The endochrome is in fillets, as in Staurastrum
grunde. The cells are from -1 mm. broad and long.

Although this, and others, may be described as triangular in the
end view, specimens may be met with in which the end view is
quadrangular. This fact should be remembered, as species often
vary in this direction.

A still more magnificent species is Staurastrum brasiliense,
Nordst., first found in Brazil, afterwards in Sweden, and now in
Wales. It has not been recorded in Ireland. Tlie figure on the
diagram will give a better illustration than a technical description.
In the front view it certainly has a striking resemblance to a species
of Xanthidiuni, but the five or six angled end view determines it to
be a Staurastrum. In size the frond is nearly -1 mm. long and
about '08 mm. broad.

Another species which, although once recorded in Ireland, is new

NEW TO BRITAIN IN 1880. 207

to Britain, is Staurastrum arctiscon, Ehr. It was first described by
Ehrenberg. Then it seems to have been lost sight of for years,
until it was found in Sweden, next in Ireland, and now in Wales.
It is probable that Bailey found the same species in the United
States.

This species forms one of a group of closely allied species, of
which Staurastrum fur ciger urn, figured by Ralfs, is one, the present
species another; Staurastrum pseudofurcigerum, Reinsch, is a third.
Staurastrum sexangulare, Bulnh., is a fourth, and a species figured
by Wood in his Fresh-Water Alga3, if really distinct from Stau-
rastrum arctiscon would be a fifth. Of these, all except the last,
have now been found in the British Isles. Mr. Wills found two at
Capel Curig, Staurastrum pseudofurcigsrum and Staurastrum
arctiscon, the former for the first time, the latter had been found in
Ireland, as also has St. angulare. The diagrams will convey a
better idea of the complex forms of these species than verbal de-
scriptions, special attention being directed to the end views.

Dismissing these we come to a singular form, in which the arms
are all in the same plane, towards the apex of each semi-cell. This
is Staurastrum opTiiura, Lund. It is another large species, figured by
Lundell with seven arms, but all the Welsh specimens have
invariably eight arms, and the proportions of the cells seem slightly
different, being longer than in Lundell's figure. Previous to its
discovery in Britain, Staurastrum arachne, Ralfs, was the nearest
species, but that is very much smaller, beside other differences.

Staurastrum cerastes, Lund., is a characteristic but smaller
species. Each semi-cell is crowned by three or four stout ornate horns,
which are bent towards the centre, until the tips of the horns of the
two semi-cells nearly meet. This Swedish species had been found
in Ireland previously, and now at Capel Curig. It was included in
a gathering made also by Mr. Wills at Barmouth many years ago,
but only recently determined.

Staurastrum Sehaldi, Reinsch., resembles Staurastrum vestiturUy
Ralfs, but is larger and more elaborately ornamented. Mr. Archer
found it in Ireland, and Mr. Wills a variety of it at Capel Curig.
I have compared the specimens from Wales with those on a slide
mounted and named by Reinsch himself. The ordinary form is tri-
radiate, but in the front view only two arms are usually seen at once
at each semi- cell, one on each side. The Welsh form has longer
arms, but the differences appear to be only varietal.

JouRN. Q. M. C, No. 46. r

208 M. C. COOKE ON SOME DESMIDS

There is anotlier closely allied "species in the Capel Curig gather-
ing, nearly of the same size, which I have been unable to refer to
any described species. The general appearance is more like Stau-
rastrum furcigerum, starved and reduced to three arms per cell. It
has been determined to call it Staurastrum anatinnm ; Professor
Nordstedt professes to be unable to refer it to any described species.
Enough has been said already to show what a single gathering from
a good locality may produce.

Nine species of Staurastrum, new to Britain, have been deter-
mined, of which six had previously been recorded in Ireland.*

Staurastrum arctiscon.

„ oiihiura.

,, Sehaldi.

„ cerastes.

„ aversion.

,, longispinum.

And three quite new to the British Isles : —
Staurastrum brasiliense.

„ grande.

I have intentionally confined myself to the species of Stau-
rastrum, as being a sufficient number for which to draw the
diagrams, which are all to an uniform scale of 5000 diameters.
Incidentally I may mention that the accompanying list contains the
species found in the gathering — some very rare and some new — but
the whole of the gathering has not yet been exhausted.

LIST OF THE DESMIDIACE^ FOUND AT CAPEL CUKIG BY
A. W. WILLS, ESQ.

* The asterisk (*) denotes the species which are new to Britain.

Aptogonum desmiclium, Ehr. Micrasterias pinnatifida, Kutz.
Bamhusina Borrei'i, Ealfs. „ radiosa, Ag.

Didijmoprium Qrevillea, Kutz. ,, dentictdata, Brcb.

Desmidium SwaHzii, Ag. Uuastrinn vevrucosum, Ehr.
Hijalotheca dissiliens, Sm. „ 7;ecii?iati«)?, Breb.

SplifZ-rozosma vertebrntum, Breb. ,, didelta, Tnrp.

* „ pitlcheUum, Archer. ,, ansatum, Ehr.

Micrasterias furcata, Ag. ,, crasstnn, Breb.

„ 2^apillifera, Breb. ,, binale, Tiirp.

* Others have been determined since this communication was read, which
will be found in an Appendix.

NEW TO BRITAIN IN 1880.

209

Euastrum gemmatum, Breb.

„ elegans, Breb.

* „ erosum, Lund.
^Cosmarium pseudoconriatum, Nordst.

„ ornatum, Ealfs.

„ cucurbita, Breb.

„ coelatum, Ealfs.

„ undulatum, Corda.

„ hotrytis, Bory.

„ cucumis, Corda.

^ ,, pseudonitidulum, Nordst.

^ „ tetrachondrmm, Lund.

„ phaseolus, Breb.

^ „ cyclicum, Lund.

^ ,, variolatum, Lund.

^ „ Nymannianum, Grun.

^ „ truncatellum, Perfcy.

^ „ Holmiense, Lund.

^ „ quadrum, Lund.

^ „ galeritum, Nordst.

^ ,, orthostichum, Lund.

„ granatum, Breb.

„ lesve, Eabh.

J,. „ splialerotrichum, Lund.

^ ,, glohosum, Buln.

^ „ coronatum, Cke. & Wills.

^ „ ca7?ihricum, Cke. & Wills.

Xanthidium ar^natum, Breb.

„ jasciculatimi, Ebr.

Arthrodesmus incus, Breb.
„ octocorne, Ehr.

„ convergens, Ehr.

'^Staura strum Bmsiliense, Nordst.
^ „ arctiscon, Ehr.

^ „ ojphiura, Lund,

u, „ cerastes. Lund.

^Siaurastrum aversum, Lund.
,, gracile, Ealfs.

„ dejectum, Breb.

„ vestitum, Ealfs.

^ „ grande, Lund.

^ „ longispinum, Bailey.

„ aristiferum, Ealfs.

,, arachne, Ealfs.

.j^. ,, pseudofurcigerum,

Eeinsch.
;(; ,, Sebaldi, Eeinsch., va-

riety.
^ „ anatlman, Cke. &

Wills.
,, tetracerum, Kutz.

„ furcigerum, Breb.

„ cuspidatum, Breb.

„ muticum, Breb.

„ margaritaceum, Ehr.

^ „ Pringsheimi, Eeinsch.

,, paradoxum, Meyen.

„ punctulaUmi, Breb.

,, hirsutum, Ehr.

5^ ,, megacanthuniy Luud.

,, inflexum, Breb.

„ cristatum, Breb.

Penium digitus, Ehr.

,, cylindriis, Ehr.
Tetmemorus granulatus, Breb.
*Docidium nodosum, Bailey.
„ haculum, Breb.
„ Ehrenhergii, Ealfs.
Closterium setaceum, Ehr.
„ lunula, Mull.

,, didi/motocum, Corda.

„ cornu, Ehr.

Finally, to give a practical turn to these hurried notes, permit me
for a few moments to advert to the subject of mounting Desmids for
the microscope. This has always been a great difficulty, but perhaps
magnified too much. Let us ask ourselves what really is the most
important object to be secured in mounting Desmids, and in
answer I must say that I place less importance on the preservation
of the endochrome and its colour than do those who mount pretty
objects for the drawing-room. For scientific purposes the empty

210 31. C. COOKE ON SOME DESMIDS

frond is often of superior value to one filled with endoclirome ; it
permits you to see the puactse or markings of the segments, which
are obliterated whilst the endoclirome remains, and in the genus
Cosmarium this becomes daily of greater importance than ever.

I admit that for the study of the endoclirome alone, its presence
is, of course, the most important, but this can be done, and draw-
ings made from the plant in the living state, and if specimens can
be mounted with the endoclirome unchanged and uncontracted, so
much tlie better, but as yet I lia^e seen no method entirely satis-
factory. For twelve years I have kept some slides mounted in the
silicates of potash and soda, but these were not satisfactory, as half
the slides would persist in deliquescing. Far more successful was
my friend Mr. Wills, for his slides, mounted much longer even than
mine, surprised me. Of course I enquired the medium, and learnt
that he simply used the water in which the Desraids had been
collected, and was careful never to leave them exposed to the day-
light.

One great difficulty in mounting objects with such thin and deli-
cate cell walls as Desmids is to employ a medium of no greater
density than the cell contents. If a denser medium, such as
glycerine, be employed, the endoclirome immediately contracts, and
never expands again as before. Water, or water containing a little
camphor, is of equal density, and no change can be detected.

After all, the preservation of the endoclirome is of less im-
portance than the perfect contour of the cell. If there is any con-
traction or collapse the objects are useless.

Supposing, therefore, that there is no necessity to preserve the
endoclirome, there is another feature to be remembered besides the
preservation of contour, and that is that the medium employed
should not render the delicate cell walls so transparent as to become
ultimately invisible. I commend this to your notice as a warning.
In simple water I encountered no difficulty in discerning the
structure of the cell walls, after a period of not less than twelve
years. So much cannot be said for glycerine. As a hint, I may
add that I have seen empty fronds stained of various colours, both
of Desmids and of Volvox, and these exhibited all the details in an
unexceptionable manner.

Let me commend these little plants to those of you who are
getting tired of Stephanoceros and Melicerta. There are plenty of
discoveries yet to bo made.

NEW TO BRITAIN IN 1880. 211

EXPLANATION OF PLATES XIIL TO XVI.

PLATE XIIL
Fig. A. — Types of Cosmariuni; a, Cosmarium 2)scudonitidulum Nord.,

with side and end views; I, Cosmarium camhricum, C. & W., with

side and end views.
Fig. B. — Type of Xanthidium. X. antilopeum, Breb., with c, side view ;

d, end view.
Fig. C. — Types of Arthrode^miis, e, A. convcrgens, Ehr., with end views; /,

A. incus, Breb., with end views.

PLATE XIV.
Figs. 1-3. — Staurastrum psevdArfurcigerum^ Eeinsch; 2, 3, end views.
Fig. 4. — Staurastrum furcigerumy Breb. ; 5, end view with four arms.
Fig. 6. — staurastrum arctisco/i, Ehr., 7, end view.
Fig. 8. — Staurastrum sexangulare, Buln. ; 9, end view.
Fig. 10. — Staurastrum o%)hi2ira, Land. ; 11, end view.

PLATE X7.
Fig. 12. — Staurastrum aiiatinum, C. & W. ; 13, end view.
Fig. 14. — Staurastrum Schaldi, Eeinsch. ; variety j l5, end view.
Figs. 16, 17. — Staurastrum paradoxum, Mey., var. longipes; front and

end views.
Figs. 18, 19. — Staurastrum cerades, Lund. ; 20, end view.
Figs. 21 to 24. — Supposed varieties of Staurastrum saxon'icum, Eeinsch., of

which no end views have been obtained.
Fig. 25. — Staurastrum Brasilieiue, Nordst. ; 26, end view.

PLATE XVI.
Fig. 27. — Staurastrum grar.de, Lund., Capel Curig form ; 28, end view.
Figs. 29-81. — Staurastrum megacanfhum, Lund.; 30, end view.
Fig. 32. — Staurasiriivi aristiferum, Ealfs. : 33, end view.
Fig. 34. — Staw-asfrum hrevispiua, Breb. ; 35, end view.
Fig. 3C). — Staurastrum avers7im, Lund. ; 37, end view.
Fig. 38. — Statirastrum iujlexum, Breb. ; front and end views.
Fig. 39. — Staurastru7?i. rriugsheimii, Eeinsch. ; 40, end views.
Fig. 41. — Staurastrum longispinum, Bailey; 42, end view.
All the figures drawn to an uniform scale of 420 diameters.

212

On a New Vivarium.
By J. D. Hardy.

{Read 26th November, 1880.)

When using the ordmaiy zoophyte troughs, I have often con-
sidered that they had many objectionable qualities ; I therefore
set myself to work to see if something better could not be devised.
At the last general meeting Mr. Crisp brought before the notice of
the meeting a trough, known as " Botterill's," the existence of
which I was ignorant of until that time, and although there now
appears some similarity of construction between that and mine, I
venture to think that in simplicity and general usefulness (as well
as in the cost) that this will be found to be far su^Derior. The main
objections to the old Zoophyte trough were that it was necessary to
employ one much deeper than what was absolutely required for the
purpose of jjlacing the object in the water without injuring it ;
secondly, that when you had got the object into a good position for
viewing it, you had to take it out again and bottle it, if you wished
to carry it anywhere for exhibition or otherwise ; thirdly, the water
in the trough (through its being open at the top) was always more
or less susceptible to every movement, which caused some objects to
have a constantly oscillating motion ; also, the water being of a certain
depth, was very objectionable in using the paraboloid — also non-
reversible, and must be kept upright.

Now, this Trough — or Vivarium, as I shall call it, for it is 7iot a
trough — will be found to obviate all these objections, besides con-
taining the elements of other uses and improvements.

The cell consists of two flat pieces of clear glass, Sin. x 2in., or
2in. square, to the lower of which is cemented cither an indiarubber
or glass ring of any desired thickness ; this is covered on the upper
side with some adhesive substance (if necessary), or it may be
simply greased to render it impervious. A piece is cut out of the
ring at the top, about a quarter of an inch wide and funnel shaped ;
the upper piece of glass is then placed on the ring, and tlic whole

J. D. HARDY ON A NEW VIVARIUM.

213

is held together either with strong indiarubber rings or springs. To
use it, take off the upper glass, and having cleaned both glasses,
place the object on the lower glass, manipulate it to the best advan-
tage, replace the upper glass, and then fill up with water through
the hole at the top. It will be found that the cell is reversible and
that it can be plunged into a beaker full of water in any position
without any fear of losing the object.

"Receipts for Microscopists." — Correction.

The Interpolation formuUe for Spectroscopic bands will be found
in " Watts' Index of Spectra," and not in Suffolk's work as stated.
They also appear in *' Silliman's Journal " for July, 1870, in which
W. Gibbs first jjublished them.

In Number IV. of the " Receipts " it is stated that the mono-
chromatic bull's-eye condenser is of '' unusual " form. It should be
" of the ' usual' external shape," and differs from ordinary ones only
in being hollow, so as to receive coloured liquids between the plane
and convex surfaces.

214

PEOCEEDINGS.

August 13th, 1880.— Conversational Meeting.

The following objects were exhibited : —

Spiked Eye of ''Harvest-man" (3Iegahu-^ „ F En k
nus insignis) ... ... J

Eed Crag Polyzoa, &c. ... ... ... Mr. J. D. Hardy.

Solium exsculptum, front and side views ... Mr. H, Morland.
Cuticle of Leaf of Lemon Thyme, showing") „ p ,,

oil glands ... ... ... )

Analysing Crystals ... ... ... Mr. H. J. Waddington.

Attendance — Members, 35 ; Visitors, 3.

August 27th, 1880.— Ordinary Meeting.

T. Charters White, Esq., M.R.C.S., &c., President, in the

Chair.

The minntes of the preceding meeting were read and confirmed.
Mr. James A. Close was balloted for and duly elected a member of the
Club.

The following donations to the library were announced : —

" Proceedings of the Eoyal Society " ... from the Society.

" Journal of the Eoyal Microscopical
Society" J

"9th Eeport of the Chester Society of)
Natural Science" ... ... j

" 9th Eeport of the South London Micro-
scopical Club "

" Journal of the Microscopical Society of)
Victoria" ... ... ... )

" Inaugural Address of the Buffalo Micro-
scopical Society "

"The American Monthly MicroscopicaD f,oni the Publisher.
Journal " ... ... ... )

" The American Journal of Microscopy"... „ „

" The Americaii Naturalist " ... ... „ ,,

" Science Gossip" ... ... ... ,, „

"The Analyst"

" Ann al s of Natural History " ... ... Purchased.

"Quarterly Journal of Microscopical")

Science" ... ... ... j" "

215

The thanks of the meeting were voted to the Donors.

The President read a letter from Mr. F. H. Wenham, in acknowledgment
of his election as an Hon. Member of the Club, and expressed the hope that
Mr. Wenham would come amongst them to see for himself what kind of
work they were doing, and to give them the benefit of his experience.

A paper " On Some Immature Forms of Diatoms," bj Mr. G. C. Karop,
was read by the Secretaiy, and the thanks of the meeting were voted to
the author.

Mr H. J. Roper read a paper " On a Method of Mounting Opaque
Objects in Cells made of Sheet Wax."' Specimens in illustration were
exhibited in the room.

Mr. Hem-y Morland read a paper " On IMounting Opaque Objects with
Bees-wax."

The Pi-esident said he had listened with great pleasure to these two
very useful papers on a similar subject, and he must say that the
specimens exhibited by Mr. Roper were some of the neatest and best
specimens of wax mounting which he had seen for a long time, and that
his plan of using sheet wax was one which appeared likely to be very
useful.

Mr. Ingpen said that Prof. Hamilton Smith gave them a paper some time
ago on this subject,* but he had lately stated that he was obliged to give up
the plan because of the dewing or exudation which collected under the cover-
ing glass. This was a matter of considerable interest. These cells were very
useful, from the absence of granular structure in the background, which
might easily be rendered a dead black, or any suitable colour.

The President said the structureless character of the wax was one of its
most valuable properties, and personally he felt very much indebted to Mr.
Stewart for introducing to their notice the use of Ozokerit for this purpose.
Perhaps Mr. Stewart would tell them his experiences of it ?

Mr. Stewart said he bad not used this material for mounting purposes,
but only for pinning down objects for dissection, in the way he had
already described. He was not particularly partial to coloured back-
grounds, because, however pleasing they might be to the eye, they were
apt to produce a false idea of colour by the effect of contrast. He pre-
ferred to mount on the ordinary slip and cover the glass on the reverse
side with Berlin black.

Mr. Roper said that although black wax could not be obtained, the
surface could easily be coloured with Indian ink.

Mr. Gilburt said he had been in the habit of using wax for a long time
past by building up the ce]ls, and when made in this way the dewing which
had been complained of, had not appeared. The plan adopted was that of
spinning the wax up on the slide itself, using melted wax, and doing it
upon the turn-table ; the cover adhered by itself, and, so far as his ex-
perience went, there was no condensation of moisture whatever, the heat-
ing of the wax seemed to get rid of the volatile element. In finishing off
he found it best to use first a thin coating of oxide of zinc in gum water,

* " Journal Q.M.C ," Vol. iv., p. 177.

216

and then put on the finishing coating afterwards, when the slides might be
ornamented to any extent without difficulty.

Mr. Waddington read a paper " On the use of ' Arabin ' or perfectly-
pure Gum Arabic'' for attaching Diatoms, &c., in mounting.

Mr. Borrer said he had used Arabin himself, and found it to be all that
Mr. Waddington had described it. Its chief merits were its great trans-
parency and the remarkable readiness with which it absorbed moisture,
and set again afterwards.

Mr. Ingpen inquired what was its refractive index, and what was the
effect of the slight wave which collected round the sides of a small object
placed upon it ?

Mr. Borrer said he was not able to state the refractive index ; but he had
not observed any effect whatever arising from its collection round the edge
of an object with any kind of illumination.

Mr. Ingpen said that in mounting Diatoms it was often necessary to bake
the balsam so as to get it at its highest refractive index, and when Diatoms
were fixed down with ordinary gum, the gum showed as a bright disc. Did
Arabin show this, or did it remain quite transparent after heating with the
balsam ?

Mr. Borrer said that Arabin would stand the heat of an ordinary spirit
lamp for eight hours, and no inconvenient effects occurred with any heat
which would practically be applied in mounting.

Votes of thanks to the authors of the papers were unanimously carried.
Announcements of excursions, &c., for the ensning month were made,
and the proceedings terminated with the usual Conversazione, at which the
following objects were exhibited : —

Papillaa in Tongue of Mouse, polarized
Stem of Thistle

Chrysopa perla, the Lace Wing Fly (un-
mounted), showing thepygidium
Foraminifera from Dogs Bay, Ireland,"

mounted in wax cells in illustration of )■ Mr. H. Morland.
his paper
A series of specimens of Stained Leaves,

pre^Dared by Dr. Hunt, of Philadelphia, J> The Club Microscoiic.
in 1872, lent by Mr. J. Stewart

Attendance — Members, 55 ; Visitors, 7.

Mr.

F. W. Andrew.

Mr.

W. Goodwin.

Mr.

E. T. Lewis.

September 10th, 1880. — Conversational Meeting.

The following objects were exhibited : —

Parasite and eggs found on leaf of Scarlet-"^ M- F W A 1-

runner ... ... ... )

Specimens of Uafnarfiordite, a Lava from) ,j- ,, ,,

Iceland ... ... ... )

Head of Gad-lly, IkcniatojKda iluvialis,') ,.

iihowiiig brilliant eye... ... )

217

Section of petiole of Yellow Water Lily, 'J
Nuphar lutea, showing internal branch- >
ing cells ... ... ... J

heai oi Drosera rotundifoUa, stained

ISiXuvium. oi Pohjxenes lagurus ...

3Ielicerta ringens

Qrantia comjfressa, section showing ciliated")
cells w situ, g objective ... )

Spores of Puccinea grami?iis (Wheat)
Mildew) ... ... ... 3

Larva of Tijmla (?) showing bifid pro-
cesses on the back

Leaf of Drosera intermedia (?)

n

Mr. W. H. Gilburt.

Mr. W. Goodwin.
Mr.H. Morland.
Mr. J. M. Offord.

Mr. B. W. Priest.

Mr. J. C. Sigsworth.

The President.
Mr. F. Wood.

Attendance — Members, 49 ; Tisitors, 3.

September 24th, 1880. — Ohdinary Meeting.

T. Charters White, Esq., M.R.C.S., &c.. President, in the

Chair.

The minntes of the preceding meeting were read and confirmed
Mr. F. D. Endkin was balloted for and duly elected a member,of the
Club.

The following donations, &c., were announced : —
" Science Gossip "
" The American Xaturalist "
"Grevillea" ...

" Annals of Natural History " ...
" A Paper on the Lymphatics in Eastern')
Leprosy ... ... ... )

" Calendar of University College "
" President's Address, &c., of the Hert-
fordshire ISTatural History Society
1 Slide (Larv» of Lady Bird)
4 Slides — (parasites)
50 Drawings — (Infusoria)
Mr. J. D. Hardy presented his photograph for the album.
The thanks of the meeting were unanimously voted to the donors.
The President called particular attention to Dr. Cooke's donation, which,
he thought, deserved more than the commonplace vote of thanks. It con-
sisted of a series of 50 original plates, and he was sure that everyone must
be struck by the beauty and accuracy of these ]orodnctions. The example
set by Dr. Cooke v.'as a most excellent one, and he hoped that many of the
members would be induced to do likewise, especially as paper the same as
that used by Dr. Cooke could be outained for the purpose of the Librarian.
The President said that some time ago he was making a collection of the

1

from the Pubhsher.
in Exchange.
Purchased.

j»
from Dr. Hoggan.

„ the Council.
,, the Society.

,, the President.

„ Mr. H. E. Freeman.

„ Dr. M. C. Cooke.

218

eggs of insects, and amongst them he got some of the eggs of the Lady,
bird. He put them for two hours or more into alcohol to kill them, and
then mounted them in Canada balsam. Looking at the slide some time
afterwards, he found that the whole of the eggs had hatched. The larvae
on the slide which he presented to the Cabinet were some of this batch ;
they were mounted in balsam ; and he mentioned the matter as it was a
carious fact that these creatures should have resisted the efforts made to
destroy them in the manner described.

The President read a letter from the Secretary of the Croydon Micro-
scopical Club, announcing that their Soiree would be held on Wednesday,
the 24th of November, and asking the co-operation of members of the
Quekett Microscopical Club on that occasion.

The President exhibited some button-moulds, brought by Mr. Simpson,
of Ealing, for use as cells for dry mounting. They appeared to be very
well made, and likely to be useful, and certainly had the recommendation
of being extremely cheap.

Mr. Hailes said there was nothing new about them, as he had used them
for years for the pui-pose.

The President read a short "paper " On a Simple Growing Slide," which
he exhibited in illustration.

Ml'. Ingpen described the use of Zeiss's adjusting objective for low powers
(called " a* " in Zeiss' Catalogue), practically illusti-ating his remarks by
the exhibition of the apparatus.

The President called attention to some objects exhibited by Mr. J. D.
Hardy. They were specimens of " Pond life," and appeared somewhat
uncommon.

Mr. Hardy said that one of these was a species of Yaginicola ; it was in
a very different condition from anything he had been able to find figured
or described. It had been very abundant in his pond during the year, ap-
pearing in groups of 50 or more tubes. He had thus been able to trace
something of its life-history. It first appeared in pairs of very small bright
tubes attached to the weed. From every tube a very slender cilium was
thrown out on each side. It then developed a heart-shaped ciliated disc.
Sub-division then took place until the group was formed, which, on arrival
at maturity, became detached from the weed, aud floated away in the
water, revolving very slowly. It appeared to be most nearly allied to
Vaginicola grandis. He promised to send drawings for insertion in the
Club portfolio. Mr. Hardy also referred to a specimen of Melicerta tyro,
which he was exhibiting, mentioning particularly its inability to construct a
case, and the size and prominence of its two antennce.

The President enquired if Mr. Hardy had detected anything like tlio
usual valve, and observed that Vaginicola usually had a vase-shaped
tube, and he thought the specimen just described was hardly like one of
that genus. Certainly it must be a very uncommon variety.

Mr. Hardy thought that the variety to Avhich the President alluded was
marine.

The Px'esident thought this was a case in which a growing slide would be

219

of great use. It -would be most interesting to be able to watcli the growth
and development of one of these creatures.

The President said that they had amongst them many members who
were either new members, or were jast beginning the study of the micro-
scope. He wished to remind snch members that although they met with
many in that room who were very far advanced in the science, they should
remember always that they belonged to a Club and not to any stiff and
formal Society. He had th6 fall permission of the Committee to say that
they would heartily welcome everybody who was desirous of obtaining
information, and would to the full extent of their abilities endeavour to
help all who came to them. Demonstrations had been objected to on
account of their causing some interference with the other business of the
meetings, but he would, on behalf of the Committee and others, cordially
invite anyone, who was seeking for information or help of any kind, to
come forward to ask any questions they pleased.

Announcements were then made of excursions and meetings, and of the
objects exhibited.

The President also intimated that Mr. E. Carr had brought for distribu-
tion a number of specimens of Lava from Iceland.

The proceedings then terminated with the usual Conversazione, at which
the following objects were exhibited : —
Australian Algol, polarised
" Hafnarfiordite," a Lava peculiar to the |
locality of Hafnarflord, Iceland J

Paludicella Ehreiiberqli, a Fresh-water")

• 1

Mr. F. W. Andrew.
Mr. E. Carr.

Polyzoon
Plant Bug from Xew Guinea
Leaf of Drosera roiimdifoUa, showing")

insects in situ (prepared without >

pressure) .. ... ... j

Spinesof Amjfhidotus cordatus, the '* Heart "^

Urchin" ... ... ... C

Scales of Dicranura vinula, Puss Moth ...
Ovipositor of Acrida viridissima, showing")

so-called Pygidia ... ... J

Alcyonella Benedeni

Vaginicola grandis

Melicerta tyro...

Tongue of Hive Bee

'PQ\2ite oi Troclius zizyphinus

Grantia ciliata, section of collar, showing")

ciliated cells .. ... ... )

Phylloxera on root of vine (living)

Mr. W. G. Cocks.
Mr. C. G. Dunning.

Mr. F. Enock.

Mr. A. Fieldwick, junr.

Mr. H. E. Freeman.

Mr. W. Goodwin.
Mr. J. D. Hardy.

Mr. A. Martinelli.
Mr. W. Moginie.

Mr. B. W. Priest.
Mr. J. W. Reed.

Attendance — Members, 82 ; Visitors, 2.

220

October 8th, 1830. — Conversational Meeting.

The following objects were exhibited : —
Hairs on Wallflower leaf
Section of Quillaija Bark, showing pris- )

matic crystals ... ... j

Leaf of Nettle, stained ...

Section of Porcupine quill

Section of Tulip, showing ovary, stained ...

Hydra vulgaris, transverse section, stained '^

with Osmic acid, showing ciliated endo- >

derm cells ... ... ... J

Lacinularia socialis
Cocconels scutellum
Lampyris noctiluca, Glow-worm, showing")

illuminating organs ... ... j

Spiral vessels from Carrot

8ca.\ea oi 0 0710 ptera Ubatrix

Cuticle of JEquisetum, polarized ...

Bramble brand

Melicerta pilula {ov n.^.?)

C J cloah in Fallisneria ...

Lernoea, Parasite of Salmon, a curious")

example of so-called retrograde meta- >•

morphosis ... ... ... j

Polyxenus lagurus

Crystals of sublimed Arsenic

Hairs of Trichininm Manglesii ...

Podura scale x 3,000 under Powell and")

Lealand's l-60th objective ... )

Hydra fusca, killed with Osmic acid, and")

mounted in Acetate of Potash ... ;

Section of Ovary of Campanula ...

,, „ CEnothera biennis

Pinnule of Maiden-hair Fern
Crystalline matters in various red inks
Native Sub-oxide of Copper, from Chili ...

Mr.
Mr.

F. W. Andrew.
W. E. Browne.

Mr. F. Coles.

Mr. W. I. Curties.

Mr.
Mr.

Mr.
Mr.

T. Curties and

E. T. Newton.

E. Dadswell.
0. G. Dunning.

F. Enock.

Mr.

Mr. A Field wick, jun.

Mr.
Mr.
Mr.
Mr.

W. Goodwin.
H. E. Gregory.
J. E Ingpen.
A. Martinelli.

Dr. Matthews.

Mr.

Mr.

Mr.
Mr.

H. Morland.

»>
E. M. Nelson.

B. W. Priest.
J. W. Eeed.

Mr. A. S. Smith.
Mr. W. Teasdale.
Mr. H. J. Waddington.
Attendance — Members, G4 ; Visitors, 4.

221

October 22nd, 1880.— Ordinary Meeting.

T. Charters White, Esq., M.R.C.S., &c., President, in tlie

Chair.

The minutes of the preceding meeting were read and confirmed.
IVFr. William E. Milner and Mr. William Radcliffe were balloted for and
duly elected members of the Club.

The following donations, &c., were announced : —

" Proceedings of the Eoyal Society " ... from the Society.

''Journal of the Eoyal Microscopical]
Society" ... ... ... J

" Proceedings of the Belgian Microscopical
Society" ... ... ... }

" Proceedings of the Geologists' Associa-l
tion" ... ... ... J

" Proceedings of the Eoyal Dublin Society "

*' Science Gossip "

"Popular Science Eeview "

"The Analyst"

" Journal of the Linnean Society "

A number of Photo micrographs of i

Amphi2deura pellucida and Pleurosig^nay g^g^^^ ^^^^^ U.S. Army.
angulatum ... ... ... ^

" The American Journal of Microscopy "
" The Ameincan Monthly Microscopical]

the Publisher.

»

It
Mr. T.C.White.

Dr. Woodward,

in Exchan?

1

Part I.

Journal "
" The American Naturalist
Saville Kent's " Infusoria,"
Eay Society's last Volume
" Annals of Natural History "
Photograph of Dr. Sharpey

1 Slide, section of Hydra vulgaris
3 Slides (Vegetable Sections)

2 ,, (Injections by Professor Quekett)
Improved " Botterill Life Slide"

The thanks of the meeting were unanimously voted to the Donors.

Mr. F. Crisp exhibited and described a new form of the Botterill Life
Slide, which was made of ebonite, and could be taken to pieces for the
purpose of cleaning, and could also be readily adjusted to any required
thickness.

A letter from the Secretary of the Greenwich Microscopical Society,
announcing their Soiree for December 8th, and inviting the assistance of
the members of the Q.M.C., was read by the President.

A communication from "IVIr. Eomyn Hitchcock was read, announcing the in-
tended publication of Dr. Habishaw's " Catalogue of the Diatomacese,"

by Sabscription.
)) >>

„ Purchase,
from Mr. Ingpen.

„ Mr. E. T. Newton.

„ Mr. J. W. Eeed.

,, Mr. Crowther.

„ Mr. P. Crisp.

222

provided a sufficient number of subscribers could be obtained — 35 more
being wanted.

Dr. M. C. Cooke read a paper " On New Freshwater Algce discovered
during the Year,'' the subject being illustrated by numerous coloured
diagrams.

The President expressed the pleasure with which he had listened to Dr.
Cooke's very interesting paper. He could quite confirm all that had been
said as to mounting in water, having specimens in his possession which had
been so preserved for 12 years, and the endochrome of which was only
slightly faded.

The Secretary expressed his regret to Dr. Cooke that from want of pre-
vious intimation more adequate means for the exhibition of his diagrams
had not been made ; and reminded the members that there were difficulties
in the way of making permanent arrangements, in consequence of the use
to which that room was applied by the College.

A cordial vote of thanks to Dr. Cooke for his paper, and also for the
trouble which he had taken in the preparation of the diagrams, was moved
by the Pi-esident, and carried unanimously.

Dr. Cooke presented two gatherings of Desmids for distribution amongst
the members.

The President announced the engagements for the ensuing month, and
the proceedings terminated with the usual Conversazione, at which the
following objects were exhibited : —

Alcyonella ... ... ... ... Mr. L. Bennett.

Melopliagus ovinus, Sheep Tick ... Mr. F. Coles.

Merinelion formicariiun, Ant Lion
Brilliant eyes of Jumping Spider, Salti

scenicus, retaining natural form and \ Mr. F. Enock.
colom'
Moss Copper, &c.
Section of Jaw of Kitten, double stained,

showing growth of Incisor
Petal of Tricliinium Manglesii, showing

jointed Hairs
Thistle brand...

Plumularia setacea, a delicate variety, |
showing extended tentacles ... J

Wing of Lace-wing fly
Leaf of Oleander, showing the hair-lined }
cavities in the lower cuticle ... )

Leaf of Camphor Tree, showing the)
Camphor-storing cavities ... J

(Edogonium, and an unnamed Rotifer ... Mr. F. A. Stoessigor.
Paocus—Bp? ... ... ... ... Mr. J. Woollett.

Mr. S. H. Ncedham exhibited a method of mounting Sections of Fossils
and Minerals, Lepidoptera, &c., so as to exhibit the upper and under sides
at one view. The specimens were mounted on a glass plate forming the
lid of a shallow box, at the bottom of which was placed a flat mirror. Tho

and j-

Mr.

A. Fieldwick, jun.

Mr.

. W. L Curties.

Mr.

C. G. Dunning.

Mr.

H. R. Gregory.

Mr,

. A. D. Michael.

Mr.

, T. S. Morten.

Mr.

J. W. Reed.

223

object could thus be seen both directly and i-eflected in the mirror, by
which it was also illuminated. Both the opaque and ti-ansparent portions of
the specimens were thus seen remarkably well.

Attendance — Membei's, 75 : Visitors, 3.

November 12th, 1880. — Conversational Meeting.

The following objects were exhibited : —
Section of Skin of Porpoise, Polarized
Spiracles of Larva of Blow-fly
Eggs of House-fly
Blossom of a Eock-plant from Iceland,")

with beaded petals ... ... •'

Section of Tooth of Myliohatis aquila

Eagle Eay, &c.
Hamatomyrus elephantis, Parasite of")

Elephant, showing ova in situ J

Crystals of Platino-cyanide of Strontian ...
Eggs of Pedlculus corporis, in very great

numbers, completely covering a piece

of cloth
Young Planorbis (?) with VorticellcB attached
Pollen of Hollyhock ...
Hair of Brown Otter

Living Diatoms, showing their movements...
Shell of Prawn
Oak Galls, mounted in balsam
Cellularia ciliata, showing the long spines")

unbroken, and the biids-head processes/
Head and tongue of Stomoxys calcih-ans ...
Parasite of Stork
Agates and Mocha Stones, mounted to")

show the under side by reflection j

Amjpliipleura pellucida, X 2,200 diameters ;\

shown with Powell and Lealand's 1-1 6th

water immersion objective ■ transverse

striae 96,000 to the inch ; longitudinal

striae 80,000...
Steplianoceros Eichornii
HymeniacidonCClionajcelata,man Oyster- ]

shell, decalcified, showing the channels ^

filled with the spongae... ... J

Section of Oak-spangle

„ leaf and cuticle of Roclieafalcata

Quinine Quinate

JouuN. Q. M. C, No. 46.

Mr. F. W. Andrew.
Mr. ^Y. K. Browne.
Mr. J. W. Cafe.

Mr. E. Carr.

Mr. F. Coles.

Mr. C. L. Curties.
Mr. T. Carties,

Mr. C. G. Dunning.

Mr. H. Epps.

Mr. A. Fieldwick, jun.

Mr. J. D. Hardy.
^h\ V. H. P. Hind.
Dr. Matthews.

Mr. A. D. Michael.

Mr. H. Morland.
Mr. T. S. Morten.

Mr. S. H. Needham.

Mr. E. M. Nelson.

Mr. J. M. Offord.
Mr. B. W. Priest.
Mr. J. W. Eeed.
J\-r. n. J. Waddiugton.

224

Ova of Miisca vomitoria, showing the ^ r^,j^^ President.

Micropy]e, &c. ... ... /

Viscera of Musca vomitoria, stained in")

an alcoholic solution of Judson's bine dyej
Plates and ambulacra of Holotliuria in situ Dr. H. T. Whitfcell.
he&i oi Drosera rotundifolia ... ... Mr. F. Wood.

Attendance — Members,

Visitors,

November 26th, 1880. — Ordinary Meeting.

T. Charters White, Esq., M.R.C.S., &c.. President, in tlie

Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club :— Mr. Eobert Hopkins, Mr. Charles T. Kingsett, F.G S , Mr.
Richard Larkins, jun , and Mr. J. H. Wright, Jun.

The following additions to the library and cabinet were announced : —
" Memoirs and Proceedings of the Literary^
and Philosophical Society of Man- > from the Society.
Chester'' ... ... ... -^

and Sussex")

j "

,, the Publisher,
in Exchange.
,, ))

from the Club.

by Purchase.

from Mr. T. Simpson.
„ Mr. Alpheus Smith.

" Report of the Brighton
Natural History Society "
" Science Gossip "
" The American Naturalist "
'• The American Journal of Microscopy" ...
" Report of the Epping Forest Field Club "
" The Quarterly Journal of Microscopical )
Science "... ... ... '

" Annals of Natural History*' ...
No. I of "The Scientific Roll" ...
Manuscript Index to the 4 Volumes of)
*' Phycologica Britannica" ... )

Tlie thanks of the meeting were voted to the Donors, and upon the motion
of the President a special vote of thanks was accorded to Mr. Smith for the
valuable index which he had prepared and presented, greatly enhancing
the value of the work, which was neither paged nor indexed.

K.r. J. D. Hardy exhibited and described a new live trough or Vivarium,
and explained its special use and the method of filling it.

The President thought the trough was simplicity itself, but doubted
whether glass thin enough for use with high powers would bo sufficiently
strong to bear the pressure required to keep the cell water-tight.

Mr. Hardy did not know if this would be so as at present arranged, but
thought some plan might easily bo devised if his present method of holding
the glass proved inefiicient. He had tried tallow, and found it to answer
very well ; but did not like it on account of the greasincss.

Mr Ingpcu suggested that if two semicircular clips were used so as to bo

225

exactly over the indiarnbber band, there would be no difficulty in using
thin glass for the cover.

Dr. T. Spencer Cobbold, who had been announced to read a paper " On
Filarice in relation to the Febrile State,'' by Dr. Manson, explained that he
had been obliged to withdraw it for the present, and would therefore offer
some few observations upon a nicely mounted specimen of Strongijlus
filaria from the lung of a sheep This had been given to him by Mr. Cm'ties,
who had received it from Mr. Beaulah, by whom it had been prepared. The
slide, when placed under the microscope, showed very clearly many thou-
sands of larvae in the oviducts of the w^orm. The presence of these parasites
gave rise to what was known as the " husk " in sheep, and Str. micrurus
caused the same disease in cattle. Another species {Strongylus ^paradoxus)
was also found in the lungs of the pig. The specific differences between the
various species of the genus were readily determined by the shape of the
tail ol." the male, and in this matter we were much indebted to the labours
of Dr. Schneider. [Diagrams in illustration were exhibited]. Being very
desirous some time ago of tracing the development of these worms so as to
be able to find out some means of destroying them, or of preventino- their
ravages, he made a series of experiments upon Strongylus micrurus from
the lung of a calf. Knowing that many of this class of worms were
developed in mud, he placed a quantity of the ova in some mud in a watch-
glass, which was again placed in a fern case. On one occasion, whilst ex-
amining the contents of this glass, he was surprised to observe a sudden
upheaval of the surface of the mud, and found that it was due to a small
earth worm having crept into the watch-glass. It occurred to him at once
to examine the worm, and after carefully washing it, he dissected it, and
found the intestines to contain a very large number of embryos from the
watch-glats. He thought, therefore, that it was quite likely that the earth
worm might prove to be the " intermediate host," and all his subsequent
experiments had tended to confirm this idea. Endeavouring as far as
possible to imitate the natural conditions under which the further develop-
ment of these w^orms would be likely to be carried on, he placed some of the
embryos from the earth worm in some of the dew drops on a particular fern
in the case, and in two days he had the satisfaction of finding in these dew
drops two or three embryos of gigantic proportions. A few days after this
he obtained some more specimens from the same place, including some
young males, one of which was changing its skin. One remarkable differ-
ence between those in the mud and those in the dew drops was the very
greatly increased activity in .the last named, so active in fact that it was
necessary to compress them almost to danger of crushing them, in order to
keep them within the field of view. From these observations he came to
the further conclusion that in nature the larvae were to be found in the dew
upon the grass, with which they were taken up by grazing cattle. He did
not think, however, that they passed down into the stomach with the fodderj
but that their activity was such that they wriggled out of the contents of
the mouth, and got into the trachea in a direct manner. Here he had little
doubt their development would be completed in two or three days. He was
further confirmed in this opinion by placing some of the embryos from the

226

dew drops in saliva kept at an even and warm temperature. Under snch
conditions the increase in their activity was still more surprising, for if it
had been great before it was now quite tumultuous. When the husk-
affected cattle gave their short husky coughs they undoubtedly scattered
the young embryos in immense numbers upon the earth. The embryos were
then taken up by the earth worms, and in due course were thrown up by
these intermediate hosts in the worm casts, whence they migrated to the
blades of grass, and in this way he believed a solution of the question of
their life history was arrived at. He thought the animals might be pro-
tected by putting salt upon the land, or by keeping them out of the infected
pastures. All observations in biology should be verified, and he thought
that if this brief summary were placed before those whose time enabled
them to follow up the subject, it might lead to some good practical result.
He hoped that some one would take the matter up, and complete the obser-
vations in the direction which he had thus briefly indicated.

The President hoped that those who had heard of the systematic way in
which Dr. Cobbold had worked at this subject, would be encouraged to go
on in the way he had suggested. The matter was one which deserved to
be worked out on account of its importance, both from a scientific and an
economic point of view.

Mr. E. T Newton thought it rather singular that whilst the development
of the embryo took place only to a limited extent in the earth worm, it
should go on so rapidly in a medium in which there seemed to be no nutri-
ment. Was there any explanation to be given of this ?

Dr. Cobbold, in reply to Mr. Newton, said that the same question had
occurred to him during his investigations. Some Nematode larvae under-
went these changes in mud without passing into the body of any intermediate
host at all As to the question of nutriment, he believed they were simply
nourished by the water. His only doubt was whether they needed to have
gone into the earth worm in order to develop afterwards. This was a point
he should be glad to see confirmed. He felt persuaded that the larvae of all
the lung worms required to pass through the bodies of earth Avorms or some
other intermediate host. Mr. Beaulah had said that he found the certain
parasites encysted ; did he make any estimate of the length of those so
found ? He asked the question because there was a large Nematode worm
which attacked cattle, and which was from four to six inches in length.
This was the Strongylus enfescens, Avhose larvae were occasionally found
encysted in the lungs of sheep.

Mr. Beaulah said he had never seen any so long as that. He had found
that they would live a long time in water ; he had kept them in water for
observation, and it did not seem to drown them.

In reply to a question by Dr. Cobbold, Mr. Beulah further said that the land
most subject to the Filarice was low, damp, rich pasture. In some parts
of a field very numerous worm casts occurred. He had noticed that the
more worm castp, the more eggs and larva) of Filar ioz along with
Infusoria, all of which appeared to be fine feed for the worms. This
larva, if such, was a minute white woim, without structure or eggs in it.

227

It -was about three-eighths to half-an-inch long, and was abundant during
the warm wet weather of Jaly and August (perhaps earlier). Afterwards,
that is by September, the disease appeared amongst the sheep grazed on
such land, but only lambs were affected, old sheep had strength of con-
stitution to withstand it. "Was it not very probable these small worms got
up the sheep's nostrils, and quickly grew into Strong ylus filar ia ? For it
was certain that if sheep were fed on such pastures for a day only, they
were afterwards affected by the disease, and many very soon died.
Mr. Beulah said that though he felt unable to say much upon the subject
fi'om a scientific point of view, he was very well acquainted with the
practical side of it, and knew that the disease caused by these worms
increased in his neighbourhood to a fearful extent. He got a large
family of them from the lung of a sheep, where they had become
encysted, and he made out that there were over 300,000 eggs in this
single group. The males he found to be very few in number as compared
with the females. It was his opinion that the embryos were upon the
grass where the sheep were fed, and this was how the disease got spread.
It was not, however, found everywhere, but only partially distributed. He
remembered a case in which 72 sheep had been purchased and sent home
all healthy — two of their number falling lame by the way were put in a
pigstye and left behind — the others went on, and were turned into a meadow
for the night. The whole of the 70 began to show the disease eight days
after being in the field, but the two who did not go there were alive and
well at the present time. On examination the dew from this meadow was
found to be full of eggs. On his own farm sheep had been grazed in eight
different parts, and those from three out of the eight were attacked by the
disease, whilst the number of sheejD which had suffered from it within a radius
of five miles was upwards of a thousand. How the larvae got into the lungs
was a question that often arose, and he had thought they were snuffed up
by the sheep. Som.e people called this disease the liver rot; but he could
only say that, so far as his sheep were concerned, they had perfectly healthy
livers, but their lungs were all full of the worms. He had seen some of the
saliva coughed up by the sheep, and knew that it contained thousands of the
eggs. He would only say further that if anyone present wanted specimens
for the purpose of study, he should be very glad to send what was required,
as he was sure there was a very wide field oj)en for their investigations.

Votes of thanks were then unanimously passed to Dr. Cobbold and Mr.
Hardy for their communications.

The President said that, owing to the lateness of the hour, it would not
be doing justice to Mr. Priest to take his paper then, for if any one had
taken the trouble to write a paper and to draw diagrams in illustration, it
was hardly fair to have them hurried through during the last part of the
evening. With Mr. Priest's concurrence, therefore, the paper would be
postponed until their next ordinary meeting, which would take place on
January 28th, 1881.

The proceedings then terminated with the usual Conversazione, at which
the following objects were exhibited : —

228

Jute, showing the brittleness of the fibre ...
Aulacodiscus SoUitiaiius
Hairs of Echinus mlcranthus
Fern, Niphoholus costatus
Seeds of Mesembryanthemum crt/stallinum
Theine from Black Sea, polarized
Hydatina senta
Sticttodiscus Bury anus ; rare
Larva of Limnohia replicata, a Crane fly )

showing the Tracheal system ... 3

Thea flssami'ca, transverse section of leaf,)

showing large branched cells ... J

Pseudomorphus Copper, Copper Formate )

reduced by heat ... ... >

Attendance — Members, 77 ; Visitors

Mr.

F. W. Andrew.

Mr.

W. J. Brown.

Mr.

C. G. Dunning.

Mr.

A. Fieldwick, jun.

Mr.

H. R. Gregory.

Mr.

A. Martinelli.

Mr

. W. Moginie

Mr.

F. A. Parsons.

Mr.

J. W. Keed.

Mr.

H. J. Waddington,

torS;

, 12.

December 10th, 1880. — Conversational Meeting.

The following objects were exhibited : —
Parasite of the Fox
Cuticle of Rye, polarized
Campaiiularia voluhilis
Trichinium 3Ianglesii ...
Aregina bulbosum, Bramble brand
Spiracles of Larva of Gastero;pliilus equi

Botfly
Ptilota sellcea ...

Submerged Stipule of Fotamogeton nataus
"Resid oi Chrysopa perla, &g.
AmpMpleura pellucida, shown with Powell "\

and Lealand's water immersion l-16th>

objective and oil immersion condenser J
Euchlanis Hornemani ...
Head of Gysticercus fasciolaris, from liver")

of Mouse ... ... ... J

Leaf of Coffea arahica ...

Amygdalin, a derivative of Bitter almonds

Section of gustatory ox'gan of Rabbit

tongue, showing the " taste goblets "'
Echinococci and germinal membrane of")

Mr. F. W. Andrew.
Mr. W. R. Browne
Mr. C. G. Dunning.
Mr. A. Fieldwick, jun.

Mr. H. E. Freeman.

Mr. A. D. Michael.
Mr. H. Morland.
Mr. T. S. Morten.

Mr. E. M, Nelson.

Mr. J. M. Offord.
Mr. J. W. Reed.

Mr. H. J. Waddington,
The President.

Hydatid

Dr. n. T. Whittell.
Attendance — Members, 71 ; Visitors, 1.

Q. M. J

PL. 13.

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Q. M. J.

PL. 14.

1-3, St. pseiodofarcig-erurrb. /i.~B. St. f~u.roig-erTjb-i-)^ 6-7. St. artisoon.
^-9, St. sexang-uulare. 10-11. St. ophiura.

a M. J.

PL. 15.

Ji C.C

1^-18, 8t. anaiinujrYi.
16-17. St. paradoxurro. var. longipes.
'SltoSJ/.. St. scbXoniGum?

14-lS'- St. Sehald%. var.
'JS-19-S0. St. cerastes.
SS-S6. St. §rasiliense.

Q. M. J

PL. 16.

M.C. C.

S7~SS. St. g-rande. 29-S0-21. St. meg 0.0 ant hum.. SS-^S. 3t. a^ristifeiVMm,

84-3§. 3t. hrevispina. 86-S7. St. aversum. 8^. Si. infiexum,.

89-4-0. St. (Prings'fieim^ii. 4^-4-^ S^- longispiroum.

PLATE J^m.

*j=^Mr '* '

BWFhif,st,del

£. Cookf,. hU.-

PLATE XVm.

BWPr.^st,del

E Cook&lith..

229

On the Natural History and Histology op Sponges.
By B. W. Priest.

{Read January 28th^ 1881.)

PLATES XVII, XVIII.

It is only witliin the last few years that the Sponges or Porifera
have been classed in the animal kingdom, thanks to the modern
improvements of our microscopical appliances, which have enabled
us to work out their minute histological structure. They were long
thought to be of a vegetable nature, on account of some species, as
in our freshwater Spongilla for instance ; the green colouring matter
being due to the formation of chloroj^hyll, which, of course, is in-
fluenced in the same manner by the action of light as it is in plants,
and also by their being fixed to one place.

With the exception of those that belong to the genus Spongilla
all known Sponges are marine, but they vary much in their habit of
growth, some being obtained only from great depths, others between
the tide marks, on weeds, stones, and the piers and piles of our
shores, some of which are mere films incrusting the substances on
which they grow.

It appears, by reference to Dr. Johnston's work on the SpongiadcT,
that the first British Sponge recorded was in 1616 ; since that time
the species have been multiplied greatly, and would bear a deal of
cutting down, young specimens being in many cases taken for
different species ; but some excuse may be made, in that only a few
have studied this branch of Natural History.

For our present purpose, perhaps, the late Dr. Boweibank's classi-
fication will be the best to adhere to, although every year, I may say
every month, brings something fresh to our knowledge that will
make it necessary to alter their arrangement at some future time.
The Sponges are divided into three orders :
The Calcareous, Siliceous, and Keratose.

The Calcareous Sponges are few in comparison to the other two,
and include the well-known Grantias, whose histology perhaps is one
of the easiest to make out of the marine ones.

Journ. Q. M. C, No. 47. t

230 B. W. PRIEST ON THE NATURAL HISTORY

The Siliceous Sponges are very numerous, as every dredging ex-
pedition which has been organised fully testifies, always discovering
some new form or forms. It includes the Halichondria and others
of our shores, as also that beautiful Hexradiate group, comprising
the Euplectella or Yenus' Flower Basket, Rossella^ Holtenia and
others, specimens of which may be seen in our National Museum.

The Keratose Sponges include the Chalina, Dt/sidea, and the
Sponges of commerce.

Very few species can be made out by their external appearance ;
even Dr. Bowerbank himself could not, experienced as he was, always
determine the species without a microscopical examination.

Most of the Calcareous Sponges, comprising the four British
Genera, viz., Grantia, Levcosolenia, Leuconia and Leucogypsia,
take a more or less definite form, and with little experience it can
almost always be told at once to what genus they belong. For in-
stance in Grantia compressa and G. ciliata we find the Sponge to be
constructed of a series of cells, each having separate parietes, and
extending from the dermal surface to near the inner surface of the
Sponge, where they discharge the fcecal streams into the cloacal cavity.

In Leucosolenia the system of cells is entirely wanting; the
Sponge is composed of a single thin stratum of membranous struc-
ture and spicula, surrounding a large cylindrical cloacal cavity, from
the terminations of which the streams are discharged.

Leuconia. nivea, a sessile growing Sponge which occurs massive
and irregular in form, contains numerous cloacal cavities, each ter-
minating in a single large mouth, the interstitial structures between
the sides of these cavities and the dermal surface of the Sponge con-
sisting of irregularly disposed membranes and spicula, terminating
in orifices or oscula in the sides of the fcecal cavity into which the
excurrent streams are discharged.

In Leucogypsia the Sponge is massive witliout cloaca, and with
oscula at the external surface, thus simulating the mode of structure
of the Siliceous Sponges, whose pores and oscula are mostly on the
surface of the Sponge, the pores being the incurrent and the oscula
the excurrent terminations of the canals, conveying the streams of
water through the Sponge.

There is a curious phenomena connected with these pores, and
that is that they can, when closed entirely, coalesce, so that no trace
of them can be found, and fresh orifices are formed at a different
part of the surface of the Sponge, afterwards.

AND HISTOLOGY OF SPONGES. 231

In the Hexradiate group before-mentioned, so named on account
of all its spicules being formed more or less on that type, we have
spicules in some cases of great length, extending from the base of
the Sponge, the ends of many terminating in booklets, often re-
minding one of anchors or grapnels, by which the Sponge attaches
itself to the bottom of the ocean in the mud, and is thus swayed to
and fro by the currents without injury to the main body.

When the Hyalonema, or Glass Rope Sponge, was first brought
over from Japan, some few years back, it was believed for a long time
that the Sponge grew with the long-twisted coil of spicules upwards ;
'but from subsequent dredgings and further examination and inquiry,
it was found to be the contrary, and that it was the Japanese them-
selves who had imposed on our credulity, by imbedding the Sponge
in the cavities formed in stones, &c.,by some mollusc, with the glass
rope looking like so many long brushes of spun glass bristling
upwards. A specimen of these may be seen in the British
Museum.

We have over two dozen recorded genera of British Siliceous
Sponges, so that it would be impossible for me to go through them
in one evening. ]\Iany of the spicules of some of them are familiar
objects in our cabinets, such as the stellate forms of Tetliya, the so-
called gemmules of Geodia and S pong ilia ; but I must leave that part
for a future time.

The spicules which go to form the non-histological part of a
Sponge build up more or less the skeleton, excepting in the purely
Keratose ones. The forms they take in the Calcareous Sponges are
mostly of a tri-radiate type ; but in the Siliceous ones they take
forms, which for beauty and symmetry are often hardly to be equalled,
more particularly the minute spicules dispersed through the sarcode.

The Keratose Sponges have in some cases their fibres strengthened
by the presence of spicules, generally of the acerate type. One
species of the latter, named Dysidea fragilis, which may be found
very plentifully at Brighton, seems to have a selective power of taking
up grains of sand, often about the same size, and depositing them
in its structure. In a specimen I have seen, evidently allied to
Dysidea, from Australia, in the possession of Mr Waller, the finest
hair-like fibres had grains of silex regularly arranged in their
interior.

The true essential part of a Sponge is composed of structureless
sarcode and nucleated cells, placed side by side, with a flagellam, some

232 B. W. PRIEST ON THE NATURAL HISTORY

cells having a hyaline collar protecting the flagellum. These latter
cells line all the passages leading from the pores, in most cases to
the cloacal cavity or cavities to the oscula, regulating the currents
of water and causing them to flow through the channels, and convey
the nutriment necessary to the existence of the Sj^onge. (Fig. 1,
Plate XVII.)

Some naturalists, I believe, look upon the collared cells as playing
the part of respiratory organs only, and not as means for assimilating
nutriment, at any rate I have no doubt, along with others, with re-
gard to their regulating the currents of water.

In some species of Sponges these ciliated cells occur only in well-
determined circular chambers, with their ciliated ends pointing
towards the centre, each chamber having a small aperture which per-
forates the investing membrane. (Fig. 5, Plate XVII.)

The late Professor James Clarke, of Kentucky, was the first to
notice the analogy of these ciliated cells with the free flagellate col-
lared Infusoria, followed up at the present time by the elaborate re-
searches of Mr, Saville Kent. It has been found by this gentleman
that some of the free collared monads are identical with the ciliated
collared monads discovered in the Spongiadge, each separate collar-
bearing cell possessing a separate existence, and securing its nutri-
ment in the same manner. Furthermore, Mr, Kent tells us that
Sponge structure may be and is built up from one of these constituent
monads, by a repeated process of cleavage, by which means it quickly
multiplies itself, though still more rapidly by the subsequent encyst-
ment and breaking up of the monads into spores.

Through the kindness of Mr. Charles Stewart I have been enabled
to see for myself these truly wonderful collared cells, in sections of
Grantia compressa and G. ciliata, properly prepared. Fig. 3, Plate
XVII., is a sketch of a section through one of the passages leading
to the cloacal cavity of the first-named species, showing them in
situ. You will often see an embryo Sponge in a greater or less state
of development, and dispersed through the sarcode the ama?boid par-
ticles or cytoblasts ; also the supposed stinging threads, analogous
to those found in the freshwater Hydra.

Professors Ilaeckel and Huxley, I believe, still hold that the proper
})lace of the Sponges is among the Coelenterata, including the Sea
Anemones and Hydroid Zoophytes, from the theory of their being
composed of separate multicellular membranes or tissues The recent
investigations with regard to their place amongst the Protozoa may

AND HISTOLOGY OF SPONGES. 233

be said to be as yet in its infancy, although things look very much
in its favour.

Much has been written on the reproduction of the Sponges, but
in a paper like this it would take too long to go into the subject
minutely.

They are, up to the present time, known to propagate by three
modes —

1st. By ova with and without ovaria.

2nd. By internal and external gemmation ; and

Srd. By spontaneous division of the sarcode.

Dr. Bowerbank tells us that little is known regarding the repro-
duction by ova without ovaria, as that models confined to the genus
Spongia (the Sponges of commerce) alone, and we seldom obtain
them in a fit condition for the examination of that subject ; they may
be seen occasionally in specimens that have not been cleaned by the
dealers, dispersed evenly over the surface of the fibres, and also im-
bedded in the sarcode that coats them, but even then in a very un-
satisfactory manner. The ova generated in ovaria are, perhaps, best
studied in the freshwater species of the Upper Thames. I name
that place more particularly, on account ot the luxuriance of the
growth of both the species, Spongilla fluviatilis and S. lacustris,
which may be met with growing together at Henley, Goring,
Marlow, &c.

Spongilla fluviatilis grows in a more massive and compact form
than S. /acustris, but both are of a bright green colour, and anyone
not knowing what they were would certainly take them at first sight
as a vegetable growth. The ovaria are found at the base of the Sponge,
having the appearance of small brown seeds. When examined under
the microscope, after soaking them in spirits of turpentine for some
hours, the walls of these ovaria are found to be strengthened and
supported by bi-rotulate spicula in lines from the centre to the
circumference. Fig. 2, Plate XVII. These ovaria contain the ova,
which, as the spring comes on, creep out of the vents, which may
be seen situated at one or other part of the ovaria, swimming about
by means of cilia, until they at length settle down in some suitable
place, and develope into Spongilla.

In some species of Sponges, as in Grantia compressa for instance,
the ova are often developed in the interior of the Sponge, and in that
case may frequently be watched, passing through the process of
cleavage, similar to the segmentation which takes place in the yolk

234 B. W. PRIE8T ON THE NATURAL HISTORY

of the lien's egg. It is tliis last process that may be considered as
internal gemmation, and, according to Dr. Grant, if two or more
ova are placed on a watch glass or slide, they spread themselves out
as a thin transparent convex circular film, which, if they come in
contact with one another, coalesce, thicken, and produce spicula,
which in a few days grow up as from one ovum.

In Tethya leyncvrium true gemmules, according to that term, are
produced externally. At the base of most specimens a small glo-
bular mass of sarcode may often be noticed, in which, if mounted in a
cell in Canada balsam, the skeleton spicules, like those of the parent
sponge will be plainly made out.

There is an interesting paper, with plate, in the December number
of the " Journal of the R.M.S. for 1880," treating on this subject of
the external gemmation of Tethya, dredged up in the White Sea by
a German naturalist. It appears that this budding process does not
confine itself to the base only, but occurs at any part of the Sponge,
giving it the appearance of being covered with some parisitical
growth.

The third process of reproduction is by division of the sarcode,
viz., if a portion of the sarcode, naturally or even by artificial means,
be separated from the parent sponge, it will ultimately develope into
l^erfect form.

This process that Sponges have of growing from detached por-
tions has been recently taken advantage of by two German
naturalists, on account of the supposed likely falling off of the supply
of the Sponges of commerce. They found that by carefully cutting
small pieces from living specimens, and attaching them to boards or
stones, and sinking them in suitable localities and depths, they
will grow into large Sponges as if nothing had happened.

The genus Spongilla has been long known to develope by both
ovaria and division of sarcode, but generally in the latter case, very
few, if any, ovaria could be found present.

If two pieces of living Spongilla be placed under suitable circum-
stances so as to touch, they will, after a certain time, coalesce in the
same manner as described with regard to the ova.

Tliore is still much to be found out regarding the growth and re-
j)roduction of Sponges, as also the process which enables certain
sjjccies to burrow into shells and substances of a hard and compact
nature. One often picks up oyster shells completely riddled by one
species named Cliona (now changed to Jlymcniacidon) cciata, and up

AND HISTOLOGY OF SPONGES. 235

to within tlie last few months I had always regarded the chambers
or burrows occupied by the Sponge as having been made by some
Annelid, and that the Sponge itself had nothing to do with the for-
mation of them, being only parisitical in them. Dr. Bowerbank had,
I believe, come to the same conclusion. From specimens that I have
prepared of portions of an oyster shell, which was full of the Sponge,
and also from the examination of a section of a shell of Haliotis
kindly lent to me by Mr. Kitton, of Norwich, chambered out in a
similar manner by another species, I have come to the conclusion
that no known Annelid could bore in the manner indicated in this
diagram (Fig. 6, Plate XVII.), where you will see that the ramifica-
tions are very numerous and in some cases very fine, and most of
them are more or less filled up with the Sponge or remains of the
same.

Whether it is accomplished by a mechanical or chemical process,
or both, by the Sponge still has to be found out ; that it is the
action of the Sponge there can be, I think, little doubt, and I my-
self am rather inclined to think that both processes are brought into
action.

As I intend to go more into this subject I shall reserve my reasons
for a future paper.

Sponges seem to have existed in more abundance in earlier times
than they do now — more especially at the Cretaceous period — to wit-
ness, the Ventriculites and formation of Flints, which in the latter
either form the nucleus or the chief of those interesting and curious
substances.

