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1923

(With 13 Plates and 19 Text Figures)

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ROYAL SOCIETY OF TASMANIA

The Royal Society of Tasmania was founded on the 14th
October, 1843, by His Excellency Sir John Eardley Eardley
Wilmot, Lieutenant Governor of Van Diemen's Land, as "The
Botanical and Ilorlicultural Society of Van Diemen's Land."
The Botanical Gardens in the Queen's Domain, near Hobart, were
shortly afterwards placed under its management, and a grant
of £400 a year towards tlieir maintenance was made by the
Government. In 1844, His Excellency announced to the Society
that Her Majesty the Queen had sij^nil'ied her consent to become
its patron; and that its designation should tlienceforward be
"The Royal Society of Van Diemen's Land for Horticulture,
Botany, and the Advancement of Science."

In 1848 the Society established the Tasmanian Museum; and
in 1849 it commenced the publication of its "Papers and Pro-
ceedings."

In 1854 the Legislative Council of Tasmania by "The Royal
Society Act" made provision for vesting the property of the
Society in trustees, and for other matters connected with the
management of its affairs.

In 18."j5 the name of the Colony was changed to Tasmania,
and the Society then became "The Royal Society of Tasmania
for Horticulture, Botany, and the Advancement of Science."

In 1800 a piece of ground at the corner of Argyle and Mac-
quarie streets, Hobart, was given by the Crown to the Society
as a site for a Museum, and a grant of £3,000 was made for the
erection of a building. The Society contributed £1,800 towards
the cost, and' the new Museum was finished in 18Gl2.

In 1885 the Society gave back to the Crown the Botanical
Gardens and the Museum, which, with the collections of the
Museum, were vested in a body of trustees, of whom six arc
chosen from the Society. In consideration of the services it
had rendered in the promotion of science, and in the formation
and management of the Museum and Gardens, the right was
reserved to the Society to have exclusive possession of sufficient
and convenient rooms in the Museum, for the safe custody of its
Library, and for its meetings, and for all other purpose j connect-
ed with it.

In 1911 the Parliament of Tasmania, by "The Royal Society
Act, 1911," created the Society a body corporate by the name of
"■The Royal Society of Tasmania," with perpetual succession.

The object of the Society is declared by its Rules to b«
"the advancement of knowledge."

His Majesty the King is Patron of the Society; and His
Excellency the Governor of Tasmania is President.

ROYAL SOCIETY OF TASMANIA

PAPERS AND PROCEEDINGS, 1923

CONTENTS

Vhi'a'
Studies in Tasmanian Mammals, Living and Extinct. No. VIII.
Pleistocene Maisui)ials from Kintr Island. By H. H. Scott and
Clive Lord. K L..S 1

Studies in Tasmanian Mammals, Livinjr and K.xlinct, No. IX.
Nototht'riinii vii-loridi', Owen. Hy H. H. Scott and Clivc Lord,
F.L.S l

Studies in Tasmanian Mammals, Li\lnjr and Extinct. No. X.
Giant Wallal)y, M<irn,i,,is ,t„<ik, Owen. By H. H. Scott an.l ('live
Lord. K.L.S «

Notes on a GeoloKical Reconnaissance of Mt. Anne and the Weld
River Valley, South-Western Tasmania. Hy A. N. Lewis, M.C.,
LL.B 0

Vinculum scj-fusiiuhoii, Richardson. An addition lo the Fish Fauna

of Tasmania. Hy Clive Lord, F.L.S J'i

A Note on the Biiri'.il Customs of the Tasmanian Aboritrines. By

Clive Lord, F.L.S '15

Mollusca of Kind Island. Hy W. L. May 47

Studies in Tasmanian Mammals. Livinj; and Extinct. No. XL
Notes on a Mutilali'd I'cmur <if iXololln rlinii. By H. H. Scott and
Clive Lord, F.L.S o6

Australian Dixidar. I Dijit. | Hy .'\. L. Tonnoir 5S

Notes on Australian lUniilniUidiu', mostly from the manuscript

papers of the late Arthur NVhite. By G. H. Hardy T2

An Experimental Method of presenting the Principles determininir
the General Properties of Oi)tical Gratings. By A. L. McAulay.
B.Sc, B.A., Ph.U »'

A Note on the Kinir Island Ktnu. Hy H. H. Scott lOo

Description of Two I'liderground Fungi. By L. Rodway, C.M.G. . . lOS

R. M. Johnston Memorial Lecture. Geological Evidence of the
Anti(|uity of Man in the Commonwealth, with special reference
to the Tasmanian Ahorigines. Hy Professor Sir T. W. Edgcworth
David, K.B.E., C.M.G., F.R.S., B.A.. F.G.S 109

Ta.smanian Hymenoi/antraciat: By L. Rodway, C.M.G L'jl

Abstract of Proceedings !'■-

Annual Report —

Officers l****

List of Members 1'''*

Report 1"9

Obituary 1*^"

Branch Reports ^^^

Reports of Sections 182

Accounts 1^"*

Index 1***'

PAPERS

OF THE

ROYAL SOCIETY OF TASMANIA

1923

STUDIES IN TASMANIAN MAMMALS, LIVING AND
EXTINCT.

Number VIII.
By

H. H. Scott, Curator of the Launceston Museum,

and

Clive E. Lord, F.L.S., Director of the Tasmanian Museum.

(Read 26th February, 1923.)

PLEISTOCENE MARSUPIALS FROM KING ISLAND.

The present specimens relate to the same find as that
noted in our communication to this Society upon 13th June,
1921, when we detailed the characters relating to the humerus
of Zaglossus harrissoni.

Nototherhim mitchelli, Owen. — Female (?) animal. Our
claim (1920, p. 24 and p. 107) that the plaster cast studied
by Professor Owen, and practically elevated by him to the
status of a type, was made from the skull of a female animal,
is once more our theme, and the evidence is of some con-
siderable interest. Of the animal to be studied, we have
the nasal platform, some parts of the zygomatic arch, one
tusk, the right upper maxillary with parts of four teeth in
situ, and the fifth present, but detached. In addition to this,
the atlas, axis, and third cervical are available to us — a most
fortunate group of associated bones in view of the nature of
our inquiry. We have given (1920, p. 81) a table of the
calipered thicknesses of Nototherian nasal platforms, and
to this we now add the following data: —

N. MITCHELLI.

Female. Male.

Thickness of right nasal boss 47 mm. 60 mm.

Thickness of left nasal boss 49 mm. 59 mm.

Central thickness of nasal platform 17 mm. 25 mm.
Thickness at base of nasal cartilage

studs 18 mm. 22 mm

Thickness midway between studs and

nasal bosses 16 mm. 16 mn\

Width of nasal platform 160 mm. 175 mm.

2 STiniKS IN TASMANIAN MAMMALS. MVIM; ANI« KXTINCT.

As far as it is possible to compare actual bones with a
cast, these data agree very well with the skull case in ques-
tion. In the item of total platform width, they agree exactly,
since both give 160 mm. as a result.

Again, the general all-round reduction in size agrees
with what might be expected from a female animal's skull,
when studied in terms of a male animal of the same species.
The surface of the bone of this nasal platform is so well
preserved that it is easy to note even minute, superficial
markings, and we accordingly supplied a sketch illustrating
the contours, and grouping of vascular scars, etc., the dia-
gram, we opine, being self-explanatory. Upon the assumption
that the female animals carried a less massive nasal horn
than the males, it naturally follows that the cervical verte-
bra would share in a dimensional reduction, and this is
exactly what we find to obtain.

COMPARATIVE CERVICAL VERTEBRA.

Assumed female.

Height of atlas

Anterior height of neural canal
Anterior width of neural canal
Across atlantean cups

Diameter of anterior centrum
Anterior width of neural canal

Diameter of anterior centrum
Anterior height and width of neural
canal

Assumed

Atlas.

Male.

95 mm.

100

mm.

60 mm.

77

mm.

50 mm.

56

mm.

110 mm.

125

mm.

Axis.

mm. mm.

mm.

nun.

82 x 40

100

X 50

40

46

Cervical 3.

mm. mm.

mm.

mm.

62 X 42

75

X 47

22 X 40

31

X 47

TUSK.

The single tusk belongs to the right upper side of the
mouth, and what was said (1920, p. 107) needs little, if any,
emendation, namely, "Female tusks flatter in outline, less
"divergent, and less powerful in outline." As nothing re-
mains to us antcror of the premolar, except the said tusk,
and perhaps a mandibular tusk — to be noted later on — any
remarks supplied respecting the amount of divergence would
be largely speculative, deduced from a comparison with other
King Island and Mowbray Swamp specimens, and if this is
done the best conclusion we can arrive at is that, for the
present at any rate, the descriptive terms "less divergent"

i!V II. H. SCOTT AND CLIVIO lO. LOKI). F.I..S. 3

hold good. As to size, the specimen measures in total length,
between verticals, 134 mm., and seems to be intact. As usual-
ly obtains, the lower surface of the exposed area of the tusk
is deeply excavated by the lower tusk, a sharply drawn cross
line marking its point of contact with the second incisor
(whose whole crown is generally excavated to the outline of
the grinding surface of the mandibular tusk).

GENERAL CONCLUSIONS.

It would seem, therefore, that — as already suggested — •
the females of Nototheriuvi mitchelli wem fully armed and
carried effective nasal horns, albeit less powerful than those
of their mates. This conclusion is supported by the facts
deduced from the study of the less solidly built nasal plat-
forms, and weaker necks. That we are not here dealing
with an immature male seems fairly assured, since the bones
all suggest maturity, and the teeth have been well worn dur-
ing the life of the animal. No feasible method of osteo-
logical development seems capable of converting this, ap-
parently, matured nasal platform, of 160 mm. in width, into
one of 175 mm. or more, or of expanding the cervical verte-
brae to the size commensurate to the aggressive nature of
the male animal. As noted in our former communication
the specimens were recovered, and sent to us by Mr. K. M.
Harrisson, of Smithton, during a trip to King Island upan
survey work.

LITERATURE REFERRED TO.

1920 H. H. Scott and Clive Lord, Papers and Proceedings
of the Royal Society of Tasmania, 1920, pp. 24
SI, and 107.

NASAL PLATFORM OF N. MITCHELLI, V
Showing vascular grooves and scars relating to nourish-
ment and repair of the horn.

NOTE.— Not drawn to scale.

B — Boss. F — Foramen.

C— Groovp. P— Pit.

STUDIES IN TASMANIAN MAMMALS, LIVING AND

EXTINCT.

Number IX.

By

H. H. Scott, Curator of the Launceston Museum,

and

Clive E. Lord, F.L.S., Director of the Tasmanian Museum.

(Read 26th February, 1923.)

NOTOTHERIUM VICTORIJE, OWEN.

Among the specimens recovered by Mr. K. M. Harrisson
from the swamp lands of King Island, we have to record
specimens relating to Nototherium victorias, which include
the following items.

1. The right and left rami of the mandible of a young
animal, minus the premolars in either case, but having upon
the right side, in addition to molars 4, 3, and 2, the tusk
relating to that half of the jaw. Upon the left side, there
are present molars 4, 3, 2, 1. All the teeth manifest the
character of immaturity, incidentally demonstrated by the
small amount of wear, and the actual bone tissue is much
lighter in texture than that seen in matured specimens from
the same locality. The absence of premolar teeth is most
unfortunate, and curiously enough all the Nototherian jaws
yet received from King Island are in a similar condition
Our present note is rather to record than describe the find,
since they are chiefly valuable in a comparative connection.

2. The associated right and left upper maxillar'cs, from
a skull of an older animal than that which supplied the
mandible, the bony tissue being fully ossified and the teeth
worn down to smooth surfaces. The right moiety gives us
molars 4, 3, 2, 1, all in situ, and much in the same condition
as they were when the animal was alive. Upon the left
side molar 4 is present, but is detached, and molar 3 is
mutilated at the point of contact with molar 4. M.)lars 2
and 1 are intact and still iv situ.

NOTOTHERIAN TUSKS.

The tusk recorded above agrees exactly with sneci-
mens previously received from King Island, through the
kindness of Mr. F. H. Stephenson, and its place in the skull
can be stated with certainty since the complete set of f jur
tusks were found with the bones recovered by Mr. Stephenson.

i!V ir. II. SCOTT AND ci-ivi-: K. i.oun, r.L.s. 5

We are thus quite sure as to th<j kind of tuslc that should
be associated with skulls of Nototherium victoria;, also the
tusks of the male of Nototherium viitchelli are available for
study, and, as already stated in our note upon the supposed
female animal of that species, we have an upper tusk that
in a general way conforms to the characters of the male of
that species, but is upon the whole rather flatter. Mr. Har-
risson's material also supplies us with a tusk that might very
well represent the lower tooth of the female of N. mitchelli,
whose remains we have just passed in review, since its ground
point exactly fits the tusk relegated to that animal — also
the second worn surface agrees very closely with the kind of
wear associated with the second incisor of the upper jaw.
If this relegation is a correct one, and we provisionally so
place it, then the lower tusks of females of N. mitchelli depart
somewhat from those of the males, and hold a middle place
between the male tusks and those of Nototheriuvi victoriee.
This is not a point to be pushed to an extreme limit, but is a
side note that awaits future canfirmation or otherwise. We
have spent a lot of time over the classification of this tusk,
and have been always driven back to the conclusion named,
and therefore leave the matter at this stage with the hope
' of obtaining in the future further material for study.

STUDIES IN TASMANIAN MAMMALS, LIVING AND
EXTINCT.
Number X.

By

H. H. Scott, Curator of the Launceston ]\Iuseum,

and

Clive E. Lord, F.L.S., Director of the Tasmanian Museum.

(Read 26th February, 1923.)

GIANT WALLABY.
Macropns anak, Owen.

(Protemnodon anak.)
As is generally known, the anim.aL-; called by Owen
Protemnodon anak, Protenmodon oy, and in part also Sthcn-
nrus atlas, now figure upon the lists as Macropns anak and
Sthemiriis atlas. In the British Museum Catalogue of Fossil
Marsupials the late Richard Lydekker says at page 216: —
"The followng specimens include those referred by Owen to
"Protemnodon anak," and of the ten folios that follow, at-
tention is drawn to No. 38,753 — a left ramus from Queens-
land which Owen figured in Phil. Trans., 1874, plate 25, figs.
7 to 10. From the (recently acquired) material Mr. K. M.
Harrisson obtained at King Island, we select for description
a similar left ramus, that has no other skull associates, but
supplies us with various parts of the skeleton. The premolar
is missing, and the last molar has been badly mutilated,
but the fangs of both broken teeth supply useful data. In
total length, from the tips of the tusk to the end of the molar
series, the measurement is 127 mm. both in our specimen and
in Professor Owen's figure. The total length of the cheek
series is given by Lydekker as being 66 mm., and this appears
to agree exactly with our specmen if due allowance is made
for the missing teeth — restoration being based on the alveolar
evidence, and the comparative data supplied by Owen's
figure. If our ramus is placed over the wood cut, it covers
it, except for a slight reduction in .stoutness which is obviously
individual, and all its characters and measurements agree in
other directions. Seemingly therefore the fossil Wallaby
listed at the British Museum under No. 38,753 is here repre-
sented by a similar left ramus of the mandible, and the fol-
lowing parts of the skeleton now to be passed in review.