If a thin section of Flint be taken and examined you will generally
find, besides other forms, such as Foraminifera, spicules, and in some
cases entire reticulated Sponge structure, small spined bodies, which
have been termed Xanthidia, because they were at one time sup-
posed to be the sporangia of certain forms of Desmidiae, named
Xajithidium.

From more extended observations they have been found to difi"er
much from their supposed homologues, answering more to the de-
scriptions we have of Sponge gemmules, or the statoblasts of some of
the marine Polyzoa. At any rate I think that they may now be
expunged from the vegetable kingdom. From what I have read and
seen I am not inclined to think that they are gemmules, but either
the statoblasts of some of the Polyzoa or analagous to the peculiar
bodies which have been found in some Sponges, and a description

23G B. W. r-RIEST ON THE NATURAL HISTORY

of which may be met with in the '' Annals of Natural History,"
vol. vi., p. 220, in a paper by Mr. Saville Kent, where he explains
their occurrence in a Sponge dredged up in the Noma expedition.
(Figs. 7 and 8. Plate XVII.)

I have drawn roughly here, a copy of the figures given in the
Annals just mentioned, of one of these bodies, along with one of
Xanthidium ramosum, and I think you will agree that there is a
resemblance and some analogy between the two, although the fibres
of the former are somewhat finer than the tentacula of the Xanthi-
dium. Of course we have to find these bodies occurring in other
specimens of Sjoonges to corroborate the idea, and it would be a great
boon if the captains of vessels and others who go long sea voyages
would try and obtain specimens of Sponges, and distribute them
to different Societies, who have members interested in that branch
of natural history. In the first volume of the " Transactions of the
Eoyal Microscopical Society " there is an account of some living
Xanthidia having been sent over from America, found in some pool
or pond, but I think that went to negative the idea entirely of their
being Sporangia, as Desmids have never been found, that I am
aware, in salt or even brackish water, and therefore could not be
found in Flint.

It has long been a disputed point what these bodies are, and
perhaps some of the members present could enlighten us a little
more on the subject.

Perhaps a word or two on the examination of Sponges may prove
of interest to those who wish to follow up the study of this interest-
ing subject.

Unfortunately the marine Sponges cannot be kept long alive in an
aquarium, therefore we have to content ourselves with examining
them the next best way.

Those who would work out their minute histology, should, if
possible, obtain living specimens in as many stages of development
and growth, and whenever they chance to come across them, follow
out the ciliary action in the chambers and passages.

A good and interesting way to see the currents in Grantia com-
pressa is to slit up the side of the Sponge with a fine pair of
scissors, laying it open in a cell with sea water, with the inner sur-
face upwards, and so arranged that a high power can be brought to
])ojir on it — a few grains of indigo or carmine being placed in the
water.

AND HISTOLOGY OF SPONGES. 237

For further examination, specimens should be plunged for some
minutes, whilst living, into a one or two per cent, solution of osmic
acid, and then transferred to weak spirit, about 25 per cent. Thin
sections should be made from the surface inwards by a section
cutter, a freezing microtome being preferred, and then examined
with high powers.

Those who would only study Sponges for the beauty of the spicules
should cut a tolerably thick piece of the Sponge, taking care to in-
clude a portion of the dermal membrane, when present, from the
surface to the centre, placing it in a test tube and boiling for a few
minutes in strong nitric acid in tlie case of siliceous Sponges, but
liquid potash when they are calcareous, washing carefully several
times the spicules which fall to the bottom of the tube with dis-
tilled water, and finally mounting in Canada balsam. Thin sec-
tions taken in the same way, as also portions of the dermis, and
mounted in cells, brass ones being avoided, with Canada balsam,
show the relative position of the spicules. In the case of the
Sponges of the Hexradiate group, it is better to mount portions of
the dermis and interior part of the Sponge without attempting to
cut them, as the process would mutilate the structure, which is in
most cases so delicate.

This group contains, I think, a greater variety of beautiful forms
than any other. We have a few of the spicules drawn here (Plate
XVIII.) to give some idea of the forms they take ; and you
will be struck by them, as in many things, that man's inventions
and ideas of form and symmetry have been forestalled by Nature
long before, perhaps, he himself appeared upon the surface of the
earth.

One question forces itself upon us when we look at these minute
forms — Why is so much beauty hidden from our view, and for what
purpose are they so placed, that they can only be seen in many
cases by the higher powers of the microscope ? We can only wonder,
and find it is as much beyond our grasp, as the definition of an
atom, or the realization of boundless space.

DESCRIPTION OF PLATES XVII., XVIII,

PLATE XVIL

Fig. 1. — Hypothetical diagram of Sjjongilla, showing currents (Carter).
Fig. 2. — Section of ovary of Spongilla jluviatills, showing position of bi-
rotulate spicules and separate spicules of same.

238 B. W. PRIEST ON THE NATURAL HISTORY, ETC., OF SPONGES.

Fig. 3. — Section of Grantia compressa, showing ciliated collared cells in

situ.

Fig. 4. — Single collared cell (Kent).

Fig. 5. — Ampnllacious sac ehowing position of cells in some species.

Fig. 6. — Section of Haliotis shell, with burrows of sponge.

Fig. 7. — Sphei'ical body from Sponge (Kent),

Fjg. 8. — Xanthidium ramosiim,

PLATE XVIII.
Spicules from various Sponges of the Hexradiate type.

239

On the Periodicity of Filarial Migrations to and from
THE Circulation.

Bj Patrick Manson, M.D., Anioy. [Commiiaicated by Dr.

COBBOLD.]
{Read January 28th, 1881.)

PLATE XIX.

Amoj, 25tli August, 1880.
T. Spencer Cobbold, Esq., F.R.S.

Dear Sir, — I read with mucli pleasure the notice in the
" Lancet," 3rd July, of your communication to the Quekett Club
respecting the specimens I sent you. 1 note that the bird parasites
are new species, and I am much gratified to learn that the Distoma
of Dr. Ringer is new also, and is to bear that gentleman's name. As
I did not make any examination of the Distoma Ringeri, fearing to
mutilate too much the solitary specimen, I would like to see any de-
scription of it you may publish.

The reprint from Vol. VI. of the " Quekett Club Journal " I
duly received, and I thank you for the trouble you have taken in
thus bringing forward my work. In reading it I was especially in-
terested in the short note by Dr. Mortimer Granville. Though his
speculations are founded on an error, yet I like the scientific style in
which he treats the subject. Perhaps you will show him the chart
I send you herewith. He would see from it — 1st. That the
periodicity observed by the filaria embryos is by no means an ex-
ceptional or capricious phenomenon ; and, 2nd, that it is associated
with the advent of night, and not depending in any way on the
sleeping state.

Although in the paper I sent you some time ago I refrained from
speculating on the cause of filarial periodicity (because I had nothing
but guesses to offer), yet I have thought a good deal about what
might be the reason of this most remarkable phenomenon, which, as
you say, " savours of the marvellous." As Dr. Mortimer Granville
remarks, it is well deserving the attention of physiologists, for could

240 P, MANSON ON THE PERIODICITY OF

we ascertain what the subtle influence is that sets these creatures
circulating in thcblood stream and arrests them with such " mili-
tarj punctuality," we probably would let new light in on many an
obscure problem both in physiology and pathology. It was with the
intention of providing myself with a standard with which to com-
pare the results of observation and experiment that I prepared the
cliart I send you. If it is published it may help others, who are
willing to work on this subject, but who may not have the oppor-
tunities of the continuous observation it records.

Dr. Mortimer Granville's ingenious speculations are based on the
assumption that the phenomenon of periodicity depends in some way
on sleep, either on the mechanical changes in the circulation when
the body is in the recumbent position, or in the different propor-
tions of oxygen in the blood, or in relative alterations of blood and
tissue temperatures during the walking and sleeping states. Now,
as the embryos begin to ai:»pear hours before the usual time for re-
pose, and are in no way sensibly affected by changes in the hours of
sleeping and waking, it is evident that the power which fixes them
and lets them loose operates independently of the sleeping state. It
is associated with the advent of night, but not of sleep.

Part of Dr. Mortimer Granville's note is so much to the point
that I will quote it — " The change of place may be fairly ascribed to
change of state. Looking at the habits of life in the lowest
organisms, it can scarcely be supposed that the periodicity can de-
pend on the state or requirements of the filari^e. It is not likely
that the parasite needs repose, or that it resorts to special localities
to feed. It seems more probable that the state of the circulating
fluid determines the presence or absence of the filarias in the main
current by night and day respectively." . . . The first part of this
I quite agree with, but the latter part I am not quite so sure about.
What is the difference between the state of the circulating fluid at
4 p.m. and 6 p.m. respectively ? It is evident that something hap-
pens between these hours which liberates the embryos. I do not
know that physiologists have demonstrated or even supposed some
sudden change beginning in the blood between these hours. Again,
the conditions permitting the free circulation of the parasites con-
tinue with increasing effect up to midnight, and the restraining in-
fluences which fix them are gradually reapplied from that time till
they effect also complete fixation by nine or ten o'clock next fore-
noon. What alteration in the pliysiological state of tiie blood or

FILARIAL MIGRATIONS TO AND FROM THE CIRCULATION. 24 I

body generally corresponds to these hours ? If you refer to my
chart you will find no explanation in the rapidity of the circulation,
nor in the temperature of the body. For sometimes the pulse is
quick when the embryos are numerous, and sometimes it is slow ;
sometimes the temperature fluctuates a degree without apparent
effect on the numbers circulating.

Whatever the cause may be it certainly operates throvgh the
body, the medium in which the parasites are, but I very much in-
cline to think that though operating through the body it is placed
outside of it

Of one thing we may be quite certain — that from the fact of the
periodicity being one of 24 hours its remote cause is the rising and
setting of the sun, or rather the altered relation of the earth's sur-
face to the sun recurring every 24 hours. Of another thing we may
also be certain, that the immediate cause is applied between the
hours of five and seven p.m. What, then, is the phenomenon in
nature which, depending on the position of the earth's surface to
the sun, begins to operate on the human body with the utmost
regularity between the hours of five and seven p.m., increases in
power up to midnight, wanes towards morning, and finally ceases to
act between nine and ten a.m. ? A correct answer to this would be
a step towards the solution of this strange problem ; only a step
however, for the method of its operating would still remain to be
explained.

We may dismiss at once the diurnal variations of atmospheric
temperature and pressure, for, although, especially in these latitudes,
these daily ranges are pretty constant, yet when completely in-
verted as sometimes happens, and as you may see from a comparison
of the chart and meteorological register, there is no corresponding
disturbance in filarial periodicity.

In casting about for the answer two things occur to me. 1st.
The rays emanating from the sun undergo about these hours marked
alteration in their proportions and power. 2nd. The magnetic con-
dition of the earth suffers a change about the same time.

I am inclined to dismiss the former as the direct cause, for were
the sun's rays the direct regulating inJlMence we might expect to find
the rhythm answered by the embryos affected by the presence and
absence of clouds and so forth. This is far from being the case, as
you can see by comparing the chart with the meteorological register.
The periodicity bears no relation whatever to the hours of sunshine,

242 p. MAN80N ON THE PERIODICITY OF

cloud, or rain, or other condition influencing the quantity or kinds
of rays infringing directly on the human body, at least so far as I
can see ; but with terrestrial magnetism the case is quite otherwise.
Its variations are rhythmical. If you consult authorities on the
diurnal variations of the declination and inclination of the compass,
and intensity of terrestrial magnetism you will find a marvellous
correspondence between the rhythm of these phenomena and that of
filarial periodicity. For example, the needle of the compass crosses
the magnetic meridian, or mean daily position, between the hours
of nine and ten a.m. and six and seven p.m. ; during the night and
early morning the north end of the needle is to the east of the
meridian, during the day to the west, and the hours when the meri-
dian is crossed correspond pretty closely to the times of change from
rest to activity, and vice versa of the filaria embryos.

Again the minimum of daily change of terrestrial magnetic in-
tensity is between the hours of ten and eleven a.m., and the maxi-
mum between four and seven p.m., varying slightly with the season
of the year. These hours correspond very closely with those of
commencing rest and activity of the filaria in the normal state of the
body. There is no proof wliatever that there is any cause and eifect
relation between these two phenomena, but the coincidence is most
striking, and suggests further investigation. If experiment should
show such relation it would be interesting to know if the cause
operated directly, or if the effect on the embryos depended on
physiological changes on the body the result of terrestrial
magnetism.

These may seem wild and unjustifiable speculations, but I only
offer them for what they are worth, and desire to separate them by
a clear and well-defined line from my facts. But the imagination
lias its place in science, I believe, as well as rigid observation and
induction. At any rate, actuated by these speculations, I have
made one or two crude and unsuccessful experiments. I wish very
much some expert in physiology and electricity would take the
matter up. My knowledge is so limited, and the apparatus I can
command so rude, that I despair of being able to give the answer
myself. I believe a systematic examination of the compound force
called light, or of terrestrial magnetism in their influence on these
worms, would give most valuable results, not only in solving this
most interesting problem, but in opening new and fertile fields in
physiology and pathology.

FILARIAL MIGRATIONS TO AND FROM THE CIRCULATION. 243

I do not anticipate mncli from observations on the disturbing
effects of drugs and the febrile state. These undoubtedly in the
future will be found to have an influence on filarial periodicity, and
it is possible this study may lead to just conclusions as to the cause
of the phenomenon. It is not likely, however. The conditions of
experiment become in such cases almost too complicated to unravel.
We must be careful to bear in mind that substances or forces which
interfere with the periodicity may have nothing in common with its
normal cause. Assuming that quinine has this power, it would be
absurd to infer that the presence or absence in the blood of this drug
had anything to do with normal periodicity. It is only by the ex-
clusion or inversion of the cause that we may hope to arrive at
correct conclusions.

I have written more than I intended about my speculations on
this subject. The great interest you take in these matters is my
excuse, and I hope you admit it.

I will leave speculation alone now, and pass to the facts in ex-
planation of the chart I have sent you.

The chart records a series of observations on the blood, tempera-
ture, and pulse of two Chinese lads ascertained to be filarious, and
were in the main made by themselves. After enlisting them in the
cause, and before commencing systematic observations, I trained
them to recognise and count the embryos with the microscope, to
read accurately the clinical thermometer, and to record correctly this
and observations on the pulse, barometer, and ordinary thermometer.
I took care from time to time to satisfy myself that their observa-
tions were carefully made and recorded, and I believe if there are
any errors in the chart they are few and unimportant. Observations
were made every three hours, day and night, during one month. At
first the hours selected were^-12, 3, 6, 9, 12, 3, 6, 9 ; but after two
days it was found convenient to change them to — 1, 4, 7, 10, 1, 4,
7, 10. The quantity of blood was as nearly as possible the same in
each examination, just sufficient to form a thin workable film fully
occupying a covering glass 1 Jin. by lin. The inevitable differences
in the quantities examined probably accounts in part, at least, for
discrepancies, in the number of embryos found at corresponding
hours on different days. Notwithstanding this unavoidable imper-
fection, the microscopical observations serve their purpose, and in
the main may be relied on. The same clinical thermometer was
used throughout, and by both lads. The instrument I found on

244: p. MANSON ON THE PERIODICITY OF'

comparing with two otliers is too high set ; this circumstance ex-
plains the range of normal temperature being in the 100th instead of
the 99th degree as is usual.

Food of the kind usually consumed by middle-class Chinese, viz.,
rice, a little pork or beef, salted and fresh fish and vegetables, was
taken at seven a.m , one p.m. and seven p.m., or thereabouts.

Sleep during tlie night was constantly interrupted to take obser-
vations, and consequently was frequently indulged in during the
day.

The meteorological observations recorded in the chart were made
with an ordinary large aneroid barometer, with thermometer at-
tached. The instruments, though good enough for the purpose in
hand, are probably not perfectly reliable. I have accordingly pro-
cured from the customs a copy of their meteorological register cor-
responding to the period of these observations. This is very
accurately kept, and may be trusted with the exception of the after-
noon readings of the thermometer. In consequence of the faulty
position of the instruments they stand 3° too high during the after-
noon.

Both lads come from Hooie~Oah, a filarious district, some three
days' journey to the north of Amoy. They have resided in Amoy
but a very few months. Li-Kha (I. in the chart) is 21 years of age,
of average size, and in good health. He has no history of fever or
any serious disease. Tiong-Seng f II. in the chart) is 21 years of
age, and is fairly well nourished. When about 14 he had what he
called ague (what I call lymphatic fever), and from that time till
now has on an average an attack about once a month. Tlie attacks
begin with giddiness, weariness of the body and limbs. This
gradually merges into a cold stage, with moderate rigors of two or
three hours' duration ; then succeeds a hot stage of very high fever
of 24 hours' duration, terminating in moderate diaphoresis, lasting
for an hour or two. The fever is accompanied by complete anorexia,
and during its continuance the inguinal and femoral glands in-
variably swell up and pain him excessively, those on the right side
being affected more than those on the left. Unless the attack of
orchitis or inflammation of the tunica vaginalis, to be hereafter
alluded to, he has never had any trouble about the genitals or limbs,
nor any signs of elephantoid disease. There is manifestly nothing
of an ague type about these fever attacks. Though recurring about
Ulice a month (he had another attack without orchitis, however, on

FILARIAL MIGRATIONS TO AND FROM THE CIRCULATION. 245

the 18th and 19th August) thej are single, not quotidian, tertian,
or quartan.

The first three compartments on the chart refer to Li-Kha (I.) ;
the second three to Tiong-Seng (II.) ; and the two lowest are oc-
cupied by readings of thermometer and barometer. At the margin
are numbers referring to number of filaria found, temperature of
body, beats of pulse per minute, &c., &c. Along the top the figures
refer to the date and the hour of the day.

One or two things require a little explanation. The effect of the
febrile state is well known in the case of Tiong-Seng (II.). From
the 12th July, when systematic observation commenced, till the
afternoon of the 16th he was in his usual health, though his tem-
perature ranged rather high, and the filarial rhythm was perfect.
At one p.m. on the 16th, after being out of sorts all the morning,
he had a rigor, followed by rapid rise of temperature and smart
fever ; at four p.m. he took five grains of quinine ; by ten p.m. in-
flammation of the right tunica vaginalis, with effusion and perhaps
orchitis, declared itself, and the groin glands had become painful and
swollen. Next day he was quite confined to his bed, inflammation
continuing. He took three doses of quinine of five grains each
during the day. On the 18th fever and inflammation had subsided,
and he took only two doses of quinine. On the 19th the fever and
inflammation relapsed, and he had an attack of a sort of convulsive
hysteria ; that day he had three doses of quinine. On the 20th he
was better, and on the morning of the 21st was entirely free from
pain and fever. The swelling of the testicle and glands gradually
subsided. Contrast the behaviour of the thermometer and of the
embryos during and immediately after the attacks. The disturb-
ance in periodicity did not begin for some time after the thermometer
had risen, and it continued for days after the temperature had fallen
to the normal standard. My inference is that the mere elevation of
temperature has not j^er se any effect on the periodicity, it would
show at once were this the case ; chemical or other pathological
changes, consequent on the febrile state, have an effect, and, until
these changes are eliminated or subside, filarial rhythm is interfered
with. The effect of the fever seems to be to prolong the periods of
remission, to diminish the number circulating at the time of maxi-
mum, and prevent complete fuscation at any time.

As the quimne taken during the attack might have had some
disturbing influence, I tried the effect of a large dose on Li-Kha

JouuN. Q. M. C, No. 47. w

246 p. MANSON ON THE PERIODICITY OF

(I.) on July 26. Thirty grains were taken in three doses of ten
grains each at intervals of one hour, beginning at ten a.m. On the
following c'ay you see the pulse rose, the temperature fell, and com-
paratively few embryos could be found circulating, and their ingress
that evening appeared to be delayed ; but by one a.m. on the 28th
they were as numerous as ever, and thenceforward periodicity and
numbers continued as before the experiment. I cannot say, how-
ever, that this slight perturbation was the result of the quinine, for
Tiong-Seng (II.) was treated exactly in the same way on the 29th,
but periodicity and numbers were in no way affected.

Nitrite of Amyl (15 drops) was inhaled by Li-Kha (I.) at ten
a.m. on the 25th. There were no embryos in the blood when in-
halation commenced ; shortly afterwards 2 were found in one
slide — 3 at one p m., 2 at four p.m., 0 at seven p.m., 18 at ten
p.m.

Sontonin (four grains) was given to Li-Kha (I.) at ten a.m. on
the 29th, and the same dose at seven p.m. No effect apparent.

Turpentine Spray inhaled by Li-Kha (I.) at ten a.m. August 1st.
No result.

Quassia Tincture Spray inhaled for eleven minutes at mid-day
August 1st by Tiong-Seng (II.). No result.

Besides these I have tried one or two experiments with electricity,
but they proved barren and need not be detailed.

Referring again to your Quekett Club communication of 27th
February, I would ask you if Dr. Bancroft has published his obser-
vations on the dog louse as intermediary host of Filaria immitis ?
Unless he has observed metamorphosis of the embryo in the louse's
stomach it is premature to conclude that this is the intermediary
liost. Did the louse play the role he assigns to it ? then we might
expect to find Filaria immitis in the dog in all countries wiiere the
louse is found. The intermediary host is, I fancy, the principal
element in determining the geographical spread of such parasites.
A little reflection soon convinces one of this.

Before concluding this letter I would suggest that Dr. Somer-
ville's statements about the habits of the Chinese, with regard to
the use of drinking water, should not be received until he, or some-
one else, has given us the details of the investigations that have led
him to the conclusion that the Chinese do not drink uncooked water.
1 have been many years in China and mix a good deal with tlie
people, and the outcome of my experience is that, like other people.

FILARIAL MIGRATIONS TO AND FROM THE CIRCULATION. 247

the Chinese drink water when they are thirsty and can get nothing
better. It is quite true that with a certain class of Chinese there is
prejudice against drinking cold water, but it is only the richer classes
who can afiford to act on such prejudices. I asked a Chinese friend,
** Do your countrymen often drink cold water — the farm servants
and coolies?" "Certainly," he said, "all drink water if
thirsty on the hill side or in the fields ; what else can they get to
drink ? " Only a day or two after reading Dr. Somerville's letter I
asked ten consecutive patients as they passed through the hospital
consulting room about their drinking habits, and these are the
answers to my question, " Do you drink cold water ? " —

I. Case of elephant leg, a paperhanger — Before my disease

began I drank cold water daily, especially during the hot
weather.

II. Case of bruise, a boatman — When thirsty I always drink

cold water.

III. Case of leprosy, a boatman — When younger, and before fall-
ing ill, i.e., till I was 12 or 13 years old, drank cold water in
hot weather. Since my leprosy commenced never drink cold
water, always tea.

IV. Case of fibro-sarcoma, farm labourer — I generally drink cold
water, sometimes tea.

V. Case of bruised and lacerated lip, idol paper maker — I

generally drink tea, once in ten times drink water ; when
young I always drank water.

VI. Case of scabies, a comb maker — Seldom drink ; when very
thirsty generally drink water, sometimes tea.

VII. Case of flat feet, a blacksmith — Generally drink tea, very
rarely water.

VIII. Case of leprosy, pedlar — When young I drank water daily,
now generally drink tea ; water seldom.

IX. Case of dyspepsia, pedlar — When young drank water; since
becoming dyspeptic never take fluids.

X. Case of bruise, shopkeeper — I generally drink tea or rice

water ; sometimes drink water.
There happened to be nine lads, assistants and dressers, in the
room when I interrogated these patients. Turning to them I asked
them individually if they drank water — one and all confessed to being
guilty of the habit, and seemed very much astonished that anyone
should doubt it.

248 p. MANSON ON FILARIAL MIGRATIONS.

Foreigners are not so partial to water drinking as are the natives ;
at least when water is drunk it is usually qualified with wine or
spirits, and serated waters of different kinds are in general use. The
most careless foreigner and the total abstainers seldom drink un-
filtered water ; and if filtration cannot exclude an animal at least
the thirtieth of an inch in length, the passing of water through a
filtering apparatus must be regarded as a meaningless ceremony.

It is to be regretted that Dr. Somerville has not been more ex-
plicit as to the number of natives whose blood he has examined for
filaria. Dr. Eennie, of Foochow, writes me he frequently sees the
parasite in his hospital cases. Readers of Lewis' earlier papers will
remember the warning he gave, foreseeing such criticisms as Dr.
Somerville's. He says, referring to accounts of chyluria cases, such
remarks as this will be frequently recorded, ** Filaria searched for
but not found " — or words to that effect.

If the examination of filarious blood is made during the night it
is almost as easy to find the parasite as it is to find a white blood
corpuscle. Seeing this, and the frequency with which the presence of
the parasite is associated with lymphatic fever, elephantoid and other
disabling affections, I have sometimes thought it would be worth
the trouble for the Government in India to institute the systematic
examination of the blood of native recruits by their medical officers.
I am satisfied that by the rejection of filarious subjects much in-
validing and expense might be avoided, and that, too, at very little
trouble. At any rate much useful information might be got
together, and such an idea might be profitably ventilated by Sir
Joseph Fayrer, or some other Indian authority.

You may use this letter as you think best.

Yours faithfully,

Patrick Manson.

249

Description of a Zoophyte Trough, Live Box or Growing

Slide.

By the Rev. H. J. Fase.

(Communicated Feb. 2nth, 1881.)

This arrangement is shown in plan view with the cover removed
at Fig. 1, and in transverse vertical section at Fig. 2. In those
figures A is a glass plate, 3 inches in length by 2^ inches in width,
to which is cemented a stout bone or ivory ring B, -fths of an inch in
height, having a thin lining of cork C, cemented to it. D is a shorter
tube of ivory or bone, furnished at the top with a broad flange, and
closed at the bottom by a disc of thin cover-glass E. This tube D
slides freely in the cork-lined tube B. A narrow slot F, is cut in
the inside of the tube B, from the top outside, sloping to the
bottom inside, for the purpose to be presently explained.

To use this apparatus as a Zoophyte trough, a ring of indiarubber
G, cut through as shown at H, in Fig. 1, and of a thickness suitable
to the object to be examined, is placed as shown at the bottom of the
tube B. The object is placed in this ring with a little water, and the
cover is then pressed down gently, any excess of water flowing out of
the cut in the indiarubber ring into the box. For use as a growing
slide a ring of indiarubber or of gutta-percha tissue is placed as
before in the bottom of the box (but in this case the cut in the
ring is to be placed as indicated by the dotted lines in Fig. 1),
the object to be examined is placed within the ring, and water added
through the slot F, which passes into the box outside the india-
rubber ring.

Water may also be added to supply the loss from evaporation
from time to time, through the slot F in the ring B, which slot may
be closed by a plug of cotton wool, to exclude dust and prevent
evaporation.

When it is desired to use the apparatus as a live box, the india-
rubber ring may be dispensed with. The object is placed in the

250

H. J. FASE, DESCRIPTION OF A ZOOPHYTE TROUGH.

ring B, the cover D pushed in as far as found desirable, and water
added if required, by the opening or slot F, which may be closed
by a plug of cotton wool as before.

The advantages of the above-described apparatus are, that it
admits of the easy arrangement of the object to be examined. That
it is readily cleaned. That as no metal is used in its construction, it
allows of prolonged observations being carried on without disturb-
ance of the object. That water, either fresh or salt, may be added
from time to time, and that the thin cover-glass permits of high
powers being used, and is readily replaced when broken.

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V««i^ N,^ ^a«.i*

iV,„f. .1 ly WhitviiiAn iEi'5.-I<jn2-ii

251

On Clioxa celata (Grunt), Hymeniacidon celata (Bowerbanh).
Does the Sponge make the Burrow ?^

By J. G. Waller.

PLATES XX, XXI.

{Read March loth, 1881.)

It may perhaps be thought that, in renewing this subject, I am
somewhat of a pertinacious disposition, nor am I disposed to deny
such imputation. But I can assure you, nevertheless, it is not a
pertinacity to hold to error, but an endeavour to seek the truth.

To dogmatize by asserting, this cannot be done by a Sponge or
that by an Annelid, is to no purpose whatever. You may go on
thus until the day of doom, and then be no nearer to a solution. It
is to base a calculation upon nothing, and to expect a result. Facts
alone, carefully studied, with a mind free from foregone conclusions,
are our only safe guide, and to bring the subject, as far as possible,
under the dominion of an a priori reasoning, is my object in again
addressing you.

The problem before us ought to be capable of solution. Whether
it will be when we indulge in theories, in place of demonstration,
is a matter open to doubt. A theory may be plausible, it may be
possible, but it advances little to an end without it be submitted to
the stern conclusion of experiment. Whether the Cliona bores the
cavities it inhabits, or whether the cavities are made by another
creature, are both hypotheses. We must endeavour to interpret
by analogies. It matters little whether Sponges are to be relegated
to the Protozoa or to the Metozoa, it is clear enough we are deal-
ing with a condition of life imperfectly understood, or its classifica-
tion would not be the subject of contest. Even in its most active
state, it has at best but a vegetative or quiescent existence. You
may see it forming spicules before your eyes, from day to day ; a
mysterious operation, just as a plant may open its bud by an ex-
panding leaf, and you go from the contemplation as wise as before.

252 J. G. WALLER ON CLIONA CELATA, ETC.

One thing is made manifest, that the living elements before you do
not belong to a creature with much motive power.

Perhaps I may here be called in question, and be reminded of
the monad-form Sponge animal, the more perfect knowledge of
which is one of the latest developments of science in this depart-
ment. But this helps but little ; the cihated monad which may leave
the parent stock, and set up for itself, is but a feeble creature, and
soon settles down to a state of rest. To give this being, or a col-
lection of these beings, the power of excavating a limestone rock,
or the shell of a mollusc, is one of the difficulties before us. To
assume that it does this, and then to bend the mind to find out some
expedient by which it may be accomplished, does not commend itself
to my mind as a true and philosophical mode of enquiry : yet,
nevertheless, this is as the case at present stands.

When one reads what has been written on the subject, we find all
sorts of surmises, as to the how it is performed. Mr. Hancock, to
whom we owe the theory of a " boring sponge," thought he had found
the instruments by which the operation was accomplished, which was
easily disproved. One suggests acid, others deny its presence. The
course followed by some would be amusing, if it did not painfully
suggest a royal road to error. For instance, one tells us of the
Sponge attacking the oyster, which, on its defence, bars him out
by the formation of new shell, and thus escapes the burglarious
intent. The same writer then philosophizes on the possibility of
this creature, in the economy of nature, being for the purpose of
assisting in the breaking up of such portions of organic structure.*
Once, in this room, it was accused of attacking the oyster spat, and
of even assailing an infant oyster, only a fortnight old. A ferocious
oyster-loving Sponge is a novelty in Natural History, and its pro-
pensities somewhat alarming. The story is almost pathetic, but, is
it true ? When science condescends to such dreams as these, it is
necessary to give it a reminder, and to awaken it to common sense.

To an opponent of the theory, it is certainly satisfactory, as well
as remarkable, to notice the vacillation in those who support it.

* The pi'Ogress of assumption when once the ball is set rolling is seen in
the following passage : — " The greatest enemy of oyster-banks is a Sponge
(CUona), which eats into the valves, both of dead and living shells ; at first
only small round holes, at irregular intervals, and often disposed in regular
patterns are visible; but ultimately the shell is completely mined and falls
to pieces." (" Manual of the Mollusca," by S. P. Woodward, F.G.S., 1850,
}). 254.) It really seems as if on this subject proofs for a statement were
never held to be necessary. The falling to pieces is purely gratuitous.

J. G. WALLER ON CLIOXA CELATA, ETC. 253

Their views are always changing, and never agree one with another.
This is inevitable, when the mind convinces itself first, and after-
wards seeks for proof for its conviction. When such is the case, to
begin by evidence is distasteful, for it is apt to disturb the pre-
conception and the bond of faith. So it is, that they refuse to look
at opposing evidence, but cling to whatever aids their own views,
however remote it maybe. It is hardly possible to find any subject
in which the opinions have been more varied, and least consistent
one with another. Not that any want of good faith exists ; all may
be credited by desiring a true solution ; but a large number of those
who mention the facts of Cliona burrows, and ascribe them to the
work of a Sponge, have never studied the question at all, but taken
upon trust the views of others.

We want evidence — which way it leads is unimportant, so that it
be not to follow an ignis fatuus. Bring facts before us, and on those
build. The only facts which appear to me to take the form of evi-
dence are those given by Dr. Bowerbank, and, strangely enough,
never alluded to, though every one should see how important is the
bearing upon this question. He says. Vol. ii., p. 218, " Brit.
Spongiadse," " Some naturalists have promulgated the idea that
this species of Sponge has the power of excavating the canals and
other spaces which it usually occupies. My own intimate knowledge
of the species has led me to a contrary conclusion. When located
in oyster or other shells, it usually fills entirely the cavities between
the two surfaces, but when the canals excavated in the limestone
extend to the depth of two or more inches, it frequently occurs that
the Sponge terminates at the depth of less than an inch, and the
remaining part of the canal is quite empty and clean, without the
slightest indication of ever having been occupied by Sponge.* And
in one of these perforated stones from Tenby, which I broke through
its centre, although it abounded with the sinuous canals, none of
them presented the slightest traces of having ever contained Sponge ;
and occasionally oyster shells full of perforations may be found in
the same condition — one such I have in my possession. These facts
militate strongly against the idea that the excavations are produced
by the Sponge." Again — " In an oyster shell from which I have
thin sections, the perforations in its substance consist of nearly
straight tubes, of about the same diameter throughout, and each

* Precisely the same facts occur in the burrows in the limestone at Babbi-
combe.

254

WALLER ON CLIONA CELATA. ETC.

single one terminates in a round or oval cavity, varying in its
diameter from three to eight or nine times the diameter of the tube ;
up some of tliese tubes the Sponge may be seen lowly winding its
way, with one or two spicula disposed in a longitudinal direction,
while the upper portion of the tube and the large terminal cavity is
completely empty.* In another part of the same specimen there is
one of these large elongo-oval cavities, from which there are four
ccBCoid canals, radiating from it^ of different lengths, two long and
two short ; the cavity is entirely filled with the Sponge, apparently
from a fifth canal connected with the exterior of the shell. Now
the condition of the Sponge in the four ccecoid canals is relatively
the same, that is to say, all the parts in immediate proximity to the
large cell are filled with the Sponge ; the two small ones entirely so,
the two long ones partially so ; the shortest of the two long ones,
for rather exceeding one -third of its length, and the longest for not
more than one-fourth of its length. This condition of the Sponge
in relation to the shell, unmistakably indicates that the cavities and
canals were prepared previously, and that the Sponge, at the time
that life was arrested, was slowly winning its way into them."

Now let me arrest you here for a moment, whilst we consider the
bearing of these passages on the question before us. Dr. Bower-
bank, though, like everyone else, he made his mistakes, yet is acknow-
ledged, even by his most inveterate antagonists, to have been a most
excellent observer. And the question before us is one of observa-
tion. He tells us what he saw, not what he imagined. He tells us
tliese borings are sometimes empty, sometimes only partly occupied
by the Sponge, which is still growing and progressing in the excava-
tion. Nor can his testimony be easily set aside. A long life spent
in the pursuit of natural history, and notably in this department,
carries with it special claims. To say he could not see, nor describe
what he saw, would be boldness indeed. But you must dispose of
what he says or accept all it involves. His high character forbids
us to say he does not tell the truth, and to leave what he says
unanswered is impossible. It is a dilemma ; but the case does not
rest on this, nor have I yet done with all the evidence he gives. If
the facts are admitted, a new theory will be required for the '' boring
Sponge " not being in the channel excavated, the more especially
will this be necessary when the Sponge is found in one part of the

* There is the same evidence given in PI. XXI, Fig. 1, also at Fig. 5, and
abundantly in the section vpheuce this was taken.

J. G. WALLER ON CLIONA CELATA, ETC. 255

channel and not in the other. The theory of washing out has been
suggested, where the Sponge is not found at all, and is most con-
venient, but this will not answer where it has not filled the burrow.
We may, perhaps, be told it has retracted. I know what power
Sponge has of retraction, and have watched it in the living state, not
only of Spongilla, but of marine specimens on the rocks at
Paignton, but no retraction, such as is observable in the Sponge,
can possibly account for empty burrows.

In presenting before you the result of the literature of the
subject, I must now notice the theory of Mr. Charles Stewart And
tli;Te is no one whose opinion, as such, is deserving of more respect
and attention, and, if this were a question of physiology, I should
have no place before him ; fortunately, it is of a very different
character. This, as far as I understand it, is, however, in some
respects, only the resuscitation of an old one, viz., that acid plays
a part ; with this important difference, that he goes to some analogy
to support his views, which is the action of lactic acid upon bone.
And he seems to infer, from this operation, a similar action in the
Sponge. Of course, given certain premisses, this theory has a plausible
possibility. Yet, it is open to doubt whether a theory, founded on
what is seen in special conditions of the human body, can be in
analogy to the living action of a lower creature. For the
gap is immense between the top of the Metazoa and an organism
which, at best, must be placed at the bottom. But herein lies the
difficulty. To concede a premiss is to concede a conclusion. It is
the old story, a theoretic and not a practical solution. It is a sug-
gestion to account for a conclusion already arrived at. There is, as
far as I see, no direct induction ; it is simply an idea, extremely
ingenious, of the application of which no proof whatever is given.
I oppose such a process of reasoning as unsound, even if the result
should establish that the " idea " is correct.

If the acid theory be maintained, we must infer some secretive
powers in the animal's tissues. Then, it may be necessary to
maintain, that these powers belong only to the species Cliona,
one of the simplest in organization, in many particulars, of
the genus to which it belongs, and not to Sponges in general.
Surely this would be an assumption, which could not be received
without, at least, something like proof. There are re-agents
by which the presence of acid may be detected. There is the
spectrum analysis, by which some aid might be given ; but with

256 J. G. WALLER ON CLIONA CELATA, ETC.

out this close enquiry and investigation, it would be impossible
to accept any theory, which involves an acid secreted in the Sponge,
for any purpose whatsoever. Nor would an enquiry of this kind be
complete if it stopped at the Cliona. It must be pursued throughout
the several orders of the Sponges to ascertain the positive or nega-
tive proofs.*

On a former occasion, I pointed out three different operations, that
have been suggested in the making of these burrows, viz., by acid,
soft living substance, or hard substance. These may be represented
by secretive powers, living sarcode, horny teeth, or the like. The
use of acid on all substances, as far as my experience goes, is
irregular in operation, unless carefully prepared against as in the
process of etching. Defined edges are otherwise impossible, and,
as to any rhythmical reproduction of the same form, it is absolutely
out of the question. In engraving, the etched line and that done
by the graver has a very different aspect under the microscope, and
shows what are the separate conditions between that executed by an
erosive material and that by a hard tool, even in working a fine line.
The one is irregular, the other is not. The exercise of a soft sub-
stance in boring would and must produce rounded edges. A hard
substance, but not exactly sharp, which grinds rather than cuts^
may show a result somewhat irregular under the microscope, but it
will nevertheless be able to define and preserve sharp outlines and
boundaries of the tool's operation. And it will also show whether
the tool worked in a right line or in segments of circles. These are
the conditions I propose, in part, to consider with the object we are
discussing.

But before I proceed to do this, it is well to cast a glance at such
analogies, which seem at least to justify a certain suspicion, if
nothing more, of the nature of the " borings " seen in shells of
molluscs, &c. What common operation is most familiar to us
which simulates the burrows in these shells ? Is it not that of a
Scolytas, a borer in wood ? I have an early printed book, dated
1484, the beechen covers of which are perforated throughout by
what has been called " the book-worm." So completely is it
burrowed, that, but for its leathern envelope it would scarcely hold
together. This is done by the minute larva of a beetle, which
infests beech and other woods with which books were originally

* Of course I sol aside the action of carbonic acid, which belongs to the
process of respiration, «fec.

J. G. WALLER ON CLIONA CELATA, ETC. 257

bound. It belongs to the cover not the book. Now, not only does
this simulate those of the excavators in shells externally, but also
the burrows, to a great extent. (PI. XX, Figs. 1, 3, 4, 6.) There
is, indeed, nothing wanting to show both cause and effect. Being
perfectly familiar with the operations of this creature, as well as
itself, both as beetle and larva derived from the volume in question,
my conclusions are formed by its study.

This leads me, then, now to consider the aspect of the com-
mencement of the work on the shell. It is, of course, from the
outside, as one might suppose, and begins by a small circular speck
which enlarges as it proceeds, sharp and well defined, sometimes
throwing up a furrow like ridge, before a complete perforation is
made, but cutting always with the utmost precision. There are also
to be found signs of the nature of the tool's operation moving in
the segment of a circle, but it is not easy to describe them.*

Having now considered the external orifices, let us enter the
cavities and examine the mechanical action therein declared. And
we must bear in mind the characteristics of the substance, whether
of limestone or of shell, because the operation will not be exactly the
same in each. Nevertheless, there will be general principles found
in both, which are unmistakable and point to the same operator.

That which at once strikes us is, that the excavation is made by
a series of consecutive circular cuttings, intersecting each other
irregularly by segments, with sharp ridges between them, and sharp
points at the boundaries. The whole surface is thus tesselated with
so many depressions, assuming geometric forms, all produced by
tangental sections of circles. It is remarkable for the precision of
the work. No softening, no blurring, no indefinite outline ; but
one that is distinct, hard, and well marked. Continue our search,
the same law is ever present, as shown in my drawings and
diagram. (PI. XX, Figs. 7, 8, 9, 10.) As regards the Sponge
a thin membrane overlies the work described, having upon it
its spicules lying athwart in the usual orderless arrangement,
which distinguishes the genus Hymeniacidon (Bowerbank) to
which this is referred. Look where you will, there is not a

* I have a mounted specimen of the periostraeum which shows every
stage of the perforation , and the remarkable sharpness of the cutting, and
its strictly mathematical precision defines with accuracy the mode of opera-
tion, as it simulates exactly that done by a punch or any other sharp
instrument, and this is especially shown when the work is not quite accom-
plished, having the same appearances as when a cut through any object ia
incomplete. (PI. XXI, Fig. 2.) In no instance is any Sponge present.

258 J. a. WALLER ON CLTONA CELATA, ETC.

sign, not even a fascial bundle, which in the remotest manner points
to an ofifensive operation, or can by any possible reasoning be
assumed to have had, or to have the power of " boring " or even of
assisting in such excavation. In some parts, the Sponge is only
represented by the merest film looking like a varnish, and having
but here and there a spicule to convince you of the organic structure
under your observation.* Let me call your attention to this ex-
ample. (PI. XXI, Fig. 3.) Here you have a portion of the lamina
of a shell covered with a membrane and a net-work of spicules.
But the membrane is the thinnest of films, which is bounded by the
sinuous line at base. It has scarcely a spicule upon it, until it
forms the net-work seen above, and the whole of this sur-
face is entirely destitute of any of the known excavating indica-
tions, until you reach that part re[)resented by shading. Tlio
channel on one side, however, does so, yet the membrane passes
over this, in no way more developed, colourless, and with scarcely a
spicule upon it. So here we have Sponge with no excavation, and
excavation with an almost invisible Si)onge.f I have noted, in my
previous paper, that the greatest development of the Sponge is
seen at the extreme edges of the shell, closing up the spaces
between the laminse, and at the circular orifices. In fAct,
it is at these orifices, that you see the most active functions
of the Sponge during life, most interesting to observe, when
the opportunity occurs, which may sometimes happen in an
oyster tub. Here may be found, not only the oscula, but the
porous system, the former often a distinct canal leading into the
body of the Sponge, or rather the commonwealth lining the burrows.
When in an active state the Sponge is protruded considerably, and
withdrawn again when at rest, and then the osculum is closed by
an array of spicules, which have their sharp points i adiating towards
the centre. (PI. XXI, Fig. 4.) I am indebted to Mr. Priest for a
specimen of this Sponge dissolved out of the shell, and it is very
instructive. It demonstrates completely its thin membranous char-
acter with spicules sparsely scattered upon it, without order, con-
formably to the genus Hyvieniacidon. Not a sign of any arrange-
ment by which the spicules could effect any erosive purpose, for

* I am here, of course, describing the Sponge in the dried condition.
Bnt as I made observations on the example whilst in the fresh and Hviiig
state, I am enabled to mention that the quantity of sarcode follows the
membranous development.

t This phenomenon is of common occurrence.

J. G. WAT.LER ON CLIONA CELATA, ETC. 259

they lie parallel on the membranes, and exhibit no massiveness,
except at the oscula. Remarkable as these organs are in their
construction, their characteristics are not confined to this Sponge,
but are found so represented in others, without, however, the same
comparative importance, due to the fact, that in this Sponge these
orifices, for the most part, concentrate the necessary functions of in-
halation and exhalation. I should not have thought it necessary to
discuss the question of spicules taking any part in the " boring " if
there had not been still those who maintain the same.

But I will now leave this part of my subject and proceed to
discuss the non-appearance of the Sponge in certain burrows or
parts of burrows. It was one of Mr. Hancock's arguments, in
favour of the Sponge being the excavator of its habitat, that it
always filled the excavations. That this is very important to that
argument needs scarcely to be noted. But I have already quoted
Dr. Bowerbank's testimony against the fact, and I shall again quote
him in another passage, and then take up the question of my own
experience. At page 221 of the former named volume he says,
'* I have in my collection several specimens of large Balani which I
took from the sides of the rocks forming the Guliot Caves in Sark,
which are perforated, in the usual manner, with numerous sinuous
canals, which I found filled with the living Annelids, the dried re-
mains of which still remain in them, and without the slightest
indication of the presence of H. celata, and I have also found living
Annelids in the deeply seated portions of the perforations in the
limestone boulders of Tenby, beyond the range of the Sponge, so
that I think it may be reasonably concluded that the Sponge occupies
the canals and cavities in shells and stones that have been excavated
by other animals, and that they have no power to make such
residences themselves."

Such testimony as this cannot be passed over in silence, even if it
came from a less-known observer. But my own observations have
abundantly shown me analogous facts. Numerous instances have
presented themselves to me of small, clean excavations, which have
never had the Sponge within them, although it was showing all
around them. And the theory of *' washing out " will not here
answer, as I formed my observations on an oyster shell as it came from
the dredge with all its dirt, encrusting Zoophytes, Annelids, &c.,
upon it. Besides, to provide a Detis ex machind for removing a
difficulty is, at best, but a poor and doubtful argument.

260

J. G. WALLER ON CLIONA CELATA, ETC.

I now return to the mode of operation, and the forms resulting in
these excavations, because, as such forms are never absent, they
constitute a test, the determination of which must settle all con-
troversy on this subject. I refer you to a drawing from a section of
oyster-shell in my possession. (PI. XXI, Fig. 1.) Here you get the
sub-circular contiguous hollows, to which I have before alluded, and
also an elongated channel diminishing as it proceeds. All these are
excavated precisely upon the same principle of sub-circular excava-
tions, whether they be large or small. I must specially direct your
attention to the manner in which these are made, and to the
certainty, that they are each excavated separately. Let us suppose
one circle made first, another added, encroaching upon its boundary,
in a more or less degree, and we find the problem of the work deter-
mined. The sharp clear outlines of this operation point inevitably
to a hard tool as the factor. The smaller ones differ only as sucli,
and can be accounted for only in the same manner.* (!See PL XX,
Figs. 7, 8, 9, 10.)

In all microscopic work measurements are of great value. These
sub-circular depressions, in the larger normal size, average the
500th of an inch in diameter, and the smallest diameter of an
elongated channel is the 2,000th of an inch ; I have met with no
excavation smaller than this. I may again refer to these measure-
ments.

I now call your attention to this pebble of limestone. Some years
ago, during a stay of two months at Torquay, closely engaged all
day during the week, I, one morning on the day of rest, walked to
Babbicombe bay. The morning was lovely — it was at summer's close
— the sea was as calm as a mill dam, its blue-green colour
emulated that of the Mediterranean, whilst the soft air of Devon-
shire might almost carry you to the sunny south. Add to this, the
rich colour of the New Red Sandstone cliffs, as tilted by upheaval,
they lay on the flanks of the limestone with masses of luxuriant
vegetation around, and there was a noble picture for the eye to rest
on, and to give the jaded mind repose. Thus I descended to the
shore, the tide running out, to listen to ** sermons in stones."

The limestone boulders here, as in other parts of this coast,
exhibit the excavations of an Annelid, which, I believe, is well-
known. But, at dead low water, I made my observations rather on

* Since writirp this, I find this character of the work did not escape the
vigilance of Dr. Bowtibank, who alludes to it in Vol. ii., p. 220.

J. G. WALLER ON CLIONA CELATA, ETC. 261

the excavations of another " borer," of which this pebble gives an
example. As here, so in huge boulders of all sizes, which lay-
strewn around, there was what, in the geologist's term, we may call
" denudation." The outer crust, which covers the burrow in the
perfect state, was broken away in large patches, and thus made
conspicuous, what might otherwise have easily eluded vigilance, from
the very small size of the orifices. But when I had informed myself
of this character, I at once instituted a rigid search and examination,
breaking away perfect portions to find, what I really expected to do,
the " borer Sponge." But not a single instance, on this or another
occasion, ever greeted my eye, and I do not believe it is ever seen in
these excavations at all.*

A close examination, however, will convince us, that the work must
be made by a similar, if not the same creature, and this is the more
inevitable when we proceed to a microscopic examination. I again
call your attention to my diagrams. First, to the drawings of these
contiguous cups, which do not seem to be continuous, or generally
at least to anastomose the one with the other ; but to be separate
dwellings, each with its own aperture. (PI. XX, Fig. 2.) A still closer
examination shows us that the creature, wishing to enlarge its
burrow, or to seek its food, whichever it may be, proceeds to make a
new excavation at the base centre, sometimes at the sides, but not
often, apparently, interfering with his neighbour (Figs. 11, 12.) And
this invariably begins by a new orifice of the same small diameter as
that, which is external, and by which it entered. But in the example
before you, I never find any deeper workings than about a quarter of
an inch. All these are perfectly clean, and without any extraneous
matter, except in the instance referred to, which was completely
superficial, and in an uncovered burrow caused by the " denuda-
tion."

Let us now bring the microscope to bear upon these workings,
and, at a glance, we find the same sub-circular depressions as in
the burrows of shells. (Fig 8.) There is the same character,
the same interference or section of the circular boundary,
and the diameter is the same, viz., the 500th of an inch.f In fact,
the precision of the cuttings all declare them to be by a similar,

* I thonght I had found a minute dried piece of it. Bat on mounting it
I discovered it was a mixture of extraneous matter, particles of sand and a
few acerate and pin -shaped spicules, which appeared to me to belong to
Hymeniacidon suberea.

t Owing to a slight error in the drawing, they appear larger.

JouEN. Q. M. C, No. 47. x

262 J. G. WALLER ON CLIONA CELATA, ETC.

or eyen by the same factor. However different, in some respects, in
arrangement between the limestone burrow and those of the oyster-
shell, the modus operandi is identical, and there is no escape from
whatever conclusion this forces upon us. The creature who makes
the one makes the other, be it Sponge or Annelid.

I must now return to the borings of the Scolytus, and present you
with the analogy of the operations. For it is surely a natural
mode of reasoning to proceed from the known to the unknown, for,
as no one can doubt the evidence of his eyes as to the analogy
presented in external appearance with those in oyster-shells, &c.,
or indeed with the burrows themselves, the comparison is a fit one to
lead us on to the solution of the interesting question in debate.
(Vide PI. XX, Figs. 1, 3, 4, 6.) Now to the microscope, and let
us see how far this assists in the enquiry.

Here is a drawing, made under the microscope, showing the mode
of excavating by the larvse of the Scolytns (Fig. 9). And what does it
teach us ? Why exactly the same principle, the difference is only in
the material. There is the same concentric cutting as in the shell and
the pebble ; the same law of operation. The mode of excavation is
sub-circular in its process, such as is familiar to us in the work of
mandibles moving laterally. The conclusion is therefore irresistible,
that creatures of similar faculties made all the borings in question ;
creatures armed with teeth or jaws, call them by what names you
please — larva or annelid. Can it possibly be asserted that a Sponge
does precisely the same thing ?

And now what are the difficulties in the way of such a solution ?
Do they exist at all ? The voracious larvge of many of the
Articulata are borers, as we know. Many of the Annelid^e, at least,
are acknowledged to be so too. Not only so now, but have been so
in far back geological epochs. The Spiroglyphus and other exca-
vators in shell belong to the Tertiary period, and ages still more re-
mote, and furnish some indications of their presence.* And an analogy
drawn from the operations of a larva of one of the Insecta in a class
but little elevated above the Annelid, closely allied in form and
habit, and all belonging to the same great group of Articulata, is
surely more natural than one drawn from an operation in a mammal,
especially as the latter has got to be proved in detail.

Then where is the difficulty in assigning to the Sponge, which

*» Mr. Etheriflere, the President of the Geological Society, very kindly sent
uie a list of Annelidao referred to.

J. G. WALLER ON CLTONA CELATA, ECT. 263

dwells in these cavities, the character of a parasite ? Parasitic
Sponges abound. Clefts of rocks, deserted polypidoms, shells, &c.,
all present examples ; in fact, I here show you a drawing from an
instance of this very Sponge, the Cliona, taken from the same oyster-
shell, which has afforded me material for my observations, where it
appears, not in the burrows, but on the outside upon the deserted
home of a Lepralia, which was partially covered by the tubes of
SahellcR. This, of itself, suggests the habit to be parasitic, which is
confirmed in a still stronger manner by Dr. Bowerbank, (" Brit. Spon-
giadae," Vol. ii., p. 217). And I have many examples of it inhabiting
the deserted tubes of SerpulcB. The difficulties indeed are with
those who have committed themselves to the opposite view. We
know of no Sponge excavator except in theory.* Sponges afford no
sort of analogy with themselves of any such aggressive power, even
in those which might seem to present more external signs of such a
capability.

I have endeavoured to show you, that the solution of the question
is, and must be, in the mode of working the burrows. The markings,
I have attempted to describe, can be demonstrated to be made by a
hard tool working in the segment of a circle, to which I have drawn
your attention, as shown by the Scolytiis. And that such should be
mimicked by a Sponge, a creature so far down in the scale, would be,
if proved, one of the most extraordinary marvels in natural history.
It would be altogether without parallel, and it therefore requires the
most absolute proofs before it should be accepted. No imaginative
dream, no assumption, no jumping to conclusions, because minor
points are not understood, can support such a theory in the face of
hard and tangible facts, in full agreement with well-known
precedents.

My friend, Mr. Priest, kindly brought me for inspection the
specimen from New Zealand, of the excavated shell of Haliotis,
in the possession of Mr. Kitton, which formed the subject of
a diagram illustrating his paper on Sponges. On giving it an
attentive examination, I found the main facts differed in no way
from those familiar to me. The same mode of working was
indicated, and I saw nothing in this example, which either
raised or removed a difficulty.!

* I here distinctly assert that there is no record of any observation
which -provesihe Sponge to be an excavator.

t Since writing the above, I have, tiirough the kindness of Mr. Priest, been
enabled to quietly examine the slide in question. It has some curious

264 J. G. WALLER ON CLIOXA CELATA, ETC.

My argument is tlms complete. I rest upon it, well knowing
that, as yet, it has never been so taken up. The analogy which
exists with the borings of the larvae of the Scolytus is shown
throughout. The orifices are identical (PI. XX., Figs. 1, 2), so are
the burrows, as seen in sections (Figs. 4, 6), and again in the
minute workings (as in Figs. 7, 8, 9).

As I have been alluding to Annelids, I may observe that
several forms, apparently of such, I have recently observed upon
one of my mounted portions of shell. The diameter of these is
the 2,000th of an inch, which I find to be the same as the smallest
excavated channels. Assuming therefore an Annelid to be the
factor, these forms, if of such, present no difficulty on the score of
dimensions. Moreover, we may fitly compare the size of the larva
of Scolytus as quoted, which has a diameter of about the 500th of an
inch, and its sub-circular excavations about the 250th in diameter ;
full double that seen in those of shell or limestone, and thence infer
a still more minute creature to be the factor, in the view that an
Annelid makes the burrow.

In my previous paper on this subject ('' Q.C.J.," Vol. ii., 1871)
I believe, I was the first to figure the so-called gemmule of this
Sponge, as Dr. Bowerbank makes no mention of it. Besides this I
also figured other forms, apparently connected with reproduction. In
examining with higher power amongst these gemmules, I discovered
above them groups of spicular bundles, which mark the early
growth of siliceous Sponges. Many similar ones are given by Dr.

features, and is so far extremely interesting; but it is anything but an
example which gives evidence in favour of the Sponge being the excavator.
The most patent fact exhibited is the entire absence of Sponge from minute
channels, where, had it ever been, it must, at least have left some spicules.
In PI. XXL, Fig. 5, I give a drawing of one of the long channels of the
smallest kind, and have brought from another part, where remains of Sponge
are seen, a group of spicules to contrast the size together. The channel has
a diameter of 2,000th of an inch, the section of the arc of the spicules' curve is
the same, so had they ever been developed within this channel, no or.linary
means could remove them. As the same fact is seen throughout, it has a
great significance. But it exhibits a still more important piece of evidence,
for the large excavated channel, out of which the small tubular channels
proceed, itself has no remains of Sponge, or even a spicule, although the
greater part has escaped being uncovered by grinding the section. In fact,
the spicules are very fev/ in any part of the section, and are the sole repre-
sentatives of the Sponge : where they do appear is in the most open parts,
and where most exposed to washing away ; they are entirely wanting in all the
ramifications. The form of the spicules are shown in the drawing, and are
all of the same kind — accrate — totally unlike those of CUona celata, i\.x\d
probably belonging to an entirely different species. The evidence of excava-
tion differs iu no way from the familiar lorms.

J. G. WALLER ON CLIONA CELATA, ETC. 265

Bowerbank ('* Brit. SiDongiaclge," Vol. i.), and I have also many
other examples. These developments therefore of the young Sponge
may assist in determining the possibility of such a creature com-
mencing life as an excavator. One example is figured in Plate XXE.,
Fig. 6 (500 diam.). At Fig. 7, same plate, is a group of the gem-
mules (?) with buds developing, which are possibly the same, as
previously noted, but are here given from the dried state, the
others being from a specimen mounted in balsam. In all cases,
where these (Fig. 6) occur, the gemmule seems to be exhausted,
and its vesicles to have disappeared.

Thus I have endeavoured to bring the subject from the dominion
of conjecture, and to place before you an issue, whence it may be
determined. In summing up I state these propositions. If it can
be shown, that the Sponge is not always in the burrows, even as a
whole or a part, there is an end of the theory of a " boring " Sponge.
If the limestone burrows at Babbicombe never exhibit traces of the
Sponge, the theory is also at an end, for no one can doubt but, that
a similar creature made these. If it can be demonstrated, that the
burrows are made by a hard and not a soft instrument, nor by a
solvent, the theory is also at an end, and its further prosecution
useless. These propositions, I have endeavoured to prove, in the
paper before you.

It is my hope that the subject may now be definitely settled, for,
in this friendly warfare, both victor and vanquished are gainers
equally in the contest, when the struggle is not for victory but for
truth.

Having through the courtesy of our President, Mr. Charters
White, and that of Mr. Charles Stewart, had an opportunity of
examining the slides on which each illustrated their respective
theory and analogy on this subject, viz., Dentine absorption and the
operation of Lactic Acid upon bone, I feel it necessary to give some
supplementary remarks. And I cannot but express myself thank-
ful to those gentlemen for their kindness in explaining their several
views. Especially is this due to Mr. Stewart, who took much pains
to explain an operation, with which I was unfamiliar, in that lucid
manner for which he is so distinguished.

Now, at starting, there is a formidable objection to both theories.
Here are operations going on within a living creature, part of the
incidents of its life, destruction of material, waste, co-existent as it is

266 J. G. WALLER ON CLTONA CELATA, ETC.

with renewal of its structure. How this can, by any possible
reasoning, be said to be analogous to what might take place by a
living thing acting upon a substance foreign to itself, i.e., the shell
of a mollusc or limestone rock, is to me inconceivable. It would be
very different, if we were discussing an action within the mass
of the Sponge ; it then might appear much more plausible.

But the analogies, extremely interesting as they are, still are not
close, even in the forms of operation. There is a general resem-
blance, but it is irregular and incomplete, just as it is also in
iridescence of ancient glass, which Mr. Stewart also brought
forward as an analogy, though how it bears on the question it is
difficult to see, any more than in other similar forms of decomposi-
tion. Then only a small part of the phenomenon is accounted for
at best.

It was advanced by Mr. Priest, on tlie authority of a passage
written by Mr. Carter, that the Sponge had been found to have
worked its oscula through the overlapping frond of a Nullipore. The
passage runs thus : " Cliona corallinoides not only excavates shells,
but the sandstone rock too of this locality, where it shelters itself
under the florid expansion of Melohesia lichenoides which goes on
growing (that is spreading in all directions), while the Cliona,
every here and there, makes holes through this crust or thalloid
frond for its pore areas or vent as required."* If the writer of the
above has not watched and seen -the whole of this operation, it is
nothing more than a deduction from appearances, of which there are
so many in the scientific history of this Sponge. Oscula projecting
through a crust of polypidoms are common enough, but give no
proof whatever of the Sponge being the factor ; the difficulties in
the way of such interpretation I have already stated.

That the Sponge is parasitic can be shown by many examples in
my possession. It seeks seclusion in orifices or fissures between
incrustations, deserted tubes of Serjmlce, and can often be found to
be spreading over surfaces without excavation. (PI. XXI., Fig. 3).

The limestone pebble from Babbicombe is a test object, as the
total absence of any Sponge in its deep-seated burrows is surely
fatal to the theory. Its curiously minute orifices are paralleled in
excavations in the shells of some oysters, as in example given
(PI. XX., Fig. 12), and it suggests the probability of more than one
species of factor.
* " Annals and Magazine of Natural History,*' 4th Series, Vol. viii., p. 15.

J. G. WALLER ON CLIOKA CELATA, ETC. 267

The recent discoveiy of an Annelid, on one of my slides, taken
from a shell with burrows, comes in aptly for my conclusion. It is
similar in size to the dried form alluded to, and in its figure
(PI. XXI., Fig. 8) I have marked near its head where the diameter is
the 2,000th of an inch. The remains of two others coiled up within
circular burrows, in diameter the 333rd of an inch, I have also found
and preserved with the small fragment of shell itself.

DESCKIPTION OF PLATES XX, XXI.
Plate XX.

Fig. 1. — Drawing of a portion of oyster shell full size, showing the orifices.
Fig. 2. — Ditto, ditto, of the limestone pebble from Babbicombe, showing its

minute orifices, and the excavated cups denuded of the outer

crust Actual size.
Fig. 3. — Orifices of the Sn^l^/tus^horlngi from an example in the beechen

cover of a book, dated 148-t. Actual size.
Fig. 4. — Drawing of a vertical sectiou of oyster shell, showing burrows.

Magnified about three diameters.
Fig. 5. — Burrows in Babbicombe pebble. Three diameters.
Fig. 6. — Burrows of Scolytus. Section taken from the covers of the volume

referred to. Three diameters.
Fig. 7. — Drawing of sub-circular depressions, as seen in excavations in

oyster shells 95 diameters.
Fig. 8. — The same as in Babbicombe pebble. 95 diameters.
Fig. 9. — Same as in the beechen covers of the book. 45 diameters.
Fig. 10. — Geometric plan of the mode of excavation. Tlie dotted lines

exhibit portions of the circular boundary effaced by the adjoin-
ing subsequent excavation.
Fig. 11. — Plan of excavation in Babbicombe pebble, a. Shows cups in

section, with orifices and extension of burrows. 6. Cups

denuded, showing small orifices at bottom for extension of

burrow.
Fig. 12. — Portion of oyster-shell, showing similar minute orifices, as in the

pebble referred to. Actual size.

Plate XXI.

Fig. 1. — Excavated channel in section of oyster shell, 100 diameters. The
diameter of extreme point measures 2,000th of an inch. The
smaller excavations, cut through at right angles, have the same
measure. The shaded part is debris caused in making section.
Fig. 2. — Orifice cut through periostracum of shell. 75 diameters,
Fig. 3 — Portion of lamina of oyster shell, with early development of the
sponge. About 15 diameters.

268 J. G. WALLER ON CLIONA CELATA, ETC.

Fig. 4. — Osculum of sponge dosed ; the porous system in the thick ring of

net-work around it. 25 diameters.
Fig. 5. — Excavated channels in section of Haliotis, in possession of Mr.

Kitton, with a group of spicules brought close to them for

comparison of size. 125 diameters.
Fig. 6. — Development of sponge from gemmule (?). 500 diameters.
Fig. 7. — Gemmnles (?) of the sponge, with budding development About

85 diameters.
Fig, 8. — Annelid found on fragment of a perforated shell. 500 diameters.

269

Further Remarks on the Histology of Sponges.
By B. W. Priest.

(Read March 25th, 1881.)

Since bringing my paper on Sponges before you, I have sought all
the information I could in the time on the matter of the Burrowing
Sponges, and still hold to the same opinion that I had then, that a
certain class of Sponges are capable of burrowing or boring cavities
in hard and soft substances.

I certainly cannot see why, because the Cliona and others of that
class occupy the cavities made by Annelids or Molluscs, that they
should not be capable of burrowing for themselves. No doubt in
perforating the shells in which they are found they avail themselves
of ready-made spaces and cavities, and spread out and line them, and
so in that case take a more or less massive form which they are
known to do, Carter. and others describing Cliona celata in a form,
where it does not burrow, but occurs massive.

Carter, in describing Cliona corallinoides in the Annals of Natural
History for 1871, states that not only does it excavate shells, but the
sandstone rock too of the same locality, where it shelters itself under
the florid expansions of Melohesia lichenoides, which goes on grow-
ing (that is, spreading in all directions), while Cliona, every here and
there, makes holes through this crust or thalloid frond for its pore-
area or vents as required. Still quoting Carter, he goes on to say,
" Of course, therefore, these * holes ' are occupied by a longer or
shorter cylindrical prolongation of the Sponge in proportion to the
thickness of the crust, which thus presents as many heads, so that
when the shell is dissolved off by acid the heads project here and
there above the general surface of the Sponge."

Again, my friend Mr. Hillier, of Ramsgate, in a letter to me on
the subject, states that Cliona celata burrows in the hard limestone of
which the pier is partly built, and that it sends up its oscula right
through any other Sponge which may be growing over the stone ;
— in fact liking to get freely at the water, and that it is on that
account it is never found inside, but outside, the harbour.

270 B. W. PRIEST FURTHER REMARKS ON THE

Mr. Hillier has also sent me up a foreign shell, where the per-
forations and cavities, though small, are completely filled with the
Sponge, and says, in the letter accompanying it, '^ Can you doubt
that the burrows are made by the Sponge ?"

Even Dr. Bowerbank himself tells us that very few oyster, or
other shells in which the perforations exist, are free from this
Sponge, and yet he is trying hard to prove that it is only as a
parasite that it exists in them. It seems strange to me that, if such
is the case, the same species or class of Sponge should almost always
be found to occupy those cavities.

That Carter, Hancock, and other naturalists should have made
a separate family of these Sponges under the name of Ecccelonida
— from the Greek, to hollow — is, I think, sufficient proof of their
belief in their excavating powers. The family is divided into three
genera — Cliona of Grant, Thoosa of Hancock, and Alectona of
Carter.

Speaking of the last, which comprises the Alectona MiUarij which
excavates Corals in a most devastating way. Carter says that, like
Cliona celata, it leaves its burrows and grows up externally into a
massive form.

Now the process by which this burrowing, boring, or excavating
is produced is another question. I think that I have said enough
to prove that the Sponge is capable of doing it. Certainly the nearest
approach of analogy is in what Mr. Stewart said at the last short
discussion on the subject, when he brought forward the markings
which appear in bones, where necrosis has, or is, taking place ; and
also similar markings which may be seen in the process of the for-
mation of bone in the femur of a fcetus, where, as the develojDment
of the bone proceeds, the calcified cartilage is absorbed, and larger
cancelli and canals formed. I have had the opportunity of examin-
ing very carefully sections with the process going on, and 1 have
there actually seen the protoplasm acting on the surrounding parts,
and to all appearances eating its way into them.

One can hardly call that a mechanical process, but I feel certain
in my own mind that it is a similar sort of thing that takes place
with the burrowing Sponges.

I hold with my friend Mr. Hillier that there are processes beyond
the mechanical, or even the chemical processes of the laboratory,
which we do not as yet thoroughly understand, but which may be
called vital for want i:>f a better term. Because we do not know how

HISTOLOGY OF SPONGES. 271

a thing is accomplished it is no reason that we should ignore the
fact. How is it that Lucerne can penetrate its roots two or three
feet into the chalk, or the adventitious roots of the ivy penetrate
frequently through substances, even limestone, round which the
plant is growing ; one can hardly grasp the idea of the process
being mechanical or even chemical, when we consider the delicacy
of the soft vegetable cells composing their framework, particularly
those at the ends of the rootlets which are working their way in.

I am not rash enough to say that it will never be found out how
Cltona accomplishes its excavations, but I do think that this family
of Sponges will continue to burrow into shells and rocks, and bore
naturalists for some long time to come, without the modus operandi
being thoroughly understood.

As I have said before, I certainly agreed with Dr. Bowerbank
until I came across shells where the cavities ramified right and left
into such fine processes, and those cavities being filled with the
Sponge I could not at all make the burrowing of Annelids agree
with them.

In conclusion, I may mention that we hear of a great many
of the borings being made by lithodomous Annelids and Molluscs,
but I cannot find any account of the said Annelids and Molluscs being
found in them, or by what species they are formed. Dr. Bower-
bank's analogy of the process pursued by the Annelids being ana-
logous to that of the garden worm swallowing the earth and the
marine Annelids swallowing the calcareous substances from the
borings they make in the limestone rocks, hardly holds good, after
what Mr. Gosse tells us, that all marine Annelids are carniverous.
It must be rather hard fare for them if it is so.

If time and weather had permitted, I had intended to have gone
to the coast, and treated the shells with osmic acid, and taken sec-
tions ; this I still hope to do at some future time.

272

PROCEEDINGS.

January 14th, 1881. — Conversational Meeting.

The following objects were exhibited : —

Taste-goblets of Rabbit's tongue

Canella alba, wild cinnamon, section of"^
bark, polarized ... ... )

Skin of Tench .. .

"Winged Parasite of Swallow, Stenopterycc ^
Jiirmidinis, showing peculiar scythe- y
shaped wing ... ... ... J

Transverse section of stem of Sarsaparilla...

Sting and poison-bag of Honey Bee

Strongylus filaria

Biaiptomus castor

JVothrus sylvestris

Transverse section of petiole of Pontederia'\
c^rulea, showing diaphragm with ^
crystals ... .•• ... J

Navicula rJiomhoides, i inch objective

Pedicellina ecTiinata

Radiolarian entangled in Euplectella

Sieve-tubes in Cucumis sativus ... )

Tylosis in ditto ... ... '

Transverse section of Turkey's claw

Arsenious Acid prepared by sublimation . . .

The President.
Mr. F. W. Andrew.
Mr. W. E. Browne.

Mr. F. Enock.

Mr. W. Goodwin.
Mr. H. R. Gregory.
Mr. G. Hind.
Mr. A. Martinelli.

Mr. A. D. Michael.

Mr. H. Morland.

Mr. E. M. Nelson.
Mr. E. T. Newton.
Mr. B. W. Priest.

Mr. J. W. Reed.

Mr J. G. Tasker.

Mr. H. J. Waddington.

Attendance — Members, 57 ; Visitors, 5.

January 28th, 1881. — Ordinary Meeting.

T. C. White, Esq., M.R.C.S. &c., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
The following donations to the Library and Cabinet were announced, and
the thanks of the meeting were voted to the donors.

"Proceedings of the Royal Society " ... from the Society.

♦* Journal of the Linnean Society" ... The President.

♦• Proceedings of the Belgian Microscopical^)

Society" j t^« Society.

273

"Annnal Report of the Postal Micro-)

. , c. • » ( the Society.

scopical Sociecy ... ... ) ''

" Science Gossip " ... ... ... the Publisher.

♦' The Analyst " ... ... ... „ „

" The Northern Microscopist " ... ... the Editor.

" The American Naturalist " ... ... in Exchange.

" The American Microscopical Journal "... „ ,,

" Dr. Braithwaite's British Moss Flora," ^

-r, i o r the Author.

Part o ... ... ... ^

" Harris and Power's Manual of the Phy-")

. , . 1 T u i. ., [• Mr. J. W. Groves.

Biological Laboratory ' ... j

" Calendar of the Incorporated Law )

Society" } the Society.

" Report upon the Wild Silks of India "... B.M. India Office.
" Annals of Natural History '* ... ... Purchased.

"Grevillea" ...

Three Slides ... ... ... ... from the President.

Two Slides of Microscopical Writing, by~

Peters' Machine ^ Mr. E. M. Nelson.

The following gentlemen were balloted for and duly elected members of the
Club — Mr. C. W. Burt, Mr. Herbert Lankester, and Mr. John A. McKenzie.

The President announced a donation of particular interest from the Royal
Microscopical Society, being a bronze copy of the Quekett Medal, and read
a letter from the Secretary, which accompanied the donation.

A special vote of thanks was unanimously accorded to the Royal Micro-
scopical Society for their donation.

The President announced that the first Soiree of the Hackney Micro-
scopical Society would take place on February 24th, at which members of
the Club were invited to assist.

The President read a letter from the Secretary of the Epping Forest
Naturalist's Field Club inviting co-operation in a protest against the pro-
posed encroachment upon Epping Forest by the Great-Eastern Railway.
A motion to that effect was put to the meeting and unanimously carried.

Mr. B. W. Priest read a paper " On the Natural History and Histology
of Sponges," the subject being well illustrated by a number of excellent
diagrams.

Mr. J. G. Waller differed from Mr. Priest with regard to the so-called
boring sponges. His opinion upon that matter was well known, but he
would give it up as soon as any evidence was produced that the excavations
alluded to were the work of sponges. He had never met with any such
evidence, though he had met with assumption, and it was upon this that the
idea appeared to him to be based. Mr. Priest had said that, " no annelid
could do this boring," but it was not a question of an annelid at all, and he
would ask the question, could a sponge do it ? When they examined a
piece of hard rock, bored and excavated in the manner shown by Mr.
Priest's diagram, and asked that question, he was quite ready to answer

274

that no sponge could do it. It had not been mentioned that there were
three theories as to this matter — one referred the action to that of some
solvent — another thought it due to the action of a soft living substance,
whilst a third ascribed it to the action of a hard substance. He had some
experience of the action of acids, and also of a graver, and it was quite
certain that a line, however light, made by a solvent, was never like that by
a graver, and could not be confounded with it, and it was quite certain that
a soft substance produced its special characteristics upon the substance on
which it acted by rendering every sharp angle and detail perfectly smooth
and obliterating distinctive form altogether. The well known example of
the toe of the statue of St. Peter at Eome being completely worn down to
a mere knob by the repeated osculations of the faithful for centuries, waa
an instance of the last-named kind of wearing away. Give the requisite
time, and the wearing away could be done by a soft body, but the nature of
the resulting effect ought to be such as to make it quite easy to say whether
it was done by a hard or by a soft substance.

Mr. Chas. Stewart, whilst disclaiming to be an authority upon the subject,
said he must certainly join issue with Mr. Waller on the question of the
boring sponges. In looking for the most probable explanation, what did
they find in the facts themselves to guide them in their opinion ? They
found that rocks and calcareous substances were channelled out in the
manner described and figured, and that sponges were inserted in these ex-
ceedingly fine orifices, and the question was whether these minute perfora-
tions were made by marine annelids ? lie thought that they were much
more likely to have been done by the sponges themselves, and it had been
suggested that it was accomplished in one of three ways. Firstly, the
action might be of a cutting nature like that of a graver, but this he thought
to be highly improbable ; the second idea was that the spaces were eaten out
by some acid excretion which decalcified the structures with which it came
into contact ; and the third mode was by what might be called a colloidal
action. When they examined the surface of the materials which had been
acted upon, they found it was not a smooth one by any means, but it was
eaten out into various concave depressions. Now when they looked in
other directions they found that there were other substances which were
eaten away in an almost precisely similar manner. If a dead bone were left
surrounded by living tissues it would be actually thus eaten away by the
soft granulated tissue around. The same process was going on in the case
of ordinary bone, for they found numbers of holes regularly excavated
in the bone tissue which were known as Haversian spaces, and which
were due to the action of the so-called bone destroying cells. Here,
then, was an instance in which depressions were produced with "conT^
parative rapidity by the action of soft substances, and it seemed to him
on looking into a section of rock supposed to be perforated by a sponge
that they had there an appearance identical with that of an Haversian
space ; and he thought that the process by which these soft osteoblasts
excavated the bone mipht be applied in the case of rock^ and shells.
Certainly no annelid could do it. With regard to the position of the

275

sponges — they were, he thought, rather to be considered as allies to the
corals, than as Mr. Kent seemed to regard them as allies to the infusoria.

Dr. Cobbold said he was himself inclined rather to take Mr. Kent's view.
As regarded the animality of sponges, it had been stated that this was a
question of rather recent date, but as a matter of fact the discovery-
dated just 33 years ago, the real discoverer being Dr. Dobery, of
Chester, who first found the cilia in Grantia. As the manuals in general
which dealt with the sponges were in error as to the discoverer, and aa
Dr. Bowerbank himself admitted it, he thought that in the interest of
an honest worker the facts of the matter should be mentioned.

The thanks of the meeting were voted to Mr. Priest for his paper.

A paper by Dr. Manson, of Amoy, " On the Periodicity of Filarial migra-
tions to and from the System," was read by Dr. Cobbold. The paper was
illustrated by a large diagram, on which were tabulated the results of a
series of observations made every three hours during an entire month upon
a given quantity of blood from two Chinese youths afflicted by these
parasites — the observations recording the number of Filarioi found, the tern-
perature of the blood, height of barometer, &c.

Dr. Stephen Mackenzie referred to the case of a patient under his care who
was suffering from the disease. In that case he had been unable to find
any of the Filarics in the blood, although when his attention was directed
to it he examined it by night as well as by day. and Dr. Cobbold had given
him specimens so that he might better recognise them if he found any.
He thought that the facts mentioned in the paper were exceedingly impor-
tant, and that it was highly desirable that the periodicity should be made
known. The chart exhibited in illustration of the paper was a most strik-
ing confirmation of previous observations, and the regularity was in itself
marvellous. Indeed it seemed little short of fabulous how the Filarice
should swarm into the blood just at the time when the mosquitos fed. An
important point was whether the Filarice had the same periodicity in tem-
perate climates as in the Tropics. As to the way in which the observations
were made, they must, of course, rely upon the testimony of Dr. Manson
in the matter, but it occurred to him that the Chinese were very clever,
and if Filarice were wanted at particular times they might perhaps have
little trouble in finding them, and perhaps it was a little natural to suppose
that anyone who was particularly interested should see exactly what he was
looking for. He was glad to have the opportunity of expressing his sense
of the value of what Dr. Cobbold had done in this direction. If anyone
found a new form of parasite in any part of the world, it was sure to be
sent to Dr. Cobbold, who examined it and gave the benefit of his knowledge
upon the subject. In the instance before them he was quite sure that had
the diagram been Dr. Cobbold's own he could not have done it greater
justice. He should, however, like to know what sort of control was exercised
over these two young men. It also occurred to him that the Chinese did
not as a rule drink cold water ; it was certainly not their custom in some
parts.

Mr. J. W. Groves asked if the statement that the Filarice passed from

276

the lymphatics iuto the blood vessels was merely inference, or the result
of observation ?

Mr. Chas. Stewart enquired whether when a person was kept in perfect
rest during the day as well as by night the periodicity continued ? Was
the altered condition of habit the cause in any way of the phenomena ?

Dr. Cobbold regretted that the lateness of the hour prevented him from
fully answering these questions, but as to the water drinking this had been
gone into by Dr. Manson with very great care, and particulars of the cases
of 10 Filarious patients were given who answered ** Yes " in every case to
the question, " Do you drink cold water ? " As regarded the education of
these two Chinese, the evidence showed that Dr. Manson took infinite
trouble with them, and watched them, and confirmed their observations for
many days. As regarded the position of rest, he hardly saw what that could
have to do with it, and the subject of the Migration from the Lymphatics
had already formed the material of a paper recently laid before the club.

The thanks of the club were unanimously voted to Dr. Manson and Dr.
Cobbold.

The proceedings then terminated with the usual Conversazione, at which
the following objects were exhibited : —
Glandular hairs of Sweetbriar leaf
Phthirius inguinalis, Ovum, Young and|

Adult 3

Microscopical writing by the Peters' Machine
Annular vessels in Zea mais

Lacticiferous vessels in

panica
Flint in Sponge remains
Spores of Lepidostrobus...
Attendance-

Scorsonera his.

]

Mr. F. W; Andrew.
Rev. H. J. Fase.
Quekett Club Microscope

Mr. J. W. Reed.

-Members, 62

5 Mr. G. J. Smith.
Visitors, 10.

February 11th, 1881. — Conversational Meeting.

The following objects were exhibited : —

TrombvHumautumnalis, Harvest bug ... Mr. F. W. Andrew.

Egg cases of Cimex lectularia ... ... Mr. W. R. Browne.

Diatoms from Forest Gate ... ... Mr. F. Coles.

Jjeai oi Lepicy stus sepulta ... 1

„ Alyssumhirsutmn ... ] Mr. C. G. Dunning.

South African Fly ... ... ... Rev. H. J. Fase.

Salicylic Acid, polarized ... ... Mr. H. R. Gregory.

Limnia with parasitic Vagmicola gravdis... Mr. J. D. Hai-dy.
Hairs of Dermestes shown under dark'^

ground, with 4.10th inch objective >• Dr. Matthews.

and Abbe's Illuminator... ... J

Keroid Annelid (Marine) ... ... Mr. A. D. Michael

277

Section of stem of Modecca tamifolia,

showing raphides and sphceraphides

in pith
Podura scale shown by polarized light

with l-25th inch objective (1200

diam.)
Section of leaf of Viseuvi album ...

,, „ Sarsaparilla

Mr. H. Morland.

Mr. E. M. Nelson.

Mr. J. W. Reed.

Attendance — Members, 72 ; Visitors, 7.

February 25th, 1881. — Ordinary Meeting.
T. C. White, Esq., M.R.C.S., &c., President, in the Chair.

The minutes of the preceding meeting were read and confirmed.
Mr. C. G. F. Essell, Mr. James Glaisher, Mr. William Haigh, Mr. Alfred
Leicester, Dr. John Millar, Mr. Clifford Probyn, Mr. Thos. Taylor, Mr.
Chas. Tyler, Mr. W. J. Vereker-Bindon, and Mr. J. D. Ward were balloted
for and duly elected members of the Club.
The following donations were announced : —
** Proceedings of the Royal Society "
" Proceedings of the Linnean Society "
"Journal of the Royal Microscopican
Society" ... ... ... J

" Proceedings of the Botanical Society of ~

Edinburgh"...
" Proceedings of the Geologists' Associa-1
tion" ... ... ... J

" Science Gossip "
" Popular Science Review "
"The Analyst"

" The Northern Microscopist " ...
" The American Naturalist "
" The American Monthly Microscopical"!
Journal" ... ... ... j

" The Microscopist's Annual
" Annals of Natural History"
" A Letter in the Handwriting of Professor ")
Quekett" ... ... ... j"

A vote of thanks was unanimously accorded to the donors.
The President said it would be remembered that at their last meeting a
letter was read inviting their co-operation in opposing the proposed
encroachment on Epping Forest by the Great Eastern Railway Company,
who wanted to carry a line through it to High Beech. Since that meeting
he had been invited to join a deputation as their representative, and in that
capacity he, with a number of other gentlemen, waited upon the Board of
JouRN. Q. M. C, No. 47. y

from the Society.
,, the President.

„ the Society.

the Association.

the Publisher.

the Editor.

in Exchange.

Mr. Turnbull.
Purchased.

Mr. Moginie.

278

Works, to whom they stated their case, and the matter was, from their
point of view, fully discussed. They were cordially received, and he judged
from what he saw and heard that the wishes of the majority of the Board were
in harmony with those of the deputation, but it was argued that the Board
had no locus standi in the matter, and could only refer it to the "Works
Committee, which they promised to do. There the question was left, and
it seemed to depend upon the action of the Parliamentary Committee,
which would shortly be sitting in connection with the proposal of the Rail-
way Company.

The President announced that the Soiree of the Ealing Microscopical
Society was arranged to take place on the 30th of April. Members of the
Club who were willing to assist were cordially invited to do so.

Mr. A. D. Michael said he had received a communication from Mr.
Beaulah relative to Myohia musculi, one of the Acarina, the peculiar
position of the generative organs of which was described in a paper "On
the Reproductive System of the Acarina," published in the Journal for
November, 1879 (No. 41, p. 223). The peculiarities of this species were
first called attention to in 1834 by Claparede, and all writers upon the
subject had treated it as a parasite of the mouse — it did not appear to be
confined to any particular species of mouse, but had always been found on
a mouse of some kind. Mr. Beaulah had read this paper, and whilst
searching for some parasites upon a mole found also " Myohia musculi."
Whether it was naturally parasitic there or not he could not say, but it was
certain that it was found there, and he thought the circumstance worthy of
note, particularly as pointing to the practice which had prevailed of naming
species according to the creatures on which they happened to be found, and
according to which if a parasite were caught on a new species of bird or
animal, it was thought, of course, it must be a new species also. The mode
of naming specimens after the creature they were caught upon, instead of
according to their own characteristics, was one which led to great confusion,
and was certainly to be condemned. So that he felt glad to be able to
bring forward this instance, seeing that it went some way towards knocking
a nail in the coffin of this fallacy.

Dr. T. S. Cobbold said that though external parasites hardly came within
his range, yet he should like to observe that nothing could be more absurd
than to suppose that any parasite was limited to one particular host. As
regarded internal parasites, some of them might be limited to certain
creatures ; but there were others which might be found almost anywhere.
Every animal no doubt had its own parasite, but it also entertained a great
many others which it had in common with its neighbours ; so that it was
difficult to say how they were to limit them. He should be very glad if Mr.
Michael could tell him whether the genus Pecohia had any limitations ; if
not, on how many creatures had it been found ? He should like to add, by
way of showing what extraordinary errors were sometimes committed in the
manner referred to, that some time ago a foreigu observer, named Sherri-
matuski, found a parasite on a heron, and of course, regarding it as a new
species, gave it the name of " Desmatofatoiges Sherri))iatuskii.^' It after-

279

wards turned out to be only a parasite of one of the common domestic
animals which had transferred itself, and thus got this splendid name given
to it.

Mr. E. T. Newton said that regarding this subject as a matter of nomen-
clature generally, every one must be struck with the diflBculty which
Burrounded it. It was no doubt an evil to have species unnecessarily mul-
tiplied, but yet when any one began to work upon a class of creatures, like
the Acarina, for instance, no doubt it was found a matter of convenience
to know what animal it was found upon. What they had to do now was to
cut down the numbers, so that the same form was not described under
several different names. The difficulty was one which reigned throughout
the Animal Kingdom ; but whilst they sought to remedy it, they should
remember that in the beginnings of research it was a plan which had its
advantages at the time, and he thought they should also remember that in
other quarters there was an equally inconvenient tendency the other way.
The matter was certainly one worthy the attention of a Society such as theirs.
Mr. Michael said his observations on Pecohia were so limited that he was
not in a position to say what were its limitations.

The Rev. H. J. Fase exhibited and described a growing slide and live box
which he had used for about a year and a-half , so that it had been well
tried. In construction it was very simple, and resembled a live box in its
action ; the cell was a ring of bone, cemented upon a glass plate, and the
slide was made of cork ; at the bottom of the cell there was an indiarubber
ring, and the piece of thin glass used as the cover was kept down upon the
ring by the pressure of the cork slide, the depth of the interior space being
regulated by the thickness of the indiarubber ring. The difficulty with
most of the forms in use was that if they were too thick the object inside
could not be focussed upon with anything but a low power; whilst if they
were very thin, they contained too little water. This one had certainly
acted very well, and he could recommend it for practical service.

Mr. Curties enquired in what way provision was made for a fresh supply
of fluid ?

Mr. Fase said there was a little groove in the cork ring, into which water
could be put with a pipette, but there was not much evaporation.

The thanks of the meeting were voted to Mr. Fase for his communi-
cation.

The President announced the meetings, &c., for the ensuing month, and
the business of the ordinary meeting terminated.

The President having vacated the chair, Dr. Matthews addressed the
members of the Club in the following terms :— Gentlemen,— I pray your
attention and patience for a few minutes whilst I introduce to your notice
a subject which has not only occupied much of my thoughts as well as
those of many friends whom I see before me, but has enlisted all our sym-
pathies. By way of preface, I will begin by saying that there are amongst
the ethical canons by which I have ever tried to shape my conduct, two
which I shall quote for the present occasion — the first of good morals, the
second of good taste, though I must admit that I by no means consider

280

them as of equal obligation. The first is paramount—" not to speak ill of
a man behind his back." This I have never consciously broken. The
second is — " not to praise a man to his face.'' This canon of good taste I
have rarely-^indeed I may say hardly ever infringed, though it is very
diflBcult to avoid it sometimes. But there are times and occasions when a
rule of conduct vehich may very properly influence an individual, may,
indeed ought to be relaxed, when an association of gentlemen concur in
the same opinion of one of their number, and, as a tribute of justice to
him, desire to give it open and hearty expression by the mouth of one of
them. In the position of that one I now find myself ; if therefore I err
in what I am about to say on the score of warmth of expression, I trust
that I may, in consideration of the special circumstances, have your sym-
pathy and approval. And when, indeed, I call to mind all these circum-
stances, they seem to me to resemble so much the act of an University in
conferring a degree honoris causa as to suggest almost ii-resistibly the
parallel, and to impel me to consider myself in the light of a public
orator, whose duty it is to set forth, with due insistence, the titles and
claims to distinction of one whom his fellow men have delighted to honour.
Let me assure you, then, that I value more highly than I can express
the privilege of being your spokesman on this interesting occasion. We
have met this evening to perform a ceremony which may be briefly
described as a hearty and spontaneous recognition of the valuable services
of our worthy Secretary. John Edmund Ingpen, after eight years of volun-
tary service of our Club. During all this long period the affairs of the
Club have gone on so smoothly and well, the work committed to him has
been so unobtrusively, silently, and, I must add, so heartily performed, that
it never, until now, seems to have occurred to any one of us to ask himself
at what cost of time and of brain work — with what sacrifice of needful
rest and leisure, nay even of family communion and comfort, these
services must have been rendered. Gentlemen, it has been one of ray
highest privileges, by your favour, to have occupied such a position in rela-
tion to this Club as to enable me to speak with some confidence, with some
authority, on this subject; and I can therefore assure you, and that with-
out seeking in the least to undervalue the serTices of any of the other
officer-bearers of the Club, that the effort — the strain involved has been very
great — far greater, indeed, than those who are not, in a sense, " behind the
scenes" can imagine. Do not, I pray you, for a moment suppose that I
have gathered this from anything that our friend has said to me or to any-
one else — I speak but from a silent and prolonged observation. It would
be as entirely superfluous as it is fortunately unnecessary for me to enter
into any disquisition upon Mr. Ingpens title to the thanks of the Club.
To enumerate his special services would be almost to give or to write its
history during his time, and you must be all as well acquainted with that
as I am. In most other Societies which have aims in any sense akin to ours,
it has been found necessary to divide the duties of the Secretariat between
two or even more persons, and yet I will venture to affirm that their duties
are, as far as relates to the actual business of this Society, scarcely more

281

onerons than those which are so efficiently discharged by our one worthy
officer. And I will again take this opportunity of assuring you that,
seeing only the happy results as you do, you can scarcely estimate the
M'hole amount of work and responsibility involved in such an office. But
some one may say, " It was voluntarily assumed." Trae, most true. But
does not such willing service all the more deserve — nay, even demand
recognition ? Besides, I may remind you that when Mr. Ingpen assumed
office, the condition and status of the Club were not quite what they are
now, and that its business and influence have silently, yet onerously
increased. And I will assert, with no fear of contradiction, that if this
Society have increased in importance and estimation, if its usefulness have
been developed, if, in fine, it have prospei-ed, as it most assuredly has,
much, very much, of this advancement is greatly due to the untiring
energy, the acuteness, and, I will add, the technical as well as general
knowledge of our Secretary. When we come to consider, too, that all these
qualities have been exerted on our behalf under the grievous physical diffi-
culty of failing sight, it certainly raises wonder in my mind at the great
amount of self-sacrifice displayed under such serious and ever increasing
discouragement. But that is a subject which, if we touch on at all, must
be with light and tender hands. We may, however, be permitted to hope
that the cheering wish may be realised to the uttermost with him, " Post
terebras lux." It has never been the way of a body of Englishmen to
accept services such as those I have been speaking of in, I fear, very feeble
terms, after all that I have said, without, sooner or later, expressing their
thanks for them ; and I think I may say, without violating any confidence,
that if the thanks of the Club have not hitherto been openly accorded by
its members to Mr. Ingpen, such an expression has been prevented, or at
least delayed, by circnm stances which many present will readily under-
stand. To those who may not, I will only hint that they have arisen
chiefly, if not wholly, from the honoui'able and delicate scruples of our
friend, which have at length yielded only to the wishes and representations
of those of his sincere well-wishers, whose sense of justice would no
longer be denied nor postponed to other considerations. I will not delay
you much longer, except to remind you that an efficient Secretary has been
said to be the mainspring of a society — just as the President may be called
its regulator. The latter, like a Sovereign, reigns, but he does not govern,
for it is the Secretary who is largely, though not entirely, the motive
power. Like a mainspring, he may, being out of sight, be also out of mind,
yet his influence, for good or for evil, must needs be felt in every throb of
the machine. And if that influence be so subtle, so refined as not to
appear, so much the more is it to the credit of him who uses it so dis-
creetly. Do not mistake me, I pi'ay you, gentlemen ; the influence I speak
of is that of an amiable character, upright conduct, and unusual scientific
talents, as well as acquirements, influenced and regulated by a tact as rare
as it is enviable. In conclusion, I will only observe that if Mr. Ingpen have
not done so, he might well have adopted the famous speech of the French

282

Monarch, " L'dtat, c'est moi ! " We all know in what spirit it was uttered
by the King, as well as the miserable outcome of that supreme selfish-
ness of which it was the embodiment. But if our Secretary had adopted
it, what a whole heaven of difference its meaning would have borne with him?
Instead of merging the common weal in himself he has done exactly the
reverse, and that is why we have met here now to testify our esteem
and respect for him, not only by our verbal assurance, collectively as well
as individually, but also by that tangible kind of proof which scarcely ever
fails to lend emphasis and force to even the kindest and most considerate
words. Mr. White, to you I now more particularly address myself. You,
Sir, have but now, for the time, abdicated the chair which you so worthily
occupy in this Club. I therefore appeal to you as one who, in the past
having quite as worthily filled the same oflBce, having manfully borne the
heat and burden of your day, and having retired from it wath dignity and
applause, as some " brilliant " memories testify, are, therefore, well able
to estimate the diflficulties which beset and surround the ofl&ce, as well as
the ability which Mr. Ingpen has displayed in dealing with them — to you,
Sir, I now appeal to assure him on your own behalf, as well as on that of his
other friends and well-wishers here assembled, how high are our respect
for his character and our esteem for his person, by delivering to him the
tokens which are mentioned in this memorial, which, as well as the signa-
tures attached, I ask you first to read to this assembly, and then to deliver
to him.

The testimonial, which consisted of a silver tea service and a Zeiss
microscope, was then placed upon the table.

Dr. Matthews then handed the memorial to the President, who read it to
the Members. It is worded as follows : —

"To John Edmund Ingpen, F E.M.S., Honorary Secretary of the Quekett
Microscopical Club.

** The accompanying microscope is presented by his friends and well-
wishers, Members of the Club, as a memorial of their pleasurable associa-
tion with him for the eight years during which he has so genially and
efficiently fulfilled his Secretarial duties ; at the same time, knowing that
the assiduity with which he has worked for the Club must often have led
him to give up for its advantage hours which would otherwise have been
devoted to his family, and being assured of the kindly sympathy which
Mrs. Ingpen has ever shown with his exertions in this direction, the
Members beg her acceptance of a silver tea service, as an expression of
their esteem.

" While deeply lamenting the cause which it is feared will compel IVIr.
Ingpen to retire from office at no very distant period, it is the earnest hope
and prayer of his many sympathising friends that his I'etirement may not
be permanent, but that they may still have the advantage of his ready help
and kindly advice for many years to come.

" Signed on behalf of the Members of the Q.M.C.,
•« President— T. Charters White, M.E.C.S., F.R.M.S.

283

" Past Presidents —
" Thomas H. Huxley. T. Spencer Cobbold, M.D.

" John Matthews, M.D. Henry Lee, F.L.S., &o.

F. Coles. ■ W. H. Gilburt. B. W. Priest.

M. C. Cooke. J. W. Goodinge. Jno. W. Eeed.

Arthur Cottam. J. W. Groves. Walter W. Reeves.

Frank Crisp. Henry F. Hailes. Jno. C. Sigsworth.

Thomas Curties. Eichd. T. Lev^'is. J Slade.

Edward Dadswell. Albert D. Michael. Alpheus Smith.

Chas. G. Dunning. E. T. Newton. C. Stewart.

F. W. Gay Fredk. Oxley. J. G. Waller."

The President said that he desired to express his sense of the pleasure he felt
in taking part in these proceedings. Knowing from experience what the work
was in which Mr. Ingpen had been engaged, he could deeply sympathise
with everything which had been said by Dr. Matthews. He felt as much as
anyone how greatly the Club's present prosperity was due to the labour
and judgment of their Secretary, and was quite sure that in thus acting as
spokesman he only expressed what was felt by them all. He then, amidst
great applause, presented the memorial to Mr. Ingpen, with a farther
expression of the hope that the necessity for his permanent retirement
might not after all really arise, but that after a time his services might be
again restored to them.

Dr. T. S. Cobbold said — Mr. President, I rise with very great pleasure to
offer a few remarks on this auspicious occasion ; and what few observations
I have to offer I have for various reasons preferred to commit to paper.
There are those, Sir, who have known Mr. Ingpen longer than myself, and
who can speak of the services he has rendered to the Club at a period when
this scientific institution was in a less flourishing condition than it now is.
I can only say that during the brief time that I occupied your chair I not
only admired but envied the skill, the tact, the discrimination, and the quiet
enthusiasm which Mr. Ingpen displayed in conducting the duties of his
office. His whole heart seemed bound up in the interests of the Quekett
Club. Sir, I am free to confess that there are some methods of getting up
testimonials with which I have no sympathy. Mr. Ingpens claims are of a
very different order. He has given us time that could be ill-spared ;
energies that might have been more profitably employed elsewhere ; talents
of no mean order, and perhaps not a little of his health and strength. We
have been benefited by these self-denying labours, and we should be want,
ing in common gratitude if we had not adopted some simple and readily
accessible means of expressing our grateful acknowledgments. Speaking,
finally, as one of the rank and file of the Club, I would add an expression of
indebtedness to the Memorial Committee. From the heartj manner in
which their appeal has been responded to, it is quite evident that they have
in their own gracious example succeeded in kindling into a flame the sparks
of gratitude which lay smouldering in the breast of every member of the
Club.

284

Mr. Crisp said that he rose as a " brother snip," not to bear testimony to
the well-known excellence of all Microscopical Secretaries in general, but
to the special qualities of Mr. Ingpen in particular. No Club had ever had
a Secretary who was more devoted to its interests ; and whilst repeating
and cordially endorsing all that had been said that evening in recognition
of Mr. Ingpen's services to the Club, he might specially refer to the
unobtrusive manner in which he had always performed his duties.

Mr. A. D. Michael thought that after what had been said, and said so well
by those who had spoken, little remained for him to add, but he should
hardly feel comfortable if he were not to express his own concurrence in
what had been expressed. There was a proverb that " One did not know
the value of a blessing until there was a danger of losing it; " but on looking
round at the different Scientific Societies, one could not but be struck with
the wonderful way in which the honorary secretaries performed their
arduous and important duties ; and during the few years that he had been
connected with the Club he had found, what he had no hesitation in saying
was the case, that no Society was better served or more indebted for the
service than was the case with their own Society in regard to Mr. Ingpen.

Mr. Ingpen, who on rising was received with prolonged applause, said
he felt in the greatest state of embarrassment he had ever been in
since he had held office amongst them. He hardly knew what to say, or how
to express his feelings at the reception which they had just given him.
His embarrassment was increased by the glowing terms used in his praise,
and it would be complete but for the known fact that their worthy Vice-
President, Dr. Matthews, always put on a pair of rose-coloured spectacles
when he reviewed the conduct of his friends. The more sober view of the
case would be something as follows : He took up the secretaryship as a labour
of love nearly eight years ago, and had all along been happy in his work ;
he had the pleasure of serving under a series of eminent and able Presidents,
with a Committee always ready to give help, and with colleagues with
whom he had always worked in the most perfect harmony. He took
the opportunity of thanking one and all of them for their great assistance,
and for their uniform kindness and forbearance towards him throughout
that period. The part which it had fallen to his lot to perform had not
been so difficult as it might have been. He had not, like their first
Secretary, to assist in the construction and organization of the Club, nor
like the second to extend its range and influence in new directions, but he
had merely to do his best to keep it from retrograding, and to see that it
proceeded in the course which had been already marked out for it. The
only difficulty would have been to have retarded its progress. Perhaps they
would allow him to say a word or two as to the nature and character of this
testimonial. That glittering portion of it upon the table seemed to him
emblematic of the influence of the Quekett Club upon the home circle. They
had probably sometimes heard a slight expression of discontent from Mater,
familias at the absence of Paterfamilias at the meetings of the Club ; but it
was worthy of remark that the same microscopical pursuits often kept him
at home, when he might possibly have been — elsewhere. There was an

285

advantage in microscopical study in which it somewhat resembled lady's
" work," for if a man were absorbed in his books he was apt to be grumpy
and unsocially disposed ; but if he were at work with the microscope he
could not only join in the conversation, but might occasionally add to the
general enjoyment by calling attention to some interesting and beautiful
object. Then again many members had from time to time been added to
the Club by being invited to tea, and an evening with the microscope
afterwards, and he ventured to say that in the addition of useful members,
the tea table had vied successfully both with the Quekett dinner and the
Quekett Arms. With regard to the scientific portion of the testimonial, it
might seem to require some explanation that a microscope should, under the
circumstances, have been chosen ; but this was at his express wish, for should
his sight be spared or eventually restored, he hoped to do good work with the
instrument ; if not, it would still be valued by himself and by bis family.
The selection of a German instead of an English microscope was not in
the slightest degree in disparagement of English work, but it was well-known
that he had always taken a great interest iu the work and teachings of
Professor Abb^, and had taken every opportunity of imparting his theories
to others; — regarding them, indeed, as forming the true "Grammar of
Microscopy ; " and he had a desire to do this with the instrument which
Profef=sor Abbe himself preferred, and with the appliances he had invented or
adapted. Nothing else remained but for him to thank them for their
beautiful and valuable presents. These he should always prize highly, but
still more did he value the kindly feelingd which had prompted the gift, still
more the kindness which he had all along received from every one with
whom he had come in contact, and most of all the true and lasting friendships
which he had had the happiness to form with so many of the members of
the Quekett Microscopical Club.

The President said it had been with very much pleasure that he had
listened to the manner in which the testimonial had been given and received.
He asked that Mr. Ingpen would allow the articles to remain upon the table
for inspection by those members present who had not previously had an
opportunity of examining them.

The following objects were exhibited : —

Indian Gad-fly (Tabanus) showing barbed)

, r^J,. \ Mr. F. Enock.

edges of the lancets ... ... ) '

Selected Diatoms from the Richmond deposit Mr. W. Moginie.

Present — Members, 103 ; Visitors. 6.

March 11th, 1881. — Conversational Meeting.

The following objects were exhibited : —

3Iem'br(xnijpora 'ptilosa,\\y\ng ... ")

Pulex irritans, cleared in Carbolic acid j" '^^^ President.

Section of Bitter Almond ... ... Mr. F. W. Andrew.

Feather from head of Drake ... ")

Sheep Tick, mounted without pressure j ^^- ^' Fieldwick, jun.

286

Larva of Tiresias serra, showing halbert.| ^^^ ^ ^ Freeman.

shaped hairs
icro-fungus 2
Salicylic Acid

Micro-fungus Polyactis sp. ? mounted in) j^^^ ^ jj Qiii^^rt.

Mr. J. W. Groves.

[• Mr. A. Martinelli.

Section of lip of Cat ... ... ^

„ ,, Skin of tail of ditto
„ „ Testis, Epididymis and vas
deferens of Guinea Pig

Cirri of Bn lanus ... ... ") ^ ^ -r^ ,

T ^ /^ zT. T • ^ Mr. J. D. Hardy.

Larva of Oorei/irfl-, living ... J

Carchesium polypinum ...

Englena viridis

Very young Doris aspera (NudibranchX

Mollusc), showing the various spicules _ ,,. ,

. ,, :\ u . • +• ^ aY Mr. A. D. Michael,

in the skin, characteristic of genus and

species ... ... ... j

Grammatophera marina in situ on Marine")

, [ Mr. H. Morland.

alga ... ... ... )

Sponge — Aslconema setabulense .. ... Mr. B. W. Priest.

Section through seed of Viscum alhum,y

showing the embryo ...
Section of anther of Tulip, showing I Mr. J. W. Reed.

spiral cells and early formation of|

pollen
'Bermuda Arrowroot, showing corrosion) ^j^ ^;. -g- gyjjjQjjg

from partial digestion ... )

Octopus, from the egg, showing rudi- ) j^^^ ^ ^^ Whittell.

mentary suckers ... ... )

Attendance— Members, 56 ; Visitors, 10.

March 25th, 1881. — Ordinary Meeting.
T. Charters White, Esq., M.R.C.S., &c., President, in the Chair.

The minutes of the preceding Meeting were read and confirmed.

Mr. Edwin Norman and Mr. Arthur Wildy were balloted for and duly
elected Members of the Club.

The following additions to the Library and Cabinet were announced, and
the thanks of the Meeting accorded to the respective donors ; —

" Proceedings of the Poyal Society" ... from the Society.

" Proceedings of the Epping Forest Nat.")
Field Club j

287

'* Proceedings of the Belgian Micro3copican ^^^^ ^^^ Society.

Society" j

" Proceedings of the Royal Society of New)

South Wales" J

" Report of the Department of Mines, New )

South Wales" j"

" American Naturalist" in Exchange.

"American MicroscopicalJournal " ... ,,

" Northern Microsoopist " ,,

" The Analyst " from the Publisher.

" Science Gossip " ... ... ... ... „

"Grevillea" Purchased.

Nine Slides The Rev. H. J. Fase.

Two Slides Mr. W. H. Symons.

Mr. J. G. Waller read a paper '* On Clionia celata—DoQS the Sponge make
the Burrow ? "

Mr. Priest read a short paper on the same subject.

At the conclusion of his paper, Mr. Priest remarked that he considered
that Mr. Waller had been depending too much upon di'ifid specimens. In
the specimen Mr. Waller had spoken of, prepared by him, and showing
the round oscula, the membrane had become perfectly dry, and nothing but
the spicula were left. He illustrated the manner in which the ScolyUis
made its burrow, showing the ramifications with lateral openings for the
purpose of depositing its eggs.

The President then read the following remarks on the subject: —
It has been asserted that Cliona has a power by which it bores its habita-
tion in rocks and shells, but .what this power is, or wherein it lies, is at
present not clearly made known to us. ' Some maintain that the spicula are
used as implements by which a burrow is made, while others, ignoring the
mechanical theory, believe the boring to be the result of chemical action;
but, from the point of view from which I regard the question, I believe that
both theories are untenable. In the first place, an examination of the
spicules of Cliona will convince the observer that no abrasion has blunted
their fine points ; points that terminate sharper than any needle would show
at once the effect of wear — but supposing the spicules, being so much harder
than the shell or stone in which the boring is made, resist the consequent
wear, and maintain their sharpness, by what means can they be so efficiently
worked by the small amount of contractility inherent in the sponge's proto-
plastic body ? If it is argued, that the continually dropping will in time
wear away the stone, and so the continual contraction and expansion of the
sponge will in time make its bore into the rock or shell, I would ask how
long will it take for a Cliona to form the dendritic growth filling the inter-
laminar space of a Pecten-shell, even acknowledging that this growth is the
combined product of several CUonce amalgamated ? But the chemical theory
is, to my mind, far from conclusive, because it pre-supposes the possession on
the part of Cliona of some powerful acid capable of decalcifying shells and
limestone, or of dissolving out the silica from flint, such an acid in this

288

latter case being of the most corrosive and energetic description. If any
such chemical was contained in the body of a s;")onge, I do not think we
should expect to find siliceous spicules in it. It has been urged that probably
the carbonic acid evolved in the respiration of the sponge would be sufficient
to dissolve the lime of the rock or the shell, but to this I would ask, suppos-
ing this to be the case, that would not account for the removal of the silica
in a flint-boring ; and has it been proved that sponges exhale carbonic acid
as other animals do, and would carbonic acid be evolved only at the point of
excavation, which is not at the osculum, but at the tail, if we may suppose
it to have one. The theory I would advance, and which would be one em-
bracing modifications of b>th these preceding theories is, that boring.sponges
have a limiting membrane endowed with the power of absorption, and I
have been led to this view by an examination of the characters of the Cliona
borings, and a comparison of them with the well-known absorptive action
which occurs in the human subject, and which leads to the shedding of the
milk teeth in children ; and, to illustrate this theory, I have placed near my
microscope for comparison, specimens of the absorption of the dentine of
the temporary teeth, and side by side with that the inner surface of a Pecten-
shell, which was the seat of a Clional growth, and 1 hope the examination
of the specimens will prove by their character that the tube of a Cliona is
produced by a similar absorption to that which gradually causes the shed-
ding of a child's first tooth, where we know that a soft cellular papilla grows
up in close contact with the root of the temporary tooth, and absorbs the
dentine into circular depressions similar in character with those shown as
the interior of the borings of Cliona; and the analogy is further strengthened
by the fact that it is by no means an uncommon thing to meet with cases in
the temporary teeth where an arm of these papilla, having a more energetic
action than the rest of the surface, has pushed ahead and bored its way into
a chamber for itself. My conviction that Cliona borings are not due to
mechanical action, has been much confirmed by the perusal of a paper by
Prof. Martin Duncan, published in the " Transactions of the Royal Society,"
for 1876, in which he shows that a Thallophytic growth had permeated the
septa and outer walls of certain Madrepurar'ia, and I had an opportunity
afforded me for inspecting the specimens from which he had drawn his obser-
vations, and the soft mycelium threads of this fungus, unprovided though they
were with any mechanical means of boring, had yet perforated the hard struc-
tures of these corals, and were even fructifying within the pent-up walls of
their prison-house. Now here were no diamond-edged spicula to bore their
way with, and no Annelid of the diameter of l-10,00()th or l-20,000th of an
inch could have prepared the way for them which they so accurately filled
up, but it may be probable that the carbonic acid, evolved by the extremity
of the growing plant, may have acted on the hard arragonite of the coral.
It is not for me to measure swords with such doughty warriors as Mr.
Waller and Mr. Stewart, but I confess my inability to accept the mechanical
and chemical theories advocated by these gentlemen, and simply suggest a
method by which this boring, or rather excavation, may be accomplished.

289

after a process which offers so ruany illustratious iu the physiology of higher
animal life.

The President then invited discussion.

Mr. Charles Stewart said he did not understand that the President offered .
any explanation of the way in which absorption took place. The dentine of
the tooth was removed under the influence of the membrane in contact with
it, but he did not say how, and he left the question, strictly speaking, without
an answer. The facts of the case had been quite truly given by Mr. Waller.
We had, in the case of the limestone, and also of the calcareous shells, cer-
tain cavities which were more or less occupied by the sponge, and when
examined under the microscope, they were found very constant in the cha-
racter of their surface. From the main cavities there were, however, certain
minute processes which tapered off into what were practically sharp points,
these were occupied by the soft substance of the sponge. His contention was
that no Annelid was likely to make so fine a passage as this, going off prac-
tically to a point. Of course Annelids did bore with facility into limestone
and shells, and even into harder substances. Very much stress was laid on
the depressions being segments of spheres ; that was a very important
point which we should recognise, but he did not think it was quite worked
out to a natural conclusion by Mr. Waller. It was perfectly certain that a
homogeneous body might be worked to that form. Either mechanical or
chemical action commencing erosion from a point would make a regular
concave depression. Or, if the erosion be equal over the surface attacked,
but the resistance less at certain points, a similar pitted surface would be
produced. If we examined a piece of iridescent glass under the
microscope, the surface would present a number of regular depressions
exactly like those said to be made by the Annelids. Mr. Waller would
not allege these were excavated by Annelids. In the glass there were
certain points and streaks where oxide of iron was more abundant, and
around these points as centres decomposition spread into layers and
laminae, which shelled off from the surface of the glass, leaving curvilinear
cavities as seen in the rocks and shells. Mr. Waller seemed to think that
the analogy was very strained between erosion of bone which occurred in a
natural process, and that which occurred in the case of the sponge. He
failed to see that the analogy was strained. What we had to deal with in
the case of bone or feeth was a mixture of organic matter with certain
lime salts, and we had, in the case of the shell, a mixture of inorganic
matter and lime salts. Now, the actual surface of the bone was covered with
certain cells which presented no great difference from the cells in contact with
the shell bored by the sponge. Those cells would eat out the bone, forming
a surface so closely resembling the chambers containing the sponge that he
did not think they could be distinguished from one another. He thought
the cells and the substances were very similar, and the effects produced
identical in character.

Mr. M. Hawkins Johnson said he had no theory of his own to advance on the
subject, but he did not place implicit confidence in those he had heard.
He once saturated an oyster-shell, which was full of these holes, with melted

290

■wax, and then dissolved away the shell with acid, and thus got a complete cast
of all the excavations which had been made in it. There was one very strik-
ing feature present which had not been noticed that evening. There were
circular cavities, which in the cast were solid wax. These were irregularly
placed, and from one to the other there were connecting tubes, and these
knobs in the cast, representing cavities, varying from l-12th to l-8th
of an inch in diameter, were very striking, with fine threads of wax from
one to the other.

Dr. Cob bold, referring to the absorption of dentine, stated that there were
at the Hunterian Museum two tusks from female Indian elephants, and
therefore of small size, which, at the part immediately above the gum, were
eroded to the depth of i inch. The question naturally occurred : How were
these excavations formed? From their size and other indications, as if
chiselled out like the sculptured appearance shown that evening, he had no
doubt whatever that they were the result of parasitic erosion. On these
tusks were immense numbers of the ova of a Diptei'on — on one tusk, he had
counted over 2,000 eggs. A very large proportion of the eggs were broken
up and were without the lid. They resembled those of the gadfly's when
attached to the hairs of animals. He believed that the maggots had
escaped from these egg-shells, and that their presence had caused this erosion.
It was quite another question to say by what power the larva produced those
excavations.

The President enquired if the erosions were below the gum If so, the
irritation caused b)' disease would set up this appearance.

Dr. Cobbold replied in the negative. The erosions were on the exposed
surface.

Mr. E. T. Newton said it appeared to him that each of the gentlemen
who had spoken, with the exception of Mr. Stewart, had regarded these
borings as being the work of only one kind of animal. He thought they
might be made by several kinds. Annelids might possibly make such
borings, and the vacated burrows might be occupied by sponges, or vice
versdi,. As he was anxious to test the question from his own point of view, he
had looked over the cases at Jermyn Street Museum, to see what kind of holes
were present in the fossil shells, and how far they might be explained by
one or other of the theories which had been put forward. He found in the
very thick shells, such as Inoceramus, almost globular cavities, always with
one aperture in the middle, which apparently opened upon the surface.
These cavities were connected together by numerous stolons which much
resembled the processes, or pseudopodia, of Foraminifera. If much denuded,
as was common in Museum specimens, the casts of these cavities were
reduced to a mere knob. In other cases one finds simple isolated cavities,
as shown by Mr. Stewart. In one instance a Belemnite was so completely
occupied with the casts of fine tubes which had been bored into it that they
•might have been taken for a group of Serpulse. Some of these borings
might have been made by either Sponge or Annelid ; but he could not con-
ceive how an annelid could make the first mentioned cells with the stolons
running off from them in every direction, so as to give, in some instances, the

291

appearance of branches and twigs ; or, having made them, how it could
possibly live in them.

Mr. Waller, in repl)^, said he laid stress in his paper on the method shown
in the borings. He thought the question must be tested by that. It was as-
serted that the effects produced by dentine absorption were similar. He
believed tliat his profession had made his eye more critical, and he asserted
that the results were not quite alike ; there were not the same geometrical
forms that he contended the other had. In his diagram he had given the
form, and had shown how one depression might be made interfering with
another, and a third interfering wdth both. He was prepared with the
piece of alabaster he had in his hand to demonstrate the fact, and make
the peculiar markings of the burrows as seen under the microscope. Mr.
Stewart had mentioned, that some of the processes tapered off to a point.
He (Mr. Waller) had said, that he had never found that point smaller
than the 2,000th of an inch. In the borings which he considered to be made
by annelids, he said it was above that diameter, so that what he supposed
were annelids, as shown in his drawings, were quite capable of forming the
tubes. Mr. Priest referred to the analogy of the Saolytus, remarking that
it was very far removed from the annelids, being one of the Articulata,
but the latter are grouped by naturalists in the same class. We know
that the larva of the Scolytus makes circular depressions, and continues to
excavate in that manner. His specimen of perforated wood showed very
clearly how the borer in wood did its work. He had a specimen of shell,
which he had mounted, for the express purpose of showing the process of
the working — that just beginning and that partly carried through. What
had been said did not account for the uniform operation, which he had
pointed out as being so precise. It did not account for it, because of the
irregularity which is observable in the dentine absorption, which is distinct
and separate from what is seen in his diagram. His argument rested
entirely on the character of the subcircular depressions.

The thanks of the meeting were unanimously voted to Mr. Waller and Mr.
Priest for their communications.

The President announced the engagements for the ensuing month, and the
proceedings terminated with the usual Conversazione, at which the following
objects were exhibited : —

Specimens to illustrate the similarity in^

character existing in the absorption of V The President.

Dentine and the excavations of Cliona ^
Fungus on wing of B-ouse-Qy—Empusa} ^^ -p^ ^^ Andrew.

musccB ... ... ... j

Head of Cysticercui celhtlosce or Hog^j

Measle, an unique specimen, the head i t)- rp q CoVvVvold

being furnished with six suckers— Speci- [

mens removed from the human brain /
Section of human stomach and duodenum "j

at their junction — showing Payer's > Mr. W. I. Curties.

patches ... ... ... j

292

Tongue of Honey Bee, polarized, prepared")

to show the internal muscular structure )
Section of stem of Sarsaparilla, stained ...
Boring sponge, in Shell of Haliotin, show-")

ing the cavities ... ... )

Growing point of Camellia japonica \

Section of Welwitschia, showing thickened

spicular cells containing numerous

crystals in the walls ...

Mr. F. Enock.
Mr. H. R. Gregory.
Mr. B. W. Priest.

Mr. J. W. Reed.

Attendance — Members, 71 ; Visitors, 7.

April 8th, 1881. — Conversational Meeting.

The following objects were exhibited : —
Medvsa {?,\)1) ...
Section of hymenium and gills of Agariovs~)

edulis ... ... ... )

Section of bark of Cinchona succirubra^

with crystals in situ ... ... )

Beaded elytron of Egyptian Bean Fly
Silicitied wood with insect borings
Limnias, &c., on weed from the Serpentine
Early stage of Volvflx (1)
Jsthmia nervosa, shown with Powell and "

Lealand's Oil-immersion l-12th (1.42

Num. Ap.)
Coscinodiscus asteromphalus, ditto, ditto

(magnified 1,200 diam.)
Mr. A. D. Michael distributed a large number
the Members.

The President. ■

Mr. F. W. Andrew.

Mr. W. R. Browne.

Mr. A . Button.
Mr. H. E. Freeman.
Mr. H. R. Gregory
Mr. J. D. Hardy.

Mr. E. M. Nelson.

of duplicate slide? among

Attendance — Members, 53 ; Visitors, 5.

25M 261! S7!f ZOT! 29W 301!

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PLATE. XXIII.

J. G.Waller, del.

Polymastia ticlavata.

MiTitern Bros' i-mp .

29:

"Williams' Microtome adapted for Use with Ether as the
Freezing Agent.

By J. W. Groves, F.R.M.S., Demonstrator of Physiology at

King's College, London.

{Read April 22, 1881.)

Believing Williams' to be the best freezing microtome extant, it
occurred to me that its adaptation to the use of Ether as the freezing
agent would be an improvement, especially if the atomized Ether
after use could be condensed for use over again or be carried away
from the room in which the machine was in operation, so as to avoid
headache and the other disagreeable effects of the continued inhala-
tion of the Ether vapour.

Therefore, having made a rough sketch embodying my ideas, I
took it to Mr. Swift, who has spent much time and trouble in
trying experiments to secure the best arrangement for the purpose,
which appears to be that shown in the sectional drawing (Fig. 1),

Fig. 1.

where D represents the wooden bowl of one of the old forms of
machine (for use with ice and salt), adapted to hold the Ether
JouRN. Q. M. C, No. 48. z

294 J. w. GROVES ON Williams' microtome adapted

freezing apparatus. A and B are respectively the razor frame, with
the razor in situ, and the bowl-cover with the glass plate top upon
which the razor frame is moved. It will thus be seen that the whole
of the section-cutting part of the machine is identical with that for-
merly used with ice and salt. The central brass cylinder, instead of
being solid, is hollow, so that the Ether spray may play up the
inside and impinge upon the lower surface of the brass plate I, upon
the upper surface of which the material to be frozen is placed, In
the figure, the hollowed cylinder is seen to open below into the Ether -
containing chamber, into the lower part of which opens a horizontal
tube, which turns up at right angles and ends in a funnel-shaped
extremity (G), over which screws a cap.

In the centre of the bottom of this chamber is a circular aperture
closed by a piece of brass tubing, which passes up vertically to end
in a cone with a very small aperture, and having another small hole
in its side towards the bottom. The lower end of th's tube is
plugged, and through the plug (E) passes vertically a very fine
tube, which is continuous inferiorly with the tube from the apparatus
for pumping in air. This consists of an india-rubber pump (F), con-
nected by a short piece of tubing with a slightly distensible ball
covered with netting, and from the opposite side of which a piece of
india-rubber tubing passes on towards E. In the side of the large
hollow cylinder of the machine is inserted a small tube connected
with a length of pipe (H) for the escape of the spray after use.

The method of freezing with this microtome is as follows : — After
the material has been partially hardened, and the hardening agent
removed, place it on the brass plate (I) with a little gum mucilage ;*
then unscrew the cap (G), fill the chamber with Ether, replace the
cap, and commence pumping by pressing the ball (F) vigorously
and rapidly in the palm of the hand. Air will thus be pumped
into the net-covered ball, from which it will issue in a continuous
jet along the india-rubber tube, up the small tube, through the plug
E, and again through the hole at the apex of tlie conical-ended
vertical tube, to pass straight up against the under surface of the
plate I. The rush of air thus produced causes pressure on the
surface of the Ether, and also tends to produce suction at the space
between the small central tube and the one which has the conical
extremity, so tliat the Ether passes through the hole in the side of
the latter tube, rises in the space between the two tubes, and is

* If the material is quite fresh the mucihige may be dispensed with.

FOR USE WITH ETHER AS THE ['FREEZING AGENT.

295

forced as a jet of spraj through the hole in the cone, and so on to
the under service of the plate I. This is roughened in the form of
teeth for the purpose of presenting a larger area to be acted upon,
and also to facilitate drainage. A great deal of the Ether drops
down into the chamber, and is used again, but a little passes out
mingled with the air in such a finely atomized condition that it
seems to be impossible to collect it, as I had hoped to be able to do,
and is therefore conveyed along the tube H to the external air.

The advantages possessed by this form of the machine over the
old one (used with ice and salt) are that all mess is avoided ; that
Ether can always be kept at hand, whereas sometimes it is not
possible to procure ice ; that while in all Ether freezing machines
with which I am acquainted the vapour must necessarily be inhaled
by the operator, in this one such discomfort is entirely obviated
except just during the filling of the chamber. Common Methylated
Ether, of '730 specific gravity, answers perfectly, though it must
be borne in mind that the greater the specific gravity the greater
is the force required in pumping. The labour of pumping may be
reduced by placing the ball pump between two pieces of wood hinged
together like a pair of lemon-squeezers (Fig. 2, A, B, C). The
outer board (A, B)
should be a fixture, and
the other (B, C) be
worked by an eccentric
(D) acting against a
small roller (E), the
eccentric being driven
by a treadle ; or the
action may be made
automatic by using a
steam engine or other
motive power. I have '^'^'>'^'n\v^
been using a small Thirlmere Water Motor with perfect success. As
an instance of the freezing power of this apparatus, it may be mentioned
that material has been frozen in a room at 96*^ F., using Ether of .730
specific gravity, the pump being worked either by hand or with the
motor. In conclusion, I beg to tender my best thanks to Mr. J.
Swift, to whom is due the credit of working out all the details of
the microtome.

296

On the Gustatory Organs op the Rabbit's Toxgue.
By T. Charters White, M.R.C.S., F.L.S., &c., (President).
{Read April 22nd).
Plate XXII.

Judging by the exhibits shown here and at other Microscopical
Societies one is led to imagine that Histology has been relegated by
the microscojoical observer to the domain of Medical Science as
something peculiarly ajopropriate to that dejDartment of study, and
consequently not appertaining to any student outside the pale of an
anatomical school. It is a difficult matter to disabuse that mind
which has once absorbed an error, but by perseverance in our en-
deavours to awaken an interest in this branch of study we may hope
in time that those who now debar themselves erroneously from one
of the most interesting pursuits in microscopical investigation will
awake to the pleasures they now put aside, and will, by taking up
the study of animal histology, find in the observation of the growth
and development of the wonderful structures with which the animal
frame is constructed, an extension of their microscopical enjoyments.
It is with the view of showing what interesting work awaits the
students of histology, that I have chosen for a short communication
this evening, a subject which, to me, for months past, has been one
of untiring interest, viz., the histology of the Gustatory Organs of
the Rabbit's Tongue. This is neither the time nor place to enter
into the physiology of the sense of taste, and its relation to these
bodies ; it has been acknowledged by all leading physiologists that
these organs are connected with the gustatory function, and as those
nerves to which are allotted the power of discrimination between
different flavours, are principally distributed to the region of these
bodies, and undoubtedly are connected with them, we may accept
them as performing the function of taste, and enter into an examina-
tion of the histological elements which enter into their formation.

If we examine the dorsum or upper surface of the tongue of a
rabbit or hare, wc shall notice first that it is divided into two por-

ON THE GUSTATORY ORGANS OF THE RABBIt's TONGUE. 297

tions, a flat anterior and an elevated oval posterior part. The flat and
front half of the tongue is of a redder colour than the more elevated
posterior, and upon a closer examination of its surface a pile, like
the pile of velvet, will be manifest, having scattered about it a few
isolated and rounder bodies ; these are distinguished by anatomists
into, 1st, the //e/orm papillae, which are found covering the greater
part of the dorsal surface of the tongue, while the more sparsely dis-
tributed round bodies are the fungiform papillae. It is not with
these papilla that we have to deal this evening ; but in lingual
anatomy there is a third class of papilla with which the sense of taste
is more intimately concerned ; these are the circumvallate papillae.
These in the human subject are arranged in a V shape across the
back part of the tongue, but in the rabbit they are found occupying
two patches, one on each side of the posterior part of the
tongue, at the junction of the oval elevation with the root, in the
position indicated by the black line in my diagram. They may be
easily overlooked by a careless observer, but as I should like many of
my hearers to work out this subject, I would advise them to procure
a tongue of a hare or a rabbit as fresh as can be got — if from a
recently killed animal the better — and wiping the mucus from its
surface, they will perceive at the part indicated an oval depressed
patch of a different colour to the surrounding tissues, and marked
with about ten to fifteen stride which cross its surface. If
these patches are cut out of the tongue, and placed in any of the
usual hardening agents, or, what is better, are frozen and cut into
sections at right angles to the course of these lamina, such a section
will be represented by Fig. 1, Plate XXII.

By. referring to that we shall notice a row of compound papfll^e
derived from off-shoots of the connective tissue, and we shall see
that these lamin£e or stri^ which we saw in the oval patch were the
tops of these compound papilla which we now see in section — that
they are ridges of papillae, some of which are forked at intervals,
giving rise to secondary papillae, having furrows between them, but
the furrows so filled in by epithelium that no evidence of the sub-
jacent inequality exists. The epithelial layer is considerably thicker
on the summit of the papilla, and on that portion of it which is not
in approximation to its neighbour ; but on the sides where it is
more protected by the adjacent papillee the epithelial layer is thinner,
and it is in this situation that these gustatory cells are found.