BY ir. ir. S("OTT AND ri.IVK E. LORD. K.L.S. 7

HUMERI.

Right Left

Humerus. Humerus.

Total length (rubbed) .. .. .. 224 mm. 228 mm.

Greatest proximal width 56 mm. 57 mm.

Least proximal width 50 mm. 51 mm.

Girth of shaft including the pec-
toral ridge 103 mm. 101 mm

Head to deltoid tubeixle 90 mm. 95 mm.

End of supinator ridge to the onte-

picondylar foramen 60 mm. 63 mm.

Articular width of distal condyles 46 mm. 46 mm.

That these two humeri are the associated arm bones of

the same skeleton as that which supplied the ramus of the

mandible, there seems to be no reasonable doubt, and the

same applies to the appended descriptive data collected from

the other bones available to us.

FEMORA.
Unfortunately, neither femur is intact, the left being only
represented by the shaft, while the right supplies a shaft,
and a complete distal end, but fails us at the floor of the
trochanterian fossa. In these circumstances we are with-
out knowledge as to the actual head, but the information
supplied by these two bones leaves us in no doubt as to the
kind of femur that obtained in this fossil skeleton. Seen
in profile, the shaft is straighter than in modern animals, and
the rotular groove does not ascend the shaft as in our living
Wallabies, but spreads itself out into a more decided rotular
fossa, the upper wall of which slowly subsides upon the sur-
face of the shaft. Muscular scars and foramina are similar,
and the condyles agree fairly well upon all their articular
faces, but the intercondylar fossa is formed at an equal cost
to either condyle, and not at a marked toll upon the internal
condyle as in the Wallaby of to-day.

TABLE OF MEASUREMENTS.

Total length of imperfect specimen 251 mm

Distal condyles to floor of trochanterian fossa . . 225 mm.

Greatest distal width 67 mm.

Least distal width 56 mm.

Girth in centre of shaft 93 mm.

Girth above condyles 139 mm.

Girth around condyles 220 mm.

Greatest proximal width in the mutilated specimen
which includes about 25 mm. of the trochanter

above the floor of the fossa 66 mm.

g STIKIKS I\ TASMANINN MAMMALS. I.IVINC AN1> KXTINCT

All the above relate to the right femur, the left being
reduced to a diaphysis of 145 mm. in length. This latter
enables us to note that the bony substance of the shaft varies
from 4 to 7 mm. according to the presence or absence of
external muscular attachment scars.

Some twenty vertebras, a calcaneum, and part of the
sternum are among the available items, also parts of both
ulnse, the head of a radius, and the glenoid end of a scapula.
The calcaneum is much stouter than that of the modern
Forester Kangaroo, although similar as to length, the facets
it presents suggest interesting points of comparison with
that of the modern wallaby, with which it of course more
closely agrees (upon the whole) than with the same bone from
the foot of the kangai'oo.

As a recent note from the pen of L. Glauert, F.G.S., of
the Perth Museum {vide Pleistocene Fossils from the Fitzroy
River, Kimberley. Western Australia, in Royal Society's
Journal, Vol. 7). records a similar find, we have detailed our
specimens for comparison.

CONCLUSION.

In reviewing Mr. K. M. Harrisson's King Island find, we
see that the material has yielded specimens of the following
animals: —

1. ZuglossHs harrissoni,

2. Nototherium mitchelli,

3. Nototherium victorix,

4. Macropus anak (Owen's "Protemnodon anak"),
5 Bones of modern wombats, wallabies, and

kangaroos,
the whole being associated in a common matrix.

The matrix in question is very like that of Smithton,
being in point of fact exactly similar drained bog land, and
the bones are in need of exactly the same form of treatment
for future preservation. We beg to record our thanks to
Mr. Harrisson for his kindness in presenting these very
interesting remains to our Tasmanian Museums, thus
enabling us to slowly build up valuable comparative collec-
tions of the extinct Pleistocene Marsupials.

NOTES ON A GEOLOGICAL RECONNAISSANCE OF

MT. ANNE AND THE WELD RIVER VALLEY,

SOUTH-WESTERN TASMANIA.

By A. N. Lewis, M.C, LL.D.

SYNOPSIS.

1. Introductory.

(a) General.

(b) Geographical position and access.

(c) Routes followed.

(d) Previous literature and acknowledgments.

2. Physiographical Geology.

(a) Present topography.

(b) Development of present topography.

3. Stratigraphical Geology.

(a) Pre-Cambrian.

(b) Early Palaeozoic.

(c) Permo-Carboniferous and Trias- Jura.

(d) Diabase intrusions.

(e) Post-diabase sediments.

4. Glacial Geology.

(a) Descriptive account of glacial action on Mt. Anne.

(b) Glacial epochs in Tasmania.

(c) Cycle of glacial erosion in Tasmania,
(a) Other signs of glaciation in the area.

5. Economic Possibilities.

(a) Mining.

(b) Agricultural.

6. Appendices.

(a) Extract from an account by H. Judd.

(b) Explanation of Plates.

(c) List of Works referred to in text.

I. INTRODUCTORY,
(a) General.

Major L. F. Giblin, D.S.O.. and Mr. A. V. Giblin during
the Christmas holidays of 1920, 1921, and 1922, organised
and led three successive trips into the little-known country
that surrounds Mt. Anne. The parties met with consider-
able difficiltios, and most of the available time was used up
in the endeavour to reach Mt. Anne, so the opportunities
B

10 -NOTES ON MT. ANNE AND THE WELD UIVER VALLEY,

for an investi,q:ation of geolojry were few, but these frag;-
mentary notes may be of assistance to future investigators.

(b) Geological Position and Access.

Mt. Anne lies about 45 miles due west from Hobart,
near the head of the Huon River. From the top of the
Tyenna Valley a line of rough hills runs westward from
Mr. Mueller through Mt. Wedge to the Valley of the Serpen-
tine. Farther west the rugged and almost unexplored Frank-
land and Arthur ranges bar the way to the West Coast and
Port Davey. South of Tyenna, running towards the Huon
Valley, is a confused mass of hills of varying height which
to the east join up with Mt. Wellington. Between these
two ranges is a large basin, twenty miles across in every
direction, in the centre of which rises Mt. Anne, the most
outstanding peak in South-West Tasmania. It is the highest
point of a short ridge which extends on every side in a
number of spurs. To the west is the broad, flat, swampy
valley of the Huon, which passes without a perceptible divide
across to the Serpentine, flowing from Lake Pedder to the
Gordon. To the east runs the River Weld in a series of
gorges and steep-sided valleys all filled with almost impene-
trable jungle.

The area reviewed in this paper extends from the
vicinity of Fitzgerald on the Russell Falls River^ on the
north, to the junction of the Huon and Weld rivers, on the
south. These points are approximately the end of cultiva-
tion in this part of Tasmania. The area is bounded on
the west by the Huon River.

Mt. Anne lies over thirty miles beyond ths point to
which roads have yet been pushed, and there is no natural
feature giving ready access. The easiest route to the
mountain is along the Tyenna-Port Davey track, which,
starting where the southern road from Fitzgerald ends at
Mayne's selection, winds round Mt. Mueller and Mt. Bowes
to the Huon Plain.s, and eventually crosses the Huon River
25 miles from the end of the road. The track is a good one
till it crosses Mt. Bowes and is at present passable for pack
horses. On the Huon Plains, however, it is in a general
state of disrepair, with bridges down and overgrown with
bauera scrub and other obstaclc«. From the point h\, which
the track crosses the Huon, Mt. Anne can be reached across
open buttongrass plains. The second of the two western
spurs presents a possible route to the summit of the Mt.
Anne plateau.

p. and P. R.S. Tas., 1923.

Plate I.

=yt,t.

\'.v\'\\->\u.i,./,ir.

^ "" -T'-'M A T I 0 N A U .t'i P A R K Cl Ti,T<~-'

«m H.^F^-"-'

cm

CCOLOCICAL
SKCTCH PLAN

ARIA DdCRlBCO

<^a<C,

KKKATA: — In I.ccend, for OrHovician Limestones road Silurian Limeslones. nnd for
C'amhrian read Cambro-Ordovician.

SKKTCM MAP OF MT. ANNE ARKA.
Approximate Srale — Kight miles to the inch. Details approximate.

BY A. N. LEWIS, M.C.. LL.B. JJ

In the south of the area a passable I'oad extends up the
north bank of the Huon as far as the divide between the
Denison and the Weld Rivers, from which point it is con-
tinued by a pack track to the Weld River at a point about
three miles above the junction of the latter with the Huon,
where a prospector named Fletcher has a lease and a hut.
About 80 years a>2:u a track was cut up the Weld Valley for
about 10 miles, but this is now obliterated by horizontal
scrub, and, although originally a well-made track, is useless
in its present state. On the Tyenna-Port Davey track just
east of the 14-mile hut is a notice "To Huonville 54M."
This is a dangerous signboard, as there is no vestige of a
track for the first ten miles, and the country is under heavy
timber and dense scrub.

The old Craycroft track, a possible means of access to
the Huon Plains, is reported to be quite obscured. The
Valley of the Huon to the vicinity of its junction with the
Anne River, and thence across the open plateau lying to the
south of Mt. Anne, is a possible line of approach, but in the
absence of any other cut tracks the route from Tyenna along
the Port Davey track at present presents the fewest diffi-
culties.

(c) Routes followed when the Investigations here recorded
were made.

In December, 1920, Major L. F. Giblin and Mr. A. V.
Giblin, with Messrs. V. C. Smith, J. Walch, and F. Steele,
proceeded along the Tyenna-Port Davey track. Pack horses
were got up to where the track debouches on the Huon Plains.
The party made their main camp at the Huon crossing, but
were here hampered by wet and misty weather. However,
they accomplished the ascent of the Mt. Anne plateau, going
by the southern of the two western spurs.

In December, 1921, the Messrs. Giblin, with a party con-
sisting of Messrs. H. Hutchison, W. F. D. Butler, V. C.
Smith, J. Walch, H. Kelly, H. Cooper, A. Hackett, V. E.
Chambers, and the writer, endeavoured to reach Mt. Anne
via the Weld Valley from the Huon. The party forced its
way up the Weld Valley through horizontal scrub for three
and a half days, reaching a point about 18 miles from its
junction with the Huon, and then for another day up a
large tributary flowing from the west, until a bare hill was
reached. It was then seen that it would still take some
days to reach the mountain, and the party was compelled to
turn back. Great difficulty was experienced throughout the

12 NOTES ON .MT. ANNE AND THE WELD KIVER VAIJ.ET.

trip in cutting through the heavy scrub, carrying heavy
loads. This route would be quite impossible in a wet
season.

In December, 1922, the same party, with the exception
of Messrs. Butler, Cooper, and Hackett, and with the addi-
tion of Dr. L. McAulay, made a further attempt, this time
by the Tyenna-Port Davey track. The weather was almost
continuously bad, and only one fine day was experienced.
The pack horses could not be taken more than a mile beyond
Mt. Bowes, and the party had the greatest difficulty in cross-
ing the many flooded feeders of the Huon. The main camp
was made under the second we.sterly spur of Mt. Anne.
Several attempts were made to get round or across the third
(south-westerly) spur in order to reach Lake Judd, but heavy
scrub intervened, and it appears that the easiest access to
the lake would be by a long circuit by Lake Edgar and the
northern end of the River Anne gorge. On the one fine
day Mt. Anne was ascended by the second westerly spur
and the plateau examined. Messrs. Hutchison and Chambers
attempted to ascend the pinnacle, but were stopped by a
virtual face about 30 feet below the summit, which had
blocked an attempt by the 1920 party.

(d) Previous Literature and Acknowledgments.

No detailed account of the district can be found. In
1874 the late Mr. R. M. Johnston, when exploring the Arthur
ranges, does not appear to have crossed to the east of the
Huon. In 1880 Mr. Henry Judd, of the Huon, after .several
attempts in earlier years, succeeded in penetrating the
scrubs of the Weld Valley and reaching the plateau of Mt.
Anne. He discovered and named Lake Judd, and has left
a brief but vivid account of the remarkable features of the
lake and the great north-eastern gorge in a little-known
pamphlet dealing for the most part with quite other matters
(Judd, 1898). In 1908 the late Mr. W. H. Twelvetrees and
the late Mr. A. S. Atkins were engaged in a geological
exploration of the country between Tyenna and the Gordon,
but their investigation only extended to the north of the area
described in these notes. Mr. Atkins ascended Mt. Anne,
and there is a brief reference to it in Mr. Twelvetrees'
report (Twelvetrees, 1908). In 1920 Mr. A. Mclnto.sh Reid
covered the area described by Mr. Twelvetrees, during the
investigations for his Bulletin "Osmiridium in Tasmania,"
anri added more information, with a very complete geological
map (Reid, 192)). Mr. Renison Bell and other prospectors

BY A. N. LEWIS. M.C.. LL.B. J3

visited the district during the 90's, but no written reports
can be found.

The present writer had the plans of Mr. Twelvetrees
and Mr. Reid with him on the 1922 trip, and made full use
of them as far as they extended.

The writer also wishes to acknowledge his indebtedness
to all the members of the parties for the assistance rendered
throughout the trips, to Sir T. W. Edgeworth David for his
kind encouragement and suggestions, and to Colonel D. A.
Lane for assistance rendered in drafting the plans accom-
panying this paper.

2. PHYSIOGRAPHICAL GEOLOGY,
(a) Present Topography of Area.

The north of the district in question is marked by the
line of elevated country extending from Mt. Mueller (about
4,000 feet) bn the east about ten miles westward to Mt.
Wedge (about 3,500 feet) and produced for three miles
southward by the bold outlier, Mt. Bowes (2.500 feet). These
hills form the watershed between tributaries of the Gordon,
Derwent, and Huon Rivers. The valley of ths Weld,
which runs through the centre of our area, the divide be-
tween the Weld and the Huon, and the north-eastern portion
of the valley of the Huon make up the area here described.