In the sectional view presented by Fig. 1 only three or fouf

298 T. C. WHITE ON THE GUSTATORV ORGANS

of the '' goblet cells " may be seen on each side of tlie papilla?, these,
however, represent only a portion of a belt of these gustatory bulbs,
which extends three or four deep entirely round each ridge, so that
we have an immense number of these goblet cells concerned in the
sense of taste. The aggregate number being estimated at 9,600 in
the sheep, 9,500 in the pig, and as many as 35,000 in the ox, we
can readily understand the extent of surface furnished by these cells,
and the important part they play as taste-bulbs. Before proceeding
to a description of the minute anatomy of these gustatory organs it
will be as well if we take a brief glance at some of the surrounding
tissues. Deep down below the connective tissue layer, and in the
loculi presented by the interlacing networkof muscular fibres, are the
lingual glands ; they exist in such abundance that any section taken
from the region immediately below these gustatory patches will
furnish an abundant supply of gland tissue. By tracing the course
of the numerous excretory ducts which emerge from the glands we
shall find that they open by a punctiform papilla at the bottom of
the fossa formed between two adjacent papillae, previously, on pass-
ing through the connective tissue layer, becoming distended just be-
fore they reach their point of exit. Scattered amongst the fibres of
the connective tissue the cut ends of several fine nerves may be seen ;
these are part of a plexus derived from the terminal branches of the
glossopharyngeus, which, after supplying the j^harynx, the tympanum
and eustachian tube, enters the tongue at its base, and becomes
divided into two branches, one going to the upper surface and mucous
membrane of the base, the other piercing the muscular structure, and
being distributed to the lateral portions of the tongue, and especially
Bupipljing the papillcB circumvallatce. Of the ultimate termination
of the nerve fibres we shall see more in examining the histological
characters of the taste bulbs. The epithelium covering the papillas
affords an admirable demonstration of the mode of its growth and
development, for where it adjoins the connective tissues of the
papilla it is globular for the first few layers, and afterwards becomes
flattened in various degrees till it ultimately assumes at the summit of
the papilla, the shape we are so familiar with in its squamous variety.
In describing the usual character of a circumvallate papilla as it
occurs in these gustatory patches, we observed that it was generally
formed by a central off-shoot of the connective tissue having a lateral
offshoot on either side of it ; these offshoots are merely the frame-
work designed to support the capillary vessels and nervous fibrilla}
which traverse its structure in a course at right angles to the axes of

OF THE rabbit's TONGUE. 299

the gustatory bulbs. The fibrils are pale and very difficult to trace,
but from analogous instances in the Amphibia we may surmise that
they end in brush-like filaments which become lost in the layer of
epithelium.

Having now glanced briefly at the microscopical characters of the
surrounding tissues, it remains for me to point out to you the histolo-
gical elements entering into the formation of the bodies, to which
foreign observers have given the names of bulbs, goblets, flasks or
cells ; and which are supposed to aid or even accomplish the func-
tion of taste, and therefore have been named gustatory bulbs. Tlie
ner^e fibres last mentioned, under a high magnifying power, may be
traced running up the lateral branch of the papilla, but not apparently
diverging from their course to enter the bases of these bulbs. It is
conceived that they do so in the proper fulfilment of their function,
but as in many instances we are conscious of pain, and know from that
fact that some nervous connection exists between the seat of the
pain and the sensorium, and yet it is difficult to demonstrate the
ultimate nerve fibres concerned in the phenomenon ; so here we are
met by a similar difficulty in demonstrating what we have every reason
to believe exists ; and if some of our friends with high and excellent
powers and unbounded patience in showing the markings on a
diatom, would but devote a little time and attention to the demon-
stration of ultimate nerve terminations, it would both add to their
interest and our further knowledge, and be attended with quite
sufficient difficulty in resolving as to tempt the most rabid diatomist.

According to the researches of Englemann, one or more fasciculi of
nerves run up the axis of the papilla, whilst in many instances they
penetrate its lateral portion, and there breaking up into numerous
fine and frequently decussating sinuous branches, stream out towards
the epithelium ; but as these branches contain many more pale than
dark bordered fibres, it is extremely difficult to trace them into the gus-
tatory bulbs. But let us examine one of these bulbs after it has been
isolated from its adjacent tissues, and then dissecting its component
parts, we may obtain a slight clue to the course of this perijDheral
nerve fibre we are in search of. A section taken parallel to the
lamellae will probably cut off the upper portion of the neck, as we
may call it, of one of these flask-lilie bodies ; upon looking into the
upper half of this detached epithelial casing, we shall perceive a small
hole surrounded by epithelium, through which the pointed neck of
the flask projected ; this hole is termed the gustatory pore.

An examination of the part from which this casing became de-

300 T. C. WHITE ON THE GUSTATORY ORGANS

taclied will afford an exiDlaiiation of why these bodies have been
called " bulbs." On looking down upon the uncovered tops of them
they present the appearance of the unopened buds of a flower ; by
breaking up this bud we can resolve it into its primary elements — an
illustration of this I have endeavoured to give in Fig. 2. When
such an isolated gustatory bulb is submitted to this examination, we
shall find it composed of from fifteen to thirty long narrow cells of
a granular texture, each containing a large nucleus ; these cells
stand closely compressed round the axis of the bud, the outermost
being more concentrically curved than the rows interior to them.

The cells of the innermost layer are of a different character
to any of the preceding description, being highly organised and
specially differentiated, in all probability they may be regarded as
continuous with the terminal fibres of the glossopharyngeus, and are
consequently the taste nerves of these gustatory cells. There is one
feature connected with the histology of these cells to which attention
should be directed. In examining a thin section of the gustatory
organ as shown in Fig. 1, a number of the flasks may be
seen as if perforating the epithelial layer of the lateral surface of the
papilla, and although this fact is difficult to demonstrate in most
sections on account of their thickness, yet in such pieces as are cut
so extremely thin that they break up and resist all endeavours to
mount them permanently, it is in these pieces that we can see that
the innermost layers of the bulb really pierce the gustatory pore and
protrude from its orifice a short and very fine hair-like process.

A comparative examination of these organs in other animals, es -
pecially in the frog, furnishes us with such a constant recurrence of
this histological element that we are justified in considering these
hairs as important factors in the function of taste.

I have been induced to bring this subject before you this evening
from having seen with much pleasure the interest with which sections
of these organs have been examined by members at some of our
conversational meetings, when I have placed some under my micro-
scope, and I can assure those who care to work out this subject still
further that there are enough difficulties to be overcome to stimulate
the determination of the most determined amongst us, not to speak
of the interest and advantages attendant on following out the com-
parative histology of the organs of taste in other departments of
animal life. Indeed it seems that fresh interest awakens in the
subject with every step we take. Who, for instance, would imagine

OF THE rabbit's TONGUE. 301

that organs similar to those we have been discussing have been found
on the external skin of fresh water fish. "Regarded atfirst by Leydig
as tactile organs, they have since been proved by Schulze to be in
reality gustatory organs ; they have been found in the mouth, the
palate and on the lips of cyprinoid fishes, and traced from these parts
over the greater part of the external surface. The investigation of
this subject has not to my knowledge been pursued to any extent in
the direction of the invertebrata, and doubtless much of interest and
importance awaits the student who has the courage to tap that his-
tological spring. I cannot close this communication without ac-
knowledging how much I am indebted to the valuable and interest-
ing researches of Professor Englemann as published in Strieker's
" Human and Comparative Histology," and also my thanks are due
to Mr. J. W. Groves, who with his new freezing microtome has
cut some of my thinnest and most instructive sections. In con-
clusion, I would warmly urge and encourage all who really wish
to advance our knowledge by means of the microscope, to take
up the investigation of the marvellous structures which enter into
and help to make up the temple of the animal frame, and all other
studies will " pale their ineffectual fires" before that which I urge you
to adopt. Life is too short to spend in only testing the powers of our
instruments, but having once proved them capable of good work,
go onward and accomplish victoriously the conquests waiting at your
very feet, then your cabinets will be filled with the spoils of your
warfare, and your soul will be satisfied with the labours of your life.

DESCRIPTION OF PLATE XXII.

Fig. 1. — A diagrammatic section cut across the course of the gustatory
lamellae, showing —

a. Gustatory bulbs.
h. Punctiform papilla.

c. Connective tissue with nerves.

d. Lingual glands.

The muscular fibres of the tongue have been omitted for the sake
of clearness.
Fig. 2. — Isolated gustatory bulb.
Fig. 3. — Isolated investing cells.
Fig. 4. — Upper half of epithelial covering of gustatory bulbs ; a gustatory

pore.
Fig. 5. — A gustatory bulb exposed in consequence of the detachment of

upper half of epithelial covering.

M

On an Undescribed Species of Sponge of the Genus
Polymastia, from Honduras.

By B. W. Priest.

(Read June 24, 1881.)
PLATE XXIII.

Some months back Mr. Curties placed in my hands a Sponge for
description, sent by Mr. B. Wills Richardson, found in shallow
water, 14 to 17 fathoms, near Belize, British Honduras, at a part
of the coast not previously dredged. On examination it proved to
belong to the genus Polymastia of Bowerbank, but to the best of
my knowledge it is an undescribed species.

The generic name is derived from the Greek, ttoXvs, many, and
fida-TL^, a whip, scourge, or flail, from the presence of fistulse,
simulating those instruments more or less, projecting from the sur-
face of the Sponge.

The specific name I propose is bi-clavata, for reasons which will
be shown further on.

According to Dr. Bowerbank we have eight recognised British
species, but none of them showing the three special characteristics
of the one under consideration. In this, we have a Sponge which
may be called massive and bulbous, measuring rather more than a
quarter of an inch, not including the fistulse, from the summit to
the base, and rather larger in diameter, say, just under half an
inch. The outer crust, along with the inner walls and supports of
the sponge, as also the fistulse — in fact, the whole skeleton — being
composed of a beautiful network, abundantly supplied with bi-
clavate fusiform spicules of various sizes, averaging from the J^ to
•^^ of an inch, the difference in size being probably due to states
of development. The sarcode which fills the cavities of the Sponge,
as also the interstitial membrane, when present in this specimen,
are supplied with spicules of the same type as tlie skeleton, but
fewer in number, and also abundantly with equi-tridentate anchorate
spicules of two sizes, the larger measuring j-^oj^ of an inch, the

B. W. PRIEST ON AN UNDESCRIBED SPECIES OF SPONGE. 303

smaller the -^^q of an inch. There are also a great many bi-
hamate spicules, measuring the -gj-g- of an inch. Scattered through-
out the interior of the Sponge are a number of fasciculi of fine hair-
like spicules, each spicule measuring about the ji-g- of an inch, and
having just the same appearance as the raphides in plants.

A vertical section of the Sponge shows the position of the walls
to the outer crust, and, as you will observe in Fig. 4, which was
drawn from the section itself, it has the appearance of arches where
the cavities are filled with the sarcode. Fig. 1 shows the Sponge
much enlarged, before being mutilated for examination, having five
of the fistulse on the side exposed to view, and about three more on
the other, the tip of one being observed showing over the top of the
Sponge. In Fig. 2 we have an enlarged view of one of the fistulas,
with a portion of the network (Fig. 3) still further magnified, show-
ing the relative positions of the spicules.

It reminds one rather of Euplectella on a small scale. Dr.
Bowerbank noticed the same resemblance, and was led to consider
that the genus must be closely allied to Alcyoncellum from that
cause, though it is certainly not like it, to my mind, when
thoroughly examined, as the spicules of Polymastia do not anasto-
matose as they do in Euplectella, besides wanting the flesh spicules
of that group.*

Some of the species of Polymastia have only one fistula, as in
P. hulbosa ; in others they are very numerous, as in P. rohusta, but
our present species seems to be moderate in its number. The
various species that I have come across have the skeleton spicules
either acerate, fusiform-acerate, spinulate, or fusiform-spinulate, and
in one case bi-spinulate, but none have bi-clavate fusiform spicules,
or equi-tridentate anchorate or other anchorate, or bi-hamate
spicules, both of which, as we have seen, are present in the Sponge
I am describing. I propose, therefore, to name it

Polymastia biclavata {B. W. Priest).

Sponge massive, bulbous ; fistulse moderate in number ; oscula
at distal extremity ; pores inconspicuous ; dermal membrane pel-
lucid, thin, with minute bi-clavate spicules dispersed over its surface ;
skeleton spicules bi-clavate fusiform, with abnormal forms of the
same occurring occasionally through the Sponge ; interstitial

* Since writing the above I find that Dr. Bowerbank mentions the same
fact in one of his later volumes.

304 B. W. PRIEST ON AN UNDESCRIBED SPECIES OF SPONGE.

skeleton with the same spicules, along with equi-triclentate anchorate
and bi-hamate spicules, as also fasciculi of fine acerate hair-like
spicules dispersed through the Sponge. Examined after being in
spirit, and then of a light fawn colour.

We have here the spicules of this Sponge in Figs. 6-10, the
bi-clavate fusiform, the acerate fusiform spicule of the fasciculi, the
anchorate, and the bi-hamate.

In conclusion, I have to apologise to Mr. Curties and Mr.
Richardson for having been so long in bringing this description
before the Club, and to tender my sincere thanks to my friend Mr.
Waller for the assistance he has given me in the determination of
the Sponge.

DESCRIPTION OF PLATE XXIII.

Fig. 1. — Polymastia hiclavata, with fistulas in situ.

Fig. 2. — Enlarged fistula of same, X 18 diam.

Fig. 3. — Portion showing arrangement of spicules in fistula.

Fig. 4. — Vertical section through centre of Sponge, shoAving cavities filled

with sarcode, X 12 diam.
Fig. 5. — Portion of sarcode showing fasciculi of spicules.
Figs. 6 and 7. — Bi-clavate spicules of skeleton.
Fig. 8.— Acerate spicule of fasciculi.
Fig. 9. — Equi-tridentate anchorate spicule of sarcode.
Fig. 10. — Bi-hamate spicule of sarcode.

305

THE PRESIDEl^T'S ADDRESS

Delivered at the Annual General Meeting, July 22, 1881.
By T. Charters White, M.E.O.S., F.L.S., F.R.M.S.

Anniversaries may be regarded as so many resting places up the
steep ascent to Time, on wliich, while we pause to gather breath
and strength for the unknown path which lies before us, we can take
a retrospective glance at the road by which we have come. We
have to-day reached one of the resting-places in the history of our
Club — we have arrived at its 16th anniversary, and, taking a look
backward over its course, we may rejoice together in the retrospect
of its popularity in the past, and its continued prosperity up to the
present. Taking its rise in the fountain of that social union, which
I hope will ever be the distinguishing feature of the Quekett Micro-
scopical Club, we see it ever extending its influence and enlarging
its stream till its name is known, not only over our own land, but
even to foreign shores. Of late years there has been issued, with
great appropriateness, with our Annual Reports, an extract from
the original prospectus sketched out by our founders ; and, perhaps,
you will pardon me if, stepping aside from the beaten path of my
predecessors in this chair, I examine the different sections of this
extract, and, as it were, take stock of the working appliances of the
Club, so that, laying before you the plan originally designed, and at
the same time showing you how that plan has been carried out, we
may be enabled to render a good account of our stewardship. The
opening clause in this extract strikes the key-note of our " raison
d'etre" It says, " The want of such a Club as the present has long
been felt ; " and if we may judge from the number of members who,
from its foundation, have sought and found an entrance within its
circle, that conviction was fully justified. For many years previously
the means of communication between lovers of the microscope were
extremely scarce, and although for about 25 years before the institu-
tion of this Club we had " The Microscopical Society of London,"
now " The Royal Microscopical Society," yet this seemed too grand
a society for the younger microscopists to aspire to. It reared its

306 THE president's address.

head in towering and awful grandeur above the platform on which
they were constrained to take their stand, and they were conse-
quently in many cases compelled to work on alone, deprived of that
enjoyment which springs from the sympathy of united tastes and
united labour ; but the want was no sooner recognised than it was
removed. Our Club was instituted in 1865, and since that time
over 1,500 members have been elected into it, of which number
about 600 have always remained on our lists. The object for which
it was instituted bears evidence of a knowledge on the part of our
founders of the many difficulties experienced by the tyro in micro-
scopical work. To quote again from the original prospectus, it was
with a view that its members " might meet at stated periods to
hold cheerful converse with each other, exhibit and exchange speci-
mens, read papers on topics of interest, discuss doubtful points, com-
pare notes of progress, and gossip over those special subjects in
which they are more or less interested." Now, what scheme could
have been more practical or more unpretending ? It embraces all
that the young microscopist can require. Here are none of the high-
flown technicalities of overgrown science on the platform of some
learned society, such mental pabulum might not be assimilated by
the young beginner ; but instead we have the cheerful converse, one
with the other, upon subjects of mutual interest for mutual help and
encouragement ; and it needs but a brief glance over the records of
the attendance at these meetings to show, by the high average num-
ber who meet on these occasions, hoAV much they are appreciated,
because it is at these meetings that those who, having a taste for
microscopical pursuits, but knowing nothing, or next to nothing, of
the best methods of investigation, get instructed in them, not in the
form of set lectures or lessons, but by seeing the resmts and asking
information relative to the methods adopted to produce them. And
here it is that that warm brotherly feeling and sympathy, so char-
acteristic of those who have a common taste and pursuit, becomes
evident ; and the right hand of fellowship is held out alike to old
and young, rich or poor — for the band which binds together the
workers in our Club is as strong as the bands of a masonic brother-
hood, and as true and as loving ; and because it is so (and all can
prove it for themselves who join our ranks) that we can rejoice in
its foundation as one means of obtaining that instruction in the use
of our favourite instrument which cannot be found in books, however
carefully written or elaborately illustrated.

THE president's ADDRESS. 307

But onr founders were not content with providing for the meeting
together of kindred spirits, and the verbal instruction acquired by
this inter-communication, hence we are told by this extract we have
been discussing, that it was their intention " to acquire a Library of
such hooks of reference as will be useful to enquiring students.''''
This department of our work, by the wise administration of our ,
predecessors, has been steadily growing, both by donations from
members as well as by the purchase of such expensive books as were
not readily attainable by the ordinary student. This department of
our Club's work is receiving careful attention from our Committee, who
have ever striven to increase the value and usefulness of our Library,
feeling that nothing is more necessary to our advancement in the
study of Natural History than the possession of standard works of
reference to which we can readily gain access ; and as our Library
is open to us every alternate Friday evening throughout the year,
members have no difliculty in referring to such books as they may
desire to consult.

After a Library of reference — but standing almost side by side in
importance — is a collection illustrating the various branches of study
which the student may wish to take up. This object is also
shadowed forth in the prospectus of the embryo Club, when it was
decided to collect " a compi-ehensive Cabinet of objects.''^ The
Cabinet of our Club, numbering over 2,000 slides, illustrating
Histology (animal and vegetable). Entomology, Botany, Geology,
and Crystallography, may justly be considered comprehensive, so far
as it has grown to the present time. The slides are freely circulated,
and prove interesting to the members. I use the word interesting
advisedly, because I believe the examination of slides from a Cabinet
to be rather interesting than instructive to those who look at them
for the first time. The author of a preparation who has, as it were,
assisted at its birth, who is acquainted with its origin and its rela-
tions, who has seen it in its crude and unprepared condition, has
thus gained a knowledge of its nature and attributes which no one
casually taking it for the first time from the Cabinet can be expected
to possess. And here I would suggest that if those amongst us,
who have the time as well as the requisite ability (and there are
many), would take such a book as Dr. Carpenter's " Microscope and
its Revelations," and would make a series of preparations illustrative
of the subjects therein treated of, a collection of slides would then be
formed of incalculable value, not only to the beginners, but also to

308

THE PRESIDENT S ADDRESS.

the advanced students in the Club, and would at the same time
greatly enhance the usefulness of that deservedly popular Manual.
The same course might be pursued with other works treating of micro -
scoj)ical subjects. In this manner the tendency to desultory work
would be restrained, and yet a sufficient variety imparted not to
weary the manipulator by the monotony of his labours.

Another element in the scheme set forth in the original prospectus
must not be overlooked, and that is the proposal to institute " occa-
sional field excursions for the collection of living specimens. '''' This
department of our Club's work has been, year by year, organised and
carried out by our Excursion Committee, many members availing
themselves of this opportunity of visiting, in company with adequate
guides, the most favourable localities for obtaining those living
specimens which form objects of great interest, not only to those
who collect them, but also to others, who, less favourably situated
in this busy city, and j^recluded from joining in the Saturday after-
noon excursions, are yet enabled to enjoy the results of them at our
gossip meetings.

Now, here, gentlemen, in this rough outline of our Club's work, we
have depicted a scheme containing every assistance towards good
work which could be desired ; and when in addition we consider that
we have the self-sacrificing and loyal assistance of such officers as
our honorary Librarian, ever ready to point out to the enquiring
student whatever suitable book he may require ; or our honorary
Curator, never absent from his post at our cabinet of objects ; and
the services of an indefatigable honorary Secretary, working with
a will and a determination to forward the best interests of our
Society, the consideration forces upon us a very serious reflection —
with all this admirable organisation, what are we doing in advancing
the knowledge of Microscopical Science ? How is it that a body of
six hundred energetic enthusiastic workers in microscopical wonders
have so little to produce in our Journal as the result of their work ?

I fear it must be traced to a want of system in our work. We
seem to me to be like an army having the weapons of our warfare in
our hands, but waiting for a commander who would lead us on to
victory, while fields of interest lie unconquercd at our feet, lines of
investigation waiting to be worked out cross our every path ; but
while we are pausing in indecision, Time is slipping from beneath
us. Life is not long enough to work out any line of investigation
thoroughly — why then wait ? There is no mine of microscopical

THE PRESIDENT S ADDRESS.

309

wealth exhausted ; there is no field of research completely worked
out, leaving nothing more to be learned. The life history of many
of our most favourite fresh water objects, although before us
summer after summer in their adult forms, have many points in
their early history and development which need working out, and this
could be easily accomplished by systematic and painstaking obser-
vation. Our late President (Professor Huxley), when dealing with
this subject of persistent observation, mentions that commonest of
every common object, the Paramecium, as affording a field for
this kind of study. He says, "■ Nobody certainly knows whether it
has any other mode of reproduction except by fission. The like is
true also of the Acinetee — we know something about them, but
nothing like a complete history." And this " complete history " is
wanting in so many of the lower forms of animal life, that abundance
of work awaits the microscopical student. There is scarcely a book
on Biological Science we can open without its furnishing indications
for further work ; shadows of doubt and uncertainty float across
many a page, indicating the need of more light on the life history
and development of some of our simplest forms of life. How many
a tale of wondrous beauty lies unfolded in the various embryonic
forms met with in a single dip from our collecting bottles ? Thus
you see there is no difficulty on the score of scarcity of subjects ; and
many other lines of investigation must occur to the mind of the
thoughtful student. Take the development of animal life under a
diversity of conditions, and here we are met by a field of the most
fruitful work — for instance, Carl Semper, in his recently published
work on " Animal Life," mentions a fact in illustration of the
modifications of character producible from varying the conditions
under which development takes place. The fresh-water Crustacean
Branchipus stagnalis is remarkably like the Artemia salina, never-
theless the differences between them have always seemed sufficiently
conspicuous to justify their separation into two different genera.
Artemia salina was kept in salt water, which was constantly being-
diluted by the addition of fresh water till it had become perfectly
fresh. The Artemia, the meanwhile breeding, at the end of several
generations, had so gradually and completely changed their char-
acters, that finally they had acquired those of the genus Branchipus.
These observations are certainly of the greatest interest, as evidence
of the important changes which modifying influences, such as those
mentioned by Semper, may, after a certain time, ^jroduce in the
JouEN. Q. M. C, No. 48. a a

310 THE president's ADDRESS.

character of all living creatures. Not tlie less wonderful is the
illustration afforded by the same author of the morphological differ-
ences produced by varying the conditions under which animal life
may be developed in the case of Lymnea stagnalis. Removing
the patch of eggs, so familiar to all of us who keep a fresh-water
aquarium, and dividing it into four portions, he found that by
limiting the supply of water in which the subsequent development
took place,- the length of the shell was progressively increased
in proportion to the volume of water in which each portion was
placed. These are facts which have a most important bearing on
the growth and development of higher forms of life than either
Artemia or Lymnea, and worthy the earnest attention of every
student in the Club ; for when animal life, either of man or the lower
animals, is developed under cramped conditions, modifications take
place not favourable to the normal growth of the frame, and that
man or that animal, subject to these conditions, becomes stunted and
dwarfed, such development always being attended by morphological
changes which are equally abnormal. This fact should always be
borne in mind in assigning any fresh form of life to any particular
species, as the danger of creating a Lymnea grown in a small
quantity of water into a new species is very great, when its altered
size would be only the result of the narrow area under which the
diversity was developed.

Again, what a rich store of interest will be found in the study of
the comparative anatomy of insects, and the various changes taking
place in their organs in their progress from the larval condition to
the perfect imago ; in exemplification of this, see the diversity of
character to be met with in only one organ — take the gizzard as an
instance ; and what a variety is presented in the cockroach, the flea,
the cricket and the staphylinus, enough to repay for all the careful
and delicate dissection necessary to demonstrate them ; we might
also point out a similar diversity in the anatomy of insect salivary
glands. By taking up these studies we not only provide ourselves
with highly interesting amusement, but we can help those who are
engaged in these subjects as a profession, and whose time for work
is greatly limited. If we take care that every fact is accurately
observed, and our observations are verified by good preparations, our
Club will be doing most serviceable work to advance the progress
of biological studies. Of course you will be met by the remark that
all this has been done before by our continental brethren ; but, how-

THE president's ADDRESS. 311

ever true and however discouraging the statement, let it not deter us
from the task ; there is always a pleasure in going over and veri-
fying the labours of others, for the student who does this is some-
what in the position of one who follows in the track of some great
traveller through an unknown country, who may be accurate in all
the main features of the physiography of that land, whose roads and
rivers and mountains are carefully laid down in his chart, but whose
details have to be filled in by those who come after ; so in going
over the work of past observers, in the light of our advanced
knowledge, and by the aid of more perfect instruments, the atten-
tion of the student must be arrested by fresh facts and more
elaborate details than ever greeted the eyes of others, however care-
fully they may have observed. Suggestions for work that might be
accomplished by the members of this Club arise around me as a thick
crowd ; but I think I have pointed out the character of the work
that might be attempted during the coming year. I fear the be-
setting temptation of a President is a tendency to preach, but I hope
you will pardon me if I do possess, in common with my predecessors,
a great and not unnatural solicitude that the Club should be worthy
of the distinguished name we bear, and of him to whom we owe
so much in microscopical research, and in whom we see an
examj)le of what steady systematic work can accomplish.

312

PROCEEDINGS.

April 22nd, 1881.— Ordinary Meeting.

T. Charters White, Esq., M.R.C.S., &c., President, in the

Chair.

The minutes of the preceding meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club :— Mr W. M. Cutting, Mr J. R. Green, Mr H. W. King, and Mr J.
M. Moss.

The following donations to the Club were announced : —

" Proceedings of the Royal Society " ... from the Society.
"Proceedings of the Bristol Naturalists'")
Society "J ... ... ... )

" Proceedings of the Norfolk and Norwich-)

Natural History Society ' ... J

"Fourth Report of the Hackney Micro-")

scopical Society ' ... ... )

" The Northern Microscopist "
"The American Naturalist "
" The American Monthly Microscopical ")
Journal" ... ... ... J

" The American Journal of Microscopy " ...
"The Analyst"
" Science Gossip"

Dr. Braithwaite's "British Moss Flora,")
Part 4 ... ... ... J

" Monograph of British Aphides " (Ray")
Society) ... ... ... J

" Quarterly Journal of Microscopical Science ''

" Annals of Natural History " ... ... ,,

Van Heurck's " Synopsis of Belgian Diato- )
maceae " ... ... ••. )

" Wythes on the Microscope " ... ... „

The thanks of the meeting were voted to the donors.

The President said they had no doubt all received an announcement of
the special exhibition meeting, which had been arranged for the following
Friday. He should be very glad to have the co-operation of as many
members as possible on that occasion. It had been suggested that it
would be desirable to give their scientific friends an opportunity of seeing
the Quekett Club as it was, without the assistance of members of other

from the Editor,
in Exchange.

from the Editor.
„ Publisher.

,, Author.

by Subscription.
Purchased.

313

societies or of the opticians who generally exhibited at their Soirees. The
exhibition was to be scientific rather than popular ; they wanted their
friends to see just what sort of men they were when they were " at home."
The Secretary would be glad to receive the names of any members who
were willing to assist, and extra invitations could be obtained by asking
for them.

Mr. W. J. Brown said he should like to ask if he rightly understood that
this exhibition was intended to take the place of the Soiree ? He hoped that
it might be merely supplementary to it. To give up the Soiree would be to
abandon one of the most pleasing features of the Club, and he thought that
the Committee, before coming to such a decision should bear in mind that
there was a large number of members who, like himself, were unable to
attend most of the meetings, and that the journal and the Soiree were about
the only return such men got for their subscriptions. He knew it had been
said that members of that sort were of very little use, but he thought it
would be admitted that their subscriptions were of equal pecuniary value to
any others.

The President, in reply, stated that the Committee, whom the members
had returned as their representatives, had considered that the cost of the
Soiree, which amounted to about £70 or £80, would be very much better
employed if placed upon the shelves of their bookcase, than expended in
such an evanescent manner as providing a Soiree for their lady friends)
however much they might enjoy it at the time. He was himself always in
favour of a Soiree, but the matter did not rest with him ; as chairman he
could only give his casting vote in case opinions were evenly balanced.
Their representatives had, however, decided against a Soiree, and he thought
that for the present the matter must rest where it was.

Mr. W. J. Brown said that if the great expense of the Soiree consisted in
the cost of refreshments, could they not abandon them as had been done in
the case of other societies ? Let them be provided, and those who wanted
them pay for them at the time.

The Secretary said that the cost of the refreshments was £30. The amount
paid for the >Soiree always seemed large, but the items were all passed before
the Committee, and they did not see how they could be reduced.

The President said that as he had served in former times in the position
now held by Mr. Ingpen, he could say from experience that it was not
possible to cut down the expense any lower if the thing was to be done
decently.

Mr. W. J. Brown hoped that it would not be thought that he asked the
questions in any captious spirit; his object was merely to obtain informa*
tion for himself and others. He hoped that they might bear the matter in
mind at the next annual meeting.

Mr. J. W. Groves exhibited and described a new form of freezing
microtome, in which ether spray had been substituted for ice and salt. The
internal construction of the apparatus, and the method of getting rid of the
vapour of the discharged ether were further explained by drawings on the
black board.

314

Mr, A. D. Michael described a typical specimen of Platyr/ aster, which he
had brought for exhibition, and which he also figured on the black board.

Mr. J. G. Waller read a short paper in reply to observations made at the
preceding meeting in opposition to his paper on the so-called boring sponges.
(See page 265).

The President said he was afraid the subject was one on which there was
likely to be disagreement of opinion for a long time to come, so that he
thought it would not be wise to open the discussion again ; they would,
however, be glad to hear anything which Mr. Stewart might like to say on
the observations just made.

Mr. Chas. Stewart said that the remarks which he made at the last meet-
ing were, in the first place, chiefly dix'ected against a kind of false logic
which it seemed to him was being employed, and it was for this reason that
he referred to the action of the atmosphere on glass. Mr. Waller said that
a soft body like the sponge was incapable of removing a hard substance
like shell or rock, but this appeared now to be admitted as a possibility.
Mr. Waller also said that the character of the surface of the cavity was such
as alone could be made by the gnawing of some annelid, and therefore it
must be done in that way. He, however, maintained that this was not a
necessary conclusion, because the pieces of glass, which were veiy much
harder than shell, showed the same or very similar effects of erosion ; it was
merely to show that the character of the cavity was not in itself conclusive.
Mr. Waller seemed to feel great diflBculty in recognising the similarity
between the process going on in a living animal — in the removal and deposit
of bone for instance — and that which might be going on in the case of some
sponges ; but it was clear that the living mantle of a mollusk could both
deposit and destroy the same substance ; and in the case of bone they could
not regard the whole substance, though part of a living animal, as being
itself alive — the lime, &c., was as practically dead as the shell — so that if
they found a similar character of erosion produced in other hard substances
by the action of soft ones, it was not improbable that they might find it in
the case of Cliona. Two theories were put forward, one being that the
borings were made by an annelid, and the other that they were made by a
sponge, and he could only say that, looking at the matter on all sides, the
greater probability seemed to be that the soft substance of the sponge
made the borings.

Mr Waller said his contention was that the action of a soft substance
could not produce sharp edges.

Votes of thanks to Mr. Groves, Mr. Michael, and Mr. Waller for their
communications were unanimously passed.

Dr. Matthews having taken the chair.

The President read a paper " On the Histology of the Gustatory Organs
of the Rabbit's Tongue," the subject being illustrated by coloured diagrams
and specimens exhibited under the microscope in the room.

Dr. Matthews said he had listened with intense interest to this paper,
and should be glad to hear the remarks of some of those present in further
elucidation of the subject. He should like very much to know if in the

315

localization of taste the perception of certain kinds of tastes was assigned
to certain special papillae. Would the sensations of sweet, soar, or salt, for
instance, be each perceived by a special set of papillae ?

The President, in reply, said he had not given any attention to that
snbject, which was rather more physiological than histological.

Mr. C. Stewart said that, as far as he was aware, there was no evidence to
show that such was the case.

Dr. Matthews said he asked the question for information ; he did not
himself profess to know anything about the subject, but he had frequently
noticed the localization of bitter taste to be chiefly in the posterior part of
the tongue.

Mr. Parsons exhibited some curious specimens of malformation in the
young fry of the trout. They had been hatched from spawn sent over from
America, which by some means got warm during the voyage. Most of the
fry showed a strong curvature of the spine, some being nearly bent into a
circle ; in one instance two were joined together like Siamese twins.

Announcements of meetings for the ensuing month were then made, and
the proceedings terminated with the usual Conversazione, at which the
following objects were exhibited : —

Gustatory bulbs of the Rabbit's Tongue ... the President.
Sertnlaria rosea ... ... ... Mr. F. W. Andrew.

Cjclosis in Nitella ... ... ... Mr. H. R. Gregory.

Platygaster hoscii, female, showing thej ^^^ ^ j^ Michael,
remarkable projection from the abdomen j

Attendance — Members, 64 ; Visitors, 5.

April 29th, 1881. — Special Exhibition Meeting.

By permission of the College, a meeting was held in the Library for the
purpose of bringing before the members and their friends a considerable
number of the objects of interest exhibited at the Ordinary and Conversa-
tional Meetings.

About 200 members and 300 visitors attended, and the following is a list
of the objects exhibited, so far as could be ascertained from the tickets
collected. This list, however, is necessarily very imperfect, many members
having omitted to communicate their names or particulars of their exhibits.

Clavasquamata j The President.

Circulation in Twin Salmon Trout ... j

Section of Eozoon Canadense, Polarized ... Mr. F. W. Andrew.

Aulacodiscus formosus ... ... ... Mr. W. J. Brown.

Mildew from Wall built with Sea-sand ... Mr. E. Bartlett.

Longitudinal section through cloaca [of) -.r n^ tt j} tty.
Grantia ciliata ... ... J

Hydra viridis ... ... ... ... Mr. J. W. Cafe.

Actinosphenia splendens ... ... Mr. E. Carr.

Gonium sector ale ... ... ... Mr. F. Coles*

316

Leaf oi Elceagni/s arr/eniea
Sections of SpoBges showing their variety)
of structure ... ... j

Parasites, series of
Nitella, fruit and cyclosis in
Draper naldia, &c.

Campanularia volubilis, with ovarian)
vescicles ... ... ... )

Ovaoi Acarus scahiei
Dentzia scahra

Vertical section through jaw of Kitten, 'j

showing development of teeth ... >

Gonium pectorale ... ... J

Bursa copulatrix of Blow-fly, showing the')
lateral folds of Lowne ... )

Tyrosine, prepared from human fibrin
Gatherings from the last Club Excursion ...
Growing point of Pinus, sp. ... ")

,, „ Dahlia ... j

Stentor 2foly7norpha
Melicerta ring ens
Cyclosis in Nitella
William's Freezing Microtome, adapted to

freezing by Ether
Tongne of Dog, showing circum-vallate

papillse, taste-bulbs, &c.
Spinal cord of Monkey

AnomaloceraQ) male and female, a sym-"^
metrical antenna of male — spermatic >
tubes attached to female ... j

An improved Diatom finder or index, &c. ..
Section of Upper Jaw of Mole ... ")

Lower „ „ ... J

Parasite of Elephant, from Ceylon — Male,)
female, and immature form ... j

Lnrva oi Corethr a plumicornis
Ear of Frog, showing tympanum ...
Zoathamnium arhvscula
Section of Eye of Privet Moth
Cyclosis in JVitella
DiatomacecB

Laomedea geniculata, compact form, with")

extended tentacles, as in life ... J

Ejncrius geometricus, a Gamasid not hitherto )

recorded in Britain ... j

Tanais vittatis (a wood -eating Shrimp),")

shown by oblique polarized light j

Mr. A.L. Corbett.
Mr. H. Crouch.

Mr. T. Curties.
Mr. E. Dadswell.
Mr. A. Dean.

Mr. C. G. Dunning.

Mr. H. Epps.
Mr. J. Epps, junr.

Mr. A. Fieldwick, jun.

Mr. F. Fitch.

Mr, H. E. Freeman.
Mr. F. W. Gay.

Mr. W. H. Gilburt.

Mr. W. Goodwin.

Mr. H. R. Gregory.

Mr. J. W. Groves.

Mr. A. Hammond.

Mr. J. D. Hardy.
Mr. J. J. Hunter.

Mr. J. E. Ingpen.

Mr. J. M. Knight.
Mr. S. J. Larking, jun.
Mr. C. Le Pelley.
Mr. S. J. Mclntire.
Mr. A. Martinelli.
Mr. G. A. Messenger.

Mr. A. D. Michael.

317

Ixodes testudinata, and other parasites

Pleurosigmajormoswn X 5,500, shown with \
Powell and Lealands' l-60th water im-
mersion objective, num. ap. 1*02 I

Pleurosigma angulatum X 1,200, shown [
with Powell and Lealands' l"12th oil
immersion objective, num. ap. 1*42 )

The "Micro-Megascope," arranged with^
Camera lucida for drawing objects with \.
slight enlargement ... ... J

Stentor niger from Snaresbrook Excursion...

(Ecistes umhella, discovered by the ex- )
hibitor in 1878 ... ... f

Bteplianoceros EicTiornii

Head of Honey Bee

Amphipleura pellucida, shown with l-8th
oil immersion objective, num. ap. 1*47,
and achromatic condenser

Dactyocalyx pumicea {Sponge)

Gizzard of Dytiscus marginalis

Tongue and lancets of Gad-fly

Leaves of Gymnosperms : —
Pinus excelsa
Micephalartos altensteini
Junijperus comynunis
Podocarpus koraiana

Larval forms of Echinodermata, from the "j
Koyal Microscopical Society's Collec- j

'}

tion

Toxopucustes hrevispinosus ... i

Ecliinocardium cordatum ... J

Gizzard of Flea

Section of Agate — Granular arrangement...

Vorticella

Various forms of modified crystals of j
Platino-cyanide of Ytrium ... J

Hydra vulgaris

Crustacean found in a Marine Aquarium . . .

EcliinorTiynchus from Intestine of Trout ...

Selected Desmids, Fungi, Vegetable cells,&c.

Kock Section of Gneiss, Hebrides...

Pedal ganglion and nerves of Firoloides ...

JDiatomacecB

Hair of Rat

Arsenious Acid...

Micro -rulings, with complex curvilinear ■)
tracery ... ... ... J

Mr. T. S. Morten.

Mr. E. M. Nelson.

Mr. E. T. Newton.

Mr. J. M. Offord.
Mr, F. Oxley.

Mr. G. D. Plomer.
Mr. R. A. Potts.

Mr. Thos. Powell.

Mr. B. W. Priest.
Mr. G. E. Quick.

Mr. J. W. Reed.

)■ Mr. W. W. Reeves.

Mr. C. S. Rolfe.
Mr. James Russell.
Mr. Joseph Russell.

Mr. J. C. Sigsworth.

Mr. J. E. Simmonds.
Mr. T. Simpson.
Mr. W. Smart.
Mr. C. V. Smith.
Mr. Geo. Smith.
Mr. C. Stewart.
Mr. M. J. Swift.
Mr. J. G. Tasker.
Mr. J. W. Tate.

Mr. W. Teasdale.

318

New Santa Monica Diatoms, monnted on "j
ruled squares — large squares 10,000, and /"
small squares 1 ,000,000 to the square inch ^

Leg and foot of Dytiscus marginalis

CUona, showing Early Development of
minute bundles of Spicules

Section of sucker of Mtisa p(^radisiaca~)
(Banana Tree) ... ... j

Pleurosigma angnlatum ...

Image of hands of watch in motion, shown )

Mr. W. Teasdale.

Mr. J. J. Yezey.
Mr. J. G. Waller.
Mr. F. H. Ward.
Mr. T. P. Watson.
Dr. H. T. Whittell.

in Beetle's Eye ... ... )

Section of Oat Grass ... ... )

Xantliidia in Flint ... ... )

Section of Spine of Ecliinus lividus \

„ „ Cidaris imperialis I

„ Screw Pine ... ... f

,. Ovary of Poppy ... ^

Head of Vespa crahro

Booklets of Hydatids, mounted by the )
late Mr. J. Cocken ... ... )

The Museum and the Flaxman Hall were open for the inspection of the
visitors.

Mr. W. D. Wicke».

Mr. George Williams.

Mr. F. Wood.

The Club Microscope.

May 13th, 1881.— Conversational Meeting.

The following objects were exhibited : —
Vetches sativum, stained and polarized
Skin of Iguana, polarized
Eyes of a South African Spider ...
Dissection of Devil's Coach-horse (Goerius )

oleus) ... ... ... )

Coccus of Nettle
Closterinm lunula
Pond Life

Felspar from Norway
Parasite of Spoonbill

Growing point of Dammara Moorei "^

„ „ Pinus excelsa ... C

„ „ Podocarpus Tcoraiana )

Planorhis in the Egg ...
Cinchonodine ...
^cidium quadrifidum on leaf of Anemone \

ranunculoides ... ... )

Internal teeth of digestive organ of Corethra']

2olumicornis ... ... ... )

Braulacceca, parasite of Honey Bee...

Mr. F. W. Andrew.
Mr W. R. Browne,
the Eev. H. J. Ease.

Mr. F. Fitch.

Mr. H. E. Freeman.
Mr. H. R. Gregory.
Mr, R. Hailstone
Mr. H. Morland.
Mr. T. S. Morten.

Mr. J. W. Reed.

Mr. F. A. Stoessiger.
Mr. J. W. Tate.

Mr. J. W. Walker.

Dr. H. T. Whittell.
Mr. Francis Wood.

Attendance — Members, 54 ; Visitors, 4.

319

May 27th, 1881. — Ordinary Meeting.

Chas. Stewart, Esq., M.R.C.S., &c., Vice-President, in the

Chair.

The minutes of the preceding meeting were read and confirmed.
Mr. 0. S. Bishopp and Mr Charles Botterill were balloted for and duly-
elected members of the Club.

The following additions to the Library were announced : —

" Proceedings of the Eoyal Society" ... from the Society.

''Journal of the Eoyal Microscopical")
Society ... ... ... )

"Eighth Report, &c., of the New Cross")
Microscopical Society " ... )

" Proceedings of the Geologist's Association " „ „

" Proceedings of the Belgian Microscopical \

Society" ... /

" The Popular Science Review'' ... ... from the Publisher.

"Science Gossip" ... ... ... „ „

" The Northern Microscopist " ... ... „ „

" The American Monthly Microscopical") . j;y„i,„
Journal" ... ... ... j

"The Microscope in Medicine" (American) from the Publisher.
Van Heurck's " Synopsis of Belgian Diatoms " Purchased.
"Annals of Natural History " ,., ... „

Photograph for the Album ... ... Mr. Morland.

The thanks of the meeting were unanimously voted to the donors.
The Secretary said that the members would no doubt be interested to
know that the Ineeting which was held on April 29th, for the exhibition of
objects, &c., was attended by at 'least 199 members, and 300 visitors. The
number of exhibitors on the occasion, as far as could be ascertained by the
cards collected after the meeting, was 73, but he was under the impression
that this did not include all. He had prepared an alphabetical list of those
whose names were ascertained from the cards, and this would be laid on the
table for inspection at the end of the meeting in order that any members
who had exhibited, and whose names did not appear, might be able to
supply the omissions.

Mr. Ingpen said that as they were without a paper for the evening, it
might be interesting to some of the members if he gave a description of the
microscope with which he recently had the honour to be presented. He
then exhibited and described the instrument and its accessories, and
explained their mode of use and the advantages claimed for them, dwellino-
particularly upon the construction of Abbe's condenser, sectional drawings
of which were made upon the board.

The thanks of the meeting were voted to Mr. Ingpen for his communication.
The Chairman said it seemed to him that this microscope had un-
doubtedly some great advantages for special work and methods of research

320

but he confessed that the more he looked at it the more glad he was that
they had the English microscopes as well. He should not like to use
so elaborate an instrument as that for the ordinary purposes to which their
commoner ones were applied, and though possibly these foreign instruments
were better for more purely optical work, yet for every day use and for
the ordinary rough and tumble work of microscopical study, he should
prefer the more usual forms of English instruments. He thought that the
flat bottom foot seemed to slide too easily on a smooth table, and that it
would not be so steady as the tripod, with the claw-like projections, with
which they were better acquainted. He could not see the advantage of the
horse-shoe foot, with the single projection behind, and thought it would be
steadier if reversed, especially when used for camera-lucida drawing.

Mr. Ingpen admitted that the foot appeared clumsy, but it was carefully
considered for all that, and upon any ordinary table cloth it would be found
quite steady in whatever position it was placed. Abroad the microscope
was almost always used upright, and with the short six inch body, the camera
lucida being arranged for drawing with the microscope vertical. With
regard to the condenser, he could fully endorse all that Mr. Crisp had said,
and he thought that no greater compliment could be paid to it than that
Powell and Lealand's Diatom condenser had been adapted from it.

Mr. F. Crisp said that Abbe's condenser was undoubtedly the true type
of all possible condensers. He then proceeded to show by means of black
board drawings ttat whereas with low powers oblique light produced
" shadow effects," it was not so when high powers were used, inasmuch as
the objects were so minute that the light- waves passed round them, and
all shadow effects were consequently lost. The value of oblique light in
such a case was simply that it brought within the object-glass difEraction
spectra which would otherwise be lost.

Announcements of meetings for the ensuing month were then made, and
it was intimated that arrangements had been entered into by which the
refreshment room of the College should be open on each of the meeting
nights for the convenience of the members.

The proceedings terminated with the usual Conversazione, at which the
following objects were exhibited: —

Ribbon Grass, polai-ized... ... ... Mr. F. W. Andrew.

Eyes of Jumping Spider, Salticus tardi-') -^^^ ^ Enock
gradus ... ... ... J

Larva of Water Boatman emerging from egg Mr. W. Goodwin.

Bati-achospermum, from Tottenham Marsh... Mr. J. D. Hardy.

Egg shell of ClawsiZia &ideM5, showing cry s- T ^^ tt -rr „i li.
tals of carbonate of lime ... J

AmphijAenra 2?ellucida Bhown vfith oilim-'^ ,, mj^ p ,,
mersion, l-8th, and achromatic condenser J

Section oi 8k\n oi JEchinus lividus ... Mr. B. W. Priest.

Longitudinal and transverse sections of") m • T W R d
\esii oi Welivitscliia ' . . . ... )

Sexual organs of Male Humble Bee ... Mr. F. Wood.

Attendance — Members, 58 j Visitors, 5.

321

June 10th, 1881. — Conversational Meeting.

The following objects were exhibited : —

Mednsa, probably Cladonema

Adiantum cuneatum

Section of Queen Bee, Ajpis melUfica, show-'
ing oTaries, &c.

Maple Aphis ...

Tongue of Whelk stained

Nettle Cluster-cups

Transverse section of stem of Smilax
offi^cinalis stained with Methyl violet,
iodine green, and magenta

Testa of seed of IVemesia versicolor,
polarized

Amphipleura pellucida, X 1 ,200, shown in "
checks, with Powell and Lealand's
l-12th oil immersion objective, num.
ap. 1.42, illuminated by the oil im-
mersion condenser, and vertical il-
luminator used simultaneously J

Sections showing male organs of Poly
trichum

Section through embryo of Bean...

Fredericella sultana

The President.

Mr.

F.

W.

Andrew.

Mr.

F.

Enock.

MrH.

E.

Freeman.

Mr.

H,

. G.

Glasspooh

Mr.

H,

. E.

Gregory.

Mr.

J.

W.

Groves.

Mr.

H. Morland.

y :Mi\ E. M. Nelson.

Mr. J. W. Eeed.

Mr,

Attendance — Members, 45 j Visitor;

Eras. Wood.
, 1.

June 24th, 1881. — Ordinary Meeting.

T. Charters White, Esq., M.R.C.S., &c.. President, in the

Chair.

The minutes of the precediug meeting were read and confirmed.
The following gentlemen were balloted for and duly elected members of
the Club :— Dr. E. VV. Alabone, Mr. H. T. Crosby, Mr. H. Gilburt, Mr. F.
W. Harris, Mr. J. J. Pilley, Mr. W. Potts, Mr. F. Kansom, and Mr. A. W.
Stokes.

The following additions to the Library and Cabinet were announced, and
the thanks of the meeting accorded to the Donors.

" Proceedings of the Royal Society" ... from the Society.
"Transactions of the Linnean Society" ... ,, Mr. T. C. White.
"Transactions of the Hertford Natural")

History Society " ... ... j » the Society.

" Twenty-ninth Report of the East Kent)

Natural History Society " ... ) " "

" Tenth Report of the South London^
Natural History Society " ... j" ' "

322

" The American Naturalist " ... ... in Exchange.

'' Science Gossip " ... ... ... from the Publisher.

"Report of the Smithsonian Institution ... ,, the U.S. Government
"The American Journal of Microscopy" ... in Exchange.
" The Microscope in Medicine "... ... from the Editor.

«' The Analyst " ... ... ... „ „

" Annals of Natural History " ... ... purchased.

" Burmeister's Manual of Entomology " ... ,,

Dr. J. E. Smith's " How to See with the)

Microscope'' ... ... J "

Van Heurck's " Diatomaceae " ... ... „

"Grevillea" ...

" The Northern Microscopist " ... ... in Exchange.

"The American Monthly Microscopical")
Journal" ... ... ... j

3 Slides — Sponge Sections. &c. ... ... from Mr. B. W. Priest.

7 Slides— Desmids ... ... ... „ Mr. C. V. Smith.

A letter from Mr. Curties relating to these slides was read to the meeting.
The President remarked that if Mr. Vance Smith had succeeded in doing
what was stated, he had done a very great thing. He had himself tried a
great many things, but all the various mixtures he had used had been found
to fail, except the water in which the Desmids were found. Some time ago
he saw a suggestion in the " Eoyal Microscopical Journal " that pickling
vinegar had been used with success, and he had given it a trial, and found
that it had not at present disturbed the endochrome, but it appeared to
have changed the colour to that peculiar green which was commonly
observed in pickles.

Mr. Sigsworth said he had mounted some Desmids in a mixture of
glycerine and camphor water, and they had kept their appearance up to the
present time.

Mr. Michael thought that success with such a medium depended very
much on the kind of Desmid which was tried.

Mr. Ingi^en said that Dr. Cooke considered it best in many cases to get
rid of the endochrome, which sometimes prevented a complete examination
being made. The specimens before the meeting had not been prepared very
long, but they were very beautifully mounted, and it was to be hoped that
they would stand the test of time.

Mr. Hailes said he had some slides of Desmids which were mounted
twelve or fourteen years ago by Dr. Dempsey, and they were now as good
as ever, and quite bright and green.

Dr. Matthews said he also had some of Dr. Dempsey's slides ; he believed
they were only mounted in glycerine and water.

Mr. Hailes said he believed that some specimens lost their colour from
exposure to the action of light.

The President read a letter from the Ealing Microscopical Society thank,
ing those members of the Club who assisted them on the occasion of their
recent Soiree.

323

The President reminded the members that their next monthly meeting
would be their anniversary, at which it would be necessary to elect Officers
and members to supply vacancies upon the Committee. The time had now
ari-ived for nominations for these offices to be made, and he would call upon
those present to propose any gentlemen whom they might consider suitable.
The President, Vice-Presidents, and Officers were nominated by the Com-
mittee, but any member was at liberty to substitute another name on the
ballot paper if he wished to do so.

The following list of nominations made by the Committee was then
read : —

As President, Mr. T. C. White; as Vice-Presidents, Dr. Cooke, Mr. Dads-
well, Mr. Groves, Mr C. Stewart ; as Hon. Treasurer, Mr. Gay ; as Hon;
Secretary, Mr. Ingpen ; as Hon. Secretary for Foreign Correspondence, Dr.
M. C. Cooke; as Hon. Reporter, Mr. R. T. Lewis ; as Hon, Librarian, Mr.
Alpheus Smith ; as Hon. Curator, Mr. C. Emery.

The President intimated that there were four vacancies upon the Com-
mittee, caused by the retirement, in accordance with the rules, of Messrs.
Dadswell, Oxley, Groves, and Coles, and invited nominations accordingly.

The folljwing nominations were made : —
Dr. Matthews — Proposed by Mr. Sigsworth — Seconded by Mr. Gregory.
Mr. Gregory „ Mr. Freeman „ Mr. Waller.

Mr. Priest „ Mr. Michael ,, Mr. Dadswell.

Mr. E. M. Nelson „ Mr. Gilburt „ Mr. Waller.

Mr. Waller „ Mr. Priest „ Mr. Reed.

Dr. Cobbold „ Mr. Reed „ Dr. Matthews.

The President said that Mr. Hainworth had been appointed Auditor on
behalf of the Committee, and requested the members to nominate another
gentleman to act with him on behalf of the Club.

Dr. Whittell was proposed by Mr. Crisp, seconded by Mr. Buffham, and
unanimously elected.

Mr. B. W. Priest read a paper " On an Undescribed Sponge of the Genus
Polymastia,''^ the subject being illustrated by diagrams and by specimens
exhibited under the microscope in the room.

Mr. J. G. Waller said this was an exceedingly interesting species, and he
was very glad to find that it had been first described by a member of the
Club. Dr. Bowerbank's description of the genus to which it belonged was
so accurate that no one could possibly mistake it, and it might be taken as
a testimony to the value of his mode of classification, and of the care
with which his descriptions were given. The arched structure was a very
curious feature, though it was not altogether unlike what was found else-
where in the genus Destnacido/i. Mr. Priest had omitted to mention one
very peculiar feature of this Sponge, namely, the very numerous abnormal
forms of spicules which were to be met with ; he had never found so many
abnormal shapes as in this instance, certainly in no marine species were
they so abundant.

Mr. Bnffham did not quite gather from Mr. Priest's description the
character of the cavities. Was the whole of the area of the Sponge

324

interspersed with vertical pillars, or were there in some one direction two or
three cavities, of which the drawings showed sections ? Did he observe
any connection between these cavities and the oscnla ?

Mr. Priest said that the Sponge having been in spmt much of it was
hardened, but apart from that it appeared in its natural condition. The
section was made through the walls of the Sponge, and had the appearance
of arches, as shown in the diagram. In one of the slides the cavity could
be traced from the centre up to the oscula, where the water passed out.

Mr. Buffham wanted to know whether there were a number of vertical
pillars dotted about the whole base of the Sponge, and running up to its
roof, or whether there were three principal cavities through which the
diagram showed a section ?

Mr. Priest said the openings seemed to be all over the Sponge, the pillars
supporting the outer crust.

The President enquired if they were pillars supporting the roof, or the
wall of the channels ?

Mr. Buff ham said supposing they began at the base, was the whole space
divided into numerous channels, or were there three principal ones running
right through ? He should gather that there were a number of cavities
communicating with each other all over the Sponge.

Dr. Matthews asked if they were cavities or channels ?

Mr. Priest, in reply, said that they were channels, and had the appearance
shown only in section.

A vote of thanks to Mr. Priest for his paper was unanimously carried.

Mr. W. H. Gilburt said that some little time ago Dr. Cooke called his
attention to some leaves of a species of Bomaria which he had found in
Kew Gardens. These plants belonged to the same order as the Snowdrop,
but differed in appearance from the British members of the order, the
Bomarias being climbers. The special point about them which called for
remark was that the whole structure was reversed — what should be at the
top being found near the bottom surface of the leaves, and vice versa. In
an ordinary leaf— say of Aucuba or Laurel — they would find on the upper
surface a well developed cuticle, and beneath that a layer of flattened cells,
sometimes containing chlorophyl ; then came another layer of cells
arranged with their greatest length at right angles to the surface of leaf,
and then a quantity of more or less branched cells, and immediately under
that came the lower epidermis containing the stomata. On the upper
surfaces of leaves stomata were comparatively rare, except in the case of
such as grew vertically, like the Hyacinth ; but in the instance before them
they had a leaf in which the lower surface was a true cuticle without
stomata, the order of the arrangement of the cells was reversed throughout,
and the upper surface contained stomata in abundance ; and remembering
the functions of the vaxuous parts of the leaf and the provision made by
nature for protecting the stomata from dust, &c., this reversal of the usual
order of things was very remarkable. So far as ho knew it had never
been observed before. Dr. Cooke had made enquiries of Mr. Baker, one of
our best authorities on the order ; but he know of no one having previously
observed it. The leaves are developed normally in the bud, but as soon

325

as they assumed the horizontal position they turned over, but it is only in
the petiole that any torsion can be observed. How it came about that
this plant first began to develope the leaves in the wrong direction, or what
circumstances had induced it to do so, was certainly a very puzzling point,
as there is nothing in the habit of the plant to account for it. It
had been suggested that it might at one time have done this as an
assistance in climbing, but this he thought could hardly be the case, seeing
that the climbing was all done by the twining of the stem round its support.
If any one could give any suggestions on the matter he should be very much
obliged.

Two slides in illustration were exhibited.

The President thought that Mr. Gilburt had made a most interesting
communication, and one of a type which he should like to see more often
brought before them, for the members seemed to have got too much into
the habit of bringing up objects for exhibition, and saying nothing about
them.

Mr. Michael said he should like to know if there was any reason for
assuming that the inversion of the leaf occurred first, and the torsion was
to utilise the structure ? It seemed far more probable that the torsion was
the original thing, and that the development took place in consequence.
A vote of thanks was passed to Mr. Gilburt for his communication.
The Secretary called attention to a series of admirable photo-micrographs
received from Dr. Woodward of the U.S. Army Medical Department, illus-
trative of cases of I'seudopolypi of the Colon.

Mr. Frank Crisp said that the photographs were of general interest as
being the best that had yet been seen in this country in illustration of
histological subjects; in this respect they would mark a distinct advance in
photo-micrography.

The President announced the meetings for the ensuing month, and called
attention to the abandonment of the excursion to Great Marlow, arranged
for July 9th, in consequence of the disorganisation of the ordinary trafl&c on
the Great Western Railway on that day, on account of the Volunteer Review
at Windsor.

The proceedings then terminated with the usual Conversazione, at which
the following objects were exhibited : —

Section of Flint, polarized, showing section")
of Chalcedony ... ... )

Leaf of Bomaria Caldesiana, showing re-
versed structure, hairs, &c.
Section of leaf of Bomaria Carderi
Polytrema rubra, parasitic Foraminifera")
from Mentone ... ... )

Tadpole of Water Newt
Section of Meteorite with cavities contain- 1
ing fluid ... ... ... J

Transverse section of leaf of Pinus Coulterii

Attendance — Members, 45 ; Visitors, 7.
JouRN. Q. M. C, No. 48. b b

Mr.

F.

W.

Andrew.

Mr.

,W

. H

. Gilburt.

Mr.

H.

G.

Glasspoole.

Mr.

A.

Martinelli.

Mr,

G.

D.

Plomer.

Mr.

J.

W.

Reed.

126

July Sth, 1881. — Conversational Meeting.

The following objects were exhibited : —
Section of Cotton Seed, polarized
Sand from the Indian Ocean, water-worn |
and polished... ... ... j

Cocconema lanceolatum, front and side views
Banksia serrata, showing position of stomata
Oxyuris (sp. ?)

Mr. F. W. Andrew.
Mr. W. Goodwin.

Mr. H. Morland.
Mr, J. W. Eeed.
Mr. Fras Wood.

Attendance — Members, 44 ; Visitors, 3.

July 22nd, 1881. —Annual Meeting.

T. Charters White, Esq., M.R.C.S., &c., President, in the

Chair.

The minutes of the preceding meeting were read and confirmed.
Mr. William A. Firth and Mr. Henry Perigal were balloted for and duly
elected members of the Club.

The following additions to the Library and Cabinet were announced : —

'}

" Proceedings of the Koyal Society '

" Proceedings of the Bristol Naturalists

Society" ...
" Second Annual Report of the Lewisham t
and Blackheath Scientific Association '' J
*' Proceedings of the Linnean Society "
** Popular Science Review "
** Science Gossip "
"The Analyst"
*' The Northern Microscopist "
" The American Naturalist"
** Proceedings of the American Society of

Microscopy"
*' American Monthly Microscopical

Journal"
** The Microscope in Medicine " (American)
Dr. Carpenter's "The Microscope and its

Revelations," new Edition
Marsh's " Section Cutting"
Kent's " Infusoria," part iv.
** Quarterly Journal of Microscopical |
Science" ... ... ... J

"Annals of Natural History"

" Klein's Atlas of Histology "

** Leidy's Rhizopods "

*' Challenger Reports," vols. i. and ii.

from the Society.

„ Mr. T. C. White.
„ the Publisher.

>.' »>

„ the Editor.

in exchange,
from the Society.

in exchange.

from the Editor.

,, the Author.

„ Mr. F. Wood,
by subscription.

Purchased.

The thanks of the meeting were voted to the donors.
The President read the following commanication from Mr. E. M.
Nelson : —

" While studying a slide of various kinds of Bacteria and Micrococcif
stained with methyl violet and mounted in Canada balsam, I found that
some of the Micrococci had a flagellum. I first observed this with a l-25th
oil immersion objective, by Messrs. Powell and Lealand. Mr W. Watson
Cheyne has kindly verified these results. So much attention is now directed
to the study of Bacteria and Micrococci, both here and in foreign countries,
that I thought these results would interest some of our members. I shall
have much pleasure in exhibiting the object at one of our meetings."

The President announced the engagements for the ensuing month, and
the business of the Annual Meeting was then proceeded with.

The President appointed Mr G. D. Brown and Mr M. H. Johnson to act
as Scrutineers of votes at the ballot for Officers and Members of Com-
mittee.

The Secretary read the 16th Annual Report of the Committee.

Mr. J. G. Waller moved the adoption of the Report.

Mr. W. H. Gilburt seconded the motion.

Mr. Ciirties said that, before putting the motion for the adoption of the
Report, he should like to take the opportunity of expressing his regret that
the Report contained no reference to the circumstance that the customary
Soiree had not been held. He believed that a large number of the members
looked for it, and that it was to be regarded as a bond of union amongst
many who were unable to be often present at the meetings. In this way
it had proved a means of advancing microscopy, and had been a source of
gratification to a large number of persons. He thought, therefore, that
before such a lapse should be allowed to occur, it was due to the members
that some reasons should be given for it. If the reason was one of
economy, they would be glad to know that such was the case ; or if it was
from a feeling that the labour involved in making the arrangements was
greater than the Committee could bear, no doubt assistance could be afforded
from outside if needed. He had no feeling or desire to come into contact
with the Committee on the matter, but he thought it well that the Club
generally should be made aware of the reasons which had induced the Com-
mittee to withhold the customary enjoyment, particularly as the reasons
why there should be a Soiree appeared to be so many. He had no desire for
discussion at that time, and imagined there could be none, but he had the
facts and figures relating to the subject ready to be brought forward on some
other occasion.

Mr. H. F. Hailes said that perhaps, as one of the founders of the Club,
he might be permitted to say that he quite agreed with Mr. Curties that
their Soirees had met with approbation from a number of the members,
but that they had advanced the cause of microscopy was an opinion he
could hardly agree vnth. No doubt a great many persons had enjoyed
them ; but if they had card parties and quadrilles, a good many

328

would enjoy snch amusements too, without mucli gain to the interests of
microscopy. He thought it was hardly generous for a minority of the
members to expect the Club to entertain them instead of devoting their
funds to the advancement of microscopy. Such entertainments should, he
thought, be left for larger and more wealthy societies than theirs. To carry
the principle out into private life, what would they think if they saw a
clerk with £150 a year giving balls and parties? The result would
be clear, and if the Club were to act in the same way they would
soon come to an end. They had not held a Soiree for several years, but they
had a good reason for it, and the Committee might reasonably object to be
called to account in this way not for what they had done but for what they
had left undone.

Mr. Curties enquired if they might take this as being the expression of
the Committee, or was it that of an individual member ?

Dr. Matthews enquired if he might anticipate the Treasm-er's statement
by asking what was their present balance in hand ?
The Secretary informed him that it was £174.

Dr. Matthews enquired the estimated cost of issuing the next number of
the Journal ?

The Secretary thought it would be about £40, and that the cost of the
Eeport and list of members would probably be about £20.
Dr. Matthews asked what was about the cost of a Soiree f
The Secretary said that their first Soiree cost £27, and the next three or
four from £40 to £60. Then there was a demand for increased accommoda-
tion, and for a band, and for extra refreshments for exhibitors, &c., so that
the cost was run up to about £84, and he did not think they could under-
take to reduce this amount. Though it seemed large, he should think
from what he heard of the expenses incurred by other societies that they
were lucky to get it done for this. The expenses were looked into by
the Committee, and they did not see how they could be cut down.

Dr. Matthews said he was not questioning the economy of the matter, but
he was anxious to get at the amounts, because it appeared to him that
when they took away £80 for a Soiree and £40 for Journal, as well as some-
thing more for the Report, it would leave them a very small balance indeed,
and the prudence of this did not commend itself to him. He did not think
that Soirees were of any use in advancing science, though no doubt they
promoted social intercourse, and in that respect they had now a very
excellent substitute in the extra meeting held for exhibition of objects, and
which he thought was greatly to be preferred to a thing called a Soiree,
which cost so much and was worth so little.

Mr. Curties said that it must be remembered that they had now
arrived at the end of their financial year, and that they had this money
now in hand. They were about to get in their subscriptions, and any
future expenditure would of course come out of future income ; this, he
thought, disposed of the question raised by Dr. INlatthews. As regarded
the general question, he was in possession of the facts and figures, and
as the subject had been gone into by Mr. Hailes, perhaps he had better

329

state them as they appeared from letters lie had received upon the sub.
ject from various members of the Club. It appeared that, altogether,
11 Soirees had been held; that they had been held annually up to 1875.
In 1876 the Soiree was omitted for the first time, and it was omitted
also in 1878, 1880 and 1881. In 1876 (the first time the Soiree was
omitted), the first complaint appeared in the Eeport about large arrears
of subscriptions being due (£111), and on the next occasion (1878) the Re-
port again mentioned with regret " a large and increasing arrear of sub-
scriptions due." The balance in hand at the end of the last year when
they had a Soiree was £87 9s 3d, the balance in 1880 being £139 16s 8d.
The average cost of a Soiree per head had ranged from lOd in 1869 to
Is l^d in 1875. The lowest cost of any Soiree was that of 1867 (one of
the best and pleasantest they ever had), amounting to £27 14s lid. The
highest cost was £88 15s 9d, for the very crowded and uncomfortable
gathering of 1877. The number of new members proposed at the monthly
meetings following the four last Soirees were respectively 23, 10, 11 and
20 — total 64, whilst in the corresponding months of the four years when
there had been no Soirees the numbers had been 7, 5, 4 and 2 — total 18.

Mr Gilburt said that the Committee were placed in a rather awkward
position by the way in which this matter had been brought forward. No
notice had been given, and therefore, not having come officially before the
Committee, they were not prepared to answer it. Mr Cnrties asked them
now for the first time (" No," from Mr. Curties) to consider the questior,
and under the circumstances the Committee were not in a position to give a
reply, and any explanation which might be offered by any of their number
could only be that of an individual member. Not that the Committee were
at all divided upon the matter, for with one exception only — and that in the
case cf one not in a position to vote — they were unanimous in their reso-
lution not to have a Soiree this year and not to have one in the future.
Taking into consideration the primary objects for which the Club was estab-
lished, that it was to be a society for the promotion of the study of micro-
scopy, and that it sought to do this in such ways as providing a library of
such works as were of value to the student, and which people were not in a
position to purchase for themselves, in providing instruments — of which
they certainly had too few for a society like theirs ; also in providing a
cabinet of specimens for comparison and reference — when they looked at
the question from this point of view they could see in a Soiree only a large ex-
penditure without any adequate results in the proper direction. Mr Curties
had given thera a number of figures, and these he thought fm-nished one of
the best possible arguments against a Soiree. Mr. Curties had told them that
the total number of members added to the Club from four Soirees was 64 —
not only not enough to provide the expenses for one year, but not half
enough to pay for a single Soiree. If they took the year's subscription of
these 64 members they would find that, after deducting from them the cost
of the Journals and other expenses, they had left just £16 towards this
purpose. So that, looking at the matter from a purely financial point of
view, he thought the Committee were justified in the course they had

330

adopted, and when, in addition to that, they considered what they might
have had in the library and in the cabinet if the Soirees had not been held, he
thought the members generally would agree that the Committee were per-
fectly justified in trying to do without Soirees in the futm-e.

Mr. Hopkins said he was a new member. He did not care anything
about a Soiree, but he came for instruction, and he had joined the Club be-
cause he heard that there was a good library. On his part he had there-
fore to thank the Committee for their decision.

The President said that the remarks of Mi. Gilburt had so clearly set
forth tne views taken by the Committee that it was scarcely necessary for
him to add anything further on the subject. The matter had come before
the Committee, and had been well considered by them, and as the represen-
tatives of the members, and acting for them, it had been felt desirable not
to hold a Soiree. However enjoyable Soirees might be to large numbers of
the members and their friends, it had been felt that they were the means of
sacrificing funds which might have been more usefully employed. The
Committee were elected by the members as their representatives, and they
had come to this conclusion. The figures brought forward by Mr. Curties
were no doubt correct, but had they been laid before the Committee he did
not know that they would have caused them to modify their views, as the
general feeling seemed to be against Soirees. Some persons were no doubt
disappointed — he was himself disappointed — in not having had the oppor-
tunity of inviting a number of distinguished persons from outside to come
and see what they were doing, but he thought if they had special exhibition
meetings, similar to that which had been recently held, and if these were
held without ladies, who took up a good deal of room on the last occasion,
it would no doubt be found that such meetings would be very agreeable, and
perhaps more beneficial to the Club.

The Pi'esident then put the motion for the adoption of the Report, which
was carried unanimously.

Dr. G. D. Brown thought that what had been said did not answer the re-
marks of Mr. Curties, and asked if the Committee could not consider
whether they might not have some opportunities for meeting together for
exhibition of specimens ?

The President said that it was their mtention to do so.

The Annual Statement of Account was read by the Secretary, it
being explained, at the request of Mr. Hainworth, one of the au-
ditors, that, owing to the absence of Mr. Suffolk, it had not been
possible to verify the amount of stock standing to the credit of
the Club at the Bank of England, but that this would be done as soon as
possible after that gentleman's return.

The adoption of the Treasurer's Report having been moved by Mr. Hardy,
and seconded by Mr. Emery, was put to the meeting and carried unani.

mously.

The President then rose to read the Annual Address, but regretted to have
to inform the members that, though he had written it and put it into hia
pocket on leaving home, it had disajjpeared en route to the meeting, and h e

^31

presumed it was somehow left in the cab. He then proceeded to deliver an
extemporaneous address, which was of a practical character, dealing chiefly
with the specific objects of the Club, and suggesting to the members the
means by which they might be realised in a higher degree than hitherto.

Dr. Horatio Whittell said he had great pleasure in proposing a vote of
thanks to the President — first of all for having prepared an elaborate paper
which he had intended to read to them, and next for having lost it, and
thirdly for having delivered to them one of the best extempore addresses
which had ever been delivered in that room. He had referred in it to the
value of the Quekett Club, to the work it had done already, and to the
method which he should like its members to pursue in future. He was
himself disposed to think that the written address could not have been
more valuable, even supposing it had not been lost. Eemarks such as they
had just listened to, coming from a gentleman like the President, with his
great knowledge and experience, and who had spent so many years in
coming there and giving to the Club his assistance and advice, could hardly
fail to be most valuable to the members, supposing that they rightly ap-
plied them. He could not, however, help feeling that he ought to take ex-
ception to one remark — that they came together there for the purpose of
amusing one another, and he was sure that in saying this he should have the
sympathy of his fellow-members. Living for the greater part of his life
at the other side of the world, and being far away from the centres of
scientific investigation he had looked with longing eyes to the old country
and read about what was going on, always hoping that he might some day
visit this far-off land and see what they were doing. When at last the
opportunity occurred he came, almost as soon as he landed, to the Quekett
Club, and having attended nearly the whole of its meetings while he had
been in England, he could say that he had not seen one member whom
he should be disposed to look upon as coming there simply to be amused.
For his own part, he had derived instruction from every meeting ; he had
never come into that room without learning something or picking up some
wrinkle. Some of those things he hoped to be able to carry back to Aus-
tralia with him, and to make them useful there to others who were not so
well situated. He had expected a great deal from the Quekett Club ; he
was acquainted with its history and poceedings ; but he had no notion until
he came and saw for himself what was the extent and value of the work
which they were doing ; and, after seeing a good number during his stay, he
could only add that he believed the Quekett to be one of the most valuable
and best conducted of any of the societies in the world. He should have
very soon to leave, but could not sit down without thanking all for the
great courtesy received and the amount of information he had gained"
He had great pleasure in moving a vote of thanks to their " shepherd" —
or whatever else he liked to call himself — for the very admirable address
which he had given to them.

Mr. Waller having seconded the proposition,

Mr. Ingpen said it was his privilege and pleasure to put this proposal to
the meeting, and in doing so he ventured to hope — in spite of what Dr.

332

Whittell had said — that the written address would after all turn up, and
therefore he would couple with the vote of thanks a request that the Presi-
dent would allow it to be printed and circulated in the usual way.
The vote of thanks was carried unanimously.

The President expressed his thanks to the meeting for the cordial way
in which the vote had been passed. He could only say that he had always
met with the greatest kindness from all, and he considered it one of the
distinguishing features of the Club that every one of its members could be
regarded as a kind-hearted, loving friend, and that the union amongst them
was as strong as the bond of brotherhood in any masonic union. He did
not take their expression as being due to anything in himself, for he knew
that they had numbers of men more able than himself to occupy the
position ; he attributed it all to their kindness, and thanked them very
heartily for it.

The result of the ballot was then announced to be as follows : —
President — Mr. T. Charters White.

Vice-Presidents — Dr. M. C. Cooke, Mr. E. Dadswell, Mr. J.W. Groves and
Mr. Charles Stewart.

Four new Members of Committee — Dr. T. S. Cobbold, Dr. J. Matthews,
Mr. B. W. Priest and Mr. J. G. Waller.
The OflBcers were all re-elected.

Dr. G. D. Brown moved a vote of thanks to the President, Members of
Committee, and Officers of the Club for the services which they had so ably
rendered during the past year. He felt sure that the Club would be
pleased at the re-election of the President, because he had always been re-
garded as one of themselves.

Mr. Morland seconded the motion, and the President, in putting it to the
meeting, referred to the special indebtedness of the Club to the various Offi-
cers.

The vote of thanks was carried unanimously.

A vote of thanks to the Auditors and Scrutineers was moved by Mr. Cur-
ties, seconded by Mr. Vezey, and carried nem. dis.

The President moved a vote of thanks to the Council and Authorities of
University College for the continuance of their permission to meet in that
room. This vote of thanks he thought was deserved in every respect, for
their kindness did not end there, but they were always ready to meet the
wishes of J the Club in every way, and in their personal contact with them
they had always met with the greatest kindness and courtesy.

The Secretary seconded this motion with very great pleasure, because
he was the one who came most into contact with the College, and could
testify personally to their kindly feelings. He might, he thought, also
venture to say that not only was the Club satisfied with the College,
but that the College was satisfied with the Club, and that the Authorities
were glad to assist a Society that was instrumental in furthering the
spread of education, of which they considered themselves the Trustees.
The proceedings then terminated.

Attendance — Members, 44 ; Yisitors, 3.

FIFTEENTH REPORT

QUEKETT MICROSCOPICAL CLUB,

LIST OF MEMBERS,

PEESIDENT'S ADDRESS, &c.

Meeting at Unh^rsity College, London, on the Second and Fourth
Fridays of Every Month.

LONDON.

July 1880.

[Extract from original Prospectus, July 1865.)

" The want of such a Club as the present has long been felt, wherein
" Microscopists and Students with kindred tastes might meet at stated periods
" to hold cheerful converse with each other, exhibit and exchange specimens,
" read papers on topics of interest, discuss doubtful points, compare notes of
" progress, and gossip over those special subjects in which they are more or
" less interested: where, in fact, each member would be solicited to bring his
" own individual experience, be it ever so small, and cast it into the treasury
" for the general good. Such are some of the objects which the present Club
" seeks to attain. In addition thereto it hopes to organize occasional Field
" Excursions, at proper seasons, for the collection of living specimens ; to
" acquire a Library of such books of reference as will be most useful to
" enquiring students; and, trusting to the proverbial liberality of Micro-
" scopists, to add thereto a comprehensive Cabinet of Objects. By these and
" similar means, the Quekett Microscopical Club seeks to merit the support
" of all earnest men who may be devoted to such pursuits ; and, hy fostering
" and encouraging a love for Microscopical studies, to deserve the approval
" of men of science and more learned societies."

OFFICEES AND COMMITTEE,

(Elected July 1880.)

T. Charters White, M.R.C.S., F.L.S., F.R.M.S.

0ke-'prcsi:bcitts.

T. Spencer Cobbold, M.D., F.R.S., F.L.S., &c.

M. C. Cooke, M.A., LL.D., A.L.S.

John Matthews, M.D., F.R.M.S.

Charles Stewart, M.R.C.S., F.L.S., F.R.M.S.

Committtf.

Frederick Oxley, F.R.M.S.

Ferdinand Coles, F.L.S.

Edward Dadswell.

J. W. Groves, F.R.M.S.

J. W. Reed, F.R.G.S.

J. C. SiaswoRTH, F.R.M.S.

W. H. GiLBURT, F.R.M.S.

J. W. Goodinge, F.R.G.S., &c.

H. F. Hailes.

A. D. Michael, F.L.S., &c. '

E. T. Newton, F.G.S.

W. W. Reeves, F.R.M.S.

|)oit. (ivreasurer.
F. W. Gay, F.R.M.S., 113, High Holbom, W.C.

Joir. ^jetrefarg.

J. E. Ingpen, F.R.M.S., 7, The Hill, Putney, S.W.

Joit. ^ccrttarg for foreign diorresponkntc.

M. C. Cooke, M.A., LL.D., A.L.S.

fioit. ^tpxttx,

Richard T. Lewis, F.R.M.S.

pon. ITibrariaiT.

Alpheus Smith.

|]ort. Curator.

Charles Emery.

€xtmBmx Committee.

F-. W. Gay, F.R.M.S.
Frederick Oxley, F.R.M.S.
James Spencer, F.R.M.S.

W. W. Reeves, F.R.M.S.
T. Rogers, F.L.S., F.R.M.S.
Edward Dadswell.

PAST PKESIDENTS.

EDWIN LANKESTER, M.D., F.R.S. -
ERNEST HART - - - -
ARTHUR E. DURHAM, F.R.C.S., F.L.S., &c

>> 5> 5»

PETER LE NEVE FOSTER, M.A.
LIONEL S. BEALE, M.B., F.R.S., &c. -

>> }J >5

ROBERT BRAITHWAITE, M.D., F.L.S., &c

j> >> >> "

JOHN MATTHEWS, M.D., F.R.M.S. -

»> j> >» "

HENRY LEE, F.L.S., F.G.S., F.R.M.S., F.Z

J> 5> )) "

THOS. H. HUXLEY, LL.D., F.R.S., &c.

Elected,

July, 1865.

„ 1860.

„ 1867.

„ 1868.

„ 1869.

„ 1870.

„ 1871.

„ 1872.

„ 1873.

„ 1874.

„ 1875.

S. „ 1876.

„ 1877.

„ 1878.

T. SPENCER COBBOLD, M.D., F.R.S., F.L.S., &c. „ 1879.

EEPOET OF THE COMMITTEE.

Your Committee have the pleasure of presenting their
Fifteenth Annual Eeport, showing the progress made by the
Club during the past year.

Your Committee are again able to announce the renewal
of the permission by the Committee of Management of
University College for the meetings of the Club to be held
here, and take the opportunity of expressing their apprecia-
tion of that valuable privilege.

Five members have died since the last Annual Meeting —
Mr. T. D'Aubeny, Dr. Dowson, Mr. John Hunter, Mr. D.
Sowerby, and Dr. Sharpey. The last-named member ren-
dered the Club most important assistance in obtaining its
present place of meeting, and otherwise furthered its interests
in former years. His valuable services will not, it is hoped,
be forgotten by us.

Nineteen members have resigned — the names of five have
been removed from the list for non-payment of several years'
subscription. Sixty-one new members have been elected,
and our present number is 603.

The communications during the past year have been

numerous and interesting. The principal of them are the
following : —

1879.
Aug. 22. " On Collecting and Mounting Spiders' Webs for the Micro-
scope," by Mr. G. Hind.
„ „ " On a Growing Slide," by Mr. Julien Deby.
Sept. 26. " Inaugural Address," by the President.

„ „ " On a New Machine for Cutting Sections of Hard Tissues,"
by Dr. Matthews.
Oct. 24. " On the Germination of a Seed," by Mr. A. Martinelli.
Nov. 28. "On a Method -of Dry Mounting," by Professor Hamilton
Smith.
„ „ " On a New Form of Tilting-stage," by Mr. R. G. West.
„ „ " On the Essential Act of Impregnation in Achimenes picta^"*

by the President.
1880.
Jan. 23. " On the Resting Spores of Frotococcus pluvialis,''^ by Mr. T.
Charters White.
„ „ " On the Association of Bodies resembling Hydrospermium
with the Degeneration of Hydatid Cysts," by Dr. Horatio
Whittell.
„ „ " On a Specimen of Ornithohia avicularis,'" by Mr. A. D.
Michael.
Feb. 27. " On Bleaching and Mounting Microscopical Sections," by
Dr. Sylvester Marsh.
„ „ " On Human and Canine Filarice, from communications by
Drs. Manson, Somerville, Bancroft, Da Silva Lima,
Paterson, De Magalhaes, and Mortimer Granville."
Commuicated, with an Introduction, by the President.
„ „ " On a New Form of Turn-table," by Mr. C. G. Dunning.
April 23. " On a New British Sponge of the Genus Eaphiodesma,^^ by
Mr. J. G. Waller.
„ „ " On the Structure of the Stomata of the Holly," by Mr. A.

Martinelli.
„ „ " On a Section Machine," by Mr. E. T. Newton.
May 28. " On the Results of some Recent Excursions," by Dr. M. C.
Cooke.
„ „ " On a Large Specimen of a Flea," by Mr. J. G. Tatem.

May 28. " On Lahidostomma luteum and PygmeyTiorus spinosus,^^ by Mr.

A. D. Michael.
June 25. " Further Observations on Filarice,'^ by the President.

„ „ " On certain Helminthological Observations," by the President.

„ „ " On the Histology of Pitcher Plants," by Mr. W. H. Gilburt.

Besides these, there have been several verbal communications, which
either have appeared or will appear in the Journal.

The following additions have been made to the Library : —

PRESENTED BY

Jules Michelet's The Insect (Translation) Mr. J. C. Sigsworth.

Report of the Smithsonian Institution for

1877 United States Government.

The Medical and Surgical History of the
War of the Rebellion (2nd Medical
volume) „ „

Catalogue of the Library of University

College The Council.

Quain's Elements of Anatomy Mr. J. W. Groves.

The Woodlands (Natural History Rambles) Dr. M. C. Cooke.

Rutherford's Outlines of Practical Histo-
logy Mr. J. W. Reed.

Lubbock's Monograph of the Collembola

and Thysanura The President.

Balfour's Treatise on Comparative Em-
bryology. Vol. I Mr. T. Charters White.

Dr. Braithwaite's Monograph of the Bri-
tish Moss-Flora. Families 1 — 3 The Author.

Proceedings of the Royal Society The Society.

Journal of the Royal Microscopical Society „

Popular Science Review The Publisher.

Hard wick's Science Gossip „

Brady's Monograph of the British Cope-

poda. Vol. II Ray Society^ by Subscription.

American Naturalist , In Exchange.

American Journal of Microscopy „

American Monthly Microscopic Journal ... „

Midland Naturalist „

8

Beale's How to Work with the Microscope.

Fifth Edition Purchased.

Hincks' British Marine Polyzoa „

Annals and Magazine of Natural History „

Quarterly Journal of Microscopical Science ,,

Grevillea „

Sundry Eeports and Proceedings of Societies and various Pamphlets.

The following donations liave been made to the Cabinet of
Objects : —

Mr. J. F. CocKEN

24

„ T. CURTIES ...

1

„ J. Deby

6

The Dinner Committee ...

20

Mr. F. Enock ...

3

„ H. Epps

3

„ H. Gibbes ...

2

„ H. F. Hailes

6

„ A. D. Michael

46

„ H. MORLAND

4

„ E. T. Newton

17

„ J. W. Reed

8

Dr. H. Stolterfoth

4

Mr. J. G. Tatem

1

„ F. Wood

1

146

Professor Rupert Jones has presented a portrait of the
late Professor Quekett.

The sum of £10 has been given by Miss Morrell as a
memorial of the late Mr. James Annett, one of the earliest
members of the Club. This sum has been expended in
apparatus for the Club Microscppe. Mr. Crouch, from whom
this apparatus has been purchased, has added a silver side
reflector as a donation.

9

Three numbers of the Journal have been published, con-
taining the communications and proceedings down to the
February meeting. Another number is nearly ready, which
will include the proceedings of April and May, and part of
those of June. In its future publication there will be no
avoidable delay; so that papers of interest communicated
to the Club may as speedily as possible find their way into
various British and Foreign publications of large circulation,
and become public property, while advancing the prestige of
the Club.

Your Committee have decided, with the approval of Mr.
Frank Crisp, to devote the greater part of his donation to the
purchase of some valuable books of reference, for which the
funds of the Club would not be properly applicable. A
portion of the fund will still be retained for its original pur-
pose, should the occasion arise for its appropriation in that
manner.

The meetings have been very well attended. On one of
the Conversational evenings ladies were admitted, and about
40 availed themselves of the opportunity of examining the
numerous and interesting objects exhibited by the members.
It will be a matter of consideration whether this experiment
can advantageously be repeated.

The Excursions during the past year, though going over
the old localities, have been pleasant and instructive ; and
show that one of the original features of the Club still proves
an attraction. It is to be wished that good lists of the micro-

10

scopic objects usually found in each locality could be pre-
pared by competent persons, and kept for reference and
comparison.

Your Committee avail themselves of the opportunity of
thanking the Treasurer, Secretaries, Reporter, Librarian,
and Curator, for their services to the Club during the past
year.

Your Committee look forward with confidence to the con-
tinuance of the present prosperity of the Club, and to a
wider extension of its career of usefulness in scientific in-
struction and research.

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HONOEAKY MEMBERS.

Date of Election.

Jan. 24, 1868 Arthur Mead Edwards, M.D. {President . of the
Newark Scientific Association), 120, Belleville
Avenue, Newark, New Jersey, U.S.A.

Mar. 19, 1869 Eev. E. C. Bolles, Salem, Mass., U.S.A.

July 26, 1872 S. 0. Lindberg, M.D., Professor of Botany, Uni-
versity of Helsingfors, Finland.

July 26, 1872 Prof. Hamilton L. Smith, President of Hobart
College, Geneva, New York, U.S.A.

July 26, 1872 J. J. Woodward, Assist. Surgeon, U.S. Army, War
Department, Surgeon General's Office, Wash-
ington, U.S.A.

July 23, 1875 Lionel S. Beale, M.B., F.E.S., F.E.M.S., &c.,
61, Grosvenor- street, W.

Sept. 22, 1876 Frederick Kitton, Hon. F.E.M.S., &c., 10, Hay-
market, Norwich.

July 25, 1879 W. B. Carpenter, C.B., M.D., F.E.S., &c., &c.,
56, Eegent's-park-road, N.W.

July 25, 1879 Dr. E. Abbe, University, Jena, Saxe Weimer,
Germany.

July 23, 1880 F. H. Wenham, C.E., 3, Gothic Villas, Warbeck
Eoad, Shepherd's Bush, W.

LIST OF MEMBEES

Date of Election.

Sept. M, 1869 Ackland, William, L.S.A., F.K.M.S., 416 Strand,
W.C.

June 25, 1880 Adams, Charles Albert, 33 Loughborough-park,
Brixton, S.W.

Nov. 28, 1879 Adams, Stephen C, 65 Blomfield-road, Maida-
hill, W.

June 23, 1876 Addis, W., 44 Herbert- street. New North-road,
Hoxton, N.

Nov. 27, 1868 Adkins, William, 268 Oxford-street, W.

Mar. 23, 1866 Allbon, W., F.K.M.S., 37 Gloucester-place, Port-
man- square, W.

April 25, 1879 Allen, Edward H., 17 Carlisle- street, W.

Jan. 25,1878 AUinson, John, M.E.C.S., Oxford- rd.,Walthamstow.

June 23, 1876 Allison, Charles, 71 Graham-road, Dalston, E.

July 26, 1872 Alstone, John, Fortis-green, N.

Dec. 17, 1869 Ames, George Acland, F.E.M.S., Union Club,
Trafalgar- square, W.C.

Sept. 25, 1868 Andrew, Arthur E., 1, St. George's- villas. Middle-
ton-road, Hornsey, N.

Dec. 22, 1865 Andrew, F. W., 3 Neville- terrace, Onslow-gardens,
S.W.

Aug. 22, 1879 Arch, A. J. E., 20 Sydenham-park, Sydenham,
S.E.

May 28, 1875 Arrowsmith, Wastell, 99 Adelaide road. Haver-
stock-hill, N.W.

July 25, 1879 Ashbridge, Arthur, 76 Leadenhall- street, E.G.

Sept. 27, 1878 Ashby, H. T., 8 Bartholomew-road, Kentish-town,
N.W.

Nov. 24, 1876 Atkins, Walter George, Mem. Soc. Eng., 62 Fleet-
street, E.C.

Dec. 22, 1865 Atkinson, John, 33 Brook-street, W.

14

Date of Election.

Feb. 26, 1869 Atkinson, Wm., F.L.S., 47 Gordon- square, W.C.

Jan. 24, 1879 Avery, Arthur, 40 Belsize-park, N.W.

July 23, 1875 Ayling, J. J., 37 Edward-st., Newington-butts, S.E.

June 26, 1874 Badcock, John, F.E.M.S., 278 Victoria-park- road,

South Hackney, E.
Dec. 27, 1867 Bailey, John W., 75 Broke-road, Dalston, E.
AprH 24, 1868 Baker, Chas., F.E.M.S., 244 High Holborn, W-C.
May 25, 1877 Baker, G. Levett, 15 Windsor-road, Denmark-hill,

S.E.
Feb. 25, 1876 Ballard, Dr. W. E., jun., 26 Manchester- square, W.
Jan. 24, 1879 Barham, Geo. Titus, Danehurst, Hampstead, N.W.
July 28, 1876 Barnard, Hy., 1 St. Peter's-road, De Beauvoir-

square, Kingsland-road, N.
Dec. 27, 1872 Barnard, Herbert, 33 Portland-place, W.
April 22, 1870 Barnes, Chas. Barritt, 4 Egremont-villas, White

Horse-lane, South Norwood, S.E.
Aug. 28, 1874 Barnett, E. W., The Larches, Penge-lane, Syden-
ham, S.E.
Sept. 27, 1872 Bartlett, Edward, jun., L.D.S., M.E.C.S.E., 40

Elgin-road, St. Peter's-park, W.
Oct. 26, 1877 Basevi, Col. G. H., Elm-lodge, Prestbury, Chel-
tenham.
Dec. 28, 1877 Batchelor, J. A., Avenue-road, Bexley, Kent.
May 22, 1874 Bate, George Paddock, M.D., F.E.C.S.E.,

F.E.M.S., 412 Bethnal Green-road, E.
July 26, 1878 Battersby, John, 61 Queen's-road, St. John's-

wood, N.W.
Mar. 27, 1874 Beach, Eichard, J., 59 Ashburton-grove, Lower

Holloway, N.
Jan. 25, 1878 Beaman, Geo. Hulme, 80 Moray-road, Tollington-

park, N.
May 28, 1869 Bean, Charles E., Brooklyn-house, Goldhawk-road,

SheiDlierd's-bush, W.
Feb. 28, 1879 Bear, John, 2 Birkbeck-grove, Acton, W.
Nov. 26, 1875 Beaulah, John, Bracken-hill, Brigg.
May 24, 1878 Beddard, Frank E., New College, Oxford.
May 26, 1871 Bedwell, Eras. Alfred, M.A., Cantab., F.E.M.S.,

Fort-hall, Bridlington- quay, Yorkshire.

15

Date of Election,

May 28, 1880 Bennett, Lionel C, 48, Ladbroke-grove-road, Not-
ting-bill, W.

Mar. 24, 1871 Bentley, Algernon Eoyds, 36 Portland-place, W.

Dec. 27, 1867 Bentley, C. S., F.E.M.S., Hazelville-villa, Sunny-
side-road, Hornsey-rise, N.

May 22, 1868 Berney, John, F.K.M.S., 61 North-end, Croydon.

Oct. 23, 1868 Bevington, W. A., F.E.M.S., 80 Avondale- square,
Old Kent-road, S.E.

Mar. 28, 1879 Bird, Fredk. EUiott, 36 Stockwell-road, Clapham,
S.W.

July 28, 1871 Bishop, Wm., 4 Whitley-villas, Caledonian- rd., N.

Feb. 23, 1866 Blake, T., 6 Charlotte-terrace, Brook- green. Ham-
mersmith, W.

Mar. 19, 1869 Blankley, Frederick, F.E.M.S., Brighthohn, Oak-
field-road, Upper ToUington-park, N.

July 27, 1877 Blenkinsop, Benj., 176, Queen Victoria-st., E.C.

May 26, 1876 BlundeU, Joseph, St. George's Club, 2 Savile-
row, W.

Jan. 25, 1878 Bogue, David, F.E.M.S., 3 St. Martin's-place,
Trafalgar- square, W.C.

Jan. 22, 1875 Bolton, Thos., F.E.M.S., 17 Ann-st., Birmingham.

Jan. 24, 1879 Bond, E. C. C, 36 Keppel-st., Eussell-sq., W.C.

May 23, 1879 Bonser, Edward, 51 St. Augustin's-road, Camden-
square, N.W.

Ai)ril 22, 1870 Bossy, Alfred Horsley, Walton-lodge, 118 Stoke
Newington-road, N.

Jan. 28, 1876 Bowcher, W., 6 Brownswood- villas, Stroud Green-
road, N.

Oct. 27,1865 Braithwaite, E., M.D., M.E.C.S.E., F.L.S.,
F.E.M.S., The Ferns, 303 Clapham-road, S.W.

May 25, 1877 Bramhall, Eev. John, E.D., Terrington St. John's,
near Lynn, Norfolk.

June 28, 1878 Brewster, W., 25 Myddelton- square, E.C.

May 26, 1876 Brigstock, John Wm., 4 Comberton-road, Upper
Clapton, E.

May 27, 1870 Brown, George Dransfield, M.E.C.S., Henley- villa,
Uxbridge-road, Ealing, W.

Sept. 26, 1879 Brown, Wm., B. Sc, 16 Blythwood-road, Crouch-
end-hill, N.

16

Date of Election.

May 22, 1868 Brown, W. J., 4 Marlborough- terrace. Maple-road,

Penge, S.E.
May 26, 1871 Browne, George, 45 Yictoria-road, Kentish-town,

N.W.
May 28, 1875 Browne, J. W., Frascati, Mason's-hill, Bromley,

Kent.
Feb. 27, 1872 Browne, Eev. Thomas Henry, F.E.M.S., F.G.S.,

M.E.S., High Wycombe, Bucks.
Jan. 23, 1880 Browne, Wm. Kobert, 90 Morton- rd., Islington, N.
Jan. 26, 1877 Buffham, T. Hughes, 2 Connaught-road, Walt-

hamstow.
Sept. 27, 1872 Bugby, Wm., 2 Grange-park-gardens, Ealing-

common, W.
Aug. 22, 1879 Burton, Wm., 27 Wigmore- street, W.
Sept. 27, 1872 Bush, Wm., Hanworth-house, Hanworth.
May 23, 1879 Button, Arthur, 123 Brecknock-road, N.W.
Aug. 24, 1877 Buxton, A. St. Clair, M.E.C.S., L.E.C.P., L.M.,

17 Stowe-road, Shepherd's-bush, W.
June 14, 1865 Bywater, Witham M., F.E.M.S., 5 Hanover-sq.W.

Nov. 22, 1878 Cafe, James Watt, 46 Clifton-hill, St. Jolm's-wood,

N.W.
June 25, 1880 Cambridge, John, Bury St. Edmund's, Suffolk.
Sept. 22, 1876 Canton, Fredk., L.E.C.P., M.E.C.S., &c., 17 Great

Marlborough-street, Eegent- street, W.
Dec. 17, 1875 Caplatzi, A., 1 North- crescent, Bedford- square,

W.C.
May 23, 1879 Carpenter, H. S., F.E.M.S., Beckington-house,

Weighton-road, Anerley, S.E.
July 23, 1880 Carr, Ebenezer, Conrad-villa, Windsor-road, Den-
mark-hill, S.E.
May 22, 1874 Carruthers, Herbert.
Jan. 23, 1880 Cassidy, Joseph Lamont, M.D., 82 Guildford- st.,

Eussell- square, W.C.
May 26, 1871 Catchpole, Eobert, 10 The Mall, Ealing, W.
April 25, 1879 Cazaux, Denis B., F.E.M.S., 61 Finsbury-park-

road, N.
April 25, 1879 Chantrell, George F. (V.P. and laic Prcs. Liverpool

Mic. Soc), 1 St. James's-mount, Liverpool.
Dec. 27, 1878 Chatto, Andrew, 214 Piccadilly, W.

17

Date of Election.

Oct. 22, 1875 Clieshire, F., Avenue-house, Acton, W.

Nov. 27, 1874 Chippinclale, Geo., Grape-villa, Eotliscliild-road,
TurnLam- green, W.

Mar. 24, 1876 Clarkson, A., 49 Soutliarupton- street, Pentonville-
roacl, N.

May 22, 1874 Clayton, James, 25 Hemingford-road, Islington, N.

Oct. 25, 1878 Clifford, Kev.H.M.,M.A., 43 Onslow-gardens,S.W.

July 25, 1879 Cobbold, T. Spencer, M.D., F.E.S., F.L.S. {Vice-
President), 74 Portsdown-road, Maida-vale, W.

May 22, 1868 Cocks, W. G., 36 Gayliurst-road, Dalston, E.

Sept. 22, 1876 Cole, Arthur, C, F.K.M.S., St. Domingo-house,
Oxford- gardens, Notting-hill, W.

Nov. 27, 1874 Cole, B. G., Laurel-cottage, King's-place, Buck-
hurst-hill, Essex.

April 24, 1874 Cole, Wm., M.E.S., Laurel- cottage, King's-place,
Buckhurst-hill, Essex,

Jan. 25, 1867 Coles, Ferdinand, F.L.S. , 18 Brooks-road, Stoke
Newington- common, N.

Mar. 24, 1876 Colsell, Geo. Dannett, 5 Austin-friars, E.G.

Feb. 23, 1872 Colvin, Alexander, Beaconside, Penrith, Cumber-
land.

Sept. 27, 1872 Connolly, Charles, T., L.S.A., 3 Church-hill- villas.
Wood- green, N.

June 14, 1865 Cooke, M. C, M.A., LL.D., A.L.S. {Vice-President,
Hon. Sec. for Foreign Corresjjondence) , 2 Gros-
venor- villas. Junction-road, Upper Holloway, N.

Feb. 22, 1867 Cooper, Frank W.,L.K.C.S.Edin.,Leytonstone,E.

June 27, 1873 Corbett, Alfred L., 103 Fentiman-road, Clapham-
road, S.W.

May 28, 1869 Cottam, Arthur, F.K.A.S., H.M. Office of Woods,

Whitehall-place, S.W.-
Jan. 28, 1876 Cotton, Thos., M.D., 214 Seven-sisters'-road, N.

July 26, 1872 Cowan, Thos. Wm., F.G.S., F.E.M.S., Compton
Lea, Horsham, Sussex.

May 25, 1877 Coxhead, Albert C, 47 Russell- square, W.C.

Nov. 28, 1879 Crighton, Arthur J., Farncombe-villa, Godalming.

Aug. 28, 1868 Crisp, Frank, LL.B., B.A.Lond., F.L.S. {Hon. Sec.
Royal Microscopical Society), 5 Lansdowne-road,
Notting-hill, W.

18

Date of Election,

Dec. 23, 1870 Crisp, John S., F.E.M.S., AshviUe, Lewin-road,

Streatham, S.W.
July 26, 1878 Crockford, Wm., 2 St. Peter's-road, Mile-end, E.
Aug. 24, 1877 Croft, E. C, M.D., 204 Camden-road, N.W.
Feb. 23, 1877 Crofton, Edward, M.A. Oxon., F.E.M.S., 45 West

Cromwell-road, South Kensington, S.W.
Sept. 28, 1866 Crouch, Henry, F.E.M.S., 66 Barbican, E.C.
June 22, 1877 Cunliffe, P. G., F.E.M.S., The Elms, Handforth,

Manchester.
Nov. 26, 1875 Cunningham, Francis Bertram, 8 Durham-terrace,

Westbourne-park, W.
June 25, 1880 Curties, Charles Lees, 244 High Holborn, W.C.
May 25, 1866 Curties, Thos., F.E.M.S., 244 High Holborn,

W.C.
June 25, 1880 Curties, Walter Irvin, 244 High Holborn, W.C.
Sept. 26. 1879 Curtis, Charles, 29 Baker- street, Portman-sq., W.
Aug. 22, 1879 Cuttell, G. F., 52 New Compton- street, Soho, W.C.

Jan. 22, 1875 Dadswell, Edward {Hon. Sec. S. Lond. Mic. and Nat.

Hist. Soc), 42 Barrington-road, Stockwell, S.W.
Nov. 23, 1877 Dallas, Wm. S., F.L.S., &c.. The Geological

Society, Burlington-house, Piccadilly, W.
May 23, 1879 Dallmeyer, Thos. E., 19 Bloomsbury- street, W.C.
Mar. 22, 1878 Darby, The Yen. Archdeacon, St. Bridget's Eectory,

Chester.
Mar. 22, 1878 Darke, Edward, 2 Breclmock- crescent, Camden-
road, N.W.
May 23, 1874 Davey, Eobert F., War Office, Pall-mall, S.W.
Oct. 22, 1869 Davis, Henry, 19 Warwick-street, Leamington.
May 23, 1879 Dawson, Wm., 24 Abbeygate- street, Buiy St.

Edmunds, Suffolk.
May 28, 1875 Dean, Arthur, 11 Caxton- street, Addington-road,

Bow, E.
Feb. 23, 1877 Death, James, Jun., 38 Gladstone-street, St.

George's-road, Southwark, S.E.
Feb. 28, 1879 Debenham, Edw. H., 9 Mincing-lane, E.C.
Jan. 24, 1879 Deby, Julien, C.E., F.E.M.S., 75 Holland-road,

Kensington, W.
May 28, 1875 Defriez, Joseph George, M.E.C.S., L.S.A., 173

Bethnal-grecn-road, E.

19

Date of Election.

Feb. 23, 1877 Delferier, Wm. Adi-ien, 15 Penywern-road, South
Kensington, S.W.

Nov. 24, 1876 Despointes, Francis, 16 St. George's-square,
Eegent's-park-road, N.W.

June 26, 1868 Dickens, Charles, Latimer-house, Hadley, Mid-
dlesex.

Jan. 28, 1876 Dillnot, Geo., Hayling, Havant, Hants.

May 23, 1879 Dixon, Wm. Fras., 18 University- street, W.C.

Nov. 24, 1865 Dobson, H. H., F.K.M.S., Holmesdale, Grange-
park, EaHpg, W.

Nov. 27, 1868 Douglas, Eev. E. C, Manaton-rectory, Moreton-
hampstead, Exeter.

Oct. 25, 1878 Dowler, Captain F. E., Naval and Military Club,
Piccadilly, W.

Jan. 23, 1880 Dowsett, Geo. Harris, 38 Egerton-road, Black-
heath-road, S.E.

Nov. 22, 1878 Drayton, H. F. Ernest, Horton-house, Beckenham,
Kent.

July 28, 1871 Drew, G. C, Milton-house- school, Clapton-com-
mon, S.E.

July 25, 1879 Driver, Alfred, 8 Victoria-chambers, Westminster,
S.W.

Aug. 26, 1872 Dudgeon, E. E., M.D., 53 Montagu- square, W.

Oct. 25, 1872 Dunning, Chas. G., 22 Oseney- crescent, Camden-
road, N.W.

Sept. 22, 1865 Durham, Arthur E., F.E.C.S., F.L.S., F.E.M.S.,
&c., 82 Brook- street, Grosvenor- square, W.

Jan. 24, 1879 Easty, Chas. Wm., 19 Edith-road, St. Mary's-

road, Peckham, S.E.
Sept. 25, 1868 Eddy, James Eay, F.E.M.S., F.G.S., The Grange,

Carleton, Skipton, Yorkshire.
June 28, 1867 Edmonds, E., 178 Burrage-road, Plumstead, S.E.
May 26, 1876 Emery, Charles {Hon. Curator), 6 Laburnam-

cottages, Middle-lane, Crouch-end, N.
May 26, 1871 Enock, Fredk., 30 Eussell-road, Seven Sisters'-

road, N.
Feb. 28, 1879 Epps, Hahnemann, West-house, North-end, Hamp-

stead, N.W.

20

Date of Election.

Dec. 27^ 1878 Erlebacli, H. A., Mill-hill- scliool, Mni-hiU, N.W.

Dec. 17, 1875 Fames, Thomas, F.C.S.

July 25, 1873' Fase, Eev. H. J., 5 Bessborough- gardens, S.W.

June 25, 1875 Faulkner, Hy., jun., Fermvoocl, Koehampton-park,
S.W.

Jan. 28, 1876 Faulkner, John, 2 Mornington- crescent, N.W.

Feb. 27, 1880 Fieldwick, Alfred, jun., 288 Dalston-lane, Hack-
ney, E.

July 26, 1867 Fitch, Frederick, F.K.G.S., F.K.M.S., Hadleigh-
house, Highbury New-park, N.

Nov. 28, 1879 Forster, Wm., jun., Cleveland-road, Woodford,
Essex.

Mar. 24, 1871 Foulerton, J., M.D., Scientific-club, 4 Savile-
row, W.

July 26, 1878 Fowke, Francis, F.E.M.S., 40 Nottingham-place, W.

Dec. 28, 1866 Fox, C. J., F.E.M.S., 26 South Molton- street,
Oxford- street, W.

Nov. 26, 1875 Freckelton, Eev. T. W., F.E.M.S., 28a Lonsdale-
square, Islington, N.

Jan. 23, 1880 Freeland, Fredk. John, M.E.C.S., J.P., The
Infirmary, Chichester.

June 23, 1871 Freeman, Henry E., 1 Templeton-road, Finsbury-
park, N.

Feb. 26, 1869 Fricker, C. J., 4 Westow-hill-terrace, Upper Nor-
wood, S.E.

May 22, 1868 Fryer, Geo. H., 82 Belsize-road, N.W.

July 23, 1880 Funston, James, 93 Finsbury-pavement, E.G.

Oct. 26, 1868 Furlonge, W. H., Eossiter-house, Balham, S.W.

Mar. 25, 1870 Garden, Eobert Sprmg, 42 Carlton-hill, St. John's-
wood, N.W.

May 25, 1866 Gardiner, G., F.M.S., 23 St. Paul's-road, N.W.

Feb. 26, 1875 Gardner, Edmund, 454 Strand, W.C.

July 27, 1877 Gardner, J. H., A.K.C., Eoyal Polytechnic Insti-
tution, Eegent- street, W.

April 24, 1868 Garnham, John, F.E.M.S., 123 Bunhill-row, E.G.

April 23, 1880 Gates, G. W. H., 21 Lombard- street, E.G.

July 7, 1865 Gay, F. W., F.E.M.S. {Hun. Treasurer), 113 High
Holborn, W.C.

21

Date of Election.

Jan. 28, 1870 Gellatly, Peter, Longliton, Essex.

June 25, 1880 George, C. F., M.E.C.S., Kirton-in-Lindsey, Lin-
coln sliire.

July 26, 1867 George, Edward, F.R.M.S., 12 Derby- villas, Forest-
hill, S.E.

April 26, 1878 Gibbins, G. W., 44 Parkfield- street, Islington, N.

July 22, 1870 Gibson, Joseph F., F.R.M.S., Clovelly, Wood-
church- road, -West HampsteLd, N.W.

June 14, 1865 Gibson, W., 3 Bridge- street, Westminster, S.W.

April 27, 1877 Gilbertson, Henry, Mangrove-house, Hertford.

Oct. 27, 1876 Gilburt, W. H., F.R.M.S., 48 Wetherell-road, South
Hackney, E.

June 27, 1873 Glasspoole, Hampden G., 34 Bernard- st., Piussell-
square, AV.C.

Feb. 25, 1876 Godwin, John, 219 Brompton-road, S.W.

Nov. 22, 1872 Goodchild, J. E., Prospect-hill-lodge, Waltham-
stow, E.

Nov. 28, 1879 Goodinge, Alfred Charles, 18 Aldersgate-st., E.G.

April 26, 1872 Goodinge, James Wallinger, F.R.G.S., F.R.M.S.,
18 Aldersgate-street, E.G.

Nov. 23, 1877 Goodwin, Wm., 93 Birkbeck-road, Hornsey-rise, N.

Mar. 27, 1866 Gray, S. Octavus, Bank of England, E.G.

Dec. 22, 1865 Gray, W. J., M.D., F.R.M.S., 41 Queen Anne-
street, Cavendish-square, W.

Nov. 27, 1874 Grayling, J. Francis, Sittingbourne, Kent.

May 22, 1874 Green, G., 6 Helmet-row, St. Luke's, E.G.

Jan. 28, 1870 Green, Nathaniel E., F.Pi.A.S., 39 Circus-road,
St. John's-wood, N.W.

Aug. 22, 1879 Greenhough, D. W., F.R.M.S., South-bank, Break-
speare-road, Lewisham-high-road, S.E.

Oct. 23, 1868 Greenish, T., F.S.M.S., 20 New-street, Dorset-
square, N.W.

Oct. 23, 1868 Gregory, Henry E., 1 Wellington- square, King's-
road, Chelsea, S.W.

May 22, 1874 Grey, Ernest, 290 Essex-road, Islington, N.

July 24, 1868 Groves, James William, F.R.M.S., 15 Carlyle-
square, Chelsea, S.W., and Physiological Labora-
tory, King's College, W.C.

May 28, 1880 Groves, WilHam, 28 Manor-park, Lee, S.E.

22

Date of Election.

July 24, 1868 Grubbe, E. W., C.E., 73 Eedcliffe- gardens, S.W.
Jan. 27, 1871 Guimaraens, Augustus de Souza, F.E.M.S., 50
Lowden-road, Herne-bill, S.E.

Aug. 24, 1877 Habirshaw, Fredk., F.E.M.S., 6 West 48th-street,
New York, U.S.A.

Aug. 24, 1877 Habirshaw, John, M.D., F.K.M.S., 6 West 48th-
street. New York, U.S.A.

Jan. 23, 1874 Hadland, J. H., 11 King William- street, E.G.

Sept. 28, 1877 Hagger, John, Eepton-school, Burton-on- Trent.

June 14, 1865 Hailes, Henry F., 4 Westfield-road, Hornsey, N.

Aug. 26, 1870 Hailstone, Eobert H., 91 Adelaide-road, N.W.

Feb. 23, 1867 Hainworth, W., jun., Clare- villa, Cricketfield-road,
Lower Clapton, E.

July 28, 1876 Halford, Edwd., 18 Leinster- square, Bayswater, W.

Dec. 28, 1866 Hallett, E. J., 123 Seymour-st., Euston-sq., N.W.

Nov. 26, 1875 Halley, Alex. Hay, 7 Elgin-road, Kensington-
park, W.

Mar. 28, 1879 Hallowes, Eras., F.E.G.S., F.Z.S., Scientific Club,
Savile-row, W.

Feb. 22, 1869 Hammond, A., F.L.S., 13 Eock Mount-road, Cen-
tral-hill, Norwood, S.E.

June 25, 1880 Hancock, H. S. H., 93 Aden-grove, Stoke New-
ington, N.

Jan. 24, 1879 Harding, Burcham, 128 Adelaide-road, N.W.

July 23, 1880 Hardingham, Arthur Shortridge, 3 Serjeant's-inn,
Chancery-lane, E.C.

July 25, 1879 Hardingham, George Gatton, F.E.M.S., 33 St.
George's-square, S.W.

Jan. 23, 1874 Hardy, James Daniel, 73 Clarence-road, Clapton, E.

Sept. 28, 1866 Harkness, W., F.E.M.S., Laboratory, Somerset-
house, W.C.

May 23, 1879 Harris, C. J., M.E.C.S., L.S.A., 11 Kilburn- priory,
N.W.

June 23, 1871 Harris, Edward, F.E.M.S., Eydal-villa, Longton-
grove. Upper Sydenham, S.E.

Jan. 25, 1878 Harrison, D. H., Argyll- villas. Mattock- lane,
Ealing, W.

April 23, 1875 Harrison, James, 150 Akcrman-road, North
Brixton, S.W.

23

Date of Election,

July 26, 1872 Harrod, John, Mark-lane- square, E.G.

Jan. 26, 1877 Harvey, G., 45 High-street, Kensington, W.

Mar. 28, 1879 Hawkins, C. E., H.M. Geological Survey, Jermyn-
street, S.W.

June 24, 1870 Hawkins, S. J.

June 28, 1867 Hawksley, Thos. P., 97 Adelaide-road, N.W.

Sept. 28, 1877 Headley, Kobt., F.E.G.S., 44 Walham- grove,
Walhani- green, S.W.

Aug. 23, 1872 Hembry, F. W., F.K.M.S., 150 Stockwell-park-road,
Brixton, S.W.

June 26, 1868 Henry, A. H., 73 EedcHffe- gardens, S.W.

June 26, 1874 Hewitt, W. W., F.R.M.S., 5 Torriano-gardens,
Camden-road, N.W.

May 22, 1868 Hicks, J. J., 8 Hatton- garden, E.G.

June 22, 1877 Hill, R. W., 41 Lothbury, E.G.

Sept. 24, 1869 Hilton, T. D., M.D., Upper Deal, Deal, Kent.

Sept. 28, 1866 Hind, F. H. P., Bartliolomew-house, Bartholomew-
lane, E.G.

May 22, 1874 Hind, George, 244 High Holborn, W.G.

July 26, 1872 Hinton, Ernest.

Aug. 26, 1870 Hirst, John, F.R.M.S., Ladcastle, Dobcross, Man-
chester.

Sept. 26, 1879 Hobden, Horace, St. Bartholomew's Hospital, E.G.

Feb. 26, 1875 Holford, Ghr., Bounty-office, Dean's-yard, West-
minster, S.W.

Jan. 23, 1880 Holland, Chas. Fredk., 14 Wayland- avenue, Sand-
ringham-road. Hackney, E.

April 26, 1867 Hooton, G., Sunningdale-house, Bickerton-road,
Upper Holloway, N.

May 22, 1868 Hopkmson, John, F.L.S., F.G.S., F.M.S. {Hon.
Sec. Hertfordshire Nat. Hist. Soc.\ Wansford-
house, Watford.

April 28, 1876 Horn, Wm. E., A.I.G.E., 10 Vincent - square,
Westminster, S.W.

Oct. 26, 1866 Horncastle, H., Whitemoor-house, near Ollerton,
Notts.

June 25, 1869 Houghton, W., Hoe-street, Walthamstow, E.

May 22, 1874 Hovenden, G. W., F.R.M.S., 95 Gity-road, E.G.

April 26, 1867 Hovenden, F., F.E.MS., Glenlea, Thurlow-park-
road, Dulwich, S.E.

24

Date of Election.

June 23, 1876 How, Wm. Samuel, 75 Great Portland- street, W.

Oct. 27, 1876 Howard, D., 60 Belsize-park, N.W.

Jan. 22, 1875 Howard, F. W., The Grove, Teddington.

Oct. 25,1878 Howling, W.E., Crowley's Brewery, Alton, Hants.

Feb. 25, 1870 Hudleston, W. H., J.P., F.G.S., 23 Cheyne-walk,

S.W.
Feb. 28, 1879 Hudson, C. T., M.A., LL.D. Cantab., V.P.E.M.S.,

Manilla Hall, Clifton, Bristol.
Jan. 26, 1872 Hudson, Eobert, F.E.S., F.L.S., F.R.M.S., &c.,

Clapliam- common, S.W.
Nov. 28, 1879 Hughes, E. J., L.E.C.P., L.E.C.S., L.M., 15

Queen' s-road, Finsbury-park, N.
Jan. 23, 1880 Hunt, Fredk., York-lodge, Stamford- hill, N.
Dec. 28, 1866 Hunt, W. H. B., F.E.M.S., 23 Eversholt- street,

Oakley- square, N.W.
Dec. 22, 1876 Hunter, J. J., 20 Cranbourne- street, W.C.
July 25, 1873 Hurst, John Thomas, Eoyal Engineer Office,

Portsmouth.
Nov. 25, 1870 Hutton, Eev. Wyndham M., Hungarton Vicarage,

Leicester.
June 28, 1878 Huxley, Prof. T. H., F.E.S., &c., Science Schools,

South Kensington, S.W.

May 24, 1867 Ingpen, J. E., F.E.M.S. {Hon, Secretary), 7 The

Hill, Putney, S.W.
May 23, 1879 Isaac, Thos., Maldon, Essex.
Aug. 22, 1873 Israel, S., 18 Stepney-green, Mile-end-road, E.

Dec. 17, 1869 Jackson, B.D. {Hon. Sec. Linnean Society), F.E.M.S.,

30 Stockwell-road, S.W.
Dec. 17, 1875 Jackson, C. L., F.Z.S., F.E.M.S., Hill Fold,

Sharpies, Bolton.
July 24, 1868 Jackson, F. E., Culver- cottage, Slindon, Arundel,

Sussex.
June 25, 1880 Jacques, Walter, 2 Fenchurch- buildings, E.C.
June 14, 1865 Jaques, Edward, B.A., F.E.M.S., H.M. Office of

Woods, Whitehall-place, S.W.
Feb. 28, 1873 Jenkins, J. W., 1 St. Johu's-hill, Wandsworth,

S.W.

25

Date of Election.

July 24, 1868 Jennings, Kev. Nathaniel, M.A., F.E.A.S., 1 Grove-
terrace, Higiigate-road, N.W.

Jan. 25, 1867 Johnson, John A., 15 Wellington-road, Stoke
Newington, N.

Feb. 24, 1871 Johnson, M. Hawkins, F.K.M.S., F.G.S., 379
Enston-road, N.W.

June 23, 1876 Johnson, Tom Eichard.

Feb. 23, 1877 Johnston, J. M. C, 161 Grove-lane, Camberwell,
S.E.

Mar. 24, 1871 Johnstone, James, Stanhope-lodge, Bideford.

Oct. 25, 1872 Jones, E. W., F.E.A.S., F.E.M.S., 53 Cowley-road,
North Brixton, S.W.

Feb. 28, 1873 Jones, Geo. J., 50 Loughborough-road, Stockwell,
S.W.

June 25, 1875 Jones, J. Birdsall, F.E.M.S., The Athen^um,
Liverpool.

Nov. 25, 1870 Jones, Lieut. -Col. Lewis, St. Bernards, Maple-
road, Surbiton.

May 23, 1873 Jones, Captain Loftus F., United Service Club,
Pall Mall, S.W.

June 23, 1876 Jones, Thomas E., 46 Park- street. Stoke New-
ington, N.

May 22, 1874 Jon&s, W. W., 14 Lancaster- street, Lancaster- gate,
Hyde-park, W.

May 23, 1873 Karop, Geo. C, M.E.C.S., &c , 198 Holland-road,
Kensington, W.

Dec. 27, 1878 Kellow, Frank C, Commercial-road, Guildford.

Aug. 23, 1867 Kiddle, Edward, The War Office, Pall Mall, S.W.

Mar. 19, 1869 Kilsby, Thomas W., 4 Brompton- villas, Edmonton.

Dec. 23, 1870 King, Eobert, F.E.M.S., Fern-house, Upper Clap-
ton, E.

May 24, 1878 King, Wm. Talbot, M.D., M.E.C.S., 74 Yictoria-
X^ark-road, South Haclmey, E.

April 26, 1867 Kirk, Joseph, 11 Blossom- st., Norton Folgate, E.

Nov. 27, 1874 Kirkman, Eev. Joshua, Thurlow-road, South
Hampstead, N.W.

Feb. 28, 1873 Kitsell, Francis J., 7 John's-terrace, Latymer-
road, W.

26

Date of Election.

Mar. 23, 1877 Kluht, H. J., 42 Westbourne-grove, Bayswater, W.
Oct. 24, 1873 Knight, John Mackenzie, 50 Bow-road, E.

Nov. 25, 1870 Ladd, Wm., F.R.A.S., F.R.M.S., 12 Beak-street,
Regent- street, W.

Nov. 23, 1866 Lambert, W., 1 New Broad-street, E.G.

Jan. 24, 1879 Lancaster, Arthur H., 7 Campden-hill-gardens,
Kensington, W.

Mar. 22, 1867 Lancaster, Thos., Bownham-house, Stroud, Glou-
cestershire.

May 25, 1877 Lane-Fox, Hon. Sackville F. H.

May 28, 1875 Larkin, John, 24 Charterhouse- square, E.G.

May 28, 1875 Laws, Joseph G., 41 St. John's-park, Upper Hol-
loway, N.

June 25, 1869 Layton, Gharles E., 12 Upper Hornsey-rise, N.

Aug. 28, 1868 Leaf, C. J., F.L.S., F.E.M.S., &c. {President of the
Old Change Microscopical Society), Old Ghange,
E.G.

Mar. 19, 1869 Lee, Henry, F.L.S., F.R.M.S., &c., Ethelbert-
house, Margate.

May 27, 1874 Leefe, Frederick Ewbank, 289 Goswell-road, E.G.

June 23, 1876 Leeson, Herbert Seymour, 4 Old- buildings, Lin-
coln's-inn, W.G.

Oct. 25, 1867 Leifchild, J. R., M.A., 21 St. Lawrence-road,
Notting-hill, W.

Sept. 22, 1865 Leighton, W. H., 2 Merton-place, Ghiswick, W.

July 25, 1873 Le Pelley, G., 17 Underwood- street. Shepherdess-
walk, Hoxton, N.

April 27, 1866 Lewis, R. T., F.R.M.S. {Hon. Beporter), 1 Lowndes-
terrace, Knightsbridge, S.W.

June 26, 1868 Lindley, W., jun., 29 Blittersdorffs Platz, Frank-
fort-on-Maine.

May 26, 1871 Locke, John, 16 Georgiana- street, Gamden-town,
N.W.

April 23, 1869 Long, Henry, 90 High- street, Groydon.

Nov. 24, 1866 Lovibond, J. W., F.R.M.S., St. Anne-street, Salis-
bury.

Sept. 22, 1865 Lovick, T., 53 Queen's- crescent, Haverstock-hill,
N.W.

27

Date of Election.

Dec. 18^1868 Lowne, B. Thompson, F.R.C.S., F.L.S., F.Z.S.,
65 Cambridge-gardens, Bayswater, W.

April 27, 1866 Loy, W. T., F.B.M.S., Garrick- chambers, 11
Garrick- street, W.C.

Nov. 23, 1866 Mclntire, S. J., F.B.M.S., 14 Hettley-road, Ux-
bridge-road, Shepherd's-bush, W.

Jan. 26, 1872 Mackechnie, J. Hamilton, M.D., 60 Wimpole-
street. Cavendish- square, W.

Jan. 23, 1880 Mackenzie, James, Warden-villa, Uxbridge-road,
Eahng, W.

June 28, 1878 Magor, John Bernard, L.D.S., 24 Chapel- street,
Penzance.

July 26, 1874 Magor, Thomas, M.D., Myddelton-rd. , Hornsey, N.

Feb. 28, 1879 Mann, James H.

Sept. 27, 1872 Manning, H.E. the Cardinal Archbishop, Arch-
bishop's House, Westminster, S.W.

Jan. 23, 1880 Martin, Francis, B.N., H.M.S. "Hydra," Sheerness.

Sept. 22, 1876 Martin, W. H., 11 Markham- square, Chelsea, S.W.

Dec. 27, 1867 MartineUi, A., 106 Albany- street, N.W.

Dec. 27, 1878 Martiney, M. G., 11 Castlenau-gardens West,
Barnes, S.W.

April 26, 1867 Matthews, G. K., St. John's-lodge, Beckenham,
Kent.

Oct. 26, 1866 Matthews, John, M.D., F.E.M.S. {Vice-Presidmt),
30 Colebrooke-row, Islington, N.

Jan. 26, 1877 Matthews, Wavell, 12 Wigmore- street, W.

Sept. 24, 1869 Matthews, WilUam, 374 Camden-road, N.

May 26, 1871 May, John William, F.E.M.S., Arundel-house,
Percy- cross, Fulham, S.W.

Feb. 27, 1874 May, Lewis J., 371 Holloway-road, N.

Dec. 17, 1875 May, Thomas, 14 Smirk's-road, Old Kent-rd., S.E.

Feb. 25, 1876 May, W. R., 69 St. Mark's- square, Dalston, E.

Mar. 22, 1867 Meacher, John W., 10 Hillmarten-road, Camden-
road, N.

Feb, 28, 1879 Menzies, James, 13 Leighton-grove, N.W.

May 22, 1874 Messenger, G. A., 21 Glengall-grove, Old Kent-
road, S.E.

Dec. 18, 1868 Mestayer, Richard, F.L.S., F.E.M.S., 7 Buckland-
crescent, Belsize-park, N.W.

28

Date of Election.

July 27^ 1877 Michael, Albert D., F.L.S., F.E.M.S., 3 & 4 Great
Winchester- street, E.C.

May 28, 1880 Miles, Andrew, 185 Camclen-grove, Pecldiam, S.E.

July 7, 1865 Millett, F. W., F.E.M.S., 13 Milner- square, Is-
lington, N.

May 25, 1866 Moginie, W., F.E.M.S., 26 Lichfield-grove, Finch-
ley, N.

Jan. 23, 1874 Moreland, Kichard, jun., M.I.C.E., F.E.M.S., 4
The Quadrant, Highbury, N.

July 26, 1878 Morland, Henry, Cranford, near Hounslow.

Oct. 27, 1866 Morrieson, Colonel E., F.E.M.S., Oriental Club,
Hanover- square, W.

Dec. 27, 1876 Morris, J. Griffith, M.E.C.S., 135 St. Owen-street,
Hereford.

Oct. 27, 1876 Morris, W. G., L.D.S., 12 White-friars, Chester.

Nov. 23, 1877 Morten, T. S., 42 Haverstock-hill, N.W.

Jan. 24, 1879 Murray, James, Osborne-house, 50 Percy-road,
Shepherd's-bush, W.

Jan. 25, 1867 Murray, E. C, 69 Jermyn-st., St. James's, S.W.

Mar. 23, 1866 Nation, W. J., 30 King-square, Goswell-road, E.C.

Feb. 22, 1878 Needliam, S. H., F.E.G.S., F.G.S., 5 Mecklenburg-
street, Mecklenburg- square, W.C.

Mar. 24, 1876 Nelson, Edward M., 9 Marlborough-hill, N.W.

Mar. 24, 1871 Nelson, James, 3 Oakden- street, Kennington road,
S.E.

Feb. 28, 1879 Nesbitt, Henry, 12 Victoria- villas, Kilburn, N.W.

May 23, 1879 Newcombe, Prout, Northcote, East Croydon.

Nov. 23, 1877 Newth, A. H., M.D., Scientific Club, 4 Savile-
row, W.