The Weld rises in many small streams in the centre of
the range above mentioned between Mt. Bowes and Mt.
Mueller. It is separated from the Styx for the first few
miles of their courses by a watershed consisting of a con-
fused series of small ridges densely covered with forest,
among whi^ch it is difficult to tell which river many of the
streams ultimately reach. The Styx, after flowing a few
miles in a south-easterly direction, bends to the east, and
passes out of the area with Marriott's Look-Out and the
hills south of Tyenna on its north bank, and the Jubilee
Range, Snowy Mountains, and Mt. Styx in succession on its
.south side. To the west the watershed of the Weld is
separated from that of the Huon first by Mt. Bowes and then
by a scarcely perceptible ridge joining that mountain to Mt.
Anne, and farther south by the Mt. Anne range.

The Weld flows in a south-easterly direction for about
twenty-five miles, the first five of which are through a broad
valley with numerous insignificant ridges. Opposite Mt.
Anne its course becomes a tremendous gorge with precipi-
tous, scrub-covered sides rising to the eastern spurs of Mt.
Anne on the west, and to the Jubilee Range on the east.

14 NOTES ON MT. ANNE AND THE WELD HIVEH VAI.LEV.

The valley opens out a little between Mt. Anne and Mt.
Weld, and then narrows as the river runs between Mt. Weld
and the Snowy Mountains in a steep-sided valley over 3,000
feet deep. For the three miles before its junction with
the Huon it runs through a bi'oad alluvial plain. The river
consists of long: deep pools separated by series of rapids.
The river is difficult to cross throughout the lower half of
its course, and appears liable to floods. It is one of the
finest rivers in Tasmania, with a very considerable flow of
water, and the scenery along the quiet reaches rivals that
on the Gordon. A fine view of the valley of the Weld,
which compares favourably with the gorges of the Forth
and Mersey in the North, may be obtained from the slopes
of Mt. Bowes.

Tf I rj rj m i/n ^..r /

The eastern side of the valley of the Weld is formed
by the Jubilee Range and the Snowy Mountains, both run-
ning roughly north and south from the Styx Valley to the
Huon, the Jubilee being about 10 miles long and lying west
of the northern and less elevated extension of the Snowy
Mountains. The Jubilee Range is a line of sharp, partly
isolated, quartzite peaks, displaying the rugged outline and
bare, precipitous flanks usual in these earlier Pala?ozoic
ranges. It averages about 3,000 feet high, and when
opened up will prove one of the most picturesque pieces of
mountain scenery near Hobart. The Snowy Moitntains are
more elevated, but round in contour, as is the case with mcst
of our diabase mountains. Their summit is roughly east
of the summit of Mt. Weld, and their western slopes are
broken hy cliffs and huge talus slopes.

The Huon rises in the forest-covered southern slopes of
Mt. Wedge and flows in a generally southerly direction to
the south in a series of considerable bends and loops through
a flat, swampy, buttongrass plain in places ten miles broad
and clearly of glacial origin. The plain is continued to the
north-west to Lake Pedder and the Serpentine Valley, and
in places the flatness of the country makes it quite impos-
sible to fix the location of the Huon-Gordon divide. The
Huon, 20 miles south of Mt. Wedge, turns sharply to the
east and ultimately joins the Weld, which thus becomes one
— and probably the most considerable — of its tributaries.

p. and P. R.S. Tas.. 1923.

Plate n.

Fie. 1.
MT. ANNE RANGE FROM THE WEST.

Fig:. 2.
THE MT. ANNE RANiJE FROM MT. WEI, I).

(A. N. Lewis, photo.)

p. and P. R.S. Tas, 1923.

Plate III.

SKKTCII IM,AN OK MT. ANNK.

ItY A. N. LKWIS. M.C.. LL.IS. 15

The country between the Huon and the Weld is rugged
in the extreme. To the north is Mt, Anne, a narrow ridge
running roughly north and south, perhaps four miles long,
with the summit at the extreme northern end standing
several hundred feet above the ridge of the mountain and
over 4,500 feet above sea level. From the summit the
mountain drops steeply to the north, north-west, and north-
east, so that viewed from Mt. Field or any mountains to the
north it appears as a fine pointed cone rising straight from
the plains and far higher than any other of the mountains
of the south-west.

Lower spurs radiate on every side. To the north, the
least significant connects the mountain with Mt. Bowes. On
the west two ridges run out to the Huon. The more north-
erly is a rugged chain of peaks, about 3,000 feet high, steep
on all sides and precipitous on the north-west. The sky-
line of this ridge is very picturesque. The second ridge
runs parallel to it about a mile and a half farther south.
The contour of this ridge is smooth and rounded, but the
sides are nevertheless steep. A couple of miles farther
south and running south-west from the corner of Mt. Anne
is a third spur, shorter than the other two, but broken into
a number of ridges covered with undergrowth, which extend
in a series of low, broken, but steep hills for some miles to-
wards Lake Edgar.

Behind this ridge lies Lake Judd, perhaps two miles in
length and half a mile wide, resting in a kidney-shaped
cirque which has been carved out of the very heart of the
mountain. East of the head of Lake Judd stands another
peak only a few hundred feet lower than the Mt. Anne
plateau, to which it is connected by a jagged comb ridge
circling round the north end of Lake Judd. From this peak
.several spurs radiate. A short one to the south-east forms
the other side of the Lake Judd cirque, and is again cut into
on the south-cast by another cirque. A second spur appears
to connect this peak with a flat-topped and isolated plateau
which forms the south-eastern butti'ess of the Mt. Anne
range, and is bounded on the south by the last mentioned
cirque and on the north-east by another cirque. Farther
north a third spur radiates to the east, stretching out several
miles to the Weld Valley. On the end of the higher portion
of this is a peculiar pillar of rock, standing several hundred
feet above the level of the top of the main ridge in a
tower only a few dozen feet in diameter, and forming the
most conspicuous landmark of the range. It is one of the

IQ NOTES ON MT. ANXK AND THE WEI.U niVEH VALLEY.

most remarkable mountain features in Tasmania, and the
Messrs. Giblin appropriately named it "Lot's Wife." To
the north of this spur is a very considerable precipitous
walled cii-que, in which lies a large bush encircled lake, not
far from the Weld River.

South of Mt. Anne runs a long, rugged, but compara-
tively low quartzite plateau deeply dissected by gorges and
occupying most of the country between Mt. Anne, Mt. Weld,
and the Huon. It is separated from Mt. Anne by a deep,
narrow, but flat-bottomed valley drained on the west by
a stream flowing into Lake Edgar in the Huon Plains, in
the centre by the Anne River, into which Lake Judd drains,
and on the east by a considerable tributary of the Weld
which has been named "Judd's Reward Claim Creek" from
an old claim situated on its bank.

On the wall-like face of this plateau opposite Mt. Anne
can be seen one large and three smaller mountain tarns,
for the largest of which the name Smith's Tarn has been
suggested, after Mr. V. C. Smith, who, of our parties, first
saw it. The Anne River cuts through the plateau in a
deep gorge. The plateau extends eastward to Mt. Weld,
which eminence rises a thousand feet or more above it and
forms its eastern buttress on the edge of the Weld Valley.
Mt. Weld is over 4,000 feet in height and stretches for about
eight miles, a narrow flat-topped ridge, ending precipitously
at its northern end, and appearing an isolated peak when
viewed from the north. It descends on the east very steeply
to the Weld and on the west also steeply for a thousand feet
or so to the level of the quartzite plateau. On the south
its ridges reach to the Huon Valley.

(b) Development of Present Topography.

The present cycle of erosion in Tasmania dates froni
the time of the diabase intrusions, and it is difficult on the
evidence at present available to be certain of conditions
during the earlier ages. There is undoubtedly evidence of
an old peneplain, lying between the Weld and Huon Rivers,
formed in the Cambro-Ordovician strata prior to the diabase
intrusions, and probably during late Devonian or early Permo-
Carboniferous times. This peneplain is now much dissected
by fluviatile and glacial action, but looking south from Mt.
Anne the remarkable flat top of the quartzite plateau between
Mt. Anne and the Huon catches the eye at once. The fact
that the top of this stands at the same general level as the
top of the quartzite under Mt. Anne, under Mt. Weld, under

BY A. N. LEWIS. M.C , LL I!. J7

Mt. Wedge, on the sides of Mt. Mueller and the exposed
summit of Mt. Bowes, indeed of all the rocks of this series
in the locality, points to the conclusion that these must all
have once formed the top of a plain. Farther south and
west the peaks of the Arthur and Frankland Ranges consist-
ing of the old Pre-Cambrian schists have a remarkable
accordance in altitude, suggestive of an ancient peneplain,
but whether of the same or an earlier cycle of erosion is a
problem for the future. There is no evidence at pi'esent
upon which to fix the date of the peneplanation of the
Cambro-Ordovician rocks of the area, but it was certainly
earlier than the Permo-Carboniferous glaciation.

The diabase intrusions raised the sediments that had
been deposited from the western lands in the coastal seas
of Jurassic times and earlier and instituted our present
cycle of erosion, but the extent to which the land to the west
was affected by these intrusions or earlier and later earth
movements and whether the older rocks of the West Coast
were ever covered by the Trias-Jura sediments is not yet
known. The diabase, however, certainly did force its way
through the older quartzites in places, as at Mt. Anne.

The direction of the present drainage was probably
determined by the landscape immediately after the diabase
intrusions, during the Upper (?) Cretaceous. The rivers
are therefore here, as throughout Tasmania, subsequent
streams. The fact that the diabase with incumbent sedi-
ments rose to a height of 4,000-6,000 feet above present sea
level, while the top of the older rock to the west now does
not exceed 3,000 feet, yet the rivers run from west to east
cutting, from the comparatively low lands of the west, in
huge, steep sided valleys and gorges through the mountain
systems that now stand highest, indicates that in Cretaceous
times the mountains to the west stood, or were covered with
other rock, since removed, which stood, twice as high as they
now are to be seen — e.g., the Huon could reach the sea from
its point of origin by several channels that do not rise over
1,000 feet, but it appears to cut through a ridge between
Mt. Weld and Mt. Picton, 3,000 feet higher. It thus provides
a good example of a subsequent stream being kept in its
course by its original channel, formed in very different
strata (in this case probably Trias-Jura sandstones) from
those lying below, which now stand out as mountains of
circumerosion.

The Huon, Weld, and Serpentine Rivers are on the
verge of maturity although their tributaries are, as usual

28 NOTKS ON MT. ANNE AM) THE WELU UIVKU VALLEY.

in Tasmania, typical of juvenile drainage. The main
streams have cut through the diabase sill and extended their
valleys considerably in the softer rocks below. They have
thus captured the drainage of very considerable areas of
country, and in widening their valleys have isolated rem-
nants of the old plateau which stand out as erosion residuals,
Mt. Anne being one of the best examples of this type of
mountain in Tasmania. [Sir Edgeworth David has asked
whether the topography has been all caused by differential
erosion and suggests faulting as responsible for the escarp-
ments east of Mt. Anne. The writer had this possibility
in view, but could find no evidence of large scale faulting.
and respectfully submits that erosion is responsible for the
present topography. But the possibility of a fault scarp
running up the west side of the Weld, past Mt. Stephen
(Tim Shea), west of the Vale of Rasselas, and even to the
west of the Cradle Plateau, should be borne in mind in
future investigations.] In eroding their valleys the rivers
have removed later sediments from and exposed the early
Palaeozoic topography, which, as Mr. Ward has remarked, is
now exerting an influence on present topography (Ward,
1909). An interesting example of this is to be seen at the
mouth of the Weld, where several miles of Cambro-Ordo-
vician quartzites with an already developed topograjjhy are
being exposed from beneath the sandstones. The topography
of the western portion of the area has been moulded by
glaciers during the Pleistocene Ice Age, the work of which
will be dealt with later. The rivers are at present engaged
in removing the morainal dams of the lakes and other re-
mains of the glaciers.

3. STRATIGRAPHICAL GEOLOGY.

(a) Pre-Cambrian.

The highly foliated quartz-mica schists, ordinarily
referred to the Proterozoic [the Algonkian of Ward and
Twelvetrees], with which the Arthur and P^rankland Ranges
are made up do not appear to cross to the east of the Huon
unless Scott's Peak [which was not examined] consists of
these rocks, but this is unlikely. Mr. R. M. Johnston in his
Geology of Tasmania placed the rocks of the western ranges
in this system, and Mr. Twelvetrees describes the junction
with the quartzites visible north of Mt. Wedge (Twelvetrees,
1908), but in the area being described the junction appears
to be obscured beneath the glacial deposits of the Huon
Valley. The Geological Map of Tasmania issued by the

BY A. X. LEWIS. M.C.. LL.I!. JO

Geological Survey in 1914 shows the eastern boundary of
the Pre-Cambrians here from 3 to 5 miles too far east.

(b) Early Palaeozoic.

Recks of this age predominate in the area. They con-
sist of massive and extremely hard quartzites with occasional
beds of slate and conglomerates. The age of these beds,
which occur considerably in south-west Tasmania, is not
definitely fixed. They are to be seen overlying the Prote-
rozoic (Twelvetrees, 1908) and at Tim Shea, the Needles,
and the Thumbs they underlie beds of West Coast Con-
glomerate, now known to be the base of the Silurian (G. A.
Waller 1904, Loftus Hills 1921) which cap these peaks.
Beds of limestone occur south-west of Mt. Mueller, and
these can be seen to be overlying the quartzites. Mr. W. S.
Dun considers these limestones (Gordon River series) from
palaeontological evidence to be undoubtedly members of the
Silurian system, and these beds of quartzite, allotted by
R. M. Johnston, Twelvetrees, Mcintosh Reid, and others, to
the Cambrian, appear certainly to be Pre-Silurian. For
the present Cambi'o-Ordovician appears the most correct
classification.

On the east side of the Huon every eminence protruding
from the glacial plain consists of quartzites of this age,
always inclined at a high angle and in massive layers
separated at intervals by thin layers of more flaky rock.
Time did not permit of the working out of the details of
the stratigraphy of these beds, but almost every outcrop
showed a different angle of dip. The colour is generally
white, but often tinged with pink. The cliffs to the north-
west of the more northerly of the two western spurs of Mt.
Anne show a beautiful salmon-tinted shade visible from
some distance. On the western side of Mt. Anne the quartzite
is dipping at an angle of about 50 degrees in a direction
about 45 degrees W. of N. The quartzite is traversed in
all directions by veins of white quartz, often over an inch
in thickness.

The quartzite extends under the diabase cap of Mt.
Anne, which is about 1,500 feet in thickness. Perched on
the top of the diabase is another small layer of quartzite.
This will be commented on later when dealing with the dia-
base. The quartzite can be seen emerging from under the
diabase on every side of the mountain, and is continued
southward at least as far as the valley of the Huon, com-
prising the plateau mentioned as lying south and south-east

20 NOTES ON MT. ANNE AND THE WELD RIVEK VALLEY.

of Mt. Anne and extending eastward until obscured by the
diabase of Mt. Weld.