Jan. 26, 1872 Newton, Edwin Tulley,F.G.S., Geological Museum,
Jermyn- street, S.W.

Feb. 27, 1880 Niven, George, 41 Albert-road, Finsbury-park, N.

May 22, 1874 Nixon, Philip Charles, Oporto.

Aug. 24, 1877 Gates, Parkinson, M.D., L.S.A., M.E.C.S., 48

Lupus- street, S.W.
Jan. 24, 1879 Offord, John Milton, 31 Hereford- square, S.W.
Dec. 22, 1876 Ogilvy, C. P., F.L.S., Sizcwcll-house, Leiston, near

Saxmundham, Suffolk.

29

Date of Election.

May 24^1878

O'Hara, Lt.-Col. Eicliard, F.E.M.S. (late Eoyal

Artilleiy), West-lodge, Galway.
1877 Oswin, Frederick, F.S.A., 10 Gower-street, W.C.
1867 Oxley, Frederick, F.E.M.S., 8 Crosby- square, Bis-

hopsgate- street, E.G.

1879 Palmer, Greville H., 95 Cornwall- gardens, S.W.

1874 Palmer, Thomas, B.Sc, F.E.M.S., Holme Lee,

Lower Camden, Chisleliurst, Kent.

1871 Parsons, Fred. A., 90 Leadenhall- street, E.C.
1877 Partridge, Tlios., M.D., Stroud, Gloucestershire.

1875 Peal, C. N., Fernhurst, Mattock-lane, Ealing, W.
1874 Pearce, George Alonzo Creech, B.A., M.B., B.C.N.,

26 Gracechurch- street, E.C.
1867 Pearce, George, Villa Helvetia, Tufn ell-park, N.

1872 Pearce, W. E. Grindley, L.E.C.P., 24 Bessborough-

gardens, S.W.

1877 Pearcy, AKred Copley, 31 Packington- street,

Islington, N.
1867 Pearson, John, 212 Edgware-road, W.

1876 Perry, George, 82 Finborough-road, South Ken-

sington, S.W.

1865 Pickard, J. F., 195 Great Portland- street, W.
1879 PHcher, Wm. John, F.E.C.S., &c., Boston, Lin-
colnshire.

1869 Pillischer, M., F.E.M.S., 88 New Bond-street, W.
1871 Pitts, Frederick, Harvard-house, St. John's-hill,
Clapham, S.W.

1878 Plomer, Geo. Danl., F.E.M.S., 48 Springfield-road,

St. John's- wood, N.W.

1877 Pocklington, Henry, F.E.M.S., Cedar-grove, Arm-

ley, Leeds.

1866 Potter, George, F.E.M.S., 42 Grove-road, Hol-

loway, N.

1878 Potts, E. A., 26 South Audley- street, W.
1866 Powe, I., 71 George- street, Eichmond, SuiTey.
1866 Powell, Hugh, F.E.M.S., 170 Euston-road, N.W.

1879 Powell, Hugh Peter, The Butts, Brentford.

1876 Powell, J. T., 146 Glenarm-road, Lower Clapton,
E.

30

Date of Election.

July 7, 1865 Powell, Thomas, 18 Doughty- street, Mecklenburg-
square, W.C.

July 24, 1874 Powell, Thomas Henry, 116 Denmark-hill, S.E.

Jan. 22, 1875 Power, H. D'Arcy, F.L.S., 109 Camherwell New-
road, S.W.

April 25, 1879 Preedy, Wm. Halcomb, 41 Oseney- crescent, Cam-
den-road, N.W.

June 27, 1873 Priest, B. W., 22 Parliament- street, S.W.

May 23, 1879 Pritchard, J. D., Crymlyn Burrows, near Swansea.

July 26, 1867 Pritchett, Francis, 131 Fenchurch- street, E.G.

April 23, 1868 Quekett, Alfred J. S., 51 Warwick-road, Maida-

hiU, W.
April 23, 1868 Quekett, Arthur Edwin, 51 Warwick-road, Maida-

hill, W.
April 23, 1868 Quekett, Eev. William, The Kectory, Warrington.
Feb. 23, 1866 Quick, George E., 109 Long-lane, Bermondsey, S.E.

Oct. 26, 1866 Babbits, W.T.,Highfield, Dartmouth-park, Forest-
hill, S.E.
Sept. 24, 1869 Kadcliffe, J. D.

June 25, 1875 Badford, W. S., M.D., F.E.M.S., Sidmouth.
Oct. 26, 1866 Bamsden,Hildebrand,M.A.Cant.,F.L.S.,F.B.M.S.,

26 Ui^per Bedford-place, Bussell- square, W.C.
Aug. 28, 1868 Bance, T. G., Elmside, Bickley, Kent.
May 22, 1868 Bawles, W., 64 Kentish-town-road, N.W.
July 23, 1880 Bead, Eev. Wm., M.A., F.B.A.S., F.E.M.S., &c..

Worthing, Sussex.
June 27, 1879 Beadaway, Wm., 39 Bobert- street, Hampstead-

road, N.W.
Dec. 27, 1878 Beed, John Murray, 43 Walham-grove, S.W.
June 22, 1877 Beed, John W., F.B.G.S., 27 Clarence- street,

Islington, N.
June 27, 1873 Beeve, Fredk., 37 Fentiman-road, Clapham-road,

S.W.
July 7, 1865 Beeves, W. W., F.B.M.S., 80 Ashburnham-grove,

Greenwich, S.E.
May 22, 1874 Beid, Wm. Wardlaw, 16 Warwick-place, Peckham-

rye, S.E.

31

Date of Election.

Mar. 25, 1870 Eichardson, Thomas Hyde, 1 Belgrave-villas,
Holmesdale-road, Selhurst, S.E.

May 23, 1879 Eideout, Wm. {Hon. Sec, Bolton Microscopical Club),
Hulliwell, Bolton.

June 25, 1869 Eoberts, John H., F.E.C.S., 82 Finchley-road,
St. John's- wood, N.W.

April 26, 1872 Eoberts, S. Hackett, F.E.M.S.

May 22, 1868 Eogers, John, F.E.M.S., 4 Tennyson- street, Not-
tingham.

Oct. 26, 1866 Eogers, Thomas, F.L.S., F.E.M.S., Selmeston-
house, Thurlow-i3ark-road, West Dulwich.

Mar. 22, 1872 Eolfe, Charles Spencer, 5 Westminster-chambers,
S.W.

May 22, 1868 Eoper, Freeman C. S., F.L.S., F.G.S., F.E.M.S.,
Palgrave-house, Eastbourne, Sussex.

June 23, 1876 Eoper, Henry John, F.E.M.S., 5 Lausanne-road,
Peckliam, S.E.

Oct. 27, 1876 Eoper, Eobert, 29 Hampton-road, Upton, Essex.

July 24, 1868 Eowe, James, jun., M.E.C.V.S., 65 High-street,
Marylebone, W.

May 23, 1879 Eowe, Thos. Smith, M.D., Cecil-square, Margate.

Oct. 26, 1866 Eowlett, John, 92 Enville-road, Walworth, S.E.

July 14, 1865 Euffle, G. W., F.E.M.S., 131 Blackfriars-road,
S.E.

July 24, 1874 Eushton, WilHam, 61 Tufnell-park-road, Hollo-
way, N.

Oct. 27, 1865 Eussell, James, 10 High-street, Shoreditch, E.

Oct. 26, 1866 Eussell, Joseph, Blenheim-house, Middle Mall,
Hammersmith, S.W.

May 22, 1868 EusseU, Thomas D., 21 Park-road, West Dulwich,
S.E.

Feb. 22, 1867 Eutter, H. Lee, 1 St. Barnabas-villas, Lansdowne-
circus, South Lambeth, S.W.

Feb. 27, 1880 Eyley, Thomas, Lee Park-house, Blackheath, S.E.

Nov. 22, 1878 Sabel, Ernest E., 185 Maida-vale, W.

May 23, 1873 Salkeld, Lt.-Colonel J. C, F.E.M.S., 29 St.

James's- street, S.W.
Dec. 27, 1878 Salmon, C. W., 137 Graham-road, Hackney, E.

32

Date of Election.

Dec. 17, 1869 Salmon, John, 24 Seymour- street, Euston-square,

N.W.
Dec. 28, 1877 Sands, Clias., 5 Woburn-place, Kussell-sq., W.C.
May 28, 1875 Saul, Geo. William.
June 27, 1879 Sawyer, Geo. D., F.R.M.S., 55 Buckingham-place,

Brighton.
Feb. 27, 1880 Schulze, Adolf, 1 St. James's-street, Hillhead-

square, Glasgow.
Feb. 26, 1875 Scofield, W. J., M.R.C.S., F.L.S., 13 South HiU

Park-gardens, Hampstead, N.W.
May 24, 1872 Sequeira, H. L.,M.R.C.S., 1 Jewry- street, Aldgate,

E.G.
July 27, 1868 Sewell, Richard, Ashmore-house, Keston, Kent.
July 23, 1880 Shaw, Henry Vincent, Fh: Croft, Keymer, Hurst-

pierpoint, Sussex.
Oct. 22, 1869 Shaw, Wm. Forster, Mos shall- grove, Finchley, N.
Oct. 24, 1879 Shelley, A. J., 1 Trevor-square, S.W.
May 26, 1876 Shepheard, Thomas, F.R.M.S., 12 Bridge- street,

Eow, Chester.
May 26, 1871 Sigsworth, J. C, F.R.M.S., 18 Chaucer-road, Herne-

hill, S.E.
June 27, 1873 Simmonds, Joseph E.
Aug. 23, 1867 Simmons, James J., L.D.S., 18 Burton-crescent,

Euston-road, N.W.
May 26, 1876 Simpson, Edwd., 24 Grummant-road, Peckham-

road, S.E.
Nov. 23, 1877 Simpson, Thomas, Audley-lodge, Florence-road,

Ealing, W.
Mar. 27, 1868 Simson, Thos.

May 28, 1869 Sketchley, H. G., 75 Bailgate, Lincoln.
Dec. 28, 1866 Slade, J., Fern- villa, Lion-rd., Bexley-heath, Kent.
Oct. 23, 1868 Smart, William, 27 Aldgate, E.
May 25, 1866 Smith, Alpheus {Hon. Librarian), 42 Choumert-

road. Eye- lane, Peckham, S.E.
April 23, 1880 Smith, Archd. S., Silvermere, Cobham, Surrey.
Oct. 26, 1877 Smith, Bernard E., Aucklands, Wandswortli-

common, S.W.
July 25, 1879 Smith, Charles Vance, 5 Parade, Carmarthen.
Feb. 25, 1876 Smith, Edward, F.S.S., St. Mildi'ed's- house,

Poultry, E.C.

33

Date of Election.

Mar. 25, 1870 Smith, Francis Lys, 3 Grecian-cottages, Crown-
hill, Norwood, S.E.

June 27, 1873 Smith, G. J., 73 Farringdon- street, E.G.

Oct. 26, 1866 Smith, H. Ambrose, 2 King William- street, E.G.

June 26, 1868 Smith, James, F.L.S., F.E.M.S., 233 Dalston-lane,
Hackney, E.

Dec. 23, 1870 Smith, Joseph A., Granville-lodge, Groydon-road,
Penge, S.E.

Oct. 26, 1877 Smith, Samuel, 331 Hackney-road, E.

Feb. 28, 1873 Smith, W. Lepard, Southfield-house, Watford.

Aug. 23, 1872 Smith, W. Stuart, 30 Loraine-road, HoUoway, N.

April 24, 1868 Snellgrove, W., 58 Granfield-road, Wickham-park,
S.E.

Aug. 22, 1879 Soames, H. A., Eavenscroft, Bromley, Kent.

May 24, 1878 Southey, A., 145 Fenchurch- street, E.G.

Sept. 22, 1865 Southwell, G., 44 Princes- street, Soho, W.

May 26, 1876 Southwell, Ghas. Wm., 35 Douglas-road, Ganon-
bury, N.

May 22, 1874 Spencer, James, F.E.M.S., 50 South-street, Green-
wich, S.E.

June 26, 1876 Spencer, John, Brook's BanTi, 81 Lombard- street,
E.G.

Nov. 22, 1872 Spencer, Thomas, F.G.S., F.E.M.S., 32 Euston-
square, N.W.

Mar. 24, 1866 Starling, Benjamin, 9 Gray's-inn- square, W.G.

Aug. 23, 1878 Steel, John Henry, M.E.G.V.S., F.Z.S., The Eoyal
Veterinary College, Gamden-town, N.W.

Feb. 23, 1872 Stevens, G. E., 7 Ashby-road, Ganonbury, N.

Aug. 24, 1866 Steward, J. H., F.E.M.S., 406 Strand, W.G.

June 22, 1877 Stewart, Ghas., M.E.G.S., F.L.S., Hon. Sec.
R.M.S., &c. {Vice-President), St. Thomas' Hospital
and 42, Sinclair-road, Kensington, W.

April 23, 1880 Stewart, Fredk. {Ho7i. Sec. New Cross Mic. Soc),
25 Lime- villas, Foxberry-road, Brockley, S.E.

Sept. 22, 1876 Stiles, M. H.

May 23, 1879 Stocken, James, 40 Euston- square, N.W.

Jan. 23, 1880 Stoessiger, Fredk. Aug., 70 Windsor- road. Hollo-
way, N.

Mar. 19, 1:869 Stokes, Frederick.

34

Date of Election.

July 25, 1879 Stone, Edwd. Mulready, Hill- side. West-hill,

Sydenham.
Oct. 27, 1871 Stuart, David John, 14 The Avenue, Hornsey-

park, N.
May 23, 1879 Stubbins, John, F.G.S., Chester- cottage. Old-lane,

Halifax.
May 23, 1879 Sturt, Clifton, Iving's-college, W.C, and The Uni-
versity, Melbourne, Australia.
July 7, 1865 Suffolk, W. T., F.E.M.S., Stettin-lodge, St. Faith's-

road, Lower Norwood, S.E.
June 27, 1873 Suter, Edward D., Kent-lodge, Douglas-road-north,

Canonbury, N.
June 24, 1870 Swain, Ernest, 34 Elsham-road, Kensington, W.
Nov. 22, 1867 Swainston, J. T., 3 St. Mark's- square, Eegent's-

park, N.W.
Nov. 24, 1866 Swansborough, E., 20 John-st., Bedford-row, W.C.
Dec. 18, 1868 Swift, James, 43 University- street, W.C.
Dec. 17, 1875 Swift, Mansell J., 43 University- street, W.C.
Jan. 23, 1880 Symons, Wm. Hy., F.G.S., 2 Queen' s-terrace, St.

John's-wood, N.W.

July 27, 1877 Tanqueray, A. C, Eeid's Brewery, Theobald's-
road, E.C.

Sept. 28, 1877 Tarrant, Kenneth J., Litchford-house, Hatch-end,
Pinner.

Nov. 28, 1879 Tasker, J. G., 18 Junction-rd., Upper Holloway, N.

Aug. 22, 1879 Tate, J. W., 6 Clarendon-terrace, Brentford-road,
Turnham-green, W.

May 22, 1868 Tatem, J. G., Russell- street, Eeading.

Aug. 23, 1878 Teasdale, Washington, F.E.M.S., Eosehurst, Head-
in gley, Leeds.

Dec. 22, 1865 Terry, J., 109 Borough-road, S.E.

Aug. 23, 1872 Terry, Thomas, 5 Austin- friars, E.C.

July 23, 1869 Thin, James, Ormiston-lodge, Claremont-place,
Brixton-road, S.W.

May 23, 1879 Thompson, Isaac Cooke (Hon. Sec. Livorpool Micro-
scopical /Soc.) , Woodstock, Waverley-rd, , Liverpool.

May 28, 1875 Thomson, John Eeid, 18 Highbury-place, N.

Feb. 24, 1871 Thornthwaite, W. H., 416 Strand, W.C.

35

Date of Election.

April 27, 1877 Thorpe, George, 20 Eastcheap, E.G.

Jan. 22, 1875 Tinney, William A., Clifford's- inn, Fleet-st., E.G.

Nov. 27, 1867 Tomkins, Samuel Leitli, Apsley, East Grinstead.

June 23, 1871 Topping, Amos, 28 Gliarlotte- street, Galedonian-
road, N.

July 26, 1872 Townsend, John Sumsion, F.E.M.S., Stamford-
lodge, St. John's, Sevenoaks.

July 24, 1868 Tulk, John A., M.D., F.E.M.S., Burton-lodge,
Staines-road, Twickenham.

July 26, 1867 Turnbull, Joseph, Laurel-house, North-hill, High-
gate, N.

Aug. 24, 1877 Turner, Ernest Blaker, 46 Malmesbury - road.
Bow, E.

June 25, 1869 Turner, E. D., Eoughway, near Tonbridge.

June 25, 1875 Turner, Sydney, A.E.I.B.A., 7 Mark-lane, E.G.

May 25, 1877 Veasey, Eobt. Geo., Ashchurch- lodge, Ashchurch-

road, Shepherd's-bush, W.
July 27, 1866 Veitch, Harry, F.H.S., The Eoyal Exotic Nursery,

King's-road, Ghelsea, S.W.
Feb. 28, 1879 Venables, W., 253 Gamden-road, N.W.
Feb. 27, 1880 Vereker, The Hon. J. G. P., 10 Warwick-sq., S.W.
May 23, 1879 Vezey, John Jewell, F.E.M.S., 39 St. Donatt's-

road, New Gross, S.E.

June 25, 1880 Waddington, Henry J., 10 Evering- villas, Upper
Glapton, E.

Feb. 27, 1874 Walker, John G., Highfield, Avenue-road, Grouch-
end, N.

July 25, 1873 Walker, John 'Stringer, Warwick-road, Upper
Glapton, E.

June 26, 1868 Walker, J. W., Fairfield-house, Watford.

May 22, 1868 WaUer, J. G., 68 Bolsover-street, Portland- road, W.

Jan. 23, 1880 WalHs, Whitworth, 4 The Eesidences, South Ken-
sington, S.W.

Oct. 26, 1877 Walters, W., B.A. Lond., 3 Park-road-terrace,
Forest-hill, S.E.

Aug. 26, 1870 Warburton, Samuel, Merton- villa. New-road, Lower
Tooting, S.W.

36

Date of Election.

Nov. 22^1867 Ward, F. H., M.E.C.S., F.E.M.S., Springfield-
house, near Tooting, S.W.

June 28, 1878 Ward, Eichard John, Silver- street, Lincoln.

Dec. 18, 1868 Warner, Alfred, care of Mr. W. F. Stanley, 13
Eailway- approach, London-bridge, S.E.

May 25, 1866 Warrington, H.E., 7 Eoyal Exchange, Cornhill, E.G.

July 25, 1879 Waterman, Thos. L., 103 Antill-road, Bow, E.

Oct. 27, 1865 Watkins, C. A., 10 Greek-street, Soho, W.

Oct. 25, 1872 Watkins, J., L.C.P., 40 Store-street, Bedford-
square, W.C.

Aug. 23, 1878 Watson, Geo. F., 313 High Holborn, W.C.

Nov. 28, 1879 Watson, Eobert Walker, 22 Highbury- new- park, N.

Sept. 28, 1877 Watson, Thos., P., 313 High Holborn, W.C.

Dec. 28, 1877 Watson, Thos. W., 4 Pall Mall, S.W.

May 23, 1879 Watts, The Kev. G. E., M.A., F.E.M.S., Kens-
worth Vicarage, Dunstable, Herts.

Dec. 28, 1866 Way, T. E., 65 Wigmore- street, W.

Oct. 26, 1877 Weatherley, Capt. H. C. S., 64 Cheapside, E.G.

July 24, 1874 Webb, C E., Wildwood-lodge, North-end, Hamp-
stead, N.W.

AprU 25, 1879 Webster, Hy. Wm., M.D., St. George's Infirmary,
Fulham-road, West Brompton, S.W.

May 24, 1867 Weeks, A. W. G., 36 Gunter-grove, West Brompton,
S.W.

Sept. 27, 1878 West, Eobt. G., 39 Lombard- street, E.C.

Feb. 25, 1876 Wheeler, George, 27 Tibberton- street, Islington, N.

May 23, 1879 Wheldon, John, F.E.M.S., 58 Great Queen-street,
Lincoln's-inn-fields, W.C.

April 23, 1869 White, Charles Frederick, F.E.M.S., 42 Windsor-
road, Ealing, W.

May 22, 1868 WHITE, T. CHAETEES, M.E.C.S., L.D.S.,
F.L.S.,F.E.M.S.(Pm/f/^9??),32Belgrave-rd.,S.W.

July 25, 1873 White, Walter, Litcham, Norfolk.

June 25, 1875 Whitney, Edward Underwood, 13 Great College-
street, Westminster, S.W.

Aug. 22, 1879 Whittell, Horatio, T., M.D., F.E.M.S., 112 Ledbury-
road, W.

June 25,1880 Wickes,Wm. Dickerson,65Malmesbury-rd.,Bow,E.

July 24, 1868 Wight, James F., F.E.M.S., Grazeley, Gipsy-hill,
Upper Norwood, S.E.

37

Date of Election.

April 23, 1880 Williams, Arthur, 48 Osnaburg- street, Eegent's-
park, N.W.

Mar. 24, 1871 Williams, George, F.R.M.S., 1 Devonport-road,
Shepherd's- bush, W.

Nov. 23, 1877 Williams, Geo. Sawyer, 10 Clifton- villas, Maida-
hill, W.

May 28, 1880 Williams, J. Michael, The Hawthorns, Bootle,
Liverpool.

June 23, 1876 WilHams, Jas. W., New-court, St. Swithin's-lane,
E.G.

Oct. 24, 1873 Wniiams, John E., F.R.M.S., 59 Albion-road,
Stoke Newington, N.

June 27, 1879 Willson, James, 2 Oval-road, Regent's-park, N.W.

Mar. 24, 1876 Wilson, Chas. Joseph, 14 Highbury- crescent, N.

Feb. 22, 1867 AVilson, Frank, 110 Long-acre, W.C.

Jan. 24, 1879 Wilson, S. K., F.R.G.S., F.R.M.S., M.R.L, 3 Port-
land-terrace, Regent's park, N.W.

April 23, 1880 Winney, Hy. John, 1 Shorters- court, Throgmorton-
street, E.G.

Oct. 24, 1879 Wood, Fergus H., 30 Gauden-road, Glapham,
S.W.

June 27, 1879 Wood, Francis, 63 Mayfield-road, Dalston, E.

Aug. 27, 1869 Woods, W. Fell, 1 Park-hill, Forest-hill, S.E.

Jan. 28, 1876 Woollett, John, 58 Gloudesley-road, Islington, N.

Oct. 25, 1867 Worthington, Richard, Ghampion-park, Denmark-
hill, S.E.

June 27, 1873 Wrey, George E. B., Addington-house, Addington-
road, Reading.

Aug. 22, 1879 Wright, Bryce McMurdo, 54 Guildford- street,
Russell- square, W.G.

May 25, 1877 Yates, Francis, Rockwood, Surbiton-hill.

Jan. 25, 1878 Yates, Robert, 64 Park-street, Southwark, S.E.

Oct. 26, 1866 Yeats, Christopher, Mortlake, Surrey, S.W.

ISrO TIOE-

Members are requested to give the Hon. Secretary early information
of any change of Kesidence, so as to prevent miscarriage of Journals
and Circulars.

RULES.

I. — That the Quekett Microscopical Chib hold its meetings
at University College, Gower Street, on the fourth Friday Even-
ing in every month, at Eight o'clock x^recisely, or at such other
time or place as the Committee may appoint.

II. — That the business of the Club be conducted by a
Committee, consisting of a President, four Vice-Presidents, an
Honorary Treasurer, one or more Honorary Secretaries, an
Honorary Secretary for Foreign Correspondence, an Honorary
Eeporter, an Honorary Librarian, an Honorary Curator, and
twelve other members, — six to form a quorum. That the
President, Vice-Presidents, Treasurer, Secretaries, Pieporter,
Librarian, Curator, and the four senior members of the Com-
mittee (by election) retire annually, but be eligible for re-
election. That the Committee may appoint a stipendiary As-
sistant Secretary, who shall be subject to its direction.

HI. — That at the ordinary Meeting in June, nominations be
made of Candidates to fill the offices of President, Vice-Presidents,
Treasurer, Secretaries, Eeporter, Librarian, Curator, and vacan-
cies on the Committee. That such nominations be made by
resolutions duly moved and seconded, no Member being entitled
to propose more than one Candidate. That the President,
Vice-Presidents, Treasurer, Secretaries, Eeporter, Librarian,
and Curator, be nominated by the Committee. That a list of all
nominations made as above be printed upon the ballot paper ;
the nominations for vacancies upon the Committee being
arranged in such order as shall be determined by lot, as drawn
by the President and Secretary. That at the Annual General
Meeting in July all the above officers be elected by ballot from
the candidates named in the lists, but any member is at liberty
to substitute on his ballot-paper any other name or names in
lieu of those nominated for the offices of President, Vice-
Presidents, Treasurer, Secretaries, Eeporter, Librarian, and
Curator.

39

IV. — That in the absence of the President and Vice-Presidents
the Members present at any ordinary Meeting of the Club elect a
Chau-man for that evening.

V. — That every Candidate for Membership be proposed by two
or more Members, who shall sign a certificate (see Appendix) in
recommendation of him — one of the proposers from personal
knowledge. The certificate shall be read from the chair, and the
Candidate therein recommended balloted for at the following
Meeting. Three black balls to exclude.

VI. — That the Club include not more than twenty Honorary
Members, elected by the Members by ballot upon the recom-
mendation of the Committee.

VII. — That the Annual Subscription be Ten Shillings, pay-
'able in advance on the 1st of July, but that any Member elected
in May or June be exempt from subscription until the following
July. That any Member desirous of compounding for his future
subscription may do so at any time by payment of the sum of
Ten Pounds ; all such sums to be duly invested in such manner
as the Committee shall think fit. That no person be entitled to
the full privileges of the Club until his subscription shall have
been paid ; and that any Member omitting to pay his subscrip-
tion six months after the same shall have become due (two ap-
plications in writing having been made by the Treasurer) shall
cease to be a Member of the Club.

VIII. — That the accounts of the Club be audited by two Mem-
bers, to be appointed at the ordinary Meeting in June.

IX. — That the Annual General meeting be held on the fourth
Friday in July, at which the Eeport of the Committee on the
affairs of the Club, and the Balance Sheet duly signed by the
Auditors shall be read. Printed lists of Members nominated for
election as President, Vice-Presidents, Treasurer, Secretaries,
Keporter, Librarian, Curator, and Members of the Committee
having been distributed, and the Chairman having appointed
two or more Members to act as Scrutineers, the Meeting shaU
then proceed to ballot. If fi^om any cause these elections, or any
of them, do not take place at this Meeting, they shall be made
at the next ordinary Meeting of the Club.

40

X. — That at the ordinary Meetings the following business be
transacted: — The minutes of the last Meeting shall be read and
confirmed; donations to the Club since the last Meeting announced
and exhibited ; ballots for new Members taken ; papers read and
discussed; and certificates for new Members read; after which
the Meeting shall resolve itself into a Conversazione.

XI. — That any Member may introduce a Visitor at any ordi-
nary Meeting, who shall enter his name with that of the Member
by whom he is introduced in a book to be kept for the purpose.

XII. — That no alteration be made in these Laws, except at an
Annual General Meeting, or a Special General Meeting called for
that purpose; and that notice in writing of any proposed altera-
tion be given to the Committee, and read at the ordinary Meeting
at least a month previous to the Annual or Special Meeting at
which the subject of such alteration is to be considered.

APPENDIX.

Form of Proposal for Membership.

QuEKETT Microscopical Club.

Mr.
of

being desirous of becoming a Member of this Club, we beg to
recommend him for election.

[on iruj j)erso7ial knoiiiethji').

This Certificate was read 18

The Ballot will take place 18

41

MEETINGS

OF THE

QTIEEETT MICEOSCOPICAL CLUB,

AT
UNIVEESITY COLIiEGE, GOWER STREET, LONDON.

1880.— August 13 .... 27

September 10 .... 24

October 8 .... 22

November 12 .... 26

December 10 .... *

1881.— January 14 .... 28

February 11 .... 25

March 11 .... 25

April 8 .... 22

May 13 .... 27

June 10 .... 24

July 8 .... 22

* December 24 — No Meeting.

The Ordinary Meetings are held on the fourth Friday in
each month : — business commences at 8 o'clock p.m.

The Meetings on the second Friday in the month are
for Conversation and Exhibition of Objects; from 7 to
9.30 p.m.

The Annual General Meeting will be held on July
22nd, 1881, at 8 o'clock, for Election of Officers and other
Business.

D

42

EXCURSIONS, 1880.

April 3rd. BARNES. To meet at Waterloo Station, Richmond Line.

April 17th. CHISLEHURST. To meet at Charing Cross Station.

May 1st. SNARESBROOK. To meet at Fenchurch Street Station at

2 o'clock.

May 15th. TOTTERIDGE, returning by Mill Hill. To meet at
Moorgate Street Station.

May 29th. NORTHFLEET, for SWANSCOMBE. ^ To meet at Cannon
Street Station.

June 12th. CATERHAM, for GODSTONE. To join the Croydon Club.
To meet at Cannon Street Station.

June 18th. EXCURSIONISTS' ANNUAL DINNER.
Arrangements will be duly announced.

June 26th. WOKING, returning by Weybridge. To meet at Waterloo,
Suburban Station, Main Line.

July 3rd. BRIGHTON, DAY EXCURSION. To meet at London
Bridge Station (Aquarium Train), 9.30 a.m.

July 10th. HAMPTON COURT. To meet at Waterloo, Suburban
Station, Main Line.

July 24th. CHINGFORD. To meet at Liverpool Street Station.

Sept. 4th. BROMLEY, for KESTON. To meet at Holborn Viaduct
Station.

Sept. 18th. HOMERTON. To meet at Broad Street Station, at 3 p.m.

Oct. 2nd. WANDSWORTH. To meet at Clapham Junction at 3
o'clock.

The time of departure from Town, unless otherwise specified, will be
THE First Train after TWO o'clock.

E. Dadswell, \

F. W. Gay,

W. W^^'reeves, ^ Excursion Committee.
T. Rogers,
J. Spencer,

SIXTEENTH EEPORT

OF THE

QUEKETT MICROSCOPICAL CLUB,

LIST OF MEMBERS

PEESIDENT'S ADDRESS, &o

Meeting at University College, London, on the Second and Fourth
Fridays of Every Month.

LONDON.

July 1881.

{Extract from original Prospectus^ July 1865.)

" The want of such a Club as the present has long been felt, wherein
" Microscopists and Students with kindred tastes might meet at stated periods
" to hold cheerful cont^erse with each other, exhibit and exchange specimens,
" read papers on topics of interest, discuss doubtful points, compare notes of
" progress, and gossip over those special subjects in which they are more or
" less interested: where, in fact, each member would be solicited to bring his
" own individual experience, be it ever so small, and cast it into the treasury
" for the general good. Such are some of the objects which the present Club
" seeks to attain. In addition thereto it hopes to organize occasional Field
" Excursions, at proper seasons, for the collection of living specimens ; to
" acquire a Library of such books of reference as will be most useful to
"enquiring students; and, trusting to the proverbial liberality of Micro-
" scopists, to add thereto a comprehensive Cabinet of Objects. By these and
" similar means, the Quekett Microscopical Club seeks to merit the support
" of all earnest men who may be devoted to such pursuits ; and, by fostering
" and encouraging a love for Microscopical studies, to deserve the approval
" of men of science and more learned Societies."

OFFICEES AND COMMITTEE,

(Elected July 1881.)

|resibtnt.
T. Charters White, M.R.C.S., F.L.S., F.R.M.S*

M. C. Cooke, M.A., LL.D., A.L.S.

Edward Dadswell.

J. W. Groves, F.R.M.S.

Charles Stewart, M.R.C.S., F.L.S., F.R.M.S.

Committer.

J. W. Reed, F.R.G.S., F.R.M.S.

J. C. Sigsworth, F.R.M.S.

W. H. Gilburt, F.R.M.S.

J. W. GooDiNGE, F. R.G.S., F.R.M. S.

H. F. Hailes.

A. D. Michael, F.L.S., &c.

E. T. Newton, F.G.S.

W. W. Reeves, F.R.M.S.

T. S. CoBBOLD, M.D., F.R.S., &c,

J. Matthews, M.D., F.R.M.S.

B. W. Priest.

J. G. Waller,

F. W. Gay, F.R.M.S., 113, High Holborn, W.C.

pott, ^ccatarg.

J. E. Ingpen, F.R.M.S., 7, The Hill, Putney, S.W.

pott. ^£tr£targ for Jfotcigit Correspoitbjeita.
M. C. Cooke, M.A., LL.D., A.L.S.

poit. %zpxizx,

Richard T. Lewis, F.R.M.S.

pon. ITibrarian. pott. Curator.

Alpheus Smith. Charles Emery.

€uxxxBmx Committee.

Edward Dadswell.
F. W. Gay, F.R.M.S.
Frederick Oxley, F.R.M.S.

W. W. Reeves, F.R.M S.
T. Rogers, F.L.S., F.R.M.S.
James Spencer, F.R.M.S.

PAST PRESIDENTS.

EDWIN LANKESTER, M.D., F.R.S. -

ERNEST HART

ARTHUR E. DURHAM, F.R.C.S., F.L.S., &c.

»> j> i>

PETER LE NEVE FOSTER, M.A.
LIONEL S. BEALE, M.B., F.R.S., &c. -

>> >> >i " "

ROBERT BRAITHWAITE, M.D., F.L.S., &c.

>i }) 3) " •

JOHN MATTHEWS, M.D., F.R.M.S. -

>> )> >j

HENRY LEE, F.L.S., F.G.S., F.R.M.S., F.Z.S.

>» >» » ' "

THOS. H. HUXLEY, LL.D., F.R.S., &c.
T. SPENCER COBBOLD, M.D., F.R.S., F.L.S., &c.

Elected.

July, 1865.
1866.
1867.
1868.
1869.
1870.
1871.
1872.
1873.
1874.
1875.
1876.
1877.
1878.
1879.

KEPOKT OF THE COMMITTEE.

Your Committee, in presenting the Sixteenth Annual
Report, need only to refer, under the usual heads, to the
record of the work done during the past year, to indicate the
position and progress of the Club.

The courtesy shown to the Club by the Council of Uni-
versity College continues unabated; and the permission to
hold our meetings here has been most kindly renewed for
the ensuing year.

The deaths of two members, Mr. W. H. Furlonge and
Mr. A. J. Shelley, have been recorded. The former gen-
tleman was well known among us in the earlier years of the
Club, when he brought several interesting communications
before the meetings. Twenty-four members have resigned,
six have been struck off for being several years in arrear of
subscription, forty-two new members have been elected ;
thus bringing our present number to 613.

The following are the principal communications made to
the Club during the past year : —

1880.
August. " On some Immature Forms of Diatomace£e," by Mr. G. C.
Karop.
" On a method of Dry Mounting for Opaque Objects," by Mr,
H. J. Roper,

6

August. " On Mounting Opaque Objects with Beeswax," by Mr. Hy.
Morland.
"On the use of Arabin in Mounting," by Mr. H. J.
Waddington.
SejJt. " On a Simple Growing Slide," by the President.
Oct. " On New Fresh-water Algas discovered during the year," by

Dr. M. C. Cooke.
]^ov. " On a New Live Trough or Vivarium," by Mr. J. D. Hardy.
" On some Specimens of Strongylus,'" by Dr. T. S. Cobbold.

1881.
Jan. " On the Natural History and Histology of Sponges," by Mr.
B. W. Priest.
" On the Periodicity of Filarial Migrations," by Dr. Manson,
communicated by Dr. Cobbold.
Feb. " On a Zoophyte Trough Live-box or Vivarium," by the Rev.

H. J. Fase.
March. " On Cliona celata;' by Mr. J. G. Waller.

" On the Histology of Sponges," additional paper, by Mr.
B. W. Priest.
A2>ril. " On Cliona,'' additional paper, by Mr Waller.

" On the Histology of the Gustatory Organs of the Rabbit's
Tongue," by the President.
June. "On an Undescribed Sponge of the genus Polymastia,''^ by
Mr. B. W. Priest.
" On some Peculiarities in the Leaves of Bomaria,^'' by Mr.
W. H. Gilburt.

Several short communications have also been made, and
will be found recorded in the Proceedings. Some of these
are notices or descriptions of objects brought for exhibition.
Such communications are frequently of much interest ; and
the practice of giving short accounts of objects, to be fol-
lowed by the examination of the specimens, is a very bene-
ficial one.

'The following books have been added to the Library by
donation, exchange, and purchase : —

7

PRESENTED BY

Harris and Power's Manual for the Physio-
logical Laboratory Mr. J. W. Groves.

Mc Alpine's Biological Atlas „

Greene's Manual of the Protozoa and Coelen-

terata Mr. J. E. Ingpen.

Huxley's "The Crayfish" Mr. J. C. Sigsworth.

Curiosities of Entomology Dr. J. Matthews.

Kirby and Spence's Entomology ,,

Journal of the Linnean Society Mr. T. Charters White.

Dr. Braithwaite's Monograph of the British

Moss-Flora, Parts 2—4 The Author.

Reinsch's New Investigations into the

Microscopical Structure of Coal „

Report of the Smithsonian Institution for

1879 U.S. Government.

Proceedings of the Royal Society The Society.

Journal of the Royal Microscopical Society „

Popular Science Review The Publisher.

Hard wicke's Science Gossip „

J. Edwards Smith's How to See with the

Microscope Purchased.

Wythe's Microscopist „

W. Saville Kent's Infusoria, Parts 1 — 3 „

Van Heurck's Synopsis of the Diatoms of

Belgium, Parts 1 — 3 „

Rye's British Beetles „

Rymer Jones's Animal Kingdom „

Sach's Text-Book of Botany „

Harley and Brown's Demonstrations on

Microscopical Histology „

Brady's Monograph of the Copepoda.

Vol. Ill Subscription, to Ray Society.

Buckton's Monograph of the British Aphides.

Vol.111

American Naturalist In Exchange.

American Monthly Microscopical Journal... „

The Northern Microscopist „

Annals and Magazine of Natural History ... Purchased.
Quarterly Journal of Microscopical Science „

Grevillea „

Reports and Proceedings of various Societies, and sundry Pamphlets.

8

The balance of Mr. Crisp's donations has also, in accord-
ance with his request, been expended in the purchase of
books, of which the following is a list : —

Bell's British Stalk- eyed Crustacea.
Bate and West wood's Sessile- eyed Crustacea.
Nicholson's Palaeontology. 2 vols.
Bentham's British Flora. 2 vols.
Harvey's Phycologia Britannica. 4 vols.
Newman's British Moths.

„ Butterflies.

Walker's Diptera. 3 vols.
Stainton's Tineina. 1 vol.

Reports of H.M.S. Challenger Expedition. Vols. I. and II.
Stein's Infusoria. 4 vols.
Hepp's Lichen Flora.

Burmeister's Entomology, translated by Schuckard.
Leidy's Freshwater Rhizopods of North America.
Klein and Noble Smith's Atlas of Histology.

The following donations of objects to the Cabinet have
been made : —

By The President
„ Mr. J. Crowther
„ The Rev. H. J. Ease
„ Mr. H. E. Freeman

„ Mr. H. MORLAND

„ Mr. E. M. Nelson
„ Mr. E, T. Newton
„ Mr. B. W. Priest
„ Mr. J. W. Reed
„ Mr. W. 11. Symons
„ Mr. C. Vance Smith

SLIDES.

4
2
9
4
4
2
1
9
3
2
7

47

Four Photographs have been presented for the Album.

9

A donation of special interest has been received from the
Royal Microscopical Society, being a bronze copy of their
" Quekett " medal. It forms a pleasing memento of an
honoured name, as well as a recognition of the friendly
feeling existing between the Royal Microscopical Society
and the Club.

The publication of the Journal has, from unavoidable
circumstances, fallen considerably in arrear. The papers
and proceedings down to April 8th are, however, now in the
press, and will be in the hands of the members in the course
of a few days. The remainder, to the present date, will
follow as speedily as possible.

By the permission of the College, a " Special Exhibition
Meeting " was held on the 29th of April last. This meeting
was attended by about 200 members and more than 300
visitors. A large number of beautiful and interesting spe-
cimens were shown under about 80 microscopes. This result
appears to justify the holding of similar meetings at suitable
intervals.

The Excursions of the past season have been less suc-
cessful than in some previous years, not on account of any
decrease in the interest taken in them by the members, but
partly from the fact that on some of the days (which have to
be fixed long in advance) the weather proved unfavourable,
and partly from the necessity of travelling longer distances
than formerly to reach suitable localities ; thus increasing
the difficulties of arrangement, and making the attendance
more uncertain. It should be remembered, however, that
circumstances unfavourable to one branch of microscopy

10

may be well suited to others ; and the botanical results of
some of the excursions have been very satisfactory.

Your Committee offer their cordial thanks to the Officers
of the Club for their long-continued honorary services, to
the efficient performance of which the Club owes so much of
its present prosperity.

Your Committee hope that the Club, while pursuing the
course which has hitherto proved successful, will not be
unmindful of the necessity for continued exertions, to meet
the ever-increasing demand for scientific culture.

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HONOEAEY MEMBEES.

Date of Election.

Jan. 24, 1868 Arthur Mead Edwards, M.D., 120, Belleville
Avenue, Newark, New Jersey, U.S.A.

Mar. 19, 1869 The Eev. E. C. Bolles, Salem, Mass., U.S.A.
July 26, 1872 S. 0. Lindberg, M.D., Professor of Botany, Uni-
versity of Helsingfors, Finland.

July 26, 1872 Prof. Hamilton L. Smith, President of Hobart
College, Geneva, New York, U.S.A.

July 26, 1872 J. J. Woodward, Assist. Surgeon, U.S. Army, War
Department, Surgeon General's Office, Wash-
ington, U.S.A.

July 23, 1875 Lionel S. Beale, M.B., F.E.S., F.E.M.S., &c.,
61, Grosvenor- street, W.

Sept. 22, 1876 Frederick Kitton, Hon., F.E.M.S., &c., 2, Bedford-
street, Unthank-road, Norwich.

July 25, 1879 W. B. Carpenter, C.B., M.D., F.E.S., &c., &c.,
56, Eegent's-park-road, N.W.

July 25, 1879 Dr. E. Abbe, University, Jena, Saxe Weimer,
Germany.

July 23, 1880 F. H. Wenham, C.E., 3, Gothic Villas, Warbeck
Eoad, Shepherd's Bush, W.

LIST OF MEMBERS

Date of Election.

Sept. 24, 1869 Ackland, William, L.S.A., F.E.M.S., 416 Strand,
W.C.

June 25, 1880 Adams, Charles Albert, 83 Loughborougli-park,
Brixton, S.W.

Nov. 28, 1879 Adams, Stephen C, 65 Blomfield-road, Maida-
hill, W.

June 23, 1876 Addis, W., 44 Herbert- street, New North-road,
Hoxton, N.

Nov. 27, 1868 Adkins, William, 268 Oxford-street, W.

June 24, 1881 Alabone, Edwin W., M.D., 175 Highbury-new-
park, N.

Mar. 23, 1866 Allbon, W., F.E.M.S., 37 Gloucester-place, Port-
man- square, W.

April 25, 1879 Allen, Edward H., 17 Carlisle- street, Soho-square,
W.

June 28, 1876 Allison, Charles, 71 Graham-road, Dalston, E.

July 26, 1872 Alstone, John, 14 Kichmond- crescent. Barns-
bury, N.

Dec. 17, 1869 Ames, George Acland, F.E.M.S., Union Club,
Trafalgar- square, W.C.

Sept. 25, 1868 Andrew, Arthur R., 1 St. George's- villas, Middle-
ton-road, Hornsey, N.

Dec. 22, 1865 Andrew, F. W., 3 Neville-terrace, Onslow-gardens,
S.W.

Aug. 22, 1879 Arch, A. J. E., 20 Sydenham-park, Sydenham,
S.E.

May 28, 1875 Arrowsmith, Wastell, 99 Adelaide road, Haver-
stock-hill, N.W.

July 25, 1879 Ashbridge, Arthur, 76 Leadenhall-street, E.G.

Sept. 27, 1878 Ashby, H. T., 8 Bartholomew-road, Kentish-town,
N.W.

14

Date of Election.

Dec. 22, 1865 Atkinson, John, 83 Brook-street, W.

Feb. 26, 1869 Atkinson, Wm., F.L.S., 47 Gordon- square, W.C.

July 23, 1875 Ayling, J. J., 47 Chantry-road, Stockwell, S.W.

June 26, 1874 Badcock, John, F.E.M.S., 270 Victoria-park-road,
South Hackney, E.

Dec. 27, 1867 Bailey, John W., 75 Broke-road, Dalston, E.

April 24, 1868 Baker, Chas., F.R.M.S., 244 High Holborn, W.C.

May 25, 1877 Baker, G. Levett, 15 Windsor-road, Denmark- hill,
S.E.

Feb. 25, 1876 Ballard, Dr. W. E., jun., 26 Manchester- square, W.

Jan. 24, 1879 Barham, Geo. Titus, Danehurst, Hampstead, N.W.

July 28, 1876 Barnard, Henry.

Dec. 27, 1872 Barnard, Herbert, 33 Portland-place, W.

April 22, 1870 Barnes, Chas. Barritt, 4 Egremont-villas, White
Horse-lane, South Norwood, S.E.

Aug. 28, 1874 Barnett, E. W., The Larches, Penge-lane, Syden-
ham, S.E.

Sept. 27, 1872 Bartlett, Edward, jun., L.D.S., M.E.C.S.E., 40
Elgin-road, St. Peter's-park, W.

Oct. 26, 1877 Basevi, Col. G. H., Elm Lodge, Prestbury, Chel-
tenham.

Dec. 28, 1877 Batchelor, J. A., Avenue-road, Bexley, Kent.

May 22, 1874 Bate, George Paddock, M.D., F.R.C.S.E.,
F.R.M.S., 412 Bethnal Green-road, E.

Mar. 27, 1874 Beach, Richard J., 36 Eden-grove, Hornsey, N.

Jan. 25, 1878 Beaman, Geo. Hulme.

May 28, 1869 Bean, Charles E., Brooklyn-house, Goldhawk-road,
She]oherd's-bush, W.

Feb. 28, 1879 Bear, John.

Nov. 26, 1875 Beaulah, John, Bracken-hill, Brigg.

May 24, 1878 Beddard, Frank E., New College, Oxford.

May 26, 1871 Bedwell, Eras. Alfred, M.A. Cantab., F.R.M.S.,
Fort Hall, Bridlington Quay, Yorkshire.

May 28, 1880 Bennett, Lionel C, 48 Ladbroke-grove-road, Not-
ting-hill, W.

Mar. 24, 1871 Bentley, Algernon Eoyds, 36 Portland-place, W.

Dec. 27, 1867 Bentley, C. S., F.E.M.S., Hazelville- villa. Sunny-
side- road, Hornsey- rise, N.

15

Date of Election.

May 22, 1868 Berney, John, F.R.M.S., 61 North-end, Croydon.
Oct. 23, 1868 Bevington, W. A., F.R.M.S., 80 Avondale- square,

Old Kent-road, S.E.
Mar. 28, 1879 Bird, Fredk. Elliott, 42 Overton-road, Brixton,

S.W.
July 28, 1871 Bishop, Wm., 549 Caledonian-road, N.
May 27, 1881 Bishopp,O.S.,F.R.M.S., Oak- villa, Muswell-hill,N.
Feb. 23, 1866 Blake, T., 6 Charlotte-terrace, Brook-green, Ham-
mersmith, W.
Mar. 19, 1869 Blankley, Frederick, F.R.M.S., Brightholm, Oak-
field-road, Upper Tollington-park, N.
July 27, 1877 Blenkinsop, Benj., 176 Queen Victoria- street, E.G.
May 26, 1876 Blundell, Joseph, 24 Davies-st., Berkeley-sq., W.
Jan. 25, 1878 Bogue, David, F.R.M.S., 3 St. Martin's-place,

Trafalgar- square, W.C.
Jan. 22, 1875 Bolton, Thomas, F.E.M.S., 57 Newhall- street,

Birmingham.
Jan. 24, 1879 Bond, R. C. C, 36 Keppel-st, Russell-sq., W.C.
April 22, 1870 Bossy, Alfred Horsley, Walton-lodge, 118 Stoke

Newington-road, N.
May 27, 1881 Botterill, C, 13 Bentley-road, Liveii30ol.
Oct. 27, 1865 Braithwaite, E., M.D., M.R.C.S.E., F.L.S.,

F.R.M.S., The Ferns, 303 Clapham-road, S.W.
May 25, 1877 Bramhall, Eev. John, E.D., Terrington St. John's,

near Lynn, Norfolk.
June 28, 1878 Brewster, W., 25 Myddleton- square, E.C.
May 26, 1876 Brigstock, John Wm., 4 Comberton-road, Upper

Clapton, E.
May 27, 1870 Brown, George Dransfield, M.E.C.S., Henley-villa,

Uxbridge-road, Ealing, W.
Sept. 26, 1879 Brown, Wm., B. Sc, 3 Elm-cottages, Middle-lane,

Homsey, N.
May 22,1868 Brown,W. J., 1 Lome- villas, Stodart-road,Anerley.
May 26, 1871 Browne, George, 45 Victoria-road, Kentish-town,

N.W.
May 28, 1875 Browne, J. W., Frascati, Mason's-hill, Bromley,

Kent.
Feb. 27, 1872 Browne, Eev. Thomas Henry, F.E.M.S., F.G.S.,

M.E.S., High Wycombe, Bucks.

16

Date of Election.

Jan. 23, 1880 Browne, Wm. Robert, 90 Morton-rd., Islington, N.

Jan. 26, 1877 Buffham, T. Hughes, 2 Connaught-road, Walt-
hamstow.

Jan. 28, 1881 Burt, 0. W., 5 Surrendale-place, Sutherland-
gardens, W.

Aug. 22, 1879 Burton, Wm., 27 Wigmore- street, W.

SejDt. 27, 1872 Bush, Wm., Hanworth-house, Hanworth.

May 23, 1879 Button, Arthur, 123 Brecknock-road, N.W

June 14, 1865 Bywater, Witham M., F.R.M.S., 5 Hanovei-bq. W.

Nov. 22, 1878 Cafe, James Watt, 46 Clifton-hill, St. John's-wood,

N.W.
June 25, 1880 Cambridge, John, Bury St. Edmund's, Suffolk.
Sept. 22, 1876 Canton, Fredk., L.R.C.P., M.R.C.S., &c., 17 Great

Marlborough- street, Eegent- street, W.
Dec. 17, 1875 Caplatzi, A., 1 North- crescent, Bedford- square,

W.C.
May 23, 1879 Carpenter, H. S., F.E.M.S., Beckington-house,

Weighton-road, Anerley, S.E.
July 23, 1880 Carr, Ebenezer, 9 Park- villas, Bromar-road, Den-
mark-hill, S.E.
May 22, 1874 Carruthers, Herbert.
Jan. 23, 1880 Cassidy, Joseph Lamont, M.D., 82 Guildford- st.,

Russell- square, W.C.
May 26, 1871 Catchpole, Robert, 10 The Mall, Ealing, W.
April 25, 1879 Cazaux, Denis B., F.R.M.S., 61 Finsbury-park-

road, N.
April 25, 1879 Chantrell, George F. {V.P. and late Pres. Liverpool

Mic. Sac), 1 St. James's-mount, Liverpool.
Dec. 27, 1878 Chatto, Andrew, 214 Piccadilly, W.
Oct. 22, 1875 Cheshire, F., Avenue-house, Acton, W.
Nov. 27, 1874 Chippindale, Geo., Grape- villa, Rothschild- road,

Turnham-green, W.
Mar. 24, 1876 Clarkson, A., 49 Southampton- street, Pentonville-

road, N.
May 22, 1874 Clayton, James, 25 Hemingford-road, Islington, N.
Oct. 25, 1878 Clifford, Rev. H.M.,M.A., 43 Onslow-gardens,S.W.
Aug. 27, 1880 Close, J. A., 449 Strand, W.C.
July 25, 1879 Cobbold, T. Spencer, M.D., F.R.S., F.L.S., 74

Portsdown-road, Maida-vale, AV.

17

Date of Election.

May 22, 1868 Cocks, W. G., 36 Gayhnrst-road, Dalston, E.
Sep. 22, 1876 Cole, Ai-tlmr, C, F.K.M.S., St. Domingo-liouse,

Oxford-gardens, Netting- hill, W.
Nov. 27, 1874 Cole B. G., Laurel- cottage, King's-place, Buck-

liurst-liill, Essex.
April 24, 1874 Cole, Wm., M.E.S. Laurel-cottage, King's-place,

Buckliurst-liill, Essex.
Jan. 25, 1867 Coles, Ferdinand, F.L.S., 18 Brooks-road, Stoke

Newington- common, N.
Mar. 24, 1876 Colsell, Geo. Dannett, 5 Austin-friars, E.C.
Feb. 23, 1872 Colvin, Alexander, Beaconside, Penrith, Cumber-
land.
Sep. 27, 1872 Connolly, Charles, T., L.S.A., 3 Church-hill- villas,

Wood- green, N.
June 14, 1865 Cooke, M. C, M.A., LL.D., A.L.S. (Vice-President,
Hon. Sec. for Foreign Correspondence), 146 Junc-
tion-road, Upper Holloway, N.
Feb. 22, 1867 Cooper, Frank W., L.R.C.S. Edin., Leyton-

stone, E.
June 27, 1873 Corbett, Alfred L., 103 Fentiman-road, Clapham-

road, S.W.
May 28, 1869 Cottam, Arthur, F.R.A.S., H.M. Office of Woods,

Whitehall-place, S.W.
July 26, 1872 Cowan, Thos. Wm., F.G.S., F.R.M.S., Compton

Lea, Horsham, Sussex.
May 25, 1877 Coxhead, Albert C, 47 Eussell- square, W.C.
Nov. 28, 1879 Crighton, Arthur J., Farncombe- villa, Godalming.
Aug. 28, 1868 Crisp, Frank, LL.B., B.A., F.L.S. (Sec. Royal
Microscopical Society), 5 Lansdowne road, Not-
ting-hill, W.
Dec. 23, 1870 Crisp, John S., F.R.M.S., Ashville, Lewin-road,

Streatham, S.W.
July 26, 1878 Crockford, Wm., 2 St. Peter's-road, Mile-end, E.
Feb. 23, 1877 Crofton, Edward, M.A. Oxon., F.E.M.S., 45 West

Cromwell-road, South Kensington, S.W.
June 24, 1881 Crosby, Herbert T., 21 Gordon-square, W.C.
Sept. 28, 1866 Crouch, Henry, F.R.M.S., m Barbican, E.C.
June 22, 1877 Cunliffe, P. G., F.R.M.S., The Elms, Handforth,
Manchester.

18

Date of Election.

Nov. 26, 1875 Cunningham, Francis Bertram, 8 Durham- terrace,

Westbourne-park, W.

June 25, 1880 Curties, Charles Lees, 244 High Holborn, W.C.

May 25, 1866 Curties, Thos., F.K.M.S., 244 High Holborn, W.C.

June 25, 1880 Curties, Walter Irvin, 244 High Holborn, W.C.

Sept. 26, 1879 Curtis, Charles, 29 Baker-street, Portman-sq., W.

Aug. 22, 1879 Cuttell, F. G., 52 New Compton-street, Soho, W.

April 22, 1881 Cutting, W. M., 1, Curtain-road, E.C.

Jan. 22, 1875 Dadswell, Edward (Vice-President), 42 Barring-
ton-road, Stockwell, S.W.
Nov. 23, 1877 Dallas, Wm. S., F.L.S., &c.. The Geological

Society, Burlington-house, Piccadilly, W.
May 23, 1879 Dallmeyer, Thos. R., 19 Bloomsbury- street, W.C.
Mar. 22, 1878 Darby, The Ven. Ai'chdeacon, St. Bridget's Rectory,

Chester.
Mar. 22, 1878 Darke, Edward, 2 Brecknock- crescent, Camden-

road, N.W.
May 23, 1874 Davey, Robert F., War Office, Pall-mall, S.W.
Oct. 22, 1869 Davis, Henry, 19 Warwick- street, Leamington.
May 23, 1879 Dawson, Wm., 24 Abbeygate- street. Bury St.

Edmunds, Suffolk.
May 28, 1875 Dean, Arthur, {Hon. Sec. East Lond. Mic. Soc.)

12 Vernon-road, Tredegar-road, Bow, E.
Feb. 23, 1877 Death, James, Jun., 38 Gladstone-street, St.

George's-road, Southwark, SE.
Feb. 28, 1879 Debenham, Edw. H., 9 Mincing-lane, E.C.
Jan. 24, 1879 Deby, Julien, C.E., F.R.M.S., 75 Holland-road,

Kensington, W.
May 28, 1875 Defriez, Joseph George, M.R.C.S., L.S.A., 173

Bethnal- green-road, E.
Feb. 23, 1877 Delferier, Wm. Adrien, 15 Penywern-road, South

Kensington, S.W.
Nov. 24, 1876 Despointes, Francis, 16 St. George's-square,

Regent's-park-road, N.W.
May 23, 1879 Dixon, AVm. Eras., 18 University- street, W.C.
Nov. 24, 1865 Dobson, H. H., F.R.M.S., Holmesdale, Grange-
park, Ealing, W.
Nov. 27, 1868 Douglas, Rev. R. C, Manaton-rectory, Moreton-

hampstead, Exeter.

19

Date of Election,

Oct. 25, 1878 Dowler, Captain F. E., Naval and Military Club,

Piccadilly, W.
Jan. 23, 1880 Dowsett, Geo. Harris, 38 Egerton-road, Black-

lieatli-road, S.E.
Nov. 22, 1878 Drayton, H. F. Ernest, Horton-house, Beckenham,

Kent.
July 28, 1871 Drew, G. C, Milton-house- school, Clapton-com-
mon, S.E.
July 25, 1879 Driver, Alfred, 23 Leighan-court-road, West

Streatham, S.W.
Aug. 26, 1872 Dudgeon, E. E., M.D., 53 Montague- square, W.
Oct. 25, 1872 Dunning, Charles G., 55, Camden-park-road,

N.W.
Sept. 22, 1865 Durham, Arthur E., F.E.C.S., F.L.S., F.E.M.S.,

&c., 82 Brook-street, Grosven or- square, W.

Jan. 24, 1879 Easty, Chas. Wm., 19 Edith-road, St. Mary's-

road, Peckham, S.E.
Sept. 25, 1868 Eddy, James Eay, F.E.M.S., F.G.S., The Grange,

Carleton, Skipton, Yorkshire.
June 28, 1867 Edmonds, E., 178 Burrage-road, Plumstead, S.E.
May 26, 1876 Emery, Charles {Hon. Curator), 6 Laburnam-

cottages. Middle-lane, Crouch-end, N.
May 26, 1871 Enock, Fredk., 30 Eussell-road, Seven Sister's-

road, N.
Feb. 28, 1879 Epps, Hahnemann, 9 Eliot-bank, Sydenham-

hill, S.E.
Dec. 27, 1878 Erlebach, H. A., Mill-hill- school. Mill-hill, N.W.
Feb. 25, 1881 Essell, G. F. S., Christ Church Vicarage, Spa-road,

Bermondsey, S.E.

Dec. 17, 1875 Farries, Thomas, F.C.S.

July 25, 1873 Ease, Eev. H. J., 5 Bessborough-gardens, S.W.

June 25, 1875 Faulkner, Hy.,jun., Fernwood, Eoehampton-park,
S.W.

Jan. 28, 1876 Faulkner, John

Feb. 27, 1880 Fieldwick, Alfred, jun., 288 Dalston-lane, Hack-
ney, E.

July 22, 1881 Firth, W. A., Whiterock, Belfast.

B 2

20

Date of Election.

July 2671867 Fitch, Frederick, F.RG.S., F.E.M.S., Hadleigh-

liouse, Highbury New-park, N.

Nov. 28, 1879 Forster, Wm., jun., Cleveland-road, Woodford,
Essex.

Mar. 24, 1871 Foulerton, J., M.D., Science- club, 4 Savile-row, W.

July 26, 1878 Fowke, Francis, F.K.M.S., 40 Nottingham-place, W.

Dec. 28, 1866 Fox, C. J., F.E.M.S., 26 South Molton- street,
Oxford- street, W.

Nov. 26, 1875 Freckelton, Eev. T. W., F.R.M.S., 28a Lonsdale-
square, Islington, N.

Jan. 23, 1880 Freeland, Fredk. John, M.R.C.S., J.P., North-
street, Chichester.

June 23, 1871 Freeman, Henry E., 1 Templeton-road, Finsbury-
park, N.

May 22, 1868 Fryer, Geo. H., 107 Belsize-road, N.W.

July 23, 1880 Funston, James, 93 Finsbury-pavement, E.C.

Mar. 25, 1870 Garden, Robert Spring, 42 Carlton-hill, St. John's-
Wood, N.W.

May 25, 1866 Gardiner, G., F.M.S., 23 St. Paul's-road, N.W.

Feb. 26, 1875 Gardner, Edmund, 454 Strand, W.C.

July 27, 1877 Gardner, J. H., A.K.C., 44 Berners-street, W.

April 24, 1868 Garnham, John, F.R.M.S., Hazelwood, Crescent-
road, St. John's, Upper Lewisham, S.E.

April 23, 1880 Gates, G. W. H., 21 Lombard- street, E.C.

July 7, 1865 Gay, F. W., F.R.M.S. {Hon. Treasurer), 113 High
Holborn, W.C.

Jan. 28, 1870 Gellatly, Peter, Loughton, Essex.

June 25, 1880 George, C. F., M.R.C.S., Kirton-in-Lindsey, Lin-
colnshire.

July 26, 1867 George, Edward, F.R.M.S., 12 Derby- villas, Forest-
hill, S.E.

April 26, 1878 Gibbins, G. W., 44 Parkfield- street, Islington, N.

July 22, 1870 Gibson, Joseph F., F.R.M.S., 20 Aldcrmanbury,
E.C.

June 14, 1865 Gibson, W., 3 Bridge- street, Westminster, S.AV.

April 27, 1877 Gilbertson, Henry, Mangrove-house, Hertford.

June 24, 1881 Gilburt, Henry, 63 Rectory-road, Stoke Ncw-
ington, N.

21

Date of Election.

Oct. 27^ 1876 Gilburt, W.H.,F.R.M.S., 48 Wetherell-road, South
Hackuey, E.

Feb. 25, 1881 Glaisher, James, F.R.S., F.R.A.S., F.R.M.S., &c.,
1 Dartmouth-place, Blacklieath, S.E.

June 27, 1873 Glasspoole, Hampden G., 15 Mall-road, Hammer-
smith, W.

Feb. 25, 1876 Godwin, John, 219 Brompton-road, S.W.

Nov. 28, 1879 Goodinge, Alfred Charles, 18 Aldersgate-st., E.G.

April 26, 1872 Goodinge, James Wallinger, F.R.G.S., F.E.M.S.,
119 High Holborn, W.C.

Nov. 23, 1877 Goodwin, Wm., 162 Elthorne-road, Hornsey-
rise, N.

Mar. 27, 1866 Gray, S. Octavus, Bank of England, E.G.

Nov. 27, 1874 Grayling, J. F., Sittingbourne, Kent.

May 22, 1874 Green, G., 6 Helmet-row, St. Luke's, E.G.

April 22, 1881 Green, J. R., 46 Chetwynd-road, Dartmouth-park,
N.W.

Aug. 22, 1879 Greenhough, D. W., F.R.M.S., South-bank, Break-
speare-road, Lewisham-high-road, S.E.

Oct. 23, 1868 Greenish, T., F.E.M.S., 20 New-street, Dorset-
square, N.W.

Oct. 23, 1868 Gregory, Henry E., 1 Wellington-square, King's
road, Ghelsea, S.W.

May 22, 1874 Grey, Ernest, 290 Essex-road, Islington, N.

July 24, 1868 Gkoves, James William, F.E.M.S. {Vice- President) y
15 Carlyle- square, Chelsea, S.W., and Physio-
logical Laboratory, King's College, W.C.

May 28, 1880 Groves, Wilham, 28 Manor-park, Lee, S.E.

July 24, 1868 Grubbe, E. W., C.E., 73 Eedcliffe- gardens, S.W.

Jan. 27, 1871 Guimaraens, Augustus de Souza, F.E.M.S., 50
Lowden-road, Herne-hill, S.E.