South-east of the latter mountain it emerjires again in
a small outcrop round the mouth of the Weld River, where
it forms a low line of hills some three miles long en the
west side of the river, and on the east of the Weld a
number of isolated cone-shaped, buttongrass covered hills
known as "Glover's Paddocks." The quartzite is here dip-
ping at an angle and in a direction similar to the beds on
the west of Mt. Anne. Five miles up the Weld from its
junction with the Huon the older quartzites disappear under
Permo-Carbcniferous and Trias-Jura sediments, which also
cover the older recks to the east and form the divide between
the Weld and Denison Rivers. To the west it is obscured
by the diabase of Mt. Weld.

At a spot some twelve or fifteen miles up the Weld the
older rocks again appear in the bed of the valley, stretching
right across from Mt. Anne to the Jubilees and northward
to the head of the river. The Jubilee Range appears to con-
sist of the same massive white quartzites, which, however,
do not extend farther east than the foot of the Snowy
Mountains. To the north, similar beds compose Mt. Bowes
and the southern foothills of Mt. Mueller. On Mt. Bowes
the quartzite is dipping at an angle of about 60 degrees a
few degrees south of west.

On the west of Mt. Bowes are large beds of a hard
reddish slate resembling burnt fireclay, which appear to
he included in the quartzite beds. In the course of the
Weld roughly 12 miles from its mouth are considerable beds
of grey slate resembling in general appearance the Dundas
slates of the West Coast (Cambro-Ordovician), but no
indication of its exact horizon^was found. Opposite the end
of the Jubilee Range there is a small outcrop of serpentine
or serpentinised rock to be seen in the bank of the river.
It is overlying unconformably some beds of white sandstone
which show no signs of ct)ntact. On the old track just above
this outcrop is a corner peg blaze apparently of an intended
claim, but no application was ever lodged. A bed of grey
slate of small extent lies across the Port Davey track to the
north-east of Mt. Bowes near the old Junction Huts.

The older rocks extend eastward in the Russell Falls
River Valley as far as Pine Hill, three miles west of
Fitzgerald Station. (On the beforementioned Geological
Map they are shown as extending some eight miles too far
east in the Tyenna Valley). They are overlain to the north

BY A. N. LEWIS. M.C.. LL.B. 21

and east by Permo-Carboniferous mudstones, to the west by
basal conglomerates of that system, and to the south they
are separated from the similar rocks of the Jubilee Ranges
by ridges of diabase. They appear to underlie the diabase
throughout the whole area and to be exposed when the
valleys have been eroded sufficiently deeply. The writer is
inclined to think that the area shown on Mr. Reid's map as
occupied by Permo-Carboniferous sediments is too extensive,
and that most of this country, except on the south-eastern
slopes of Mt. Mueller, consists of older quartzites. The
quartzites outcropping on the road to Mayne's Farm at the
base of Pine Hill is streaked with veins of quartz containing
quantities of iron pyrites.

As indicated on Mr. Reid's map and on the sketch
accompanying this paper, two beds of limestone occur in the
valleys of the two northern branches of the Weld. This is
a hard white rock of the Gordon River Limestone series
(Twelvetrees, 1908). The writer can only confirm Mr.
Twelvetrees' remarks on the occurrence, which should be
referred to for a more detailed account of the country
traversed by the South Gordon track.

(c) Permo-Carboniferous and Trias-Jura.

Sediments of this age appear along the eastern side of
the area, the line of the valley of the Weld being approxi-
mately the present junction line between the newer and older
rocks in this part of Tasmania. The base of the Permo-
Carboniferous system consists of glacial conglomerates.
Two small but excellent examples of this formation, which
is so well developed at Wynyard, are to be seen in the area.

One of these occurrences, extends from about a mile
west of Fourteen Mile Creek on the Tyenna-Port Davey
track, to the top of the Russell Falls River-Styx divide on
the south-eastern spur of Mt. Mueller. The beds are exposed
for three miles or so along the track. They consist of the
typically grey, clayey matrix, showing little signs of strati-
fication, and only just resistant enough to require the use of
a hammer, studded with pebbles and boulders of all sizes,
but chiefly smaller than a cricket ball, consisting of grey
quartzite, quartz, slate, and mica-schist. There is a strange
absence of red granite. Mr. Twelvetrees mentioned the
existence of Pormo-Carboniferous conglomerate here, but
apparently did not recognise its glacial origin. The Pre-
Cambrian mica-schist boulders reported by him from Four-
teen Mile Creek were probably derived from this tillite. Mr.

22 NOTKS ON MT ANNE AND TllK WELD RIVEU VALLEY.

Reid states that he knew it was tillite. The present writer
found ample confirmation in the numerous ice-scratched
pebbles which were found in greater profusion than at
Wynyard, although, as at the latter place, large patches of
the tillite occur in which no scratched pebbles can be found.
The glacial beds seem to occur between the 1,400 and 1,800
foot contour lines, and appear to be overlain by beds of a
coarse sandstone at a height of 1,800 feet above sea level,
but neither its highest point nor its boundaries can be
ascertained from the track. It rests, on both sides, on
Cambrian quartzites.

The second occurrence of glacial tillite of this age was
noticed in the course of the Weld about 15 miles from its
mouth, at an altitude of about 500 feet. The river has cut
through the morainal deposit, which is exposed on its bank.
It is similar to the Wynyard formation and that just
described, on Mt. Mueller. The proportion of red granite
pebbles and boulders is high, and several erratics are of
considerable size.

It may be worth noting, in passing, the fact that four
occurrences of the rare Permo-Carboniferous glacial till,
namely those at South Cape Bay, Wynyard, and the two
described, lie in an almost straight line, which if produced
passes near Bacchus Marsh in Victoria, where similar beds
occur. This may be only a coincidence but it is a point to
be borne in mind when investigating these beds.

These beds are succeeded by 300 feet of a coarse but
regular conglomerate of Permo-Carboniferous age, resembling
in general appearance the recent river drifts of the Derwent
and elsewhere, and con.sisting of a hard yellowish matrix
cementing together quartzite pebbles about the size of a cricket
ball. Its age is definitely fixed by some strata that occur in its
upper layers on the ridge to the east of the river and which
contain fenestella. The conglomerate appears to be the river
drift or delta deposit of some ancient river which perhaps
flowed through the marked gap which now separates the
Arthur and the Frankland Ranges and is continued east in
the deep valley south of Mt. Anne and north of Mt. Weld.

Lower down the Weld, Permo-Carboniferous mudstones
flank the valley. In the bed of the river they are the lower
marine series and contain many of the typical fossils of
those rocks. They flank the southern end of the Snowy
Mountains and probably the eastern side of Mt. Weld. An
outcrop of horizontal strata under the diabase organ pipes
of the northfin rnd rif Mt. Weld could be distinguished from

BY A. N. LEWIS. M.O., LL.B. 23

Mt. Anne. This looked like rocks of this or the succeeding
system, but their actual nature could not be confirmed. Here
as elsewhere the Permo-Carboniferous mudstones are suc-
ceeded by the Knocklofty sandstones of the Trias-Jura.

The Russell Falls River is cutting through the upper
marine series of the Permo-Carboniferous, which is traversed
at intervals by bai's of diabase and overlaid at about the 800
foot contour round the valley by Trias-Jura sandstones
through which the river has cut and which are now nearly
all denuded away, leaving the diabase of the hillsides bare.
Elsewhere in the area, if the older rocks were ever covered
by these sediments erosion has "-ow removed all trace of
them.

(d) The Diabase Intrusions.

The reader is referred to Mr. P. B. Nye's remarks on
the occurrence of the Cretaceous diabase in his "Under-
ground Water Papers, Nos. 1 and 2," undoubtedly the best
account of the subject yet published. The area described in
this paper would repay detailed study on this point.

In Tasmania the diabase appears to occur either in
laccolith-like mountains of greater or less extent such as
are common in the centre, east, and south, and of which the
Central Plateau, Mt. Field East, and Mt. Wellington pro-
vide examples, and which may be distinguished by the
immense beds of Permo-Carboniferous and Trias-Jura sedi-
ments hoisted up on their flanks, or, more rarely, as moun-
tains isolated by erosion from a once extensive sill of diabase
which spread over the top of early Palaeozoic rocks, for
example. Barn Bluff', the Eldon Range, and most of the
more western diabase mountains (see The Geological Sur-
vey's publication "Ccal Resoui'ces of Tasmania," 1922).

The Snowy Mountains, Mt. Styx, Marriott's Look-Out,
and the diabase hills south of the Tyenna Valley are of the
laccolithic type and probably are connected with the Mt.
Wellington range intrusion. Probably diabase has covered
beds of the older quartzites along the edge of the known
occurrence of these, and this is undoubtedly the case on
the lower Weld and west of Tyenna, but it is difficult at
present to say where the main upthrust of the diabase
occurred and where the sills joined the laccolithic intrusions.

Mr. Twclvetrees has classed the diabase of Mts. Mueller,
Anne, and Wedge as portions of sills (Twelvetrees, 190S).
This certainly appears to be the case in regard to Mt. Anne
and Mt. Wedge, but Mt. Mueller and Mt. Weld seem rather
to belong to the laccolithic type with extensions westward in

24 NOTES ON MT. ANNE AND TUE WEI.D RIVER TALLEY,

the form of sills. On the south-eastern shoulder of Mt.
Mueller basal conglomerates of the Permo-Carboniferous
appear at a height of at least 1,800 feet, while at Fitz-
gerald, six miles away, the top of the system can be seen
at an elevation of 900 feet. This points either to a diabase
uplift on the eastern slope of Mt. Mueller of at least 2,000
feet, or to a fault with a throw of that height running along
the face of Mt. INIueller. In view of what has occurred
Throughout Tasmania it seems more probable that the
diabase of Mt. Mueller has raised the tillite, with the quai'tzite
that underlies it, to their present height. The diabase of
Mt. Mueller appears to reach a low level on the north-eastern
slope, but it does not appear to be connected with the diabase
from the Mt. Field ranges, which extends westward in a
broad sill now seen capping Field West, Tyenna Peak, the
Knobs, and Wherrett's Look-Out. To the south-east the
diabase of the hills south of Tyenna approaches, if it does
not join, that of Mt. Mueller. To the west, the Mueller
diabase appears to have extended over the quartzites in a
sill in the direction of Mt. Wedge.

Mt. Weld is certainly a diabase uplift. There are con-
siderable occurrences of diabase in the valley of the Weld
between 5 and 10 miles trom its mouth at a height under
300 feet above sea level, whence it appears to lead right to
the summit over 4,000 feet above. Alongside Fletcher's
Hut on the banks of the Weld the diabase can be seen
penetrating the quartzites in a large dyke of very close-
grained rock. To the west the diabase appears to extend
for some distance in a sill over the top of ths quartzites.

Mt. Wedge is crowned with a cone of diabase, appar-
ently a portion of an old sill resting on the older quartzites.
but the writer has no data at present on which to determine
from which direction the sill originaMy came.

Mt. Anne is also capped with diabase, probably por-
tion of ah old sill. It lies on top of the highly inclined
quartzites, and appears now to be 1,200-1,500 feet in thick-
ness. The most interesting feature of its occurrence here is
the existence on the top of the Mt. Anne plateau of a small
area of quartzite, perhaps a square mile in extent and 100
feet thick. This is an almost unique feature in the Tas-
manian occurrence of diabase. This mass of quartzite,
which appears to be a remnant of the rocks through which
the sill penetrated and which prabably originally overlaid
it, has either been lifted 1,500 feet from its bed by the intrud-
ing sill or has been sheared from the top of some mass of
quartzite and been carried along by the diabase. As the

BY A. N. LEWIS, M.C.. LL.B. 25

quartzite varies considerably from one locality to another
it should be possible to discover whence this mass came, and
the light such an investigation would throw on the mechanics
of the diabase intrusions would well repay the trouble.

The diabase adjacent to the quartzite is of a glassy,
homogeneous texiure for about 100 feet, in which space it
changes to the ordinary coarse-grained crystalline rock
common on the mountain tops. This is interesting as show-
ing conclusively that coarse crystals in the diabase are not
an indication that the rock in question cooled at a great
distance below the then surface. This close-grained diabase
is sufficiently different in nature to be clearly distinguish-
able from the ordinary diabase at a distance of several
hundred yards.

In the centre of the quartzite patch a small cirque has
cut into it to a depth of about 75 feet, and in the centre of
this depression can be seen a dyke of glassy diabase about 12
feet wide penetrating the quartzite. The junction line be-
tween the quartzite and the diabase is finely marked, but the
former rock show.s no signs of having been affected by the
diabase.

The diabase cap of Mt. Anne has been greatly denuded
by glacial action and has nearly disappeared. On the sides
of the cirques thot eat right into the heart of the mountain
the junction between the diabase and the country rock it
overlies can be clearly distinguished. There is probably
no place in Tasmania in which the diabase intrusions can
be studied with greater prospects of good results.

(e) Post-Diabase Sediments.

Since Cretaceous times this portion of Tasmania appears
to have been enjoying sub-aerial conditions, and no signs
of Tertiary sedimentary rocks wei-e seen. A little Pliocene
(?) basalt occurs at Mayne's selection, six miles west of Fitz-
gerald, as shown on Mr. Twelvetrees' and Mr. Reid's maps.
Pleistocene glacial deposits litter a great part of the country-
side. These will be described in the next section. Post-
Tertiary alluvial deposits exist in the Russell Falls River
Valley (Twelvetrees, 1908) and on the lower Weld, at the
mouth of which there is a curious delta of alluvial material
stretching some three miles up the river and three miles
along the bank of the Huon, consisting of small, round,
water-worn pebbles, chiefly of quartzite, and is more or less
swampy ground. This appears to be a flood plain of the
Weld, deposited as the swift current was slackened as it
C

26 NOTKS ON MT. ANN'E AND THE WELD RIVER VALLEY.

debouched into the Huon Valley. As the Huon deepened
its bed or the sea level altered, the Weld has cut through
and partially drained this plain. An apparently similar,
thouprh more extensive feature occurs on the other side of
the Huon, and is known as the Arve Plains.