Aug. 24, 1877 Habirshaw, Fredk., F.E.M.S., 6 West 48th-street,

New York, U.S.A.
Aug. 24, 1877 Habirshaw, John, M.D., F.E.M.S., 6 West 48th

street, New York, U.S.A.
Jan. 23, 1874 Hadland, J. H., 11 King Wilham- street, E.G.
Sept. 28, 1877 Hagger, John, Eepton- school, Burton- on- Trent.
Feb. 25, 1881 Haigh, William, Tempsford- villa, Uxbridge-road,

Ealing, W.

22

Date of Election,

June 14, 1865 Hailes, Henry F., 4 Westfield-road, Homsey, N.
Aug. 26, 1870 Hailstone, Kobert H., 91 Adelaide -road, N.W.
Feb. 23, 1867 Hainworth, W., jun., Clare-villa, Cricketfield-road,

Lower Clapton, E.
July 28,1876 Halford, Edwd., 18Leinster-square, Bayswater, W.
Dec. 28, 1866 Hallett, E. J., 123 Seymour-st., Euston-sq., N.W.
Feb. 22, 1869 Hammond, A., F.L.S., 13 Eock's-mount-road,

Central-hill, Norwood, S.E.
June 25, 1880 Hancock, H. S. H., 93 Aden-grove, Stoke New-

ington, N.
Jan. 24, 1879 Harding, Burcham, 128 Adelaide-road, N.W.
July 23, 1880 Hardingham, Arthur Shortridge, 3 Serjeant's-inn,

Chancery-lane, E.C.
July 25, 1879 Hardingham, George Gatton, F.E.M.S., 33 St.

George's- square, S.W.
Jan. 23, 1874 Hardy, James Daniel, 73 Clarence-road, Clapton, E.
Sept. 28, 1866 Harkness, W., F.E.M.S., Laboratory, Somerset-
house, W.C.
June 23, 1871 Harris, Edward, F.E.M.S., Eydal- villa, Longton-

grove, Upper Sydenham, S.E.
Jan. 25, 1878 Harrison, D. H., Argyll- villas, Mattock-lane,

Ealing, W.
June 24, 1881 Harrison, Fredk. Wm., 69 Sewardstone-road,

Victoria-park, E.
April 23, 1875 Harrison, James, 150 Akerman-road, North

Brixton, S.W.
July 26, 1872 Harrod, John, Mark-lane-square, E.C.
Mar. 28, 1879 Hawkins, C. E., H.M. Geological Survey, Jermyn-

street, S.W.
June 24, 1870 Hawkins, S. J.

June 28, 1867 Hawksley, Thos. P., 97 Adelaide-road, N.W.
Sept. 28, 1877 Headley, Eobt., F.E.G.S., 44 Walham-grove,

Walham-green, S.W.
Aug. 23, 1872 Hembry, F. W., F.E.M.S., 150 Stockwell-park-

road, Brixton, S.W.
June 26, 1868 Henry, A. H., 73 Eedcliffe- gardens, S.W.
June 26, 1874 Hewitt, W. W., F.E.M.S., 5 Torriano-gardens,

Camden-road, N.W.
May 22, 1868 Hicks, J. J., 8 Hatton-garden, E.C.

23

Date of Election.

June 22^ 1877 Hill, K. W., 41 Lothbury, E.G.

Sept. 24, 1869 Hilton, T. D., M.D., Upper Deal, Deal, Kent.

Sept. 28, 1866 Hind, F. H. P., Bartholomew-house, Bartholomew-
lane, E.G.

May 22, 1874 Hind, George, 244 High Holborn, W.C.

July 26, 1872 Hinton, Ernest.

Aug. 26, 1870 Hirst, John, F.E.M.S., Ladcastle, Dobcross, Man-
chester.

Sept. 26, 1879 Hobden, Horace, St. Bartholomew's-hospital, E.G.

Feb. 26, 1875 Holford, Ghr., Bounty-office, Dean's-yard, West-
minster, S.W.

Jan. 23, 1880 Holland, Ghas. Fredk., 14 Wayland- avenue, Sand-
ringham-road. Hackney, E.

April 26, 1867 Hooton, Gharles, Sunningdale-house, Bickerton-
road. Upper Holloway, N.

Nov. 26, 1880 Hopkins, Eobert, 53 Pall-mall, S.W.

April 28, 1876 Horn, Wm. E., A.I.G.E., 10 Vincent- square,
Westminster, S.W.

Oct. 26, 1866 Horncastle, H., Whitemoor-house, Ollerton, Notts.

June 25, 1869 Houghton, W., Hoe-street, Walthamstow, E.

May 22, 1874 Hovenden, G. W., F.E.M.S., 95 Gity-road, E.G.

April 26, 1867 Hovenden, F., F.E.M.S., Glenlea, Thurlow-park-
road, Dulwich, S.E.

June 23, 1876 How, Wm. Samuel, 75 Great Portland- street, W.

Oct. 27, 1876 Howard, D., 60 Belsize-park, N.W.

Oct. 25, 1878 Howling, W. E., Growley's Brewery, Alton, Hants.

Feb. 25, 1870 Hudleston, W. H., J.P., F.G.S., 23 Gheyne-walk,
S.W.

Feb. 28, 1879 Hudson, G. T., M.A., LL.D. Gantab., V.P.E.M.S.,
Manilla-hall, Glifton, Bristol.

Jan. 26, 1872 Hudson, Eobert, F.E.S., F.L.S., F.E.M.S., &c.,
Glapham- common, S.W.

Nov. 28, 1879 Hughes, E. J., L.E.G.P., L.E.G.S., L.M., 15
Queen's-road, Finsbury-park, N.
Hunt, Fredk., York-lodge, Stamford- hill, N.
Hunt, W. H. B., F.E.M.S., 160 Gamden-rd., N.W.
Hunter, J. J., 20 Cranbourne- street, W.C.
Hurst, John Thomas, Eoyal Engineer Office,
Portsmouth.

Jan.

23,

1880

Dec.

28,

1866

Dec.

22,

1876

July

25,

1873

24

Date of Election.

Nov. 25, 1870 Hutton, Eev. Wyndliam M., Hungarton Vicarage,

Leicester.
June 28, 1878 Huxley, Prof. T. H., F.E.S., &c., Science Schools,

South Kensington, S.W.

May 24, 1867 Ingpen, J. E., F.K.M.S. {Hon. Secretary), 7 The

Hill, Putney, S.W.
Aug. 22, 1873 Israel, S., 18 Steimey- green. Mile- end- road, E.

Dec. 17, 1869 Jackson, B. D. {Sec. Linnean Society), F.E.M.S.,

30 Stockwell-road, S.W.
Dec. 17, 1875 Jackson, C. L., F.L.S., F.Z.S., F.E.M.S. (President

of the Bolton Microscopical Society), Hill Fold,

Sharpies, Bolton.
July 24, 1868 Jackson, F. E., Culver- cottage, Slindon, Arundel,

Sussex.
June 25, 1880 Jacques, Walter, 2 Fenchurch-huildings, E.G.
June 14, 1865 Jaques, Edward, B.A., F.E.M.S., H.M. Office of

Woods, Whitehall-place, S.W.
Feb. 28, 1873 Jenkins, J. W., 3 Harcourt-road, Wallington.
July 24, 1868 Jennmgs, Eev. Nathaniel, M.A.,F.E.A.S.,1 Grove-
terrace, Highgate-road, N.W.
Jan. 25, 1867 Johnson, John A., 15 Wellington-road, Stoke

Newington, N.
Feb. 24, 1871 Johnson, M. Hawkms, F.E.M.S., F.G.S., 379

Euston-road, N.W.
June 23, 1876 Johnson, Tom Eichard.
Feb. 23, 1877 Johnston, J. M. C, 161 Grove-lane, Camberwell-

S.E.
Mar. 24, 1871 Johnstone, James, Stanhope-lodge, Bideford.
Oct. 25, 1872 Jones, E. W., F.E.A.S., F.E.M.S., 53 Cowley-road,

North Brixton, S.W.
Feb. 28, 1873 Jones, Geo. J., 38 St. Thomas'-street, Lymington,

Hants.
June 25, 1875 Jones, J. Birdsall, F.E.M.S., The Athenaeum,

Liverpool.
Nov. 25, 1870 Jones, Lieut. -Col. Lewis, St. Bernard's, Max)le-

road, Surbiton.

25

Date of Election.

May 23, 1873 Jones, Captain Loftus F., United Service Club,

Pall Mall, S.W.
June 23, 1876 Jones, Thomas E., 46 Park-street, Stoke New-

ington, N.

May 23, 1873 Karop, Geo. C, M.K.C.S., &c., 198 HoUand-road,
Kensington, W.

Aug. 23, 1867 Kiddle, Edward, The War Office, Pall Mall, S.W.

Mar. 19, 1869 Kilsby, Thomas W., 4 Brompton- villas, Edmonton.

April 22, 1881 King, H. W., The Cedars, Upper Park-road, New
Southgate, N.

Dec. 23, 1870 King, Kobert, F.E.M.S., Fern-house, Upper Clap-
ton, E.

May 24, 1878 King, Wm. Talbot, M.D., M.E.C.S., 74 Victoria-
park-road, South Hackney, E.

Nov. 26, 1880 Kingsett, Chas. T., F.C.S., F.I.C., 12 Auriol-road,
West Kensington, W.

April 26, 1867 Kirk, Joseph, 11 Blossom-st., Norton Folgate, E.

Nov. 27, 1874 Kirkman, Eev. Joshua, Thurlow-road, South
Hampstead, N.W.

Feb. 28, 1873 Kitsell, Francis J., 41 Latymer-road, W.

Mar. 23, 1877 Kluht, H. J., 42 Westbourne- grove, Bayswater, W.

Oct. 24, 1873 Knight, John Mackenzie, 50 Bow-road, E.

Nov. 25, 1870 Ladd, Wm., F.E.A.S., F.E.M.S., 12 Beak-street,
Eegent- street, W,

Nov. 23, 1866 Lambert, W., 1 New Broad-street, E.C.

Jan. 24, 1879 Lancaster, Arthur H., 7 Campden- hill- gardens,
Kensington, W.

Mar. 22, 1867 Lancaster, Thos., Bownham-house, Stroud, Glou-
cestershire.

May 25, 1877 Lane-Fox, Hon. Sackville F. H.

Jan. 28, 1881 Lankester, H. H., 4 Claverton- street, S.W., and
Medical School, St. Thomas'-hosi)ital.

May 28, 1875 Larkin, John, 24 Charterhouse- square, E.C.

Nov. 26, 1880 Larkings, Eichd., jun., 98 Clarence-road, Lower
Clapton, E.

May 28, 1875 Laws, Joseph C, 41 St. John's-park, Upper Hol-
loway, N.

26

Date of Election,

June 25, 1869 Layton, Charles E., 12 Upper Hornsey-rise, N.
Aug. 28, 1868 Leaf, C. J., F.L.S., F.E.M.S., &c. {President of the

Old Change Microscopical Society), Old Cliange,

E.G.
Mar. 19, 1869 Lee, Henry, F.L.S., F.E.M.S., &c., Ethelbert-

house, Margate.
May 27, 1874 Leefe, Frederick Ewbank, 289 Goswell-road, E.G.
June 23, 1876 Leeson, Herbert Seymour, 4 Old- buildings, Lin-

coln's-inn, W.G.
Feb. 25, 1881 Leicester, Alfred, 13 Adelaide-terrace, Waterloo,

Liverpool.
Oct. 25, 1867 Leifcliild, J. E., M.A., 6 St. Lawrence-road,

Notting-bill, W.
Sept. 22, 1865 Leigliton, W. H., 2 Merton-place, Cliiswick, W.
July 25, 1873 Le Pelley, C., 84 St. Thomas'-road, Seven Sisters-
road, N.
April 27, 1866 Lewis, E. T., F.E.M.S. {Hon. Reporter), 1 Lowndes-

terrace, Kniglitsbridge, S.W.
June 26, 1868 Lindley, W. H., jun., 29 Blittersdorffs-platz, Frank-

fort-on-Maine.
May 26, 1871 Locke, John, 16 Georgiana- street, Camden-town,

N.W.
April 23, 1869 Long, Henry, 90 High-street, Croydon.
Nov. 24, 1866 Lovibond, J. W., F.E.M.S., St. Anne-street, Sahs-

bury.
Sept. 22, 1866 Lovick, T., 53 Queen's-crescent, Haverstock-hill,

N.W.
Dec. 18, 1868 Lowne, B. Thompson, F.E.C.S., F.L.S., F.Z.S.,

65 Cambridge-gardens, Bayswater, W.
April 27, 1866 Loy, W. T., F.E.M.S., Garrick- chambers, 11

Garrick- street, W.G.

Nov. 23, 1866 Mclntire, S. J., F.E.M.S., 14 Hettley-road, Ux-
bridge-road, Shepherd's-bush, W.

Jan. 28, 1881 McKenzie, John A., Forestone-lodge, Hornsey, N.

Jan. 26, 1872 Mackechnie, J. Hamilton, M.D., 60 Wimpole-
street, Cavendish- square, W.

Jan. 23, 1880 Mackenzie, James, Warden-villa, Uxbridge-road,
Ealing, W.

27

Date of Election.

June 28, 1878 Magor, John Bernard, L.D.S., 24 Chapel- street,
Penzance.

July 26, 1874 Magor, Thomas, M.D., Eagle-cottage, Hornsey, N.

Feb. 28, 1879 Mann, James H.

Sept. 27, 1872 Manning, H.E. the Cardinal Archbishop, Arch-
bishop's-house, Westminster, S.W.

Jan. 23, 1880 Martin, Francis, E.N.,H.M.S. ''Hydra," Sheerness.

Sept. 22, 1876 Martin, W. H., 11 Markliam- square, Chelsea, S.W.

Dec. 27, 1867 Martinelli, A., 106 Albany- street, N.W.

Dec. 27, 1878 Martiney, M. G., 11 Castlenau- gardens West,
Barnes, S.W.

April 26, 1867 Matthews, G. K., St. John's-lodge, Beckenham,
Kent.

Oct. 26, 1866 Matthews, John, M.D., F.E.M.S., 80 Colebrooke-
row, Islington, N.

Jan. 26, 1877 Matthews, Wavell, 12 Wigmore- street, W.

May 26, 1871 May, John William, F.R.M.S., Arundel- house,
Percy-cross, Fulham, S.W.

Feb. 27, 1874 May, Lewis J., 371 Holloway-road, N.

Dec. 17, 1875 May, Thomas.

Feb. 25, 1876 May, W. R., 69 St. Mark's- square, Dalston, E.

Mar. 22, 1867 Meacher, John W., 10 Hillmarten-road, Camden-
road, N.

Feb. 28, 1879 Menzies, James, 13 Leighton-grove, N.W.

May 22, 1874 Messenger, G. A., 21 Glengall-grove, Old Kent-
road, S.E.

Dec. 18, 1868 Mestayer, Eichard, F.L.S., F.R.M.S., 7 Buckland-
crescent, Belsize-park, N.W.

July 27, 1877 Michael, Albert D., F.L.S., F.R.M.S., 3 & 4 Great
Winchester- street, E.C.

May 28, 1880 Miles, Andrew, 185 Camden-grove, Peckham, S.E.

Feb. 25, 1881 Millar, John, L.R.C.P., F.L.S., F.R.M.S., Bethnal-
house, Cambridge-road, E.

July 7, 1865 Millett, F. W., F.R.M.S., 13 Mihier- square, Is-
lington, N.

Oct. 22, 1880 Milner, W. E., 47 Park- road, Haverstock-hm, N.W.

May 25, 1866 Moginie, W., F.R.M.S., 26 Lichfield- grove. Finch-
ley, N.

Jan. 23, 1874 Moreland, Eichard, jun., M.I.C.E., F.E.M.S., 4
The Quadrant, Highbury, N.

28

Date of Election.

July 26, 1878 Morland, Henry, Cranford, near Hounslow.

Oct. 27, 1866 Morrieson, Colonel E., F.K.M.S., Oriental- club,

Hanover square, W.
Dec. 27, 1876 Morris, J. Griffith, M.R.C.S., 135 St. Owen-street,

Hereford.
Oct. 27, 1876 Morris, W. 0., L.D.S., The Lodge, Sansome-walk,

Worcester.
Nov. 23, 1877 Morten, T. S., 42 Haverstock-hill, N.W.
April 22, 1881 Moss, J. M., 313 High Holborn, W.C.
Jan. 24, 1879 Murray, James, Osborne-house, 50 Percy-road,

Shepherd's-bush, W.
Jan. 25, 1867 Murray, K. C, 69 Jermyn-st., St. James's, S.W.

Mar. 23, 1866 Nation, W. J., 30 King-square, Goswell-road, E.G.

Feb. 22, 1878 Needham, S. H., F.E.G.S., F.G.S., 5 Mecklenburg-
street, Mecklenburg- square, W.C.

Mar. 24, 1876 Nelson, Edward M., 9 Marlborough- hill, N.W.

Mar. 24, 1871 Nelson, James, 3 Oakden- street, Kennington-road,
S.E.

Feb. 28, 1879 Nesbitt, Henry, F.E.G.S., F.E.M.S., 12 Yictoria-
villas, Kilburn, N.W.

May 23, 1879 Newcombe, Prout, Northcote, East Croydon.

Nov. 23, 1877 Newth, A. H., M.D., Science-club, 4 Savile-row, W.

Jan. 26, 1872 Newton, Edwin Tulley,F.G.S., Geological-museum,
Jermj^n- street, S.W.

Feb. 27, 1880 Niven, George, 41 Albert-road, Finsbury-park, N.

May 22, 1874 Nixon, Philip Charles, Oporto.

Mar. 25, 1881 Norman, Edwin, 178 City- road, E.C.

Aug. 26, 1881 Northey, M. D., 4 South Brighton-terrace, Surbiton.

Aug. 24, 1877 Gates, Parkinson, M.D., L.S.A., M.E.C.S., 48

Lupus-street, S.AV.
Jan. 24, 1879 Offord, John Milton, 31 Hereford- square, S.W.
Dec. 22, 1876 Ogilvy, C. P., F.L.S., Sizewell-house, Leiston, near

Saxmundliam, Suffolk.
May 24, 1878 O'Hara, Lt.-Col. Eichard, F.E.M.S. (late Eoyal

Artillery), West-lodge, Galway.
June 22, 1877 Oswin, Frederick, F.S.A., 10 Gower-street, W.C.
Dec. 27, 1867 Oxley, Frederick, F.E.M.S., 8 Crosby- square, Bis-

hopsgate- street, E.C.

29

Date of Election.

July 25, 1879 Palmer, Greville H., 95 Cornwall-gardens, S.W.

May 22, 1874 Palmer, Thomas, B.Sc, F.E.M.S., Holme Lee,
Lower Camden, Chislehurst, Kent.

Oct. 27, 1871 Parsons, Fred. A., 90 Leadenhall- street, E.G.

Dec. 28, 1877 Partridge, Tlios., M.D., Stroud, Gloucestershire.

April 23, 1875 Peal, C. N., Fernhurst, Mattock-lane, Ealing, W.

May 22, 1874 Pearce, George Alonzo Creech, B.A., M.B., B.C.N.,
26 Gracechurch- street, E.C.

May 24, 1867 Pearce, George, Villa Helvetia, Tufnell-park, N.

Feb. 23, 1872 Pearce, W. E. Grindley, L.K.C.P., 24 Bessborough-
gardens, S.W.

April 27, 1877 Pearcy, Alfred Copley, 20 Castlewood-road, Craven-
park, Stamford- hill, N.

May 24, 1867 Pearson, John, 212 Edgware-road, W.

July, 22, 1881 Perigal, Henry, F.E.A.S., F.E.M.S., 9 North-
crescent, Bedford- square, W.C.

Oct. 27, 1865 Pickard, J. F., 195 Great Portland- street, W.

May 23, 1879 Pilcher, Wm. John, F.B.C.S., &c., Boston, Lin-
colnshire.

June 24, 1881 Pilley, John James, 8 Ellesmere-rd.-north, Bow, E.

Jan. 22, 1869 Pillischer, M., F.R.M.S., 88 New Bond-street, W.

Nov. 24, 1871 Pitts, Frederick, Harvard-house, St. John's-hill,
Clapham, S.W.

Sep. 27, 1878 Plomer, Geo. DanL, F.R.M.S., 48 Springfield-road,
St. John's-wood, N.W.

Sep. 28, 1877 Pocklington, Henry, F.R.M.S., 20 Park-road, Leeds.

Nov. 23, 1866 Potter, George, F.E.M.S., 42 Grove-road, Hol-
loway, N.

Jan. 25, 1878 Potts, E. A., 26 South Audley- street, W.

June 24, 1881 Potts, William, Hillside- avenue, Beckenham, Kent.

June 22, 1866 Powe, L, 71 George- street, Eichmond, Surrey.

May 25, 1866 Powell, Hugh, F.E.M.S., 170 Euston-road, N.W.

April 25, 1879 Powell, Hugh Peter, The Butts, Brentford.

May 26, 1876 Powell, J. T., 32 Dunlace-road, Lower Clapton, E.

July 7, 1865 Powell, Thomas, F.E.M.S., 18 Doughty- street,
Mecklenburg- square, W.C.

July 24, 1874 Powell, Thomas Henry, 116 Denmark-hill, S.E.

Jan. 22, 1875 Power, H. D'Arcy, F.L.S.

April 25, 1879 Preedy, Wm. Halcomb, 41 Oseney-crescent, Cam-
den-road, N.W.

30

Date of Election.

June 27, 1873 Priest, B. W., 22 Parliament- street, S.W.

May 23, 1879 Pritchard, J. D., Crymlyn Burrows, near Swansea.

July 26, 1867 Pritcliett, Francis, 137 Fencliurch- street, E.G.

Feb. 25, 1881 Probyn, Clifford, 55 Grosvenor- street, W.

April 23, 1868 Quekett, Alfred J. S., 51, Warwick -road, Maida-

hill, W.
April 23, 1868 Quekett, Arthur Edwin, 51 Warwick-road, Maida-

hiU, W.
April 23, 1868 Quekett, Eev. William, The Eectory, Warrington.
Feb. 23, 1866 Quick, George E., 74 Long-lane, Bermondsey, S.E.

Oct. 26, 1866 Babbits, W. T., Highfield, Dartmouth-park, Forest-
hill, S.E.
Sept. 24, 1869 Badcliffe, J. D.
Oct. 22, 1880 Badcliffe William, 43 Queens-road, Brownswood-

park, N.
June 25, 1875 Badford, W. S., M.D., F.B.M.S., Sidmouth.
Oct. 26, 1866 Bamsden,Hildebrand,M.A.Cant.,F.L.S.,F.E.M.S.,

26 Upper Bedford-place, Eussell- square, W.O.
Aug. 28, 1868 Bance, T. G., Elmside, Bickley, Kent.
June 24, 1881 Bansom, F., Fairfield, Hitchin.
May 22, 1868 Bawles, W., 64 Kentish-town-road, N.W.
July 23, 1880 Bead, Bev. Wm., M.A., F.B.A.S., F.B.M.S., &c.

Worthing, Sussex.
June 27, 1879 Beadaway, Wm., 39 Bobert -street, Hampstead

road, N.W.
Dec. 27, 1878 Beed, John Murray, Sidmouth-house, South-park;

Ilford, E.
June 22, 1877 Beed, John W., F.B.G.S., F.B.M.S., 27 Clarence

street, Islington, N.
June 27, 1873 Beeve, Fredk., 37 Fentiman-road, Clapham-road

S.W.
July 7, 1865 Beeves, W. W., F.B.M.S., 30 Ashburnham- grove

Greenwich, S.E.
May 22, 1874 Beid, Wm. Wardlaw, Corra Lynn, Selhurst-park

South Norwood, S.E.
Mar. 25, 1870 Bichardson, Thomas Hyde
May 23, 1879 Bideout, Wm., F.B.M.S. (Hon. Sec. Bolton Micro

scopical Club) J Hulliwell, Bolton.

31

Date of Election.

June 25, 1869 Roberts, John H., F.R.C.S., 82 Finchley-road,
St. John's- wood, N.W.

April 26, 1872 Eoberts, S. Hackett, F.R.M.S., 22 Moorgate-
station- buildings, Finsbury-pavement, E.G.

May 22, 1868 Rogers, John, F.R.M.S., 4 Tennyson- street, Not-
tingham.

Oct. 26, 1866 Rogers, Thomas, F.L.S., F.R.M.S., Selmeston-
house, Thurlow-park-road, West Dulwich.

Mar. 22, 1872 RoKe, Charles Spencer, 5 Westmmster- chambers,
S.W.

May 22, 1868 Roper, Freeman C. S., F.L.S., F.G.S., F.R.M.S.,
Palgrave-house, Eastbourne, Sussex.

June 23, 1876 Roper Henry John, F.R.M.S., 5 Lausanne-road,
Peckham, S.E.

Oct. 27, 1876 Roper, Robert, 29 Hampton-road, Upton, Essex.

July 24, 1868 Rowe, James, jun., M.R.C.V.S., 65 High-street,
Marylebone, W.

May 23, 1879 Rowe, Thos. Smith, M.D., Cecil-square, Margate.

Oct. 26, 1866 Rowlett, John, 92 Enville-road, Walworth, S.E.

Aug. 26, 1881 Roy, Eugene L., B.A., 1 Lady Margaret's-road,
Kentish-town, N.W.

Sep. 24, 1880 Rudkin, F.D., 80 Moray-road, Tollington-park, N.

July 24, 1874 Rushton, William, 61 Tufnell-park-road, Hollo-
way, N.

Oct. 27, 1865 Russell, James, 10 High-street, Shoreditch, E.

May 22, 1868 Russell, Thomas D., 21 Park-road, West Dulwich,
S.E.

Feb. 22, 1867 Rutter, H. Lee, 1 St. Barnabas- villas, Lansdowne-
circus. South Lambeth, S.W.

Feb. 27, 1880 Ryley, Thomas, Lee Park-house, Blackheath, S.E.

Nov. 22, 1878 Sabel, Ernest E., 6 Grove-road, Clapham-park,

S.W.
May 23, 1873 Salkeld, Lt.-Colonel J. C, F.R.M.S., 29 St.

James's-street, S.W.
Dec. 27, 1878 Salmon, C. W., 7 Manor-park- villas, Manor- road.

Stoke Newington, N.
Dec. 17, 1869 Salmon, John, 24 Seymour-street, Euston- square,

N.W.

32

Date of Election.

Dec. 28, 1877 Sands, Chas., 5 Woburn-place, Eussell-sq., W.C.

May 28, 1875 Saul, Geo. William.

June 27, 1879 Sawyer, Geo. D., F.R.M.S., 55 Buckingham-place,
Brighton.

Feb. 27, 1880 Scliulze, Adolf, 1 St. James's- street, Hillhead,
Glasgow.

Feb. 26, 1875 Scofield, W. J., M.R.C.S., F.L.S., 13 South Hill
Park-gardens, Hampstead, N.W.

May 24, 1872 Sequeira, H. L., M.R.C.S., 1 Jewry-street, Aldgate,
E.G.

July 27, 1868 Sewell, Richard, Ashmore-house, Keston, Kent.

July 23, 1880 Shaw, Henry Vincent, Fir Croft, Keymer, Hurst-
pierpoint, Sussex.

Oct. 22, 1869 Shaw, Wm. Forster, Mosshall-grove, Finchley, N.

May 26, 1876 Shepheard, Thomas, F.R.M.S., Kingsley-lodge,
Chester.

May 26, 1871 Sigsworth, J.C.,F.R.M.S.,18Chaucer-road,Herne-
hill, S.E.

June 27, 1873 Simmonds, Joseph E., Royal Exotic Nursery,
Kings-road, Chelsea, S.W.

Aug. 23, 1867 Simmons, James J., L.D.S., 18 Burton-crescent,
Euston-road, N.W.

May 26, 1876 Simpson, Edwd., 24 Grummant-road, Peckham-
road, S.E.

Nov. 23, 1877 Simpson, Thomas, Fennymere, Castlebar, Eal-
ing, W.

Mar. 27, 1868 Simson, Thos.

May 28, 1869 Sketchley, H. G., 75 Bailgate, Lincoln.

Dec. 28, 1866 Slade, J., Fern- villa, Lion-rd., Bexley-heath, Kent.

Oct. 23, 1868 Smart, WiUiam, 27 Aldgate, E.

May 25, 1866 Smith, Alpheus {Hon. Librarian), 42 Choumert-
road, Rye-lane, Peckham, S.E.

April 23, 1880 Smith, Archd. S., Silvermere, Cobham, Surrey.

Oct. 26, 1877 Smith, Bernard E., Aucklands, Wandsworth-
common, S.W.

July 25, 1879 Smith, Charles Vance, 5 Parade, Carmarthen.

Feb. 25, 1876 Smith, Edward, F.S.S., St. Mildred's-house,
Poultry, E.C.

Mar. 25, 1870 Smith, Francis Lys, 3 Grecian- cottages. Crown-
hill, Norwood, S.E.

33

Date of Election.

June 27, 1873 Smith, G. J., F.E.M.S., 73 Farringdon- street, E.G.

Oct. 26, 1866 Smith, H. Ambrose, Claremont, Loughton-grove,
Sydenham, S.E.

June 26, 1868 Smith, James, F.L.S., F.E.M.S., 233 Dalston-
lane, Hackney, E.

"Dec. 23, 1870 Smith, Joseph A., Granville-lodge, Croydon-road,
Anerley, S.E.

Oct. 26, 1877 Smith, Samuel, 331 Hackney- road, E.

Aug. 23, 1872 Smith, W. Stuart, 30 Loraine-road, Holloway, N.

April 24, 1868 Snellgrove, W., 58 Cranfield-road, Wickliam-park,
S.E.

Aug. 22, 1879 Soames, Kev. H. Aldwin, B.A., Eochester.

May 24, 1878 Southey, A., 145 Fenchurch-street, E.G.

Sept. 22, 1865 Southwell, C., 44 Princes- street, Soho, W.

May 26, 1876 Southwell, Ghas. Wm., 35 Douglas-road, Canon-
bury, N.

May 22, 1874 Spencer, James, F.E.M.S., 50 South-street, Green-
wich, S.E.

June 26, 1876 Spencer, John, Brook's Bank, 81 Lombard-st., E.G.

Nov. 22, 1872 Spencer, Thomas, F.G.S., F.E.M.S., 32 Euston-
square, N.W.

Mar. 24, 1866 Starling, Benjamin, 9 Gray's-inn-square, W.C.

Aug. 23, 1878 Steel, John Henry, M.E.C.V.S., F.Z.S., The Eoyal
Veterinary-college, Camden-town, N.W.

Feb. 23, 1872 Stevens, G. E., 7 Ashby-road, Ganonbury, N.

Aug. 24, 1866 Steward, J. H., F.E.M.S., 406 Strand, W.G.

June 22, 1877 Stewakt, Charles, M.E.G.S., F.L.S., Sec. R.M.S.,
&c. {Vice-President), St. Thomas'-hospital and
42 Sinclair-road, Kensington, W.

April 23, 1880 Stewart, Fredk., 25 Lime- villas, Foxberry-road,
Brockley, S.E.

Sept. 22, 1876 Stiles, M. H.

May 23, 1879 Stocken, James, 40 Euston-square, N.W.

Jan. 23, 1880 Stoessiger, Fredk. Aug., 70 Windsor-road, Hollo-
way, N.

June 24, 1881 Stokes, A. W., F.C.S., Laboratory, Vestry-hall,
Paddington, W.

July 25, 1879 Stone, Edwd. Mulready, Hill-side, West-hill,
Sydenham.

34

Date of Election.

May 23, 1879 Stubbins, John, F.G.S., F.E.M.S., Chester-cottage,

Old-lane, Halifax.
May 23, 1879 Sturt, Clifton, King's-college, W.C., and The Uni-
versity, Melbourne, Australia.
July 7, 1865 Suffolk, W. T., F.E.M.S., Stettin-lodge, St. Faith's-

road, Lower Norwood, S.E.
June 27, 1873 Suter, Edward D., Kent-lodge, Douglas-road-north,

Canonbury, N.
June 24, 1870 Swain, Ernest, 34 Elsham-road, Kensington, W.
Nov. 22, 1867 Swainston, J. T., 3 St. Mark's- square, Eegent's-

park, N.W.
Nov. 24, 1866 Swansborough, E., 20 John-st., Bedford-row, W.C.
Dec. 18, 1868 Swift, James, F.R.M.S., 81 Tottenham-court-road,

W.C.
Dec. 17, 1875 Swift, Mansell J., 81 Tottenham- court-road, W.C.
Jan. 23, 1880 Symons, Wm. Hy., F.C.S., F.R.M.S., 2 Queen's-

terrace, St. John's-wood, N.W.

July 27, 1877 Tanqueray, A. C, Reid's Brewery, Theobald's-

road, E.C.
Sept. 28, 1877 Tarrant, Kenneth J., Litchford-house, Hatch- end,

Pinner.
Nov. 28, 1879 Tasker, J. G., 18 Junction-rd., Upper Hollowaj^ N.
Aug. 22, 1879 Tate, J. W., 6 Clarendon-terrace, Brentford-road,

Turnham-green, W.
May 22, 1868 Tatem, J. G., Eussell- street, Reading.
Feb. 25, 1881 Taylor, Thos., M.E.C.S., L.A.C., Bocking, near

Braintree, Essex.
Aug. 23, 1878 Teasdale, Washington, F.E. M.S., Eosehurst,Head-

ingley, Leeds.
Dec. 22, 1865 Terry, J., 109 Borough-road, S.E.
Aug. 23, 1872 Terry, Thomas, 5 Austin-friars, E.C.
May 23, 1879 Thompson, Isaac Cooke, F.E.M.S. {Hon. Sec.

Liverpool Microscopical Soc), Woodstock, Waver-

ley-road, Liverpool.
May 28, 1875 Thompson, John Eeid, 14 Alexandra- villas, Fins-
bury -park, N.
Fob. 24, 1871 Thornthwaitc, W. H., 416 Strand, W.C.
April 27, 1877 Thorpe, George, 20 Eastcheap, E.C.

35

Date of Election.

Jan. 22^ 1875 Tinney, William A., 1 Clifford's -inn, Fleet-st., E.G.

Nov. 27, 1867 Tomkins, Samuel Leith, Apsley, East Grinstead.

June 23, 1871 Topping, Amos, 28 Charlotte-street, Caledonian-
road, N.

July 26, 1872 Townsend, John Sumsion, F.E.M.S., Stamford-
lodge, St. John's, Sevenoaks.

July 24, 1868 Tulk, John A., M.D., F.E.M.S., Burton-lodge,
Staines-road, Twickenham.

July 26, 1867 Turnbull, Joseph, Laurel-house, North-hill, High-
gate, N.

Aug. 24, 1877 Turner, Ernest Blaker, 1 Clifton- villas, Amberley-
road, Lea-bridge-road, N.E.

June 25, 1869 Turner, K. D., Eoughway, near Tonbridge.

June 25, 1875 Turner, Sydney, A.E.LB.A., 7 Mark-lane, E.C.

Feb. 25, 1881 Tyler, Chas., F.L.S., F.G.S., F.E.M.S., 317 Hol-
loway-road, Holloway, N.

May 25, 1877 Veasey, Eobt. Geo., Ashchurch-lodge, Ashchurch-

road, Shepherd's- bush, W.
July 27, 1866 Veitch, Harry, F.H.S., The Eoyal Exotic Nursery,

King's-road, Chelsea, S.W.
Feb. 28, 1879 Venables, W., 253 Camden-road, N.W.
Feb. 27, 1880 Vereker, The Hon. J. G. P., 1 Portman-sq., W.
Feb. 25, 1881 Vereker-Bindon, Wm. J., M.D., F.E.C.S.E., 2

Elgin-villas, Willesden-lane, Kilburn, N.W.
May 23, 1879 Vezey, John Jewel, F.E.M.S., 12 Sandbourne-road,

Brockley-rise, S.E.

June 25, 1880 Waddington, Henry J., 253 Evering-road, Upper
Clai^ton, N.

Feb. 27, 1874 Walker, John C, Highfield, Avenue-road, Crouch-
end, N.

July 25, 1873 Walker, John Stringer, Warwick-road, Upper
Clapton, E.

June 26, 1868 Walker, J. W., Melrose- villa, Watford.

May 22, 1868 Waller, J. G., 68 Bolsover-street, Portland-road, W.

Jan. 23, 1880 Wallis, Whitworth, 4 The Eesidences, South Ken-
sington, S.W.

Aug. 26, 1870 Warburton, Samuel, Merton- villa, New- road, Lower
Tooting, S.W.

36

Date of Election.

Nov. 227 1867 Ward, F. H., M.R.C.S., F.R.M.S., Springfield-
house, near Tooting, S.W.

Feb. 25, 1881 AVard, James Duff, Nortliwood- lodge, Cowes, Isle
of Wight.

June 28, 1878 Ward, Richard John, Silver- street, Lincoln.

Dec. 18, 1868 Warner, Alfred, care of Mr. W. F. Stanley, 13
Railway- approach, London-bridge, S.E.

May 25, 1866 Warrington, H.R., 7 Royal Exchange, Comhill, E.G.

July 25, 1879 Waterman, Thos. L., 103 Antill-road, Bow, E.

Oct. 27, 1865 Watkins, C. A., 10 Greek-street, Soho, W.

Oct. 25, 1872 Watkins, J., L.C.P., 24 Lime-grove, Lewisham,
S.E.

Aug. 23, 1878 Watson, Geo. F., 313 High Holborn, W.C.

Nov. 28, 1879 Watson, Robei*t Walker, 22 Highbury- new- park, N.

Sept. 28, 1877 Watson, Thos. P., F.R.M.S., 313 High Holborn,
W.C.

Dec. 28, 1877 Watson, Thos. W., 4 Pall-mall, S.W.

May 23, 1879 Watts, The Rev. G. E., M.A., F.R.M.S., Kens-
worth- vicarage, Dunstable, Herts.

Dec. 28, 1866 Way, T. E., 65 Wigmore- street, W.

Oct. 26, 1877 Weatherley, Capt. H. C. S., 64 Cheapside, E.G.

July 24, 1874 Webb, G. E., Wildwood-lodge, North-end, Hamp-
stead, N.W.

April 25, 1879 Webster, Hy. Wm., M.D., St. George's Infirmary,
Fulham-road, West Brompton, S.W.

May 24, 1867 Weeks, A. W. G., 36 Gunter-grove, West Brompton,
S.W.

Sept. 27, 1878 West, Robt. G., 89 Lombard- street, E.G.

Feb. 25, 1876 Wheeler, George, 27 Theberton- street, N.

May 23, 1879 Wheldon, John, F.R.M.S., 58 Great Queen-street,
Lincoln's- inn- fields, W.C.

April 23, 1869 White, Charles Frederick, F.R.M.S., 42 Windsor-
road, Ealing, W.

May 22, 1868 WHITE, T. CHARTERS, M.R.G.S., L.D.S.,
F.L.S., F.R.M.S. {President), 32 Belgrave-road,
S.W.

July 25, 1873 White, Walter, Litcham, Norfolk.

Aug. 22, 1879 Whittcll, Horatio T., M.D., F.R.M.S., Adelaide,
South Australia.

37

Date of Election.

June 25, 1880 Wickes, Wm. Dickerson, 3 Cottage-grove, Bow-
road, E.

Mar. 25, 1881 Wildy, Arthur, 48 Albion-road, South Hampstead,
N.W.

April 23, 1880 Williams, Ai'thur, 48 Osnaburg- street, Eegent's-
park, N.W.

Mar. 24, 1871 Williams, George, F.E.M.S., 1 Devonport-road,
Shepherd's-bush, W.

Nov. 23, 1877 Williams, Geo. Sawyer, 10 Clifton-villas, Maida-
hill, W.

May 28, 1880 Williams, J. Michael, The Hawthorns, Bootle,
Liverpool.

June 27, 1879 Willson, James, 2 Oval-road, Regent's-park, N.W.

Mar. 24, 1876 Wilson, Chas. Joseph, 14 Highbury- crescent, N.

Feb. 22, 1867 Wilson, Frank, 110 Long-acre, W.C.

Jan. 24, 1879 Wilson, S. K., F.E.G.S., F.R.M.S., M.E.L, 3 Port-
land-terrace, Eegent's-park, N.W.

April 23, 1880 Winney, Hy. John, 1 Shorters- court, Throgmorton-
street, E.C.

June 27, 1879 Wood, Francis, 63 Mayfield-road, Dalston, E.

Aug. 27, 1869 Woods, W. Fell, 1 Park-hill, Forest-hill, S.E.

Jan. 28, 1876 Woollett, John, 58 Cloudesley-road, Islington, N.

Oct. 25, 1867 Worthington, Eichard, Champion-park, Denmark-
hill, S.E.

June 27, 1873 Wrey, George E. B., Addington-house, Addington-
road, Eeading.

Aug. 22, 1879 Wright, Bryce McMurdo, 54 Guildford- street,
Eussell- square, W.C.

Nov. 26, 1880 Wright, J. H., jun., Merston-house, Ealing, W.

May 25, 1877 Yates, Francis, Eockwood, Surbiton-hill.

Jan. 25, 1878 Yates, Eobert, 64 Park-street, Southwark, S.E.

Oct. 26, 1866 Yeats, Christopher, Mortlake, Surrey, S.W.

ISrOTIOE-

Members are requested to give the Hon. Secretary early information
of any change of Residence, no as to prevent miscarriage of Journals
and circulars.

RULES.

I. — That the Quekett Microscopical Club hold its meetings
at University College, Gower Street, on the fourth Friday Even-
ing in every month, at Eight o'clock jprecisely, or at such other
time or place as the Committee may appoint.

II. — That the business of the Club be conducted by a
Committee, consisting of a President, four Vice-Presidents, an
Honorary Treasurer, one or more Honorary Secretaries, an
Honorary Secretary for Foreign Correspondence, an Honorary
Eeporter, an Honorary Librarian, an Honorary Curator, and
twelve other members, — six to form a quorum. That the
President, Vice-Presidents, Treasurer, Secretaries, Eeporter,
Librarian, Curator, and the four senior members of the Com-
mittee (by election) retire annually, but be eligible for re-
election. That the Committee may appoint a stipendiary As-
sistant Secretary, who shall be subject to its direction.

III. — That at the ordinary Meeting in June, nominations be
made of Candidates to fill the offices of President, Vice-Presidents,
Treasurer, Secretaries, Eeporter, Librarian, Curator, and vacan-
cies on the Committee. That such nominations be made by
resolutions duly moved and seconded, no Member being entitled
to propose more than one Candidate. That the President,
Vice-Presidents, Treasurer, Secretaries, Eeporter, Librarian,
and Curator, be nominated by the Committee. That a list of all
nominations made as above be printed upon the ballot paper ;
the nominations for vacancies upon the Committee being
arranged in such order as shall be determined by lot, as drawn
by the President and Secretary. That at the Annual General
Meeting in July all the above officers be elected by ballot from
the candidates named in the lists, but any member is at liberty
to substitute on his ballot-paper any other name or names in
lieu of those nominated for the offices of President, Vice-
Presidents, Treasurer, Secretaries, Eeporter, Librarian, and
Curator.

39

IV. — That in the absence of the President and Vice-Presidents
the Members present at any ordinary Meeting of the Club elect a
Chairman for that evening.

V. — That every Candidate for Membership be proposed by two
or more Members, who shall sign a certificate (see Appendix) in
recommendation of him — one of the pro^josers from personal
knowledge. The certificate shall be read from the chair, and the
Candidate therein recommended balloted for at the following
Meeting. Three black balls to exclude.

VI. — That the Club include not more than twenty Honorary
Members, elected by the Members by ballot upon the recom-
mendation of the Committee.

VII. — That the Annual Subscription be Ten Shillings, pay-
able in advance on the 1st of July, but that any Member elected
in May or June be exempt from subscription until the following
July. That any Member desirous of compounding for his future
subscription may do so at any time by payment of the sum of
Ten Pounds ; all such sums to be duly invested in such manner
as the Committee shall think fit. That no person be entitled to
the full privileges of the Club until his subscription shall have
been paid; and that any Member omitting to pay his subscrip-
tion six months after the same shall have become due (two ap-
plications in writing having been made by the Treasurer) shall
cease to be a Member of the Club.

VIII. — That the accounts of the Club be audited by two Mem-
bers, to be appointed at the ordinary Meeting in June.

IX. — That the Annual General meeting be held on the fourth
Friday in July, at which the Eeport of the Committee on the
affairs of the Club, and the Balance Sheet duly signed by the
Auditors shall be read. Printed lists of Members nominated for
election as President, Vice-Presidents, Treasurer, Secretaries,
Reporter, Librarian, Curator, and Members of the Committee
having been distributed, and the Chairman having appointed
two or more Members to act as Scrutineers, the Meeting shall
then proceed to ballot. If from any cause these elections, or any
of them, do not take place at this Meeting, they shall be made
at the next ordinary Meeting of the Club.

40

X. — That at the ordinary Meetings the following business be
transacted: — The minutes of the last Meeting shall be read and
confirmed ; donations to the Club since the last Meeting announced
and exhibited; ballots for new Members taken; pa^^ers read and
discussed; and certificates for new Members read; after which
the Meeting shall resolve itself into a Conversazione.

XI. — That any Member may introduce a Visitor at any ordi-
nary Meeting, who shall enter his name with that of the Meniber
by whom he is introduced in a book to be kept for the purpose.

XII. — That no alteration be made in these Laws, except at an
Annual General Meeting, or a Special General Meeting called for
that purpose ; and that notice in writing of any proposed altera-
tion be given to the Committee, and read at the ordinary Meeting
at least a month previous to the Annual or Special Meeting at
which the subject of such alteration is to be considered.

APPENDIX.

Form of Proposal for Membership.

QuEKETT Microscopical Club.

Mr.

of

being desirous of becoming a Member of this Club, we beg to
recommend him for election.

[on my 2iersoi}f(l linoirlnh/c).

This Certificate was read 18

The Ballot will take place 18

41

MEETINGS

OF THE

QUEKETT MICEOSCOPICAL CLUB,

AT
UNIVEBSITY COLLEGE, GOWER STBEET, LONDON.

1881.— August 12 .... 26

September 9 .... 23

October 14 .... 28

November 11 .... 25

December 9 .... 23

1882.— January 13 .... 27

February 10 .... 24

March 10 .... 24

April 14 .... 28

May 12 .... 26

June 9 .... 23

July 14 .... 28

The Ordinary Meetings are held on the fourth Friday in
each month : — business commences at 8 o'clock p.m.

The Meetings on the second Friday in the month are
for Conversation and Exhibition of Objects ; from 7 to
9.30 p.m.

The Annual General Meeting will be held on July
28th, 1882, at 8 o'clock, for Election of Officers and other
Business.

42

EXCURSIONS, 1881

Mar. 26tli. HIGHGATE. To meet at Broad Street Station.

April 9th. WANDSWORTH COMMON. To meet at Clapliam Junction
at 3 p.m.

April 23rd. SNARESBROOK. To meet at Fenchiirch Street Station
at 2 p.m.

May 7th. ASCOT. To meet at Waterloo Station, Loop Line.

May 21st. MERSTHAM. To join the Croydon Club. To meet at
Cannon Street Station.

June 4th.

Street Station.

Jux\E 18th. BROXBOURNE, for HERTFORD HEATH. To meet at
Liverpool Street Station (2 p.m. train).

June 23rd. EXCURSIONISTS' ANNUAL DINNER. Arrangements
will be duly announced.

July 2nd. HAMPTON COURT. To meet at Waterloo, Suburban
Station, Main Line.

July 9th. DAY EXCURSION, GREAT MARLOW. To meet at
Paddington Station (Excursion Train, at or about
11 a.m.).

July 16th. WOKING, returning by Weybridge. To meet at Waterloo,
Suburban Station, Main Line.

July 30th. SLOUGH, for BURNHAM BEECHES. To meet at
Paddington Station.

Sept. 3rd. TAPLOW. To meet at Paddington Station (Excursion
Train, at or about 2.30 p.m.).

Sept. 17th. BROMLEY, for KESTON. To meet at Holborn Viaduct

Station.

Oct. 1st. BARNES. To meet at Waterloo Station, Loop Line.

The time of departure from Town, unless otherwise specified, will be
THE First Train after TWO o'clock.

E. Dadswell, \

F. W. Gay,

F. OXLKY,

W. W. Reeves
T. Rogers,
J. Spencer,

- Excursion Committee.

GENERAL INDEX

JOURNAL

QUEKETT MICROSCOPICAL CLUB.

FIRST SERIES,

VOLUMES I— VI. 1868-1881.

[Published for the Club]
DAVID BOGUE,

3, St. Martin's Place, Trafalgar Square.

INDEX

Abbe, Prof., On a general law of Apla-

natic Systems, v, 265
Abbe's Apertometer, Remarks on. J. E.

Ingpen, v, 136
Abbe's Condenser, Remarks on. J. E.

Ingpen, vi, 319
Acarina, On the reproductive system of

some of the. A. D. Michael, v, 223,

257; VI, 278
Acarina, On tw^o Species of. A. D.

Michael, vi, 107, 128
Achimenes picta, On the Embryology of.

T. Spencer Cobbold, M.D., vi, 18, 39
Achromatic Bull's-eye Condenser. J. E.

Ingpen, iii, 306
Achromatic Prism, Construction and use

of. J. E. Ingpen, III, 222, 313
Ackland, W. On a Neutral-tint Sele-

nite Stage, 11, 145, 152
Ackland, W. Diatoms from the Glacier

du Rhone, 11 1, 128
Actinia mesembryanthemum, On the

anatomy of. F. A. Bedwell, v, 213,

257
Actinia parasitica, On the Urticating
Threads of. F. A. Bedwell, v, 159,

191
Actinophrys sol. Conjugation of. J. G.

Waller, 11, 91, 93

„ ,, Development of. James

Fullager, iv, 105, 124, 135, 16 r
Admeasurement, Universal Microscopic.

M. C. Cooke, LL.D., i, i
Ague Plant, The. J. Bartlett, in, 116
Aids, Cheap, to Microscopy. S. J. Mc-

Intire, i, 69
Air-pump, for Mounting. E. Gardner,

V, 70
Algae, Fresh-water, Collecting and Pre-
serving. Dr. H. Wood, 111, 192, 218

„ „ To mount-, iii, 192,

218
Alterations in the Rules, i, 112, 116,

206,207; 111,312, 314; IV, 78,81,

88, 89 ; V, 265, 270 ; vi, 29, ^3, 183,

187

Amici's Reflecting Microscope, Remarks

on. J. E. Ingpen, iv, 198, 233
Angular Aperture, Stephenson's Appa-
ratus for Measuring, iv, 87
Annett, James. Donation inmemoriam,

VI, 36, 38, 122
Annual Dinner, Excursionists', 1868, i,

118
Annual Meeting and Report, 1868, i,

114 ; 1869, I, 250
Annual Meetings — 1870, 11, 120; 1871,
II, 246; 1872, III, 93; 1873, III,
203; 1874, 111,314; 1875, IV, 89;
1876, IV, 204; 1877, IV, 335; 1878,
V, 100 ; 1879, V, 269 ; 1880, VI, 187 ;
1881, VI, 326
Annual Report (9th), 1874, iii, 319

(all others printed in separate form)
Apertometer, Remarks on Abbe's. J. E.

Ingpen, v, 136
Aplanatic Systems, On a general law

of. Prof. Abbe, v, 265
Aquarium, The, as a Field of Microsco-
pical Research. T. Charters White,
IV, 20, 44
Arabin, On the use of, in Mounting.

H. J. Waddington, vi, 199, 216
Archer, J. A. On Tobacco, i, 91, 113
Argas Fischerii, the Bly borough Tick.
C. F. George, iv, 223, 239
„ ,, Rev. J. Bramhall, iv,

292
Aubrey, H. G. W. Turpentine Bath for

Mounting, 111, 161, 175
Aulacodiscus, A New. A. Cottam, iv,

130, 149, 165
Autographic Lithographic Process, On
the. A. Cottam, v, 6, 26

Bailey's Plate for Compression and
Flexure of Glass, i, 177

Bancroft, J., M.D. Observations on
Filariae, vi, 58, 91

Barbadoes Earth, Localities of. J. Mat-
thews, M.D., IV, 31, 35

Bartktt, J. The Ague Plant, in, n6

INDEX.

Bats, Hairs of Indian. M. C. Cooke,
LL.D., I, zz, 48 ; Synopsis, i, 55

Beale, Lionel S,, M.B. Observations on
Injecting, 11, 153, 188
„ „ President's Address,

1871, II, 221 ; ditto, 1872. (Printed
with 7th Annual Report separately)
J, ,, Bioplasm, iii, 121

Beaulah, J. On Strongylus filaria, vi,
223

Bedwell, F. A. On the Urticating
Threads of Actinia parasitica, v, 159,
191

„ „ On the Anatomy of

Actinia mesembryanthemum, V, 213,

257
Bee, Structure of Cornea. B. T. Lowne,

II, 46,56
Bee, Humble, Parasite of. W. Cole,

IV, 93, 122
Beeswax and Resin Cement. T. Charters

White, III, 58
Benzole and Dammar Cement. T.

Charters White, i, 147
Berlin Black for Mounting. R. T. Lew^is,

I, 84, 90
Binocular Microscope, New Form of.

S. Holmes, i, 175, 179
Bioplasm. Lionel S. Beale, in, 121
"Black Knot," Notes on the. C. H.

Peck, III, 82
Black Moulds. M. C. Cooke, LL.D.,

IV, 246, 290
Blankley, F. Reflecting Lamp Chim-
ney, II, 248
Blood Corpuscles, Observations on. B.T.

Lowne, 11, 211
Bloodstains, On the use of HighPowers

in the Diagnosis of. Dr. Richardson,

IV, 39
Blow-fly, Proboscis of. B. T. Lowne,

I, 126, 149, 190, 206

W. T. Suffolk,

I, 131, 149, 193
„ „ A. Topping, IV,

132

„ „ Weismann's Imaginal Discs.

B. T. Lowne, i, 197, 210

„ „ Anatomy of. B. T. Lowne, 11,

21, 54

„ „ and Crane-fly, Comparison of

Metamorphoses of. A. Hammond,

IV, 139, 162
Blyborough Tick. C. F. George, iv,

223, 239

,, ,, Rev. J. Bramhall,

IV, 292
Bockett, J.,New Low-power Object Glass,

I, 16, 22

Bockett, J., A Simple Live-box, 1, 47
Bomaria, On Reversed Structure in

Leaves of. W. H. Gilburt, vi, 324
Bone and Teeth Sections, To prepare.

J. Slade, I, 1 19, 146
Botrylloides, On the Life-history of.

T. Charters White, iv, 277, 301
Brain of Insects, On preparing Models

of, from Microscopical Sections. E. T.

Newton, v, 150, 193
Braithwaite, R., M.D. Moss Study

Class, I, 21 ; II, 24, 36

„ „ On utilising our

Excursions, i, 77, 85

„ „ Rare Mosses, i,

86, 206

„ „ The Geogra-

phical Distribution of Mosses in

Europe, 11, 29, 55

,, ,, Testimonial to,

11,36

,, „ South London

Microscopical, &c.. Club, Inaugural
Address, 187 1, 11, 236

,, „ On the Histology

of Plants, in, ii8, 129, 150, 163,
202, 211, 224, 238, 251, 278, 286,
310, 313,327

„ „ President's Ad-

dress, 1873 (Printed with 8th
Annual Report separately) ; 1874,
'II' 327
Bramhall, Rev. J. On a New Oblique
Illuminator, iv, 202, 232

„ „ The Blyborough Tick,

IV, 292
Brebisson, A. de. Notes on French
Diatomaceae, 11, 37, 56

„ „ Obituary Notice,

III, 41
Breeding Cages for Podurae. S. J.

Mclntire, i, 71
Breese, C. J. Soft Vegetable Sections,

I, 206
Bridgman, W. K. Portable Cabinet, 11 1,
90

,, „ On the Principles of

Illumination in connection with Polari-
zation, IV, 171, 195, 232

„ ,, On a New Antivibra-

tion Turntray, iv, 209, 234, 237

,, „ On a New Universal

Reflecting Illuminator, iv, 214, 237

,, ,, Tinted Glass for Illu-

mination, IV, 301, 317, 328

„ ,, The Ordinary Con-

denser improved, &c., iv, 311, 328
British Graptolites. J. Hopkinson, i,
15 •» 178

Bucephalus Haimeanus, On. D. Moore,
M.D., IV, 50, 79

„ „ On the Relation of

to the Cockle. W. Fell Woods, iv,

58,79
Bunt Spores. M. C. Cooke, LL.D.,

I, 167, 180

Burch, G. J. How to make thin Cover

Glass, III, 261,305

„ ,, On a New Micrometer,

V, 45> 70
Burg-ess, N. On Wools, i, 22, 23,47
By water, W. M. Testimonial to, 11, 27

Cabinet, Portable. W. K. Bridgman,

III, 90
Camera Lucida, Notes on. J. E. Ing-

pen, IV, ?,7,Z',v, 13
Camphor, Movements of. — Tomlin-

son, II, 26
Canada balsam, Manipulation with.

D. E. Goddard, 11, 125
Castracane, Count A. F. On the Differ-
ent Methods of Measuring Micro-

scopical Objects, 11, 14, 26
Cell cutting. Jas. Smith, in, 26, ^7,
Cells made by Sand-blast Process. H. F.

Hailes, iii, 227, 244
Cement, New. T. Charters White, i, 147,

III, 58

Chelifers (Pseudo-scorpiones). S. J.
Mclntire, i, 8, 21

„ M, C. Cooke, LL.D., i, 14
Ciliary Action in Rotifera. N. E. Green,

II, 71, 90

Circulation of Blood in Frog. Dr.

Harkness, 11, 211
Cirripede, On a Larval. Henry Davis,

IV, 132, 135) 162

Classes, Bryology. R. Braithwaite,
M.D., I, 21 ; II, 24, 36

,, Microscopic Fungi. M. C.
Cooke, LL.D., i, 21, 213

„ Microscopic Manipulation. W.
T. Suffolk, I, 21, 148, 211; II, 24,
117

„ Microscopic Zoology. B. T.
Lowne, 11, 56
Classification of Animals, The Micro-
scope as an Aid to. B. T. Lowne,
II, 6, 25

,, of Lower Animals, On
Recent Views of. B. T. Lowne,
IV, 127
Cliona celata. J. G. Waller, 11, 269,
278; VI, 251, 273, 287, 291, 314

„ „ B. W. Priest, vi, 234,
269, 273, 287

M M H. Lee, 11, 278

Cliona celata. Charles Stewart, 11, 279 ;
VI, 274, 289, 314

„ „ M. Hawkins Johnson,
VI, 289

„ ,. T. Charters White, vi,
287

,, „ E. T. Newton, vi, 290
Coaguline, Kay's, i, 46
Coal, Sections of. J. Slade, 11, 143, 150
Cobbold, T. Spencer, M.D. President's
Address (Inaugural), 1879, vi, 1,33

„ „ <^n the

Embryology of Achimenes picta, vi,

18, 39

„ ,, Observations

on Filariae, vi, 58, 91, 130, 185, 225

„ M On the

Endemic Disease of the St. Gothard
Tunnel Labourers, vi, 148, 185

,, ,, President's

Address, 1880, vi, 171

„ On Strongy-

lus filaria, vi, 225

,, „ On the ab-

sorption of dentine, vi, 290
Cockle, Mussel, and Oyster. On the
Generative Processes of. D. Mocre,
M.D., IV, II, 38
Cockle, On the relation of Bucephalus
Haimeanus to. W. Fell Woods, iv,

58,79
Cockroach, Salivary glands of. T.

Charters White, iv, i, 31, 78
Cole, W. On a Parasite of Humble

Bees, Sphoerularia bornbi, iv, 93, 122
Collecting Bottle, Wright's, i, in
Collecting Case, Moginie's, i, 177
Collecting Syphon, vi, 128

,, ,, Bottle, George's i,

143
Comparative Study, On the value of.

D. E. Goddard, 111, 119
Compression and Flexure of Glass, Plate

for showing. J. W. Bailey, i, 177
Compressorium, New and Simple Form

of. J. Locke, II, 280
Condenser, Achromatic Bull's-eye. J. E.

Ingpen, iii, 306

„ Improved. W. K. Bridgman,

IV, 311, 328
,, Bull's-eye, Apparatus for use

with, G. Williams, v, 75, 95
Conjugation of Actinophrys sol. J. G.

Waller, 11, 91, 93
Cooke, M. C, LL.D. Universal Micro-

scopic Admeasurement, i, i

,, ,, Chelifers, i, 14

„ „ Microscopic Fungi

Class, I, 21, 213

INDEX.

Cooke, M. C, LL.D. Hairs of Indian
Bats, I, 33,48; Synopsis, i, 55

,, ,, Bunt Spores, i,

167, 180

,> „ Microscopic

Moulds, II, 48, 61, 88

}. ,, Observations on

Spiders, 11, 181

], ,, On Nucleated

Sporidia, 11, 249, 251

„ ,, Notes on Podisoma,

"» 255, 285

„ ,, Micro-fungi on Old

Nettle Stems, in, 69

„ ,, Spilocaea pomi,

III, 197

„ „ On Black Moulds,

IV, 246, 290

,, ., Drawings of Mi-

croscopic Objects, V, 73; VI,.2I7

,, ,, On the Vinegar

Plant, V, r34

„ „ On the Dual-

Lichen Hypothesis, V, 170, 186, 206

„ ,, List of objects

collected at Excursions, 1880, vi, loc;
126 > . - 5

» „ On some Desmids

new to Britain, 1880, vi, 203, 222

„ ,, On mouTiting

Desmids, vi, 209, 222

Copal Varnish as a substitute for
Canada balsam. Julien Debv, vi, 30,
167, 184 '

Corals, History and Structure of, Jno.
Matthews, M.D., v, 105, 137

Cornea of the Bee, Structure'of. B. T.
Lowne, 11, 46, 56

Cottam, A. On a new Aulaci discus from
the West Coast of Africa, iv, 130, 149,
165

,, „ On the Autographic Litho-
graphic Process, v, 6, 26

Crab, Tubules in shell of. A. Martinelli,
I, 117

Crane-fly and Blow-fly, Comparison
of Metamorphoses of. A. Hammond,
IV, 139, 162

Crisp, F. Donation by, 111, 218

„ „ Donation to Club. Report of
Committee, iv, 47, 70, 204
„ ,, On the Influence of Diffrac-
tion in Microscopic Vision, v, 79, 99
,, ,, Donation by, Appropriation
of, VI, 92

Crouch, H. New Pseudo-binocular
Prism, I, 142

,. „ On Microscopy in the

United States, 1876,1V, 226, 241

Crouch, H. Microscope presented by,

V, 14
Crustacea. Structure of shell of, J.

Slade, I, 86, 87
Crystallization of Hippuric Acid. T.

Ciiarters White, 11, 44, 54; 111, 182
Crystals, Microscopic. T. Hislop, i, 83,

113

,, ,, formed at high

temperatures, T. Hookham, i, 80, 86
Crystals, Mounting in Castor Oil, J.

Matthews, M.D., iii, 183
Curties, T. Growing Slide, i, 46

,, ., Insect Mounting in Hot

Climates, in, 230, 244
Curves, Lissajous', Microscopic tracings

of. R G, West, V, 3S, 67
Cyclops from the Rocky Mountains. J.

Foulerton, M.D., 111, 219
Cyclosis. W. T. Suffolk, n, 151
Cynips, Observations on. T. Charters

White, in, 222

Dammar and Benzole Cement. T.

Charters White, i, 147
Darker's Selenites, New method of using.

E. Richards, 11, 88
Davis, Henry. Mobility of Spines on

Insects' Eggs, 11, 124, 141
„ ,, On a Larval Cirripede,

>v, 132, I35» 162
De Bary on the Potato Disease, in, 139
Deby Julien. On Copal varnish as a

substitute for Canada balsam, vi, 30,

167, 184

„ ., On a growing slide for

minute organisms, vi, 28, 30, 166, 184

„ ,, On focussing with the

Eyepiece, vi, 165, 184

,, . ,, On Mapping with the

Micro-spectroscope, vi, 165, 184, 213

,, „ " Receipts for Micro-

scopists," VI, 165, 184, 213

,, „ Mounting arranged Dia-

toms, ^c, VI, 166, 184

,, „ On a Hollow Condenser

filled withGlyctrineas an Illuminator,

VI, 1(6, 184, 213
Delineating Microscopic Objects, On.

W. T. Suflblk, I, 179, 183 ; n, 286
Dental Tissues, Histology of hard. T.

Charters White, iv, iii, 130
Dentine, On the absorption of. T.

Spencer Cobbold, M.D., vi, 290
Desmids new to Britain in 1880. M.