4. GLACIAL GEOLOGY,
(a) Descriptive Account.

The vi'estern half of the area dealt with in this paper
and all the mountain tops in it show evidence of intense
placiation during the Pleistocene. In the Upper Huon
Valley between Mt. Wedge, Lake Pedder, Mt. Anne, and the
Arthur Range, the whole topography has been moulded by
ice action. The flatness of the plains, stretching, as they
do, for ten miles and more in an almost level swamp, and
the sinuous courses and sluggish curi-ents of the streams
indicate that these plains are not due to the erosion of the
streams that now occupy them. A recent elevation above the
sea could have produced such a landscape, but there is no
evidence of any sufficient uplift or of marine deposits here,
and it is not the still undrained top of a plateau, as it is
surrounded by lofty peaks. The rivers starting their course
as mountain torrents flow for several dozens of miles through
plains in a very mature stage of erosion and then finish
their course in a more or less juvenile stage. Clearly an
"accident" has occurred to the drainage of the Huon and
Serpentine Plains, which do not present the characteristic
features of river erosion, and the cause of that accident has
been the intervention of the ice sheets and glaciers of the
Pleistocene glacial epoch.

The general aspect of the whole region, the sides of the
hills rising in a clean curve nearly vertically out of the
plain, the U-shaped gaps between adjacent hills when they
occur close together, the absence of water-worn valleys in
the extraordinary level plain, all support this view. Some
low hills break the surface of the plain at considerable inter-
vals. These are almost always narrow, steep-sided ridges,
apparently scraped bare by ice. The lower slopes of the
main mountains and spurs are in general smooth and
decidedly concave in section — ordinary water-worn hills being
convex, streams gathering strength to erode as they descend
— while the more elevated crests are extremely rugged
above the 3,000-foot contour with picturesque pinnacles and
crags. The outstanding spur of the Frankland Range
that rises to the south-east of Lake Pedder is decidedly Tind-
like when viewed from Mt. Anne.

p. and P. R.S. Tas.. 1923.

Plate I^

Fig. 3.
LOOKING SOUTH FROM THE SOUTH END OF MT. ANNE PLATEAU.

^^-iSi

; .'V£l'*>

VitC. i.
THE IIION PLAINS LO<)KI\(; WEST FROM THE S.W. OF MT. ANNE.

(A. N. LewU, photo.)

BY A. N. LEWIS, M.C., LL.15. 27

All this can be seen at a glance when the landscape is
viewed in panorama from an elevation and points to an
invasion of the whole district as indicated, by a great ice
sheet, probably 1,500-2,000 feet in thickness [the elevation
of the rugged and apparently unglaciated crags above the
floor of the glacial valleys], gi'owing from the tremendous
snow precipitation of the West Coast and moving down the
Huon, Serpentine, and Anne River Valleys, and perhaps
reaching the sea at Port Davey. An ice cap must cover
the whole of the land surface of the area (Hobbs, 1910).
It is doubtful at present whether the ice that filled the
Upper Huon at this stage covered the top of the surrounding
mountains with a continuous white sheet. The rarity of
moraines definitely attributable to this epoch of glaciation
is an indication that here at any rate very little rock surface
was showing above the ice. But even if the more prominent
ranges protruded it was a very considerable glacier bearing
close resemblance to an ice cap, and the ice moved radially
over the flat country between the ranges impelled rather by
weight of successive accumulations of snow than by the
slope of the ground. This ice cap carved the main features
of the topography of these western plains before the advent
of the glaciers, which have left us the more obvious traces,
and which by the action of their cirques eating into the
sides of the mountains have carved the present topography
of tlie elevated mountain ranges.

These later glaciers have left remains that are easily
recognisable all round Mt. Anne, which has been subjected
to the biscuit-cutting process described by W. D. Johnson
(Hobbs, 1910), and approximates to the topography he calls
a "karling" (using Nussbaum's term) illustrated on Plate 8
of Hobbs' 1922 edition. The mountain has been cut to the
heart by three tremendous cirques, in two of which lie con-
siderable lakes dammed back behind walls of morainal
material which covers the plain at the entrance to the cirques
Other cirques have cut into the outliers on the south-east and
west.

Between the two western quartzite outliers is a tremen-
dous cirque, cutting into the mountain to the diabase cap
and standing at the head of a decidedly U-shaped valley
some three miles long. The cirque that terminates the
valley had not started to enlarge at its head before the con-
clusion of the glacial period and the walls do not present as
fine a circle of cliff as is common in Tasmania. The glacier
that flowed from here has strewn the floor of the valley with

2g NOTES OX MT. ANNE AND THE WELD RIVEU VAIJ.ET,

moraine in which diabase boulders alternate with quartzite
ones. The moraine has not at any place complstely dammed
the valley, and there is no lake here. At the time this
glacier was in the field several other ict? flows mu^t have
moved a few miles out on to the plain from the numenms
small recesses along the south-western face of the mountain.
These have not left, any well-defined cirques and could never
have been extensive, but the plain near the foot of the
mountain is littered with morainal material, amongst which
diabase boulders are common, and these must have been
carried some miles.

Apparently the crest of the more northern of the two
western spurs stood out from the ice at this period, and
the glaciers that flowed along each side have sapped back
into the quartzite and produced a fine comb ridge. For the
whole length of this spur its top culminates in a kni^e-like
edge which the sapping efi'cct of the ice has cut through at
regular intervals, with the result that the top is crowned
with a series of pinnacles rising precipitously 100 feet or
more from the general line of the summit of the ridge. Its
northern face shows some fine ice sculpturing, and is cut
by several cirques. The Port Davey track skirts the foot
of an escarpment 1,000 feet in height that appears to be a
cirque wall. The end of the spur is divided into several
minor features by cirques that have cut deeply into it and
have, by enlarging their heads, thrown into relief the rock
sentinels at the entrance to the cirques described by Pro-
fessor Hobbs (Hobbs, 1921) which now stand out as quite
prominent peaks. The second spur appears to have been
under the ice for a long period and possesses a round con-
tour without cliff's or irregularities, which anyone ascending
the mountain finds to be a great advantage.

Farther to the south lies the Lake Judd Cirque, which,
commencing at the south-west corner of the mountain, has
eaten right into the centre of the pre-glacial plateau and
nearly meets the western cirque just described. It is a
fine example of this glacial feature, that to such an extent
makes our mountain scenery. The floor of the cirque is
almost entirely occupied by Lake Judd, a handsome sheet
of water, perhaps two miles in length and a half a mile wide,
crescentic in shape and set in the very heart of the mountain,
with cliff's probably 2,000 feet high rising on three sides
almost vertically from its waters. To the north-east and
the south-east the cirque has enlarged its basin until it has
met other cirques and eroded the entire pre-glacial surface

p. and P. R.S. Tas.. 1923.

Figr. 5.
LOOKING EAST FROM NEAR THE SUMMIT OF MT. ANNE.

I IK. fi.

THE WESTERN END OF LAKE JIDI) i ROM Till; MT. ANNE IM-ATEAl.

(A. N. I.i'wis. photo.

I5Y A. X. LEWIS. M.C., LL.B. £9

of the plateau. The cirque wall now terminates in a
unique example of a comb ridge, so precipitous and jagged
that it would defy experienced climbers to traverse it.
Impounding the lake is the most pronounced moraine in the
locality. For a mile or more the country between the shore
of the lake and Lake Edgar in the Huon Valley to the south-
west and the Anne River to the south-east is covered with
the confused succession of ridges and hollows typical of
terminal morainal country so admirably described by Mr.
A. McI. Reid (Reid, 1919). Lake Judd closely resembles
Lake Seal in the National Park and Lake Dove on Cradle
Mountain, but is a grander piece of scenery than either of
these.

To the east of Mt. Anne is the most extensive cirque in
the district. It appears to be deeper and is certainly
broader than the other two mentioned. Its western wall
must descend in a series of sheer precipices for 3,000 feet to
the level of the Weld Valley, wh^re lies a forest-encircled
lake perhaps half a mile long, presumably of glacial origin.
This cirque has eaten through the plateau until it has just
met the western cirque and has carved out the other side of
the comb ridge at the head of the Lake Judd Cirque. The
size of this cirque gives another example of the general rule
that the maximum snow action occurs on the lee of the
ridge — in Tasmania, the eastern side. This cirque is a
composite one with two main lobes and many smaller sub-
divisions. In its south-west corner it meets another
cirque that has grown from the south-east of the mountain.
Between these two cirques is a second comb ridge, somewhat
shorter but as rugged as the one before described. This
forms the summit of a long diabase spur at the end of
which stands the peculiar feature that has been named
"Lot's Wife," mentioned earlier. This pinnacle, standing
many hundred feet as perpendicularly and straight-sided as
a tower, is a striking example of a glacial horn. It has
grown at the entrance to two cirques, which, enlarging their
heads behind it. have removed the entire top of the pre-
glacial spur to a depth of some 500 feet and left this pillar
of rock standing at the end of the dividing ridge, the
uneroded remnant of the pre-glacial spur with its summit
representing all that is left of the original surface.

On the south-east side of the mountain there arc two
(considerable cirques, the one mentioned above which has
met the eastern cirque, and the other a mile farther west
which has left a narrow ridge separating it from the Lake

;?0 NOTES ox MT. ANNE ANT) THE WKM1 KIYER VALIJJY.

Judd Cirque and a plateau of quartzite between it and the
former of this pair. Between these two cirques, the Lake
Judd Cirque and the one on the eastern side of the moun-
tain, is a peak which provides a good example of a young
glacial horn. The cirques have met or all but met all round
it and have started to cut down the comb ridges, leaving
this mass of mountain standing well above the surrounding
cols, which are in process of being lowered, although the pro-
cess was not a quarter of the way towards completion when
the glaciers vanished.

These glaciers ended where we now see their terminal
moraines, but the water flowing from them carried much
material with it. To the east this was washed down the
comparatively rapid Weld to the sea, but to the west the
many streams emerging from the glaciers' ends spread their
deposit over the flat plain already in existence, caused by
the previous ice invasion. They thus formed large areas of
glacial outwash aprons. Ix, is these masses of rock and
gravel strewn by numerous glacial streams over the older
glacial valleys that form the great buttongra^s plains of
Western and South-Western Tasmania.

High up in various parts of the plateaux at about the
4,000 feet level and a little higher are several small cirques,
some containing mountain tarns. These are evidently due
to glacial action as described in the Field Ranges by Pro-
fessor Griffith Taylor (Taylor, 1921). On the top of the
main plateau there is a very perfectly formed and easily
recognisable pair of cirques eating into each side of the
quartzite patch before described and nearly cutting it in
two, and several lakelets are to be seen to the south-east of
the head of the Lake Judd Cirque.

A few other evidences of past glacial action were
observed. To the south of Mt. Anne on the face of th«
quartzite plateau opposite the mountain could be seen four
small tarns, the largest of which, a.s has been mentioned,
has been called Smith's Tarn. These are all of glacial
origin and are splendid examples of small cirques. Smith's
Tarn rivalling the (so-called) Crater Lake on Cradle Moun-
tain. The ice descended by a rock stairway to the basin
of the tarn a few hundred feet below it, and thence probably
to the valley of the Anne River.

The old moraine from Mt. Mueller noticeable from the
Port Davey track is described by Mr. Twelvetrees (Twelve-
trees, 1908), and although evidence of glacial action is not
otherwise obvious, the glacial theory of the origin of this

BY A. N. LEWIS, M.C., LL.B. 3^

deposit seems reasonable. There are indications of a young
cirque on the south-western corner of the summit of Mt.
Mueller, and glacial action would be expected here at an
elevation of 3,000 feet at least. Probably ice more resem-
bling an ice cap than a glacier radiated across the spurs and
adjacent plains of Mt. Mueller. Mt. Weld and the Snowy
Mountains have the altitude and the area to provide neves
for glaciers. From information given by some prospectors
there is a markod glacial shelf on the eastern side of Mt.
Weld on which repose some mountain tarns, and on the
Snowy Mountains there are several lakes, one at least of
considerable size.

(b) Glacial Epochs in Tasmania.

In the Northern hemisphere it is definitely established
that, during Pleistocene times, the ice sheets descended four
times over considerable portions of the continents of Europe,
Asia, and .America. These glacial invasions are known in
Switzerland respectively as the Gunz, Mindel, Riss, and
Wiirm ice ages, and are separated by inter-glacial periods
of temperate climate. If conditions were similar for both
hemispheres — as is the present theory — and if the tempera-
ture was sufficiently cold during each of these periods to
cause glacial conditions as far north as Tasmania we should
find signs of four corresponding invasions amongst our
glacial remains.

Recently the Director of the Geological Survey, Mr.
Loftus Hills, made the important discovery of the track of
a very old glacier in the Pieman Valley. He has told the
writer that glacial pavements formerly considered to belong
to the Permo-Carboniferous glaciation were really caused by
ice during the Pleistocene, but at a date far anterior to the
more obvious signs of glaciation on the West Coast range.
His opinion was confirmed by Sir T. W. Edgeworth David
after a visit in March last year. Later, Mr. Hills has
informed the writer that he found signs of two distinct
glaciations in the vicinity of Lake Augusta at the head of
the Ouse, where one moraine appears superimposed on
another, with a peaty deposit from an intervening inter-
glacial period between the two glacial deposits. Observa-
tions collected in the National Park indicate the existence
of three ice invasions (Lewis, 1921). This idea has now
been strengthened by additional data collected around Mt.
Anne and the kindly confirmation given by Professor Sir T.
W, Edgeworth David, our universal friend and helper.

32 NOTES ON MT. ANNE AND THE \\T:LD RIVEK V.VLLEY.

It now appears that during the Pleistocene times wo
have traces of three ice invasions. The earliest apparent
one was by far the most considerable, and was followed by
two later phases. The writer suggests that this would
correspond with the Mindel ice sheet of the Northern
hemisphere. The size and intensity of this have obscured,
if not obliterated, the traces of the Gunz in Tasmania, if
any ever existed. The succeeding ice invasions may corre-
spond with the Riss and Wiirm respectively. This theory is
not yet proved, but may be useful as a working hypothesis.
The finding of definite traces of interglacial periods between
the various morainal deposits is necessary for the proof of
the theory.

In the Mt. Anne region, in the National Park, and in
Cradle Valley and elsewhere in Western Tasmania, there is
every reason to believe that the obvious moraines arc de-
posited en the top of a previously formed glacial topography.
The regularity with which lakes appear in pairs, one
superimposed on the othei with, occasionally, mountain tarns
at a greater altitude, the fact that this arrangement is never
exceeded, and the definite signs of an older and a newer
glaciation mentioned befoi-e, ai-e indications that the appar-
ently superimposed deposits are not merely a later phase in
a receding cycle of glaciation, but are due to separate
invasions. This contention, however, still remains to be
proved.

If it will be borne out by future investigations the
history of the Pleistocene glaciation in Tasmania will be in
general this: The traces of the Gunz glaciation have been
obliterated. During perhaps Mindel times a tremendous
ice cap covered the western and south-western highlands and
the more elevated portion of the central plateau. In the
west the ice descended nearly to the sea. It covered, and so
protected, the higher mountains, but moved down the valleys
and out from the edges of the cap in great glaciers which, as
Sir Edgeworth David has informed the writer, have left
great outwash deposits in the vicinity of Strahan, and wei'e
responsible for the old glacial pavements of the Pieman,
and the big terminal moraine seen at llii miles from
Strahan on the railway track to Zeehan. Lake St.
Clair was possibly a cirque formed at the head
of a glacier growing from this ice sheet, which
then filled the Cuvier Valley and covered the surroundin«
hills. Farther east, as at Cradle Mt. and Mt. Field, the
ice cap covered the summits of the higher ranges but did not

HY A. N. LKWIK. M.C.. LL.B. 33

reach the bottom to coalesce with ice from neighbouring hills;
for example, the Florentine Valley formed a gap of several
miles between the ice cap of Mt. Field and the ice in the
Vale of Rasselas. On these mountains the ice moved for
some distance down the pre-glacial valleys, leaving its im-
print on the topography. During this invasion the ice cap
spread far out over the central plateau, being responsible for
the many lakes and tarns between Cradle Mountain and the
Ouse, and most probably responsible directly, or indirectly
through the action of the intense cold on the rocks of the
plateau, for the origin of the basins in which the Great
Lake, Lake Echo, and Lake Sorell lie. It is possible that
these are rock basins scooped by the ice sheet, but there is at
present no direct evidence to couple their origin with ice
action. The small glaciated areas on Mt. Wellington and
Ben Lomond possibly belong to this period, and there are
indications that many of the mineral-bearing drifts of the
north-eastern highlands are glacial outwash fans. The
characteristic remains of the possible Mindel glaciation in
Tasmania are the broad flat plains throughout the western
parts that are generally known as buttongrass plains.

At present we do not know anything about interglacial
epochs, but following this period came the invasion by the
Riss glacial epoch. Conditions were far less severe than
during the Mindel times. The more elevated regions only
were affected. Valley glaciers of the Dendritic type (Hobbs,
1910) grew from neves on the ranges and crept a short
distance down the mountain valleys. These glaciers are
responsible for the great cirques that contribute so much to
our finest mountain scenery. As a rule the glaciers did
not debouch far from their mountain valleys. They spread
great deposits of moraines over the plains surrounding the
valley mouths and for some distance up the valleys them-
selves, where morainal banks frequently dam back fine shec'ts
of water. Between the cirques and U-shaped glacial valley.s
there still remains much of the older surface showing the
rounding effects of the older Mindel ice cap. The glaciers
occurred during this period on all mountain ranges in the
western half <;f Tasmania over an elevation of 3,000 feet, and
near the coast evidently reached much closer to sea level.
The cirques and moraines of Lake Judd, Lake Seal in the
National Park, Lake Dove in Cradle Mountain, and all the
more striking signs of glacial action belong to this Risa
period, which may bo termed the cirque-forming period. The
rounding effect of the Mindel ice sheet and the cirque-form

34 NOTES ON MT. ANNE AND THE WELD KIVKU VALLEY.

ing effect of the Riss glaciers have left almost contrary
results on our glacial topography.

Following this and clearly superimposed on it come the
relics from the Wiirm glaciation, typified by the mountain
tarn. The period of glaciation was this time far less intense
than during the Riss period. Only the tops of the more
elevated mountains were affected, and the nivation line
appears to have rested at an elevation of about 4,000 feet at
Cradle Mountain, as evidenced by Lake Wilks, and similarly
in the National Park and Mt. Anne, as shown by the
elevated tarns at about that height. The duration was only
sufficient for very small cirques and rock-scooped basins to
l)e formed. Small hanging or cliff glacierets and horseshoe
glaciers grew, but did not travel far or obscure the evidence
i)f the Riss glaciation. One of the best specimens of a
moraine the writer has seen, however, lies to the east of
Lake Newdigate in the National Park, and is attributable
to this period. The distinguishing feature of the Wiirm
glaciation may be said to be the mountain tarn.

A point that warrants passing note here and needs
further investigation is the effect of one of these periods of
glaciation on the edge of our higher mountains. At about
.'^,500 feet round the mountains of the centre, south, and
north-east of Tasmania run lines of cliffs. The regularity
with which these occur suggests that during one of these ice
periods, probably the Wiirm, the nivation layer in the atmo-
sphere rested at this height round the contour of the moun-
tains, and here the intense frost action carved out the lines
of cliffs so common near the tops of our mountains, such as
the "Organ Pipes" on Mt. Wellington, the Bluffs of Ben
Lomond, and the cliffs in which the northern face of the
Western Tiers culminates. The concave shape of many high
nwuntain peaks, Mt. Ida and Wyld's Crag for example, may
be due to the fact that they protruded their summits into
this nivation layer, which has worn a circlet of cliffs round
the peak. These cliffs formed the starting point of an
ice flow, resi'mbling a ollar round the mountain, which
descended the slope for some distance before melting. There
is ample evidence on Mt. Wellington and on the track to
Lake F^enton under Mt. Field East of accumulations of rocks
resembling moraines and almost certainly ice borne. At
least many of them could not have rolled into their present
position, and it is clear that they reached their present
pssition before the present vegetation grew up.

p. and P. R.S. Tas., 1923.

Plate VI.

Fig. 7.
THE SUMMIT OF MT. ANNE.

Fin. S.

THE TERMINAL PEAKS OF THE NORTHERN OF THE TWO WESTERN SPl RS OF

MT. ANNE. (A. N. 'Lewis, photo.)

HY A. X. LEWIS, M.C., LL.B. 35

(c) Cycle of Glacial Erosion in Tasmania.

There is one further phase of the study of the Pleisto-
cene glaciation in Tasmania that deserves passing mention.
As in the case of water-eroded topography, we have in glacial
topography a cycle of erosion corresponding to the length
of time during which a locality has been subjected to the
effects of ice. Professor Hobbs defines the possible classes
as follows: —

(1) The youthful channelled or grooved upland.

(2) The adolescent early fretted upland.

(3) The fretted upland of full maturity.

(4) The monumented upland of old age.

In the case of (1), cirques and glacial valleys merely groove
the upland, leaving much of the pre-glacial surface still exist-
ing and clearly recognisable. In (2) the cirques have
extended until they have met, and are separated by a ser-
rated "Comb" ridge representing all that is left of the
original surface. In (3) these lateral combs have disap-
peared leaving glacial horns (e.g., the Matterhorn) standing
at the place where the heads of the cirques of the district
junction. In (4) even this has disappeared, and all that is
left are pairs of twin peaks, or "monuments," which formed
that part of the upland which stood at the entrance to the U
valleys, these be-ng the last to be affected by the cirque
enlargement, which takes place from the head outwards
(Hobbs, 1910, 1921).

In Tasmania most of our glaciated areas have reached
H stage bordering on the adolescent, early fretted upland.
In most areas there is very little pre-glRcial_ upland left. In
the case of the National Park there are stretches of pre-
glacial surface a few hundreds of yards across on the Field
West and Mt. Mawson ridges and a mile or so on the Field East
ridge, where the glaciation has not been so severe, while the
Hayes and Newdigate Cirques have eaten into the Rodway
ridge until the pre-glacial surface has disappeared, and we
see the beginning of the formation of a comb ridge.

On La Perouse there is a very fine example of a comb
ridge. On the Mt. Anne range the process has extended a
little farther. The cirques have commenced to cut down the
comb ridges between them, and we see rudimentary glacial
horns appearing in "Lot's Wife," the cone-shaped pinnacle
to the east of Lake Judd, and the summit of Mt. Anne itself.
On Cradle Mountain the process has gone .still farther until
the separating ridges have been quite smoothed out and the

36 NOTES ON >IT. ANNK AND THE WELD lllVEIl VALLEY,

main pinnacles of Cradle Mountain and Barn BluflF stand-
out 1,000 feet above the surrounding cols. These are glacial
horns in the making, but the process is far from complete,
and it can hardly be called a type of fully mature glacial
topography. Doubtless the extremely hard diabase cap of
most of our mountains has hindered the development of the^'
glacial cycle as it is hindering the development of the river
cycle, and if we had had mountains of soft sedimentary
rocks we would probably have had peaks to rival the Matter-
horn, in outline if not in altitude. It is the Riss glaciation
that has been responsible for the development of this topo-
graphy. The Mindel ice sheet had more of a rounding
effect and the Warm was of too short a duration to have a
great effect, although it has accentuated the degree of
erosion at the top of the Riss cirques and in many places
has completed the formation of the comb ridge.

5. ECONOMIC POSSIBILITIES OF THE AREA.
(a) Mining.

It is difficult at present to see a great future before the
district. As settlement extends the eastern part will be
absorbed into the cultivated portion of Tasmania, but, short
of the discovery cf mineral wealth, it is hard to see what usi-
can be made of the bulk of the area. For many years there
have been rumours of the existence of gold under Mt. Anne,
and the area has been constantly prospected, chiefly by
parties from the Hucn, but without appreciable results. The
ciuartzitcs of the area are potential mineral-bearing rocks,
but beyond this there appears little justification for hopes of
discovery of a great mineral field here. The tiny patch of
serpentine on the* Weld is the only trace of an occurrence in
the district of an igneo as rock with which minerals are
usually associated. The veins of quartz that traverse this
bed of quartzite of Cambro-Ordovician age lying between Mt
King William and La Percuse do net appear to be an indi-
cation of the presence of minerals.

The locality has been well prospected. The western
slopes of Mt. Anne would be easy to examine, and it is
reasonable to suppose that they have been well searched. A
lode there would be difficult to miss if a prospector investi-
gated the faces of the main spurs. In the W( Id Valley, on
the other hand, the country is most densely covered with
jungle and cannot have been at all thoroughly investigated,
while the presence of a little .serpentine is a hopeful sign.
If mineral wealth exists here the eastern slopes of Mt. Anne.

BY A. N. LEWIS, M.C., LL.H. 37

the western slopes of the Jubilee, and the gorge of the
Weld between seems to be the most likely location. Although
little hope in this respect can ba held out the area warrants,
and would possibly repay, a detailed investigation by the
Geological Survey.

Mr. Renison Bell reported the existence of gold some-
where in the area, but exactly where he located it cannot be
ascertained. He evidently did not consider the find of much
value. On 2nd February, 1897, Henry Judd and Michael
Gallagher lodged an application for a reward claim for
gold reported to have been found on the north bank of the
large western branch of the Weld. Their corner peg blaze
is still distinguishable at the end of the old track up the
creek, as indicated on the sketch plan attached to this paper.
However, the applicants did not pay the fees and the block
was never surveyed. The application lapsed, and apparently
was not considered of value by the applicants. There is also
a corner peg blaze on the old Weld track just above the
patch of serpentine, but no application for a lease of this or
any other spot in the area has been lodged with the Mines
Department.

At the mouth of the Weld a reward claim for nickel
and cobalt was awarded to H. E. Evenden in 1920. A little
work has been done here and the lease is still effective, but
apparently nothing is being done towards extended opera-
tions. The minerals here were obtained from the alluvial
flat described above, just at its upper border. If the river
has cut through any old lodes, minerals ma^ exist in this
flat. Some of the small boulders removed from a small
shaft on this claim bore close resemblance to flint, and Mr.
Gilbert Rigg, of the Electrolytic Zinc Ltd., who was good
enough to have some pieces analysed, considered the speci-
mens were true flint. Some specimens were then submitted
to the Geological Survey, but the Dii-ector repoi-ts that
although they bear a close resemblance to flint they are
only a form of chalcedony. Some deposits of a very pure
clay also occur near the mouth of the Weld. On the Styx
a claim has been taken up for lithographic stone.

(b) Agricultural.

Agriculturally the area does not appear to have great
possibilities. The lower third of the Weld Valley possesses
fair soil of a nature and depth common in diabase and mud-
stone country in Southern Tasmania, and the sandstone
higher on the hills indicates that somewhat better soil exists

38 NOTES ON MT. ANNE AND THE WELD BIVEU VALLEY.

there. The entrance to the Weld Valley over the river flats
and quartzites is unpromising, but there appears to be some
ten miles or so of country which is at least no worse than
the majority of the Huon district. There is some similar
country around Mt. Mueller and doubtless on the flanks of
the Snowy Mountains, all of which will warrant opening up
as facilities are pushed farther out.

But the quartzite country that composes most of the
area is very poor. The hard siliceous rock weathers very
slowly, and with the heavy rainfall that exists there steep
hillsides are Avashed bare before soil can accumulate to any
depth, and will only support buttongrass and small flowers.
Around the head waters of the Styx and Weld soil from
this quartzite and the limestone deposits there has accumu-
lated to a considerable depth and now supports a luxuriant
forest growth. Much of this land will probably support
agricultural crops when its turn comes to be opened up, and
the heavy rainfall will assist cultivation, but when the
forests are removed it is doubtful whether the shallow soil
will not be washed away.

The timber in the Weld Valley appeared poor and patchy
although there are good quantities of Beech (F. cnnnivg-
hami). On the south-west of Mt. Mueller there is a fine
but small area of Yellow Gum (E. gunnii) and mountain
peppermint (/?. coccifera) . The lower slopes of Mt. Mueller
will yield quantities of valuable timber for the Tyenna mills,
and the Weld Valley possesses enough to make it worth
while protecting until it can be milled, but it is not a pre-
eminent timbeft area.

The western half of the area is at present valueless.
Half has been scraped bare of soil by recent glaciation and
the other half strewn with outwash gravels consisting largely
of small angular chips of quartzite. The utilisation of the
great buttongrass swamps of the west is one of the most
pressing problems at present. It would pay the Govern-
ment handsomely to institute research work into their possi-
bilities and requirements for cultivation, but without system-
atic scientific research every effort to use them will be
wasted, and it would be certainly a leap in the dark to spend
money on them in, for example, planting exotic pines, with-
out knowing more about them than wc do at present.

Should this area ever be used it is to be hoped that the
possibility of canalising the Iluon and joining it by a canal
via Lake Pedder to the Serpentine and thence to the Gordon
will not be overlooked. This should prove quite possible.

HY A. N. LEWIS. M.C.LL.H. 39

and on the surface appears the cheapest way of providing
transport facilities to the back country here.

Mt. Anne when opened up will prove one of the fore-
most scenic areas of our island, and probably its most pro-
mising future appears to lie in its being made accessible
for ordinary tourists.

APPENDIX (A.)
(Extract from account by H. Judd, 1898.)
Contributed by Major L. F. Giblin.

You pass on up the same river [Weld] until you come
under the northern end of the Weld Mountain, which is very
high and rugged, and here you hear the sound of a distant
waterfall. The next object you see is Mt. Ann, which has a
pinnacle of rock, which takes many different forms as you
go round the mount, which is 5,020 feet high. Upon the
southern side there is a stream of water that flows over a
ledge of rock upon the top of the mount into space. So
very high is it that it is thrashed into vapour before it can
get to the earth, and has the appearance of a floss of silk
floating about in the air by the change of wind. In this
way the forest is watered by a vapour from it. At the
western end of Mt. Ann you enter a small belt of low gum
trees, then comes before you one of the most enchanting
sights that anyone ever wished to behold.