C. Cooke, LL.D., vi, 203, 222
,, On mounting. M. C. Cooke,

LL.D,, VI, 209, 222
,, Remarks on mounting, v 1,322

INDEX.

Development, Floral, On the Invest!-
gation of. Marcus M. Hartog, v, 9,
27

,, „ of Helianthus

annuus. W. H. Gilburt, v, 120, 141

Diagrams, Natural History, Note on.

R. T, Lewis, v, 264
Diatomaceae, Spectroscopic Examina-
tion of, I, 254

„ Notes on French. A.

de Brebisson, u, 37, 56

F
Kitton, II, 42

,, Recent Observations on,

III, 68

„ On immature forms of.

G. C. Karop, vi, 191, 215
Diatomaceous Deposits from Jutland.

F. Kitton, 11, 99, 118, 168, 180
Diatom, fine-lined tests, A method of

resolving. A. Schulze, v, 209, 257
Diatoms, Surface markings by the Oxy-
calcium Light. N. E. Green, 11,
232, 243; III, 32

,, from the Glacier du Rhone.
W. Ackland, iii, 128

„ On a simple method ot clean-
ing, H. Stolterfoth, vi, 95, 122

,, Note on mounting. J. E.
Ingpen, vi, 216
Dickson, Dr. Method of Oblique

Illumination, v, 12
Diffraction, Influence of, in Microscopic

Vision. Frank Crisp, v, 79, 99
Discs, Imaginal, of Weismann. B. T.

Lowne, 1, 197, 210
Dissecting, Black Ozokerit as a back-
ground for. Chas. Stewart, v, 147 ;
VI, 215
Dissecting and pocket lenses, Steinheil's,

VI, 31
Dissecting, Microscope for. Prof. T. H.

Huxley, v, 144
Dissection, On Insect. T. Charters

White, V, 28, 33, 64
Donation by Mr. F. Crisp, iii, 218,
247 ; Report of Committee, iv, 47, 70 ;
Award of Committee, 1876, iv, 204 ;
Appropriation of, vi, 92

,, „ Mr. Henry Horncastle,

III, 201

„ „ Miss Morrell, z« memoWa7n

James Annett, vi, 36, 38, 122

„ of Microscope by Mr. H.
Crouch, V, 14

„ of Microscope by Mr. Thos.
Ross, II, 123

„ of Object Glass by Mr. Jno.
Hewlett, 111, 29

Donations of Books and Slides. (See
Proceedings, Q.. M. C.)

Double Staining Vegetable Tissues. W.
H. Gilburt, iv, 241, 304, 329

Draper, E. T. On the proper applica-
tion of the Microscope by Amateurs,

I, 50
Drawings of Microscopic Objects. M.

C. Cooke, LL.D., v, 73; vi, 217
Dredging, Marine, i, 202
Drosera rotundifolia. Remarks on. T.

Charters White, v, 266
Dry Mounting. J. Locke, 111, 175
Dual-Lichen Hypothesis. M. C. Cooke,

LL.D., v, 170, 186, 206
Dunning, Chas. G. On an improved

Turntable, vi, 81, 92
Durham, A. E. President's Address,

1868, I, 95 ; 1869, 1, 240
Durham, F. Remarks on Entozoa, i,

51
Dynamometer, On a Standard. J. E.
Ingpen, 111, 97, 119

Echinoderms, Remarks on the. Chas.

Stewart, iv, 168
Edelweiss, Mounted Slides of. R. T.

Lewis, IV, 130
Edmunds, Jas., M.D. On a new Im-
mersion Paraboloid Illuminator, v, 1 7
„ „ ,, Mounting test

objects, V, 23
Eggs of Insects, Mobility of Spines

on. H. Davis, 11, 1 24, 141
Eggs of Ladybird, Vitality of. T.

Charters W'hite, vi, 218
Electrometer adapted to the Microscope.

B. T. Lowne, iv, 286
Embletonia Grayii, New Nudibranch,

I, 203
Embryology of Achimenes picta, On

the. T. Spencer Cobbold, M.D., vi,

18,39
Empusa muscae, On. T. Charters

White, IV, 211, 236
English, T. J. Pneumatic injecting

apparatus, iii, 99, 125
Entomostraca. — Spermatophore on

marine Cyclops. T. Charters White,

IV, 293
Entozoa, Remarks on. F. Durham,

Epping Forest, encroachments, vi, 273,

277
Erector for Microscope, Abbe's, &c., v,

Ether, Use of, for freezing with Williams'
Microtome. J. W, Groves, vi, 293,
3^3

INDEX.

Excursionists' Annual Dinner, 1875, '^'

86
Excursions,' On utilising our. R.
Braithwaite, M.D., i, 77, 85

,, 1868, Report on, i, 133

,, Marine Dredging-, 1, 202

1870, n, 47, 79
„ 1870. Reports on, 11, 70,

"5

,, How to utilise, iii, 90
„ Results of, July, 1878, v,
104

„ 1880, List of objects

collected. M. C. Cooke, LL.D., vi,
105, 126
Eye, Histology of. B. T. Lowne, iv,

70, 88
Eyepiece, On focussing with. Julien

Deby, vr, 165, 184
Eyepieces, Observations ( n. J. E.

Ingpen, 111, 152
Eyes of Insects, On the. B. T. Lowne,

V, 95

,, ,, On cutting sections of.

R. P. Williams, iv, 4, 36

False Light Excluder for Objectives. J.

E. Ingpen, 111, 262, 306
Ease, Rev. H. J. Description of a

Zoophyte Trough or Growing Slide,

VI, 249, 279

Fermentation, C. A. Watkins, n, 157
Ferns, Absence of Stomata in certain.

W. H. Gilburt, iv, 274, 293
Fiddian's Metallic Lamp Chimney, i,

1 II
„ Portable Microscope Lamp, 11,

182
Field, J. J. On the Ratio-Micro-Polari-

scope, I, 215, 253
Filariae, Observations on. T. Spencer

Cobbold, M.D., vi, 58, 91, 130, 185,

225

„ „ „ Patrick Man-

son, M.D., VI, 58, 91, 130, 185

„ Joseph Ban-
croft, M.D., VI, 58, 91

„ „ „ J. Mortimer

Granville, M.D., vi, 58, 91

„ „ „ Pedro S. de

Magalhaes, M.D., vi, :^8, 91

„' J. L. Patcr-
son, M.D., VI, 58, 91

„ M » J> F- <1^ Silva

Lima, M.D., vi, 58, 91

„ „ „ Jno. R. Som-

erville, M.D., vi, 58, 91
Filarial migrations. On the periodicity of.
Patrick Manson, M.D., vi, 239, 275

Filarial migrations, On the periodicity of,
Stephen Mackenzie, M.D., vi, 275

Flamingo, On a Secretion from the
Stomach of. B. T. Lowne, i, 194.
210

Flea, Anatomy of. W. H. Furlonge, n,
184, 189

„ Internal Structure of. W. H. Fur-
longe, 111, 12, 31

,. Larvae of, Remarks on. S. J.
Mclntire, v, 23

„ On a gigantic. J. G. Tatem, vi,
127, 168, 184

„ „ R. T. Lewis, vi,

168, 184

„ of Rat, Organisms in. W. H. Fur-
longe, III, 248

Flmt and allied bodies, Structure of. M.
Hawkins Johnson, 111, 234, 248

Flint and Meerschaum, Organic Struc-
ture of. M. Hawkins Johnson, iv,
66, 83

Floral Development, On the Investiga-
tion of. Marcus M. Hartog, v, 9, 27
„ „ of Helianthus

annuus. W. H. Gilburt, v, 120, 141

Fossil Wood, Observations on. J. R.
Leifchild, 11, 183

Foster, P. Le Neve. President's Address,
1870, II, 103
„ „ Obituary Notice, v,

195

Foulerton, J., M.D. Cyclops from the

Rocky Mountains, 111, 219
Freezing with Ether in Williams'

Microtome. J. W. Groves, vi, 293, 313
Fresh-water Sponges. J. G. Waller,

III, 42, 55; v, 53, 74

Frog, Circulation of blood in. Dr.

Harkness, 11, 211
Fry, Rev. J. Note on Lucernaria

auricula, i, 144
FuUager, Jas. On the Development of

Hydra vulgaris, 111, 263, 306

,, „ On the Development

of Actinophrys sol, iv, ro;, 124, 135,

161
„ „ On Tubicolaria najas,

IV, 182, 202

Fungi, Bunt Spores. M. C. Cocke,
LL.D., I, 167. 180.

„ Microscopic Moulds. M. C.
Cooke, LL.D., 11, 48, 61, 88

„ Nuckated Sporidia. M. C. Cooke,
LL.D., 11, 249, 251

,, Notes on Potlisoma. M. C. Cooke,
LL.D., II, 255, 285

„ micro, on old Nettle Stems. M.
C. Cooke, LL.D., 111, 69

INDEX.

Fungi, Spilocaea pomi. M. C. Cooke,
LL.D., HI, ig7

„ On Black Moulds. M. C. Cooke,
LL.D., IV, 246, 290

„ The Vinegar Plant, M. C.
Cooke, LL.D., v, 134

„ On the Dual-Lichen Hypothesis.
M. C. Cooke, LL.D., v, 170,' 186, 206

„ Notes on the Black Knot. C. H.
Peck, III, 82

„ The Ague Plant. J. Bartlett,

III, 116

„ De Bary on the Potato Disease,

"I, 139

,, and Lichens, Observations on.
Chas. Stew^art, v, 186, 206
Furlonge, W. H. On the Bed Flea,
Pulex irritans, 11, 184, 189

„ ,, Internal Structure of

the Flea, Pulex irritans, iii, 12, 31

„ ,, On a Phenomenon

of Monocular Vision, iii, 39, 56

„ „ Organisms in the Rat

Flea, III, 248

Gardner, E. On Mounting Ostracoda,

&c., IV, no, 126

„ „ Air-pump for Mounting

V, 70
Generation, Spontaneous so-called. B.

T. Lowne, 11, 133, 147, 188
Generative Processes of the Oyster,

Mussel, and Cockle. D. Moore, M.D ,

IV, II, 38

Geographical distribution of Mosses. R.

Braithw^aite, M.D., 11, 29, 55
George's Syphon Collecting Bottle, i,

H3

George, C. F. On the Blyborough Tick,

IV, 223, 239
Germination of a Seed, On the. A. Mar-

tinelli, vi, 12, 36
Gilburt, W. H*. On the relation of

Sphaerosira volvox to Volvox globator,

IV, 221, 237

„ „ Staining Vegetable

Tissues, IV, 241, 304, 329

„ „ On the absence of

Stomata in certain Ferns, iv, 274,

293

„ „ Mounting Growing-

point of Plants, v, 27

„ „ On the Floral Develop-

ment of Helianthus annuus, v, 120,
141

„ „ On the Histology of

Pitcher Plants, vi, 151, 185

„ „ Remarks on reversed

Structure in leaves of Bomaria, vi, 324

Glass, Plate for shovs^ing compression
and flexure of. J. W. Bailey, i,
177

,, thin cover. How to make. G. J.
Burch, HI, 261, 305
„ tinted, for illumination. W. K.
Bridgman, iv, 301, 317, 328
„ To drill holes in, vi, 30
„ covers. An Instrument for clean-
ing, W. W. Jones, iv, 49, 78

Glyciphagus palmifer, On. A. D.
Michael, v, 29, 64

Gnats and INIosquitoes, i, 117; vi, 91

Goddard, D. E. Manipulation with
Canada balsam, 11, 125

„ „ On the value of Com-

parative Study, HI, 119

Golding, W. H. Simple Contrivances
in Manipulation, in, 178

Gossip nights, 1, 146, 150, 181 ; 11, 45
„ „ Elementary Gossips, v,

23, 24, 26, 63, 66, 69, 72, 191

Granville, J. Mortimer, M.D. Obser-
vations on Filarice, vi, 58, 91

Graptolites, British. J. Hopkinson, 1,

„ Diplograpsus pristis, with

reproductive Capsules. J. Hopkinson,

II, 204, 210

Green, N. E. On Ciliary Action in

Rotifera, 11, 71, 90

„ „ On the examination of

the Surface markings of Diatoms by

the Oxy-calcium Light, 11, 232, 243 ;

III, 32

„ „ A New Stage Arrange-

ment for illumination, iv, 157, 165,
168
Green, Staniforth. Insect Mounting in
Hot Climates, in, 230, 244, iv, 29
„ „ Mounting whole

Insects without pressure, v, 51, 71
Ground glass Slides for Microscopical

use, V, 67
Groves, J. W. On Stained Sections of
Animal Tissues, v, 231, 261
,, „ Cements for Fluid or

Glycerine mounting, v, 245, 262
„ „ On the use of Ether in

Freezing with Williams' Microtome,
VI, 293, 313
Growing Slide. T. Curties, i, 46

„ „ for minute organisms,

On a. Julien Deby, vi, 28, 30, 166,
184

„ „ or Zoophyte Trough,

Rev. H. J. Fase, vi, 249, 279

„ „ On a. J. D. Hardy,

VI, 212, 224

io

INDEX.

Growing Slide, On a simple. T. Charters

White, VI, 20I, 218
Gum Dammar and Benzole Cement.

T. Charters White, i, 147
Gustatory Organs of Rabbit's Tongue,

On the. T. Charters White, vi, 296,

314
Guy, Dr. On the Illuminator Hand

Microscope, in. 65, 95

Hailes' Porcelain Lamp Shade, i, 177,

V, 141
Hailes, H. F. Skin, supposed human,
found on a door in Westminster
Abbey, 11, 10, 25

„ ,, ,, On Cells made by Sand
Blast Process, 11 1, 227, 244
„ ,, ,, New Section Cutting
Machine, iv, 243, 285
Hairs of Indian Bats. M. C. Cooke,
LL.D., I, ^T„ 48

„ ,, „ Synopsis. M.

C. Cooke, LL.D., i, 55
Hammond, A. A Comparison of the
Metamorphoses of the Crane-fly and
the Blow-fly, iv, 139, 162
Hard Tissue Sections, To prepare and
mount. C. Johnstone, i, 201

„ ,, ., T. Charters

White, n, 172, 178
Hardwicke, R. (Treasurer). Obituary,

Notice, IV, 77
Hardy, J. D. On a New Vivarium, vi,
212, 224

,, ,, ,, Note on Melicerta tyro
and Vaginicola Sp., vi, 218
Harkness, Dr. Circulation of blood in

Frog, II, 21 1
Hart, G. W. On Oysters and Oyster-
Spat, I, 236, 253
Hartog, Marcus M. On the Investiga-
tion of Floral Development, v, 9, 27
Harvest Bug, On the. J. J. Wright, 11,

I, 24
Helianthus annuus, Floral develop,
ment of. W. H. Gilburt, v, 120,
T41
Helminthological observations on the
endemic disease of the St. Gothard
Tunnel labourers. E. Perroncito,
M.D., VI, 141, J85

„ ,, ,, T. Spencer Cob-
bold, M.D., VI, 148, 185
Hincks' British Hydroid Zoophytes,

Review of, i, 198
Hind, G. On collecting and mount-
ing Spiders' Wtbs, vi, 10, 31
Hippuric Acid, Crystallization of. T.
Charters White, 11, 44, 54; ni, 182

liislop, W. Suggestions on Oblique
Illumination, i, 50, 64
,, „ Microscopic Crystals, i, 83,

„ ,, Spiral Microscopic Crystals,

I, 113

„ ,, On a new Analyzing
Selenite Stage, i, 225, 253

,, „ A simple form of Sele-
nite Stage, II, 12, 26
Histology of Plants. R. Braithwaite,
M.D., III, ii8, 129, 150, 163, 202,
211, 224, 238, 251, 278, 286, 310,

313, 327
Hoggan, F. E., M.D. New Staining

process, iv, 180, 199
Hoggan, Geo., M.B. New form of

Section Cutting Machine, in, 266,

306, 308

,, ,, ,, Mounting in

Glycerine, iv, 199
Holly, On the Stomata in the. A.

Martinelli, vi, 123
Holmes, S. New form of Binocular

Microscope, i, 175, 179
Hookham, T. On Microscopic Crystals,

I, 80, 86
Hopkinson, J. British Graptolites, i,

151, 178
,, „ Diplograpsus pristis

with reproductive capsules, 11, 204,

210
Horncastle, Henry, Donation by, in,

201, 247
Horsley, Col. A new Vaginicola, iv, 69
Hudson, C. T., LL.D. Melicerta tyro,

IV, 126

,, ,, ,, On the Rotifers,

by Dark Field Illumination, v, 164,

196
Hunter, Jno. On the Queen Bee and

her fertilization, 'v, 127, 141

,, „ Section Cutter, vi, 34

Huxley, Prof. T. H. Microscope for dis-

secting, v, 144
„ „ President's Address,

1879, V, 250
Hydatid Cysts, Degeneration of, and

Psorospermia like bodies associated

with. H. T. Whittell, M.D., vi, 47,

«7
Hydra vulgaris, Development of.

Jas. Fullager, in, 263, 306
Ilymeniacidon celata — see Cliona celata
Ilynicnoptera. Characteristics of. B.

T. Lowne, in, 181, 187

Illinois, State Microscopical Society of,
I, 203

IXDEX.

11

Illumination, Oblique. W. Hislop, i,
50*64

,, „ A new method of Sub-
stage. J. Matthews, M.D.. 11, 80,
92

„ ., Silvered Glass Reflector for.
J. Matthews, M.D., in, 179
„ „ Side Reflector for Opaque
Objects. J. Matthews, M.D., iv, 38
„ „ Construction and use of

Achromatic Prism. J. E. Ingpen, iii,
222, 313

,, „ Achromatic Bull's-eye

Condenser. J. E. Ingpen, 11 1, 306

,, ,, Remarks on Abbe's Con-

denser. J. E. Ingpen, vi, 319

,, ,, New Stage arrangements

for. N. E. Green, iv, 157, 165, 168

„ ,, Principles of, in connection

with PolarizaHon. W. K. Bridgman,

IV, 171, 195, 232

„ ,, T inted glass for. W. K.

Bridgman, iv, 301, 317, 328

„ ,, Improved Condenser, W.
K. Bridgman, iv, 311, 328

„ ,, " Circular " superseded.
W. K. Bridgman, iv, 311, 328

,, ,, Oblique, method of. Dr.

Dickson, v, 12

„ „ Apparatus for use with
Bull's-eye Condenser. G. Williams,

v> 75» 95
Illuminator, An Immersion Paraboloid.
B. D. Jackson, 11, 208, 218, 248,
250 ; V, 20

,, „ New oblique. Rev. J.
Bramhall, iv, 202, 232

,, ,, On a new reflecting. W.
K. Bridgman, iv, 214, 237

,, „ On a new Immersion
Paraboloid. Jas. Edmunds, M.D.,

V, 17

,, „ On Wenham's im-

mersion. J. E. Ingpen, vi, 86

„ ,, On a hollow Condenser
filled with Glycerine as an. Julien
Deby, vi, 166, 184, 213
Imaginal discs of Weismann. B. T.

Lowne, i, 197, 210
Immersion Lenses, Powell & Lealand's,
I, 142

„ Paraboloid, An. B. D.

Jackson, 11, 208, 218, 248, 250 ;
v, 20

,, ,, ,, Illuminator, On a
new. Jas. Edmunds, M.D., v, 17

,, Illuminator, On Wenham's.

J. E. Ingpen, vi, 86

„ Tube. E. Richards, iii, 244

Ingpen, J. E. On a Standard Dyna-
mometer, III, 97, 119

„ ,, Observations on Eye-

pieces, III, 152

„ „ Portable Microscope, ni,
210

,, ,, Construction and use of the
Achromatic Prism, in, 222,313

,, „ Insect Mounting in Hot

Climates, in, 230, 244

„ „ On a " False-light

Excluder" for Objectives, iii, 262,
306

,, ,, Achromatic Bull's-eye

Condenser, iii, 306

,, ,, Notes on " Personal

Equation" with reference to Micro-
scopy, IV, 17, 40

,, ,, On a winter gathering
of Volvox globator, iv, 30

,, „ On measuring angular
apertures of Objectives, iv, 132

,, „ Remarks on Amici's re-
fleeting Microscope, iv, 198, 233

,, ,, Notes on the Camera

Lucida, iv, 2^^; v, 12

„ ,, Remarks on Abbe's

Apertometer, v, 136

,, ,, Observations on Dr.

Matthews' " Micro-Megascope," v,

259

,, ,. On Wenham's immersion
illuminator, vi, 86

„ ,, Note on mounting

Diatoms, vi, 216

,, ,, Testimonial to, vi,

279. 319

„ „ Remarks on Abbe's

Condenser, vi, 319
Injected Objects. W. T. Suffolk, 11,

246
Injecting, Observations on. Lionel S.

Beale, M.B., 11, 153, 188
Injecting Apparatus, Pneumatic. T. J.

English, III, 99, 125
Insect Dissection, On. T. Charters

W^hite, V, 28, ^^, 64
Insect Mounting in Hot Climates.

Staniforth Green, 11, 230, 244; iv,

29

j> M >» » T.

Curties and J. E. Ingpen, iii, 230,

244
Insectivorous Plants, On. B. T.

Lowne, iv, 130

„ „ Drosera rotundi-

folia. T. Charters White, v, 266
Insects mounted whole without pressure.

Staniforth Green, v, 51, 71

12

INDEX.

Insects' Brain, On preparing Model of,
from Microscopical Sections. E. T.
Newton, v, 150, 193

Insects' Eg-gs, Mobility of Spines on.
H. Davis, II, 124, 141

Insects, On the Eyes of. B. T. Lovvne,

V, 95

Insects, Mouth Organs of. B. T.
Lowne, iii, 207

Jackson, B. D. On an Immersion
Paraboloid, 11, 208, 218, 248, 250;
V, 20

„ „ Translation of Dr. K.

Ledeganck's researches on the fall of
leaves in Autumn, in, 102, 126
Johnson, M. Hawkins. Microscopic
Structure of Flint and allied Bodies,
111,234, 248

,, ,, On the Organic

Structure of Flint and of Meerschaum,
IV, 66, 83

,, ,, On Silicified

Structure in Pyridzed Wood, iv, 1^9,
168

,, ,, On the Boring

Sponge Cliona celata, vi, 289
Johnstone, C. On preparing and
mounting Sections of Hard Tissues, i,
201
Jones, W. W. An Instrument for
cleaning thin glass covers, iv, 49,

78
Jordan, J. B. Improved Apparatus for

the preparation of Rock Sections, 1,

180, 186
Journal, Q. M. C, Publication of, iii,

184,204
Jutland Diatomaceous Deposit, F.

Kitton, 11, 99, 118, 168, 180

Karop, G. C. On immature forms of

Diatomaceae, vi, 191, 215
Kay's Coaguline, i, 46
Kitton, F. On French Diatomaceae, 11,

42

„ Diatomaceous Deposits from

Jutland, II, 99, 118, 168, i8o

Labidostomma lutcum. On. A. D.

Michael, vi, 107, 128
Ladies as members. Proposal to admit,

1,50, 84
Lamp, Fiddian's Portable Microscope, 11,

182
„ Portable Case and Stand for.

J. Matthews, M.D., iii, 31
,, for Microscope, Two very small,

II, 284, 286

Lamp, for Microscope, Parkes', iv, 88
„ Chimney, Fiddian's metallic, i,
I II

,, Chimney, Reflecting. J.
Blanklev, 11, 248

„ Chimneys, A method of coating.
J. F. Wight, I, 205

„ Shade, Porcelain. Hailes', i, 177,
v, 141
„ Shade. James Smith, 11, 153
„ Shade, New. J. Swift, v, 64
„ Stand, New. J. Matthews, M.D.,
II, 286

„ Stand, New. E. Richards, 11,
286
Larvae of Cat Flea, Remarks on. S. J.

Mclntire, v, 23
Lattey, A. H. H. Observations on the

Polyzoa, II, 281 ; iii, i
Leaves, On the Fall of, in Autumn. Dr.
K. Ledeganck (Translation by B. D.
Jackson), in, 102, 126
Ledeganck, Dr. K. On the Fall of
Leaves in Autumn (Translation by
B. D. Jackson), in, 102, 126
Lee, Henry. On the Boring Sponge,
Cliona celata. n, 278
„ ,, President's Address, 1877,

IV, 318; 1878, V, 87
Leifchild, J. R. Observations on Fossil

Wood, II, 183
Lenses, Pocket and Dissecting, Steineil's,

VI, 3'
Lepisma and Podura Scales, Interference
Markings in. G. W. Royston Pigott,
ni, 201
Lewis, R. T. Berlin Black for Mount-
ing, 1,84,90

„ ,, Mounted Slides of Edel-
weiss, IV, 130
,, „ Testimonial to, v, 102
„ ,, Note on Natural History
Diagrams, v, 264

,, „ On a Gigantic Flea, vi,
168, 184

Lichens. On the Dual-Lichen Hypo-
thesis. M. C. Cooke, LL.D., v, 170,
186, 206

Lichens aud Fungi, Observations on.
Chas. Stewart, v, 186, 206

Lima, J. F. da Silva, M.D. Observa-
tions on Filariae, vi, 58, 91

Lissajous' Curves, Microscopic Tracings
of. R. G. West, V, 38, 67

Lithographic '" Autographic " Process,
On the. A. Cottam, v, 6. 26

Live-box, A Simple. J. Bockctt, i, 47

Locke, j. New and Simple Compres-
sorium, 11, 280

13

Locke, J. Dry Mounting, in, 175
Locock, Rev. W. To Secure Slides on

Turn-table, iv, 123
Love, — Turn-table,NewForm of, 1,206
Lovv^ne, B. T. On the Proboscis of the
Blow-fiy, I, 126, 149, 190, 206

,, „ On a Secretion from the

Stomach of a Flamingo, i, 194. 210

„ „ On the Imaginal Discs

of Weismann, 1, 197, 210

„ „ The Microscope as an

Aid to the Classification of Animals,
11, 6, 25

,, ,, Anatomy of the Blow-

fly. Reviev^, n, 21, 54

„ ,, Structure of the Cornea

of the Bee, n, 46, 56

,, „ Microscopic Zoology

Class, II, 56

,, ,, On so-called Sponta-

neous Generation, 11, 133, 147, 188

,, „ Observations on Blood

Corpuscles, 11, 211

„ „ Characteristics of Hy-

menoptera, 111, 181, 187

„ „ The Mouth Organs of

Insects, III, 207

„ „ Histology of the Eye,

IV, 70, 88

„ „ On some Recent Views

of the Classification of the Lower
Animals, iv, 127

„ „ On Insectivorous Plants,

IV, 130

, „ Electrometer adapted to

the Microscope, iv, 286
„ „ On the eyes of Insects,

V, 95

Lucernaria auricula, Note on. Rev. J.
Fry, I, J 44

Mclntire, S. J. Pseudo-Scorpiones, i, 8,
21

„ „ Cheap Aids to Micro-

scopy, I, 69, 84

„ „ Breeding Cages for

Podurae, i, 71

On Podurae, i, 73, 85

„ „ The Pencil Tail (Po-

lyxenus lagurus), II, no, 121

„ „ Chislehurst Excursion,

1870, II, 115

„ „ Structure of Scales of

Thysanurae, 11, 210

„ ,, Podura Scales, 11, 249

„ ,, Remarks on larvae of

Cat Flea, v, 23
Mackenzie, James. On a Swinging Sub-
stage for the Microscope, VI, 170, 184

Mackenzie, Stephen, M.D. On the
Periodicity of Filarial Migrations, vi,

275

Magalhaes, Pedro S. de, M.D. Obser-
vations on Filariae, vi, 58, 91

Manipulation with Canada Balsam.

D. E. Goddard, 11, 125

Manson, Patrick, M.D. Observations
on Filarias, vi, 58, 91, 130, 185

„ ,, ,, On the Perio-

dicity of Filarial Migrations, vi, 239,

275
Marine Dredging, i, 202
Marsh, Silvester, jun. On Bleaching

and Washing Microscopical Sections,

VI, 54,90
Maitinelli, A. On the Tubules in the
Shell of the Crab, i, 117

,, On the Germination of

a Seed, vi, 12, 36

„ On the Stomata in the

Holly, VI, 123
Matthews, J., M.D. A New and Simple
Method of Micrometry, i, 231, 253;
II, 26

„ „ On a New Method

of Sub-stage Illumination, 11, 80, 92

„ „ Improved Turn-

table, 11,87,92, 120; 111,29.

„ „ New Lamp Stand,

II, 286

„ „ Portable Case and

Stand for Lamp, in, 31

„ „ New Apparatus

for Measurement, in, 59

„ „ Silvered Glass

Reflector, in, 179

„ „ Mounting Crystals

in Castor Oil, in, 183

„ „ Localities of Bar-

badoes Earth, iv, 31, 35

M „ Side Reflector for

Opaque Objects, iv, 38

M „ President's Ad-

dress, 1875. (Printed with Tenth
Annual Report separately) ; 1876,
IV, 186

M „ On the "Micro-

megascope,'' v, 167, 196, 259

„ „ On the History

and Structure of Corals, v, 105, 137

„ „ On a Machine for

cutting Hard Sections, vi, 34, 83
Measurement, Universal Microscopic.
M.C. Cooke, LL.D., i, i

,, ,, New Apparatus for. J.

Matthews, M D., in, 59.
„ „ of Angular Apertures. J.

E. Ingpen, 4, 132

u

INDEX.

Meerschaum and Flinty Org^anic Struc-
ture of. M. Hawkins Johnson, iv,
66,83

Melicerta tyro. C. T. Hudson, LL.D.,

IV, I2"6

„ „ Note on. J. D. Hardy

VI, 218
Melicertian, A New, and Varieties of

Melicerta ringens. J. G. Tatem, i,

124, 149
Metal Speculum, To Polish. W. K.

Bridgman, iv, 218
Michael, A. D., On Glyciphagus pal-

mifer, v, 29, 64
„ ,, On the Reproductive

System of certain of the Acarina, v,

233, 257 ; VI, 278
„ „ On two Species of Aca-

rina, VI, 107, 128
„ ,, On Labidostomma

luteum, VI, 107, 128
,, „ On Pygmephorus spi-

nosus, VI, 107, 128
Michels, J. New cheap Microscope

Stand, II, 182
Micrococci with flagellum. Note on.

E. M, Nelson, vi, 327
Micro-Fungi on olJ Nettle Stems. M.

C. Cooke, LL.D., in, 69
Micro-megascope, On the. Jno. Mat-
thews, M.D., V, 167, 196, 259
Micrometer, On a New. G. J. Burch,

V, 45. 70

Micrometry. Universal Microscopic
Measurement. M. C. Cooke, LL.D.,

I, I

„ ,, A New and Simple Method
of. J. Matthews, M.D., i, 231, 253;

II, 26

„ „ On Different Methods of.
Count A. F. Castracane, 11, 14, 26
„ ,, Notes on the Camera
Lucida. J. E. Ingpen, iv, ^^^ ; v, 1 2
,, „ Mounting Spiders' Webs.
G. Hind, vi, 10, 31
Microscope, On the Proper Application
of by Amateurs. E. T. Draper, i, 50
,, „ An Aid to the Classification
of Animals. B. T. Lowne, 11, 6. 25
„ ,, presented by Mr. Thos. Ross,
Ji, 123

,, „ Dr. Guy's Illuminator Hand,
"11,65, 95

,, ,, Portable. J. E. Ingpen, in,
210
„ „ New Portable. W. Moginie,

IV, 4.3, .3.37

„ „ Portable Binocular. Jas.

Swift, IV, 161

Microscope for Q. M. C, Suggestion to

Purchase, iv, 167, 195

,, ,, presented by Mr. H- Crouch,

V, 14

„ ,, for Dissecting. Prof. T. H.

Huxley, v, 144

„ „ Stand, New Cheap. J.

Michels, 11, 182
Micioscopic Moulds. M. C. Cooke, LL.D.,

II, 48, 61, 88

„ ,, Vision, Influence of Diffrac-
tion in. Frank Crisp, v, 79, 99

„ ,, Photography, i, 18

Microscopy in the United States, 1876.

H. Crouch, IV, 226, 241
Micro-spectroscope, On Mapping with the.

Juliea Deby, vi, 165, 184, 213
Microtome, An Improved Freezing. R.

P. Williams, iv, 154, 164
Mobility of Spines on Insects' Eggs.

H. Davis, II, 124, 141
Moginie, W. Collecting Case, i, 177
,, ,, New Portable Micro-

scope, IV, 43, 337
M611c;r's Type'Slides, I, 141, 204
Monocular Vision, A Phenomenon of.

W H. Furlonge, 111, 39, 56
Moore, D., M.D. On the Generative

Processes of the Oyster, Mussel, and

Cockle, IV, II, 38

„ „ On Bucephalus Haimeanus,

IV, SOj 79
Morland, H. On Mounting Opaque

Objects with Beeswax, vi, 196, 215
Morrell, Miss, Donation from, iii me-

inoriam James Annett, vi, 36, 38,

122
Mosquitoes and Gnats, i, 117 ; vi, 91
Mosses, Rare. R. Braithwaite, M.D.,

I, 86, 206

,, Geographical Distribution of.
R Braithwaite, M.D., 11, 29, 55

Moulds, Microscopic. M. C. Cooke,
LL.D., II, 48, 61, 88

Black. M. C. Cooke, LL.D.,
IV, 246, 290

Mounting, Berlin Black for. R. T.
Lewis, I, 84, QO

,, „ Benzole and Dammar Ce-
ment. T. Charters White, i, 147
,, ,, Beeswax and Resin Cement.

T. Charters White, iii, 58
„ ,, Dry. Improved Method. T.
Charters White, iii, 232, 248
,, ,, in Canada Balsam. D. E.
Goddard, 11, i 25
„ „ Slide for Opaque Objects,

II, 180

„ ,, Observations on, II, 215

15

Mounting, Turpentine Bath for. 11. G.
W. Aubrey, in, i6i, 175
„ „ Drv. J. Locke, in, 175

„ „ Crystals in Castor Oil. J.

Matthews, M.D., in, 183
,, ,, Freshwater Algae, in, 195,
218

,, ,, Insects in Hot Climates.

Staniforth Green, in, 230, 244; iv, 29
„ „ Insects in Hot CHmates. T.

Curteis and J. E. Ingpen, in, 230, 244
,, ,, Ostracoda, &c. E. Gardner,
IV, 1 10, 126

„ „ in Glycerine, Geo. Hoggan,

M.B., IV, 199

,, „ Medium for Vegetable Tissues,
IV, 329

,, ,, Test Objects. Jas. Edmunds,

M D., V, 23

,, „ " Growing-point " of Plants

W. H.Gilburt, v, 27
,, ,, Whole Insects without Pres-

sure. Staniforth Green, v, 51, 71
,, ,, Ground-glass Slides for
Microscopical Use, v, 67
,, ,, Air-pump for. E. Gardner,

v, 70

,, ,, Black Ozokerit as a back-
ground for dissecting. Chas, Stewart,

V, 147 ; VI, 215

„ „ Cements for fluids or

glycerine. J. W. Groves, v, 24;, 262

„ Spiders' V/ebs. G. Hind, vi,

,, „ To drill holes in glass, vi,
.30

,, ,, Copal varnish as a substi-
tute for Canada balsam. Julien
Deby, vi, 30, 167, 184
„ ,, On a simple method of
cleaning Diatoms. H. Stolterfoth,

VI, 95, 122

,, „ Receipts for Microscopists.

Julien Deby, vi, 165, 184, 213

,, ,, arranged Diatoms, &c. Julien

Deby, vi, 166, 184

„ „ New method by wax.

Hamilton Smith, iv, 177, 198 ; vi,

2r5

„ ,, with gutta percha tissue.

Hamilton Smith, vi, 39

„ „ opaque objects with sheet

wax. H. J. Roper, vi, 193, 215

„ ,, opaque objects with beeswax.

H. Morland, vi, 196, 215

,, ,, On the use of Arabin in.

H. J. Waddington, vi, 199, 216

„ „ Desmids. M. C. Cooke,

LL.D., VI, 209, 222

Mounting Desmids, Remarks on, vi,

322

„ ,, Diatoms, Note on. J. E.

Ingpen, vi, 216

,, ,, large sections. Method of.

S. H. Needham, vi, 222
Mouth Organs of Insects. B. T.

Lowne, in, 207
Movements of Camphor. — Tomlin-

son, II, 26
Mussel, Oyster, and Cockle, On the

Generative Processes of. D. Moore,

M.D., IV, II, 38

Napthaline for imbedding soft tissues,

III, 221

Natural History Diagrams, Note on.
R. T. Lewis, v, 264

Needham, S. H. Method of mounting
large Sections, vi, 222

Nelson, E. M. Note on Micrococci
with flagellum, vi, 327

New ^Members. See Proceedings

Newton, E. T. On the preparation of
Microscopic Sections of soft tissues,
II', 251, 255

J, ,, On Section Cutting

Machines, in, 251, 255

n „ On preparing a dis-

sected Model of an Insect's Brain
from Microscopical Sections, v, 150,
193

1, ,, A simple Section Cut-

ting Machine, vi, 123

„ „ On the Boring Sponge,

Cliona celata, vi, 290

Nicholson, C. Object Glasses, i, 21

Noberfs Tests. Wm. Webb, in, 155,
177, 198, 220, 221

Nosepiece, New quadruple. Jas. Swift,

IV, 207

Notaris, Professor Guiseppe de.

Obituary Notice, iv, 281
Novelties, i, 46, iii, 141, 177
Nudibranch, New, Victoria Docks, i,

Obisium (Pseudo-Scorpiones\ S. J.
Mclntire, i, 8

A. de Brebisson, in,

Robt. Hardwicke,

Guiseppe de Notaris,

P. LeNeve Foster, v,

W. Sharpey, M.D.,

Obituary
41

Notice.

iv', 77

)f

IV, 281

"

195

),

VI, 122

n

16

INDEX.

Object Glass, 4-inch. Thos. Ross, i,
16, 22

,, „ New Low Power. J.

Bockett, I, 16, 22

,, ,, presented by Mr. Jno.

Rowlett, III, 29

„ ,, Schieck's i-40th immer-

sion, III, lOI

,, ,, C. Nicholson, i, 21

,, „ Powell and Lealand's

Immersion, i, 142

,, ,, On the observations

for correcting. F. H. Wenham, 11,
21

„ „ Focal length, &c. G.

W. Royston-Pigott, iii, 34, 53
,, ., On a False light Ex-

cluder for. J. E. Ingpen, in, 262,
306

,, ,, Stephenson's Scale for

measuring angular aperture of, iv,

87

„ ,, Measurement of angular

aperture of. J. E. Ingpen, iv, 132

„ ,, Contrivance for centre-

ing. Jas. Swift, IV, 286, 290
Objectives, On the best Tests for. Wm.

Webb, III, 113, 147 ; v, 41, 67
Object holder and universal stage. R.

G. West, VI, 25, 39
Objects, Microscopic, On delineating.

W. T. Suffolk, I, 179, 183 ; II, 286
„ On a method of drying. W.

T. Suffolk, I, 205
„ Injected. V. T. Suffolk, 11,

246
„ Opaque Slide for, ii, 180
Oblique Illumination. W. Hislop, I,

5°; 64
Omission corrected (Schieck's Object

Glass), HI, loi
Ostracoda, &c., On mounting. E.

Gardner, iv, no, 126
Oyster, Mussel, and Cockle, On the

Generative Processes of. D. Moore,

M.D., IV, II, 38
Oysters and Oyster-Spat. G. W. Hart,

I, 236, 253
Ozokerit, Black, as a background for

dissecting. Chas. Stewart, v, 147 ;

VI, 215

Papers for the Club. T. Charters
White, II, I 23, 174

Paraboloid, An immersion. B, D.
Jackson, 11, 208, 218, 248, 250; v,
20

„ ,, Illuminator, On a new im-
mersion. Jas. Edmunds, M.D,, v, 17

Parasite of Humble Bees, On a. W.

Cole, IV, 93, 122
Parkes' Lamps for Microscope, iv, 88
Paterson, J. L., M.D., Observations on

Filariae, vi, 58, 91
Peck, C. H. 'Notes on the "Black

Knot," III, 82
Pencil Tail, The (Polyxenus lagurus).

S. J. Mclntire, 11, no, 121
Peronospora, Translation from De

Bary's Monograph, in, 139
Perroncito, E., M.D. On the endemic

disease of the St. Gothard Tunnel

Labourers, vi, 141, 185
" Personal Equation," Notes on, with

reference to Microscopy. J. E. Ingpen,

IV, 17, 40
Pitcher Plants, On the Histology of. W.

H. Gilburt, vi, 151, 185
Photographs of Webb's Microscopic

Writing. J. J. Woodward, in, 228,

244

,, „ of Members, iv, 126, 129

Photography, Microscopic, i, 18
Pigott, G. W. Royston, M.D. On Object

Glasses, Focal length of, &c., 111,34,

S3

„ „ ,, On Interference

Markings in Lepismaand Podura, in,
201
Plants, Histology of. R. Braithwaite,
M.D., III, 118, 129, 150, 163, 202,
211, 224, 238, 251, 278, 286, 310,

Pneumatic injecting Apparatus. T. J.

English, III, 99, 125
Pocket and dissecting lenses, Steinheil's,

VI, 31
Podisoma, Notes on. M. C. Cooke,

LL.D., II, 255, 285
Podura. S. J. Mclntire, i, 73, 85
„ Cages. S. J. Mclntire, i, 71
„ Scales. S. J. Mclntire, n, 249
,, and Lepisma Scales, Interference

Markings in. G. W. Royston-Pigott,

M.D., in, 201
Polariscope, On the Ratio-Micro. J. J.

Field, I, 215, 253

,, „ A New Selenite Stage. W.

Hislop, I, 225, 253

,, ,, Simple form of Selenite

Stage. W. Hislop, n, 12, 26

„ ,, Reade's Prism used as a.

J. F. Wight, n, 24

,, ,, New method of using

barker's Selenites. E. Richards, 11,

88

„ ,, A. Neutral Tint Selenite

Stage. W. Ackland, n, 145, 152

17

Polarization, On the principles of Illu-
mination in connection with. W. K.
Bridgman, iv, 171, 195, 232

Polycystina, Localities of Barbadoes
earth. J. Matthews, M.D., iv, 31,

35
Polymastia biclavata, On. B. W.

Priest, VI, 302, 323
Polyxenus lagurus, the Pencil Tail.

S. J. Mclntire, 11, no, 121
Polyzoa, Observations on. A. H. H.

Lattey, 11, 281 ; in, i
Postal Micro-Cabinet Club, iv, 127
Potash Salts of Stassfurt, Microscopical

Objects in. — Weissflog, i, 138
Potato Disease, Translation from De

Bary's Monograph on Peronospora,

iii» 139
Powell andLealand's Immersion Lenses,

I, 142
President's Address, 1868. A. E.
Durham, i, 95. 1869. i, 240

„ „ 1870. P. Le Neve

Foster, 11, 103

,, „ 1871. Lionel S.

Beale, M.B., 11, 221. 1872 (printed
with Seventh Annual Report sepa-
rately)

„ „ 1873. R. Braith-

waite, M.D. (printed with Eighth
Annual Report separately). 1874.

111,327

„ „ 1875. J.Matthews,

M.D. (printed with Tenth Annual Re-
port separately). 1876. IV, 186

„ „ 1877. Henry Lee,

IV, 318. 1878. V, 87

„ 1879. Prof. T. H.

Huxley, v, 250

,, „ (Inaugural), 1879.

T. Spencer Cobbold, M.D., vi, i, ^^^.
1880. VI, 171

„ „ 1 88 1. T. Charters

White, VI, 305
Priest, B. W., On the Natural History
and Histology of Sponges, vi, 229,
269, 273, 287

,. ,, On the Boring Sponge
Cliona celata, vi, 234, 269
„ „ On Polymastia biclavata^
VI, 302, 323
Prism, Achromatic, Construction and

Use of. J. E. Ingpen, in, 222, 313
Proboscis of the Blow-fly. B. T. Lowne,
I, 126, 149, 190, 206

W.T.Suffolk,
I, 131, 149, 193

„ „ „ A. Topping,

IV, 132

Proceedings, 1,20, 47,84, 112, 146, 178,

205, 249. n, 24, 54, 88, 118, 147,

178, 210, 243, 278. Ill, 26, 53, 89,

118, 146, 171, 201, 218, 243, 305.

IV, 29, 69, 121, 161, 195, 232, 284,

328. V, II, 63, 94, 133. 185, 256.

VI, 29, 85, 121, 182, 214, 272, 312
Proposal to admit Ladies as Members,

I, 50, 84
Protococcus pluvialis. On the resting

spores of. T. Charters White, vi,

43. 87
Pseudo-binocular Prism, New. H.

Crouch, I, 142
Pseudo-Scori)iones. S. J. Mclntire, i,

8,21
Psorospermia-like bodies associated with

degeneration of Hydatid Cysts. H.

T. Whittell, M.D., VI, 47, 87
Pygmephorus spinosus. On. A. D.

Michael, vi, 107, 128
Pyritized wood, On Silicified Structure

in. M. Hawkins Johnson, iv, 159,

168

Queen Bee and her fertilization. On the.
Jno. Hunter, v. 127, 141

Rabbit's tongue, On the gustatory
organs of. T. Charters White, vi, 296,

3'4
Raphiodesma minima, On. J. G.

Waller, vi, 97, 123
Ratio-Micro-Polariscope. J. J. Field, i,

215, 253
Receipts for Microscopists. Julien

Deby, vi, 165, 184, 213
Recollections of our Meetings, i, 18
Reflecting Illuminator, On a new. W.

K. Bridgman, iv, 214, 237
Reflector, Silvered Glass. J. Matthews,

M.D., III, 179

„ Sunlight. Jas. Smith, in,

202
Report on Excursions, 1868, i, 133 ;

1870, II, 70, 115 ; July, 1878, V, 104;

1880, VI, 105, 126.
Report of Committee on F. Crisp's Do-
nation, IV, 47, 70
Resin and Beeswax Cement. T. Charters

White, III, 58
Resting Spores of Protococcus pluvialis,

On the. T. Charters White, vi, 43,

87

Review, Hincks' British Hydroid Zoo-
phytes, I, 198
„ Lowne on the Blow-fly, 11, 21

Richards, E. New method of using
Darker's Selenites, 11, 88

18

INDEX.

Richards, E. New Lamp Stand, ii, 286
„ Improved Immersion Tube,

III, 244

Richardson, Dr. On the use of high
powers in the diagnosis of Blood
stains, iv, 39

Rock Sections, To prepare, i, 22

„ ,, Improved Apparatus for

preparing. J. B. Jordan, i, 180, 186

Rolfe, C. Spencer. On some improve-
ments in Turntables, v, 248, 261

Roper, H. J. A method of dry mount-
ing for opaque objects, vi, 193, 215

Ross, Thos., Microscope presented by,

II, 123

Rotifera, Ciliary Action in. N. E.
Green, 11, 71, 90

„ On the, by Dark Field Illu-
mination. C. T. Hudson, LL.D., v,
164, 196

Rowlett, Jno., Object Glass presented
by, III, 29

Rules, Alterations in, i, 112, 116, 206,
207; III, 312, 314; IV, 78, 81, 88,
89 ; V, 265, 270 ; VI, 29, ss> 183, 187

Sabella, Remarks on, T. Charters

White, IV, 242
St. Gothard Tunnel Labourers, Helmin-

thological observations on the endemic

disease of. E. Perroncito, M.D., vi,

141, 185
„ „ „ „ T. Spen.

cer Cobbold, M.D., vi, 148, 185
Salivary glands of Cockroach. T.

Charters White, iv, 1, 31, 78
Sand Blast Process for making Cells.

H. F. Hailes, iii, 227, 244
Scales of Thysanurae, Structure of. S. J.

Mclntire, 11, 210
Schieck's i-40th Immersion Objective,

III, 101

Schulze, Adolf. A method of resolving
fine lined Diatom Tests, v, 209, 257
Sea-water, Artificial, iv, 23, 45
Sections, On bleaching and washing.
Sylvester Marsh, jun., vi, 54, 90

„ Rock, To prepare, 1, 22

„ Rock, Improved Apparatus for
preparing. J.B.Jordan, i, 180, 186

„ Soft vegetable. C. J. Breese,
I, 206

„ Coal. J. Slade, 11, 143, ic;o

„ Bone and Teeth, To prepare.
J. Slade, I, 119, 146

„ Hard Tissues, To prepare and
mount. C. Johnstone, i, 201

„ „ „ T. Charters

White, II, 172, i;8

Sections of eyes of Insects, On cutting.
R. P. Williams, iv, 4, 36

„ Vegetable, double Staining. W.
H. Gilburt, iv, 241, 304,329

„ of animal tissues. On staining.
J. W. Groves, v, 231, 261

„ Staining, New process. F. E.
Hoggan, M.D., iv, 180, 199
Section-cutting Machine, New form of.
W. C. Unwin, 11, 280

,, „ ,, The " Science

Gossip." Walter White, in, 225

„ ,, „ New form of.

Geo. Hoggan, M.B., in, 266, 306,
308

,, „ „ for frozen

Tissues. R. P. Williams, iv, 154,
164; VI, 34, 293, 313

New. H. F.
Hailes, iv, 243, 285

„ „ „ for hard tissues.

Jno. Matthews, M.D., vi, 34, 83

„ „ „ Jno. Hunter,

VI, 34

„ „ ,, On a simple.

E. T. Newton, vi, 123

„ ,, Machines, for soft

tissues, On. E. T. Newton, in, 251,

255
Seed, On the germination of a. A,

Martinelli, vi, 12, 36
Selenite Stage, A New Analysing. W.

Hislop, I, 225, 253
„ „ Simple form of. W.

Hislop, n, 12, 26
„ „ Neutral Tint. W. Ack-

land, n, 145, 152
Sharpey W., M.D. Obituary Notice,

VI, 122
Shell of Crab, Tubules in. A. Martinelli,

I, 117

,, Crustacea, Structure of. J.

Slade, I, 86, 87
Silicified Structure in Pyritized Wood.

M. Hawkins Johnson, iv, 159, 168
Silvered Glass Reflector. J. Matthews,

M.D., in, 179
Skin, supposed human, found on a door

in Westminster Abbey. H. F. Hailes,

II, 10, 25

„ On the Histology of. Chas.
Stewart, iv, 239

„ On the Histology of the Human.
Chas. Stewart, v, 14
Slade, J. Structure of Shell of
Crustacea, i, 86, 87
,, ,, On preparing Sections of
Bone and Teeth, 1, 119, 146
„ „ Scctionsof Coal, II, 143, 150

INDEX.

19

Slide for Opaque Objects, ii, 180
Smith, Hamilton. New method of
Mounting with wax, iv, 177, 198; vi,

215

,, „ Method of mounting,

with gutta percha tissue, vi, 39
Smith, James. Lamp Chimney Shade,

J', 153

„ ,, Sub-stagefor low powers, II,

219

,. ,, On Cell cutting, 11 1, 26, ^^

,, „ Sunlight reflector, iii, 202
Society, Microscopical, Illinois State, i,

203
Soire'es, 1868, i, 52 ; 1869, i, 181 ; 1870,

I'. 57; '871, II, 185 ; 1872, in, 49;

1873, III, 171 ; 1874, III, 299; 1875,

IV, 72 ; 1877, ^^i 294 ; 1879, V, 198 ;

Special Exhibition Meeting, 188 1, vi,

312, 315, 319 ; General discussion on,

VI, 3^3, 327
Somerville, J no. R., M.D. Observations

on Filariae, vi, 58, 91
South London Microscopical, &c., Club,

Inaugural Address, 1871. R. Braith-

waite, M.D., 11, 236
Spectroscopic Examination of the

Diatomaceae, i, 254
Spectrum Analysis — On mapping with

the Micro-spectroscope. Julien Deby,

VI, 165, 184, 213
Spermatophore on marine Cyclops.

T. Charters White, iv, 293
Sphaerosira volvox in relation to Volvox

globator. W. H. Gilburt, iv, 221,

237

Sphoerularia bombi. On. W. Cole, iv,

93, 122
Spiders, Observations on. M. C. Cooke,

LL.D., II, 181
Spiders' webs, On collecting and mount.

ing. G. Hind, vi, 10, 31
Spilocgea pomi. M. C. Cooke, LL.D.,

Ill, 197
Spines, Mobility of, on Insects' Eggs.

H. Davis, II, 124, 141
Spiral Microscopic Crystals. T. Hook.

ham, I, 80, 86

» M „ W. Hislop,

I, 113

Sponge, On the boring, Cliona celata.
J. G. Waller, 11, 269, 278; vi, 251,
273, 287,291, 314
J, }> j> H. Lee,

II, 278

»> ,} „ Chas.

Stewart, 11, 279; vi, 274, 289, 314

» » „ M.Haw-

kins Johnson, vi, 289

Sponge, On the boring, Cliona celata.
E. T. Newton, vi, 290

B. W.
Priest, VI, 234, 269, 273, 287

>) » }> I •

Charters White, vi, 287
Sponges, On the Natural History and

Histology of. B. W. Priest, vi, 229,

269, 273, 287
,, On Polymastia biclavata. B.

W. Priest, vi, 302, 323

Fresh. water. J. G. Waller,

III, 42, 55; V, 53. 74
„ New British, Genus Microciona.

J. G. Waller, v, i, 23
„ On Raphiodesma minima. J.

G. Waller, vi, 97, 123
Spongilla fluviatilis. On Variations in.

J. G. Waller, v, 53, 74
Spontaneous Generation, On so-called.

B. T. Lowne, 11, 133, 147, 188
Spores, Resting, of Protococcus pluvialis.

T. Charters White, vi, 43, 87
Sporidia, Nucleated. M. C. Cooke,

LL.D., II, 249, 251
Stage, Adaptation of Nachet's revolving.

W. C. Unwin, iii, 58
Stage arrangement for oblique illumi-
nation. N. E. Green, iv, 157, 165,

168
Stage, On a swinging sub-. James

Mackenzie, vi, 170, 184
Stage and object holder, On a new

universal. R. G. West, vi, 25, 39
Staining Sections, New process. F. E.

Hoggan, M.D., iv, 180, 199
„ Vegetable Tissues. W. H.

Gilburt, IV, 241, 304,329
„ Animal Sections. J. W.

Groves, v, 231, 261
Steinheil's achromatic triplets, vi, 31
Stewart, Chas. Remarks on the

Echinoderms, iv, 168
,, ,, On the Histology of

Skin, IV, 239

„ „ On the Histology of the

Human Skin, v, 14
„ „ Black Ozokerit as a

background for dissecting, v, 147 ;

VI, 215
„ „ Observations on Lichens

and Fungi, v, 186, 206

„ ,, On the Boring Sponge,

Cliona celata, 11, 279 ; vi, 274, 289,

314
Stolterfoth, H. On a simple method of

cleaning Diatoms, vi, 95, 122
Stomata, Absence of, in certain Ferns.

W. H. Gilburt, iv, 274, 293

20

INDEX.

Stomata in the Holly, On the. A.

Martinelli, vi, 123
Strongylus filaria, On. J. Beaulah, vi,
225

„ „ On. T. Spencer

Cobbold, M.D., vi, 225
Study, On the value of comparative. D.

E. Goddard, 111, 119
Sub-stage for low powers. Jas. Smith,
II, 219

,, On a Swinging. James

Mackenzie, vi, 170, 184

,, Illumination, A new method

of. J. Matthews, M.D., 11, 80, 92
Suffolk, W. T. Microscopic Manipula-
tion Class, I, 21, 148, 211 ; 11, 24, 117
„ ,, On the Proboscis of the

Blow-fly, I, 131, 149, 193

„ „ On delineating Micro-

scopic Objects, I, 179, 183 ; ii> 286

„ „ On a method of drying

Objects, I, 205
,, „ Cyclosis or Swarming,

II, 151

„ ,, Injected Objects in Tin

Cells, II, 246
Sunlight reflector. Jas. Smith, 11 1, 202
Swarming, On. W. T. Suffolk, 11, 151
Swift, Jas. Portable Binocular Micro-
scope, IV, 161

,, „ New quadruple Nosepiece,
IV, 207

„ ,, Contrivance for centering
Object Glasses, iv, 286, 290
„ „ New Lamp Shade, v, 64
Swinging Sub-stage, On a. James
Mackenzie, VI, 170, 184

Tatem, J. G. On a new Melicertian
and varieties of Melicerta ringens, i,
124, 149

„ „ On a gigantic Flea, vi,
127, 168, 184
Teeth and Bone Sections, To prepare. J.

Slade, I, 119, 146
Testimonial to Mr. W. M. By water, 11,
27

„ ,, Dr. Braithwaite, 11, 36

„ „ Mr. T. Charters White,

III, 205

„ „ Mr. R. T. Lewis, v, 102

„ „ Mr. J. E. Ingpen, VI, 279,

319

Tests, On the best for Objectives. W.
Webb, in, 113, 147 ; v, 41, 67

„ Nobert's. W. Webb, 111, 155,
177, 198, 220, 221

„ A method of resolving fine-lined.
A. Schulze, V, 209, 257

Thin cover glass, How to make. G. J.

Burch, III, 261, 305
Thin glass covers. On cleaning. W.

W. Jones. IV, 49, 78
Thysanurae, Structure of Scales of. S. J.

Mclntire, 11, 210
Tick, The Blyborough. C. F. George,

IV, 223, 239

„ „ ,, Rev. J. Bram-

hall, IV, 292
Tilletia caries. M. C. Cooke, LL.D., i,

167
Tinted glass for illumination. W. K.

Bridgman, iv, 301, 317, 328
Tobacco, On. J. A. Archer, 1,91, 113
Tomlinson, — Movements of Camphor,

II, 26
Tooth, Structure of so-called Nerve of.

T. Charters White, 11, 282 ; in, 5
Topping, A. Proboscis of Blow-fly, iv,

132
Trombidium autumnale, On. J. J.

Wright, II, I, 24
Tubicolaria najas. On. James Fullager,

IV, 182, 202
Tubules in Shell of Crab. A. Martinelli,

I, 117
Turn-table, New form of. — Love, i,

206

„ Improved. J. Matthews,

M.D., II, 87, 92, 1 20; III, 29

„ To secure Slides on. Rev.

W. Locock, IV, 123

,, On some improvements in.

C. Spencer Rolfe, v, 248, 261

„ An improved. Chas. G.

Dunning, vi, 81, 92
Turntray, On a new Anti-vibration. W.

K. Bridgman, iv, 209, 234, 237
Turpentine, To dissolve in Alcohol, iv, 7
„ Bath for Mounting. H. G.

W. Aubrey, in, 161, 175
Type-Slides. J. D. Moller, i, 141, 204

United States, Microscopy in the. Hy.

Crouch, IV, 226, 241
Universal Microscopic Admeasurement.

M. C. Cooke, LL.D., i, i
Unwin, W. C. New form of Section

Cutter, II, 280
„ „ Adaptation of Nachet's

revolving Stage, in, 58
Urticating Threads of Actinia parasitica,

On the. F. A. Bed well, v, 159, 191

Vaginicola, A new. Col. Horsley, iv,
69

,, Species of, Note on. J. D.

Hardy, vi, 218

[NDE^:.

21

Vegetable histology. R. Braithwaite,
M.D., III, ii8, 129, 150, 163, 202,
2X1, 224, 238, 251, 278, 286, 310,

313. 327

Victoria Docks, Fauna of. i, 137, 203

Vinegar Plant, On tlie. M. C. Cooke,
LL.D., V, 134

Vitality of Ladybird's eggs. T. Charters
White, VI, 218

Vivarium, On a new. J. D. Hardy, vi,
2X2, 224

Volvox globator. On a winter gather-
ing of. J. E. Ingpen, iv, 30

„ ,, in relation to Sphaerosira

volvox. W, H. Gilburt, iv, 221, 237

Waddington, H. J. On the use of

Arabin in mounting, vi, 199, 216
Waller, J. G. On the Conjugation of

Actinophrys sol, 11, 91, 93
„ ,, On the Boring Sponge

Cliona celata, 11, 269, 278 ; vi, 251,

273, 287, 291,314
„ „ On the Fresh-water

Sponges, III, 42, 55 ; v, 53, 74
„ ,, On a new British Sponge

of the Genus Microciona, v, x, 23
,, „ On Variation in Spongilla

fluviatilis, in, 42, 55 ; v, 53, 74
„ „ On Raphiodesma minima,

VI, 97, 123
Watkins, C. A. Yeast and other

Ferments, 11, 157
Webb, Wm. On the best tests for

Objectives, in, 113, 147 ; v, 41, 67

„ „ " Nobert's Tests,'' in, 155,

177, 198, 220, 22X
Webb's Microscopic Writing, On Pho-
tographs of. J. J. Woodward, in,

228, 244
Weismann, Imaginal Discs of. B. T.

Lowne, i, 197, 210
Weissfiog, — . Microscopical Objects in

the Potash Salts of Stassfurt, i, 138
Wenham, F. H. Observations necessary

for correcting Object Glasses, n, 21
Wenham's new immersion illuminator,

On. j. E. Ingpen, vi, 86
West, R. G. On Microscopic tracings

of Lissajous' Curves, v, 38, 67

„ „ On a Universal Motion

Stage and Object Holder, vi, 25, 39
White, T. Charters. Dammar in Ben-
zole Cement, i, 147
,, „ The Crystallization

of Hippuric Acid, 11, 44, 54; ni,

182

„ „ On Papers for the

Club, II, 123, 774

White, T. Charters. Sections of Hard
Tissues, II, 172, 178

, ,, Structure of Nerve

of Tooth, so-called, n, 282; ni, 5

„ ,, New Cement, Bees-

wax and resin, in, 58

„ ,, Testimonial to, in,

205

„ ,, Observations on

Cynips, in, 222

„ ,, Improved Method

of Dry Mounting, in, 232, 248

„ „ On the Salivary

Glands of the Cockroach, iv, x,3x, 78

,, „ The Aquarium as

a Field of Microscopical Research, iv,
20, 44

„ „ On the Histology

of the Hard Dental Tissues, iv, ixx,

130

„ „ OnEmpusa muscae,

IV, 2X1, 236

,, „ Remarks on Sa-

bella, IV, 242

,, ,, A Contribution to

the life-history of Botrylloides, iv,
277,301

„ ,, Spermatophore on

marine Cyclops, iv, 293

„ „ On Insect Dissec-

tion, v, 28, S3, 64

,, ,, Remarks on Drosera

rotundifolia, v, 266

„ „ On the resting

spores of Protococcus pluvialis, vi,
43, 87

„ ,, On a Simple Grow-

ing Slide, VI, 201, 218

„ „ Vitality of Lady-

birds eggs, VI, 218

„ ,, On the Boring

Sponge, Cliona celata, vi, 287

,, ,, On the gustatory

organs of the Rabbit's Tongue, vi,
296,314

,, „ President's Address,

1881, VI, 305
White, Walter. The " Science Gossip "

Section Cutting Machine, in, 225
Whittell, H. T., M.D. On the Associa-
tion of bodies resembling Psorospermia
with the degeneration of Hydatid
Cysts, VI, 47, 87
Wight, J. F. On a method of coating
Glass Chimneys, i, 205

,, „ Reade's Prism as a

Polariscope, n, 24
Williams, Geo. Apparatus for use with
Bull's-eye Condenser, v, 75, 95

i2

INDEX.

Williams, R. P. On cutting sections of

the eyes of Insects, iv, 4, 36

„ ,, New method of cutting

fresh frozen Tissues, iv, 154, 164;

VI, 34
Williams' Microtome, Use of Ether for

freezing with. J. W. Groves, vi, 293,

Wood, Dr. H. Collecting and preserving

Fresh-water Algae, iii, 192, 218
Wood, Pyritized, On Silicified Structure

in. M. Hawkins Johnson, iv, 159,

168
Woods, W. Fell. On the relation of

Bucephalus Haimeanus to the Cockle,

IV, 58, 79
Woodward, J. J. Nobert's Tests and Mr.

Webb, III, 198, 220, 221

Woodward, J. J. On Some Photographs
of Microscopic Writing (Webb's), m,
228, 244
Wools, On. N. Burgess, i, 22, 23, 47
Wright's collecting Bottle, i, iii
Wright, J. J. On the Harvest Bug, 11,
I, 24

Yeast and other Ferments. C. A.
Watkins, 11, 157

Zoophyte trough or Growing slide,
On a. Rev. H. J. Fase, vi, 249,
279

Zoophyte, New. Victoria Docks, i, 137,
203

Zoophytes, Hincks' British Hydroid, Re-
view of, I, 198

Note. — In the Journal, Vol. 11, pp. 285 — 287 are in error printed as 215 — 217.

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