This mountain has been burst open by some great power
in Nature, leaving it with perpendicular walls of over 4,000
feet high upon three sides, and filled up with a beautiful
lake called Lake Judd, discovered in 1880. This lake is
about one and a half miles long and half a mile broad ;
perhaps it is larger, as I had no means of measuring it. The
beauty here cannot be exaggerated. As you look into the
water you at once see all the surrounding beauty of these
high walls, with their rugged rocks and lovely spots of all
sorts of green and dead reflected in the water below, with
the dropping water from the snow above. When I first
found this lake I was upon the top of the mountain, and
came suddenly upon the edge of the large vault below,
which made me tremble with fear, as I was in snow at the
time, December. Opposite to this, westerly, is another open-
ing between two mountains, and as you enter it you come to
where the sides of the hill arc broken back and a miniature
lake in the centre. Proceeding further a new sight bursts
into view, and you find that the inner part of the high
mountain is thrown back on every side, opening out the

40 NOTKS OX MT. ANNK AND TirE WKLD RIVER VALLEY,

bowels of the earth to view, with hundreds of different
strata of rock of all sorts and thickness one above the other
down to the slate formation. In the centre of this great
amphitheatre, with its ledges of rocks to sit upoii is a large
lake in the centime and a conical-shaped rock of different
coloured slate, polished smooth by the fallen rain and storms
of passing time. Here you can sit and study geology from
Hugh Miller's book of nature, as 1 call it, with all the
quiot that surrounds thougl.t in such places.

APPENDIX (B.).

EXPLANATION OF PLATES AND TEXT FIGURES.

PLATE 1. — Sketch of the area described. The scale is
approximately 8 miles to the inch. The scale and details
must be taken as very approximate.

ERRATA. — In Legend for Ordovician Limestones read
Silurian Limestones, and for Cambrian read Cambro-
Ordovician.

Text figure is a sketch across the area described from
east to west made looking south from the side of Mount
Field East.

PLATE II., Fig. 1. — Shows the Mount Anne Range from
the west. It is taken from the edge of the Huon Plains
looking up the large cirque between the two western out-
liers, seen on both sides of the picture. The summit of
Mt. Anne is at the left (north) end of the range. An easy
ascent can be made up the spur seen on the right ot the
picture.

PLATE II., Fig 2.— Looking north-west at the Anne
Range from the foothills of Mt. Weld. "Lot's Wife" is
seen on the right of the range, and the summit of Mt. Anne
is the next peak to the left. One of the two south-eastern
cirques is seen in the centre of the picture. The valley in
the foreground is that of the western branch of the Weld.
Judd's Reward Claim is in the valley at the extreme right
of the picture. This photo was taken from the farthest
point reached by the party in 192L

PLATE III.— Sketch plan of Mt. Anne showing the
location of the more important features. The relative
positions of the south-eastern features are very approximate.

liV A. X. LKWIS. M.C., IX.B. 41

PLATE IV., Fi{?. 3. — Looking south from the south end
of the Mt. Anne Plateau. Smith's Tarn can be seen in the
centre of the opposite ridge. The south-east end of the
Arthur Range is in the background.

PLATE IV., Fig. 4. — The Huon Plains looking west from
the southern of the two western spurs of Mt. Anne. The
Huon runs in the line of scrub in the far distance. Lake
Pedder lies at the back of the prominent hill on the right
centre. The ranges in the background are the southern
terminals of the Frankland Range. The mountain in the
background on the left is Mt. Giblin.

PLATE v., Fig. 5. — Looking east from near the summit
of Mt. Anne down the large cirque on the east of the summit.
"Lot's Wife" is in the centre, and the Snowy Mountains in
the background, with the Weld Valley in between.

PLATE v., Fig. 6.— The south-western end of Lake Judd
taken from the Mt. Anne Plateau. Mt. Picton is in the
distance in the centre, and Precipitous Bluff is the conical
mountain to its left.

PLATE VI., Fig. 7. — The top of Mt. Anne looking across
the western cirque from the top of the second spur, the
quartzite of which can be seen in the foreground. The
light patches on Mt. Anne are slopes of Diabase talus.

PLATE VI., Fig. 8.— The terminal peaks of the northern
of the two western spurs of Mt. Anne. Cirques separate
these peaks, which are glacial monuments in an early stage
of development.

(Photos by the writer.)

APPENDIX (C).

LIST OF WORKS REFERRED TO IN THE TEXT.

Benson, W. Noel. 1916. — Notes on the Geology of Cradle
Mountain District. P. and P. Royal Society of
Tasmania, 1916.

Hills, Loftus. 1914. — Jukes-Darwin Mineral Field. Geo.
Surv. Tas. Bui. No. 16.

1921. — Progress of Geological Research in Tasmania
since 1902. P. and P. Royal Society of Tas-
mania, 1921.

42 NOTKS ON MT. ANNE AND TlIK, W KM) HIVER VALl.F.Y.

Hobbs, W. H. 1910. — Characteristics of Existing Glaciers
(1922 p:d. MacMillan Co., New York).

1921.— Journal of Geology, Vol. XXIX., No. 4, May-
June, 1921.

Judd, H. 1898.— The Dark Lantern. Hobart, "Mercury
Office," 1S98.

Lewis, A. N. 1921. — (a) Preliminary Survey of Glacial
Remains preserved in the National Park of
Tasmania. P. and P. Royal Society of Tas-
mania, 1921.

1921. — (b) Supplementary note to above.

1922. — Further notes on the Topography of Lake
Fenton. P. and P. Royal Society of Tasmania,
1922.

Nye, P. B. 1920. — Underground Water Resources Paper
No. 1. Geological Survey of Tasmania.

1921.— Ditto, ditto, No. 2.

Reid, A. Mcintosh. 1919.— The Pelion Mineral District.
Geo. Survey Tas. Bui. No. 31.

1920. — Osmiridium in Tasmania. Geol. Survey
Tas. Bui. No. 32.

Taylor, Griffith. 1921. — Notes on a Geographical Model of
the Mt. Field Ranges. P. and P. Royal Society
of Tasmania, 1921.

Twelvetrees, W. II. 1908. — Western Exploration. Report
on Journey to the Gordon River. Rep. Dept.
Lands and Surveys. Pari. Pap. No. 21 of 1909.
Appendix B. pp. 25-31.

Ward, L. Keith. 1909.— Systematic Geology. The Pre-
Cambrian. P. and P. Royal Society of Tas-
mania, 1909.

43

VINCULUM SEXFASCIATUM, RICHARDSON.
AN ADDITION TO THE FISH FAUNA OF TASMANIA.

By Clive Lord, F.L.S.
Director of the Tasmanian Museum.

(Read 9th July, 1923.)

The following: species has been recorded from Westera
Australia and Victoria. It has also been reported from New
South Wales, but McCulloch (1922, p. 65) queries the re-
liability of this record. The species has not previously been
recorded from Tasmanian waters.

FAMILY CHJETODONTIDJE.

Vmcnlum' sexfasciatuvi, Richardson.

Six-banded Coral Fish.

j//nculum Jexfasaofum J^chor'f'on Xi;

44 ADDITION TO IMSII FAIN.V OF TASMANIA.

Chietodon sexfasciatus.

Richardson. A.M.X.H. (1842), p. 26.
Gunther, B.M. Cat. Fish (1860), p. 35.
Castelnau. P.L.S. N.S.W. (1879), p. 350.
Macleay. P.L.S. N.S.W. (1881), p. 388.
Kershaw, Vict. Nat. (1911), XXVIII., p. 94.

Vincuhnn sexfasciatum.

McCulloch, Endeavour Scientific Results (li>14), II.,

3, p. 110.
McCulloch, Aust. Zoologist, II.. 3. p. 91.

Waitc, Fishes of S.A., Rec. S.A. Museum, II., 1,
p. 115.

The genus 'Miicnlum was propuseil by McCulloch (1914,
p. 110). It differs from Ch:it<i(lo)i in having very much
smaller scales and fewer dorsal spines. The latter being
limited to ten.

The specimen recently presented to the Tasmanian
Museum was secured on the East Coast of Tasmania by
Messrs. Dale and Davis. It is the first of the Chivtodovtichv
to be recorded from Tasmanian waters. The specimen
measured 375 mm. (over-all measurement when fresh), and
its occurrence on our coasts is of intei'est.

Tasmanian Museum Catalogue, No. D. 730.

LITERATURE CITED.

1914 McCulloch, Endeavour Scientific Results, Vol. TI., pt. 3,
p. 110.

1922 McCulloch, Fishes of New South Wales, Aust. Zoo
Handbook, No. 1, p. 65.

45

A NOTE ON THE BURIAL CUSTOMS OF THE
TASMANIAN ABORIGINES.

By Clive Lord, F.L.S.,
Director of the Tasmanian Museum.

(Read 9th July, 1923.)

The methods of burial as practised by primitive races
ai'e of distinct interest in assisting- to trace their evolutionary
history. Owing to the lack of authentic information in
detail of the customs of the Tasmanian aborigines, our
knowledge is, in many matters, vague and uncertain. Often
the observations relating to the aborigines were made years
after their contact with the white race, and naturally their
customs had been affected.

Further, the more one studies the early records and
observations made by early colonists, the more one realises
their contradictory nature. The available evidence which
could be gathered from early records has been admirably
summarised by Ling Roth (1899, pp. 116-122). A later
paper by Noetling (1908, p. 36) dealt with the supposed
native burial ground near Ross, but, personally, I am unable
to agree with all the conclusions ari'ived at by Dr. Noetling.
In a later paper Noetling (1910, p. 271) again referred to
the matter, but his deductions are at variance with the
observations of the Fiench naturalist Peron, who distinctly
states that the tombs found by the French on Maria Island
in 1802 were placed near the camping ground.'"

There is sufficient evidence to show that the natives
usually burnt their dead, and often, after cremating the body,
the residue would be buried or certain portions carried as a
charm. In some cases the body would not be burnt, but
would be placed in a hollow tree or a shallow grave.

I am not aware of any authentic records as to the posi-
tion of the l)uricd body, and hope that the following observa-
tion, made in exhuming aboriginal remains, may be of inter-
est, as information on the point helps to illustrate the evo-
lutionary status of the race.

•It must l)e remembered of i-oursc that in revraril to the tombs referred
to by Peron the bodies had first of all been cremnted anU the remains
Kathercd and iilaccd in the vrround, over which a frail superstructure of
grass and liark b:ul li<ii r:iivc<l.

46 BURIAL CUSTOMS OF TASMAMAN AMORIGINKS.

In January, 1919, a numbei* of Tasmanian aboriginal
remains were found at Eaglchawk Neck, as already recorded
in the Papers and Proceedings of the Royal Society of Tas-
mania (1918, pp. 118-119; 1920, pp. 140-152). In exhuming
these remains I particularly noticed that the bodies were
doubled up in most cases, the skull being closely wedged be-
tween the femurs. Owing to doubts as to how the skeletons
oame to be there and also owing to the fact that the sand
dune in which the excavations were made showed signs of
movement, it was not thought fit to make any comment at
that time. Recently, however, a further discovery was made
in the sand dunes at the south end of Ralph's Bay, where
Mr. E. A. Calvert found portion of an aboriginal skeleton.
This he kindly presented to the Tasmanian Museum. I sub-
sequently visited the site of the discovery in company with
Mr. Calvert, and, in questioning him as to the exact position
of the bones, I found that, according to his description,
they were placed in practically the same position as the
ones which had been found at Eaglehawk Neck.

Judging from observations made in the above mentioned
cases there is some evidence to show that such bodies as
were buried were placed in the thrice bent sitting position.
Further evidence is needed, however, before it is safe to
assume that the above position is typical, and the present
note is written merely in the hope that it may be of assist-
ance in the event of further discoveries being made.

LITERATURE REFERRED TO.
1899 Roth, H. Ling, Aborigines of Tasmania.

1908 Noetling, Papers and Proceedings Royal Society of
Tasmania, 1908.

1910 Noetling, Papers and Proceedings Royal Society of
Tasmania, 1910.

47

MOLLUSCA OF KING ISLAND.

By W. L. May.

WITH DESCRIPTIONS OF FIVE NEW SPECIES.

Plate VII.

(Read 9th July, 1923.)

During the month of Novembei", 1922, I spent some days
on King: Island visiting relatives, and took what opportunity
offered to investigate the Mollusca. No really comprehensive
list of the Island's shell fauna appears to have been pub-
lished. In one of the early French expeditions in 1802 the
Naturalists Peron and Lesueur made considerable collec-
tions, their take being- worked up principally by Lamarck
and Blainville. Some of the species described by Tenison-
Woods in the seventies of last century were from the Island,
and they and others appeared in his Census which was com-
piled in 1877. Some of these, however, have not been re-
taken and require confirmation. The late Professor Tate
had a small parcel of King Island shells sent him by some
correspondent, and they were recorded by Tate and May
in their Revised Census, 1901. There also appeared in the
Victorian nature publication, "The Wombat," Vol. V., page
35, 1902, a fairly long list containing 135 species.

I collected at Currie Harbour, Surprise Bay, Eraser, and
near "Grassy." The first two on the West Coast, and the
others on the East.

The mo.st remarkable feature was the absence of many
conuiion Tasmanian shells, particularly the larger bivalves.
I saw no sign of our common edible mussel, M. plannlatus, no
Donivia or Mactra, scarcely any Pecteiis, neither Tellina,
Gari, nor CarcUnvi appeared, and the Veneridiai were only
represented by Antiyona lucjojnis and Gomphiiia nndnlosu.
I saw no Trigonias, but was assured that they have been
taken near Fraser. The Chitons are moderately represented,
Heteror.nuu sulnnridis being extremely abundant, but Sypha-
rochilov peUis-ser])C]itis, so common all round the Tasmanian
coa.st, was not seen. The West Coast is very rough and
wild, and quite exposed to the prevalent westerly gales;
here the rock fauna were Limpets, Moiiodoiita, ncvibicium.

48 MOILr.>-CA OF KI.NfJ ISLAND,

and a few Chitons, with a jrotidly number of minute forms,
found in shell sand, such as KP"Pi'ally live under and amongst
stones and rocks. A much more sheltered spot is Fraser on
Sea Elephant Bay. Middle East Coast, and here washed up
on the beach were most of the larger species taken. A longer
residence at this spot would doubtless add considerably to
the list. Two species of land shells were taken, and the
larger one, (Itlnritii^ victnriir, is very interesting, as its ap-
pearance stems to suggest the necessity of land communi-
cation with Victoria at some period, as this species occurs in
that State, but not in Tasmania. The great majority of the
marine species are also common to Tasmania, although a few
Victorian species appear which have not yet crossed to Tas-
mania. An extremely small pei-centage appear peculiar to
the Island; one of them is Ca»th(tn(s khiti'icoUt, Tate and
May, and there are four minute species which appear to be
new to science, and which 1 take this opportunity to describe.
In the following list there are seme species not taken by
myself; those of them which appear in the "Wombat" list
are marked by an '■*, and tho.se from Tenison-Woods' de-
scriptions and Census by a t- Altogether I here catalogue
227 species.

Philobrya subpurpHnu, Sp. nov.

Shell minute, ovately pyriform, hinge line .straightish.
Proto-conch small and inconspicuous, consisting of a minute
boss on a small flattened area. Colour yellowish, purjilish
brown at the umbos, extending downwards over part of the
.shell. Dead shells are white, with a purple stain branching
from the um))o on each side of the centre of the valve. The
exterior is smooth except for rather prominent grjwth lines.
The hinge consists of a .series of vertical ridges and grooves
on a flattened plate, and below this are about six ridges or
lira? which slightly crenulate the margin on what I take to be
the posterior side.

Dimensions of Type. — Height, 2; breadth, 1.7 mill., but
some specimens are rather larger. PI. VII., fig. 1.

Type from Eraser, King Island, taken by Mr Hasset-
Hull. I also collected numerous single valves in shell sand
at Currie Harbour.

Ml/IHtd jiolHd, .Sp. nov.

Shell minute, smooth, glossy, shining, and semi-trans-
parent, very ine(|uilateral. much produced on the anterior
side, umbos small. Internally there is a strong flattened

p. and P. R.S. Tas.. 1923.

Plate VII.

1. Fhitohrya xuhpiirpitrra.

2. 2a. MylUta imlita.

3. 3a. S'atica kit<sjensis.

4. Uroohula cojinohrina.

5, 5a. 5b. Argalista kitigicola.

ISY \V. L. MAT.

49

posterior tooth, and a minute prong-like tooth immediately
beneath the umbo.

Height, 2; width, 2.4 mill. PI. VII., figs. 2, 2a.

Hab. — Surprise Bay, King Island, in shell sand, six
single valves.

In size, and to some extent outline, this resembles .1/.
gemmrttu, Tate, from South Australia, but that species is
ornamented with divaricating sculpture, and is still more
inequilateral. Shells of this genus are usually strongly
sculptured; the present species is therefore remarkable for
its perfect smoothness.

Natica kiiir/ensis, Sp. nov.

Shell very small, ovately turbinate with a small spire,
perforate. Colour light yellowish chestnut, a darker band
immediately below the suture, and a broader light band be-
low that; there is a patch of deeper colour behind the umbi-
licus, which is rather small, narrow, and deep. Whorls
four, rapidly increasing, the body whorl large. Aperture
semi-lunar, sharply pointed above.

Height, 2.5; diameter, 2 mill. PI. VII., figs 3, 3a.

Hab. — Plentiful in shell sand at Currie Harbour, King
Island, where about 200 specimens were collected, which are
of very uniform size.

I place this little shell in Natica, as its general char-
acteristics seem to point to that genus, but this may 7iot be
its final location.

A}(jaliiita kinr/oisis, Sp. nov.

Shell small turbinate, solid, dull white, with faint
brown rays, perforate. Whorls four, rapidly increasing;
spire not much elevated. The upper surface is faintly
spirally Urate; under surface smooth. Aperture roundly
pyriform, the columella lip somewhat expanded, behind which
is an ample umbilicus.

Major diameter, 2.5; height, 1.8 mill. PI. VII., figs. 5,
5a, 5b.

Hab. — Typo with three others from Surprise Bay, King
Island, in shell sajid. .\il the specimens arc rather beach
worn.

This is close to A. fhictiiuta, Hutton, from New Zea-
land, which differs principally in its smaller umbilicus and

50 MOLLlSr-A OF KI.NU ISI.ANP.

stronger sculpture, which persists on the base. Better i)re-
served examples may prove the King Island shell to Ivj a
variant of the New Zealand species.

Brookvla cousobrina, Sp. nov.

Shell minute, globosely turbinate, perforate, solid, dirty-
white, rather corroded. Whorls four, first one and a half
unsculptured and scarcely raised above the succeeding
whorls, which are crossed by strong axial ribs widely
separated and laminate, about 30 on the first turn of the body
whorl, the interstices crossed with fine regular lir» which
are scarcely discernible on most specimens Aperture almost
round continuous, outer edge finely notched by the revolving
lirae. Umbilicus medium sized and deep.

Diameter, 1.5; height, 1.3; PI. VII., fig. 4.

Type with 18 others from 40 fathoms off" Thou in Bay,
Tasmania.

This species is a very typical Brookula, and siarcjly
diff"ers from the type of the genus D. stibarochila, Iredale,
from the Kermadecs. Pro. Mai. Soc. X., pt. iii., 1912. p. 220.
Our shell appears rather higher and has a smaller mouth.
It is al.so very close to />. de)!sila}iiiii(ttum, Verco, which shell
has a more elevated pullus, and ribs about twice as numerous,
Intermediate forms may yet be found.

LIST OF KING LSLANl) MOLLUSC.V.

Pronvo'ln vikinis, Angas.
lAssarva rhovit'oidnlis, Verco.
Arcn mctclla, Hedley.
Ghfcifmciia fUtbcllatiix, Ten. -Woods.
*PhH(>btyn fnnln'iata, Tate.
Philobrya sub purpurea, May
Notomyiilus ruber, Hedley.
Ontren Spe?

Ncotrigovia inarynritacvn , Lamk.
Pectcn mcdius, Lamk.
Chlamys aspcrrimvH, Lamk.
Lima strangei, Sowerby.
BrachyndontiH roxtratvs, Diinkcr.
Modiolus avHtralis, Gray.
Myochnmn nvoviioidcfi, Stutchl)ury.
Vrvcrirardia nviabiliH, Deshayes.
Venericnrdin vruUiUi, Smith.

nr w. L. MAT. 51

*Cardita calyculuta, L.

Condylocardia crassicosta, Bernard.
"fCodalda bella, Conrad.
*Codukia lacteola, Tate.
*Codakia viinima. Ten. -Woods.
*Litcinida assimilis, Angas.
*Diplodonta zelandica. Gray.
*Neolepton rostellata, Tate.

Rochefortia donaciformis, Angas.
■ Lassea au straits, Lamk.

Lassea miliaris, Phil.
*MyUtta aiiricidata, Smith.
*Mijlttta deahayesi, D'Orb. •

Mylitta polifa, May.
*Mylitta tasvianica, Ten.-Woods.

Macrocallista diemenensis, Hanley.

Antigona lugopns, Lamarck.

Gomphiua undidosa, Lamk.

Venenipis exotica, Lamk.

Solen vaginokles, Lamk.
*SpirHla spirnla, L.

Sepia apama. Gray.

Sepia cidtrntn, Hoyle.

Ischnochiton atkinsorii, Iredale and May.

Isch. iredalei, Dupiiis Var.

Isch. Uneolnins, Blainville.

Isch. smaragdbms, Angas.

Isch. evaviduH, Soworby.

Isch. subviridus, Iredale and May,

Isch. virgatus, Reeve.

Callistochiton meridioiialis, Ashby.

Plaxiphora ctlbida, Blainville.

Plaxiphora tasmanica, Thiele.

Acantho. cofitntits, Ad. and Ang.

Acovthn. i^Kenrii, Blainville.

Accuithn. variabilis^. Ad. and Ang.

Acantho. kimbrri, Torr.

Cryptoplax striatiiK, Lamk.

Scis.Hvrella rosea, Hedley.

Schisrnope atlnnsoyii, Ten.-Woods.

Schismopp beddomei, Petterd.

Scntas a)iti})ndes, Montforl.

Hcmitoma axpcra, Gould.
*EmargivnUt bajnla, Hedley.
*Emargi)i)ihi Candida, Adams.
*Lnca]>inell(i nigrita, Sowerby.

52 MOLLVSCA OF KING ISLAND,

PnnctureUa harrissoni, Beddonie.

Haliotis albicans, Quoy and Gaim.

Haliotis cmma', Keeve.

Haliotis nicvosttvt, Martyn.

Stomatella imbricata, Lanik.

Gena sti-iyosa, Adams.

Clanculus flaridlatna, Phil.

Clancnlns limbatvn, Quoy and Gaim.

Chtncnlits muugrri, Wood.

Clanculus plcbejns, Phil.

Clancnlns yatesi, Crosse, var. Aloi)>fii, Ten. -Woods.

Caiitharidus eximins, Perry.
*Canth(nidits irisndoutes, Quoy and Gaim.

Monodonta adelaidie, Phil.

Monodonta cnncamcrata, Wood.

Monodonta constricta, Lamk.

Monodonta odontis, Wood.

Cantharidclla tiberiana, Crosse.

Calliotrochns legrandi, Petterd.

Fossarina pctterdi, Crosse.
*CalUostoma hedleyi, Prit. and Gat.

Calliostnma meycri, Phil.

Enchellns baccatus, Meuke.

Euchellits scabrinscnlus, Ad. and Ang.

Phasianella anstralis, Gniclin.

Phasianelhi perdir, Wood.

Phasianella rosea, Angas.

Turbo grnneri, Phil.

Turbo nndulatns, Martyn.

Astr.Ta anrea, Jonas.

Astriva finibriata, Lanik.

Cirsonella wcldii, Tcn.-Wood.s.

Zalupais inscripta, Tate.

Microdisvnla charopa, Tate.

Lndderia minima. Ten. -Woods.

Liotina sulxjnadrata, Ten.-Woods.

Argalista kingensis, May.

Nerita melanotragus. Smith.

Patrlloida alticostata, Anfras.
*Patelloida conoidea, Quoy and Gaim.

Patellnidea inradiata, Reeve.

Patelloidea viarniorata, Ten.-Woods.

Patelloidn scabrilirata, An^jas.

Patella nsinldta, Reeve.

Cellana livibnta, Phil.

Mclurhn])hr pnrtermissa, May.

HY \V. L. MAY. 53

Melarhaphe Kidfasciaia, Gray.

Dembiciion viclaiiostoma, Gmelin.

Riscllopsis DiKfabilis, May.

Hcnwakia strungei, Brazier.

Hnnrakia sv.pracostata, May.

Lironoba tenisoni, Tate.

Lirovoba iinilirutu, Ten. -Woods.

Merelimi cheilostowa, Ten. -Woods.

Mereliua huUiavci, Tate.

DarduvuUi vielanochroma, Tate.

Estea approximu, Petterd.

Estea incidata, Frauenfeld.

Anabathron contabulatum, Frauenfeld.

Rissoitia fasciata, Adams.
iRissoina gertrudis, Ten. -Woods.

Risaolina angasi, Pease.
*Di(tla scnustyiuta.

Dial a hiuta, Adams.

PotamopijygHii nigra, Quoy and Gaim.
'\Acmea scalariva, Cox.

Hipponix conicns, Schumacher

Hipponix foliacea. Quoy and Gaim.

Plesiotrochus tnonachns, Crosse and Fischer.
*Ataxoceyithivm serotimim, Adams.

Pyra.jus demeiievsis, Quoy and Gaim.
*BittiH)n granarium, Kiener.

Cerithiopsis turbouilloides, Ten.-Woods.

Seila albosntnra, Ten.-Woods.

Triphora tasmanica, Ten.-Woods.
*Epitoninm aculeatnm, Sowerby.

Epitonium anstrale, Lamarck.
*Epito)nt(m graiioi^nm, Quoy and Gaim.

Epitnnivm rakesiauum, Forbes.

C ymatinm spcnglcri, Perry.

Eugjfrina svbdistorta, Lamarck.

Personella eburnea, Reeve.

PersoueUa verrucosa, Reeve.
*Phaliiim semigranosinn, Lamarck.

Natica kingeyisis, May.

Siuuyn 7tmbilicatii7u, Quoy and Gaim.

Cyprn'u a)igiintat(i, Gmelin.

Trivia australis, Lamarck.

Scaphella undulnta, Lamarck.

Aucilla viargivnta, Lamarck.
*Ancilla petterdi, Crosse.

MargincUn albida, Tate.

54 MOLLVSCA OF KING ISI.AND,

Maryinella angasi, Crosse.

MargincUa formicula, Lamarck.

Marginclla sublndbosa, Tate.
*MargineUa ovuluin, Sowerby.
iCaricellaria purpnriforwis, Kuster.

Cancelluria apirata, Lamarck.
*Cancellaria undidata, Sowerby.

Terehra albicla, Gray.

Diiplicaria iiatulnta, Deshayes.

Conus anemone, Lamarck.
*Co)ius 1-ntUuft, Meuke.

Apaturris alba, Petterd.
^Guraleus mitralis, Adams and Angas.

Guraleiis pictus, Adams and Angas.

Austrodrillia beraudiana, Crosse.
"flvqtiisitor immacnlata, Ten.-Woods.
*Eucithara compta, Adams and Angas.
'*Etrema bicolor, Angas.

Nepotilla tasmnnica, Ten.-Woods.

AHperdaphne dciiseplicata, Dunker.

Fasciolaria oKfitralasia, Perry.

Latirofusris spiceri, Ten.-Woods.
■fVercoiiella dnnkeri, Jonas.

Verconelln pyrulata, Reeve.
*V€rcoveUa tcismnniensis, Adams and Angas.

Mitra aiistralis, Swainson.
*Mifra analogica. Reeve.

Mitra glabra, Swain-son.
"f Mitra legrandi, Ten.-Woods.

Mitra pica, Reeve.
*Mitra tasmanica, Ten.-Woods.

Comivellu eburnca. Reeve.

Comimlla Uingicola, Tate and May.

CoviiiuUu liveolata, Lamarck.

Euthria cUirkri, Ten.-Woods.
*FnHUH bcdiiaUi, Brazier.

Fu8U« mcxtaycric, Iredale.

Naasarius pauperux, Gould.
*Pyrene acuminata, Meuke.
*Pyrene Icucostnma, Gaskoin.

Pyreve pulla, Gaskoin.

Pyrene srmiconvera, Lamarck.

Znfra fulyida, Reeve.

Zafra legrandi, Ten.-Woods.
*Murex angasi, Cros.se.

Mnrcx triformis, Reeve.

BY VI-. L. MAT. 55

*Murex nmbilicatus, Ten.-Woods.

Trophon goldsteini, Ten.-Woods.
*Trophon petterdi, Crosse.

Thais baileyana, Ten.-Woods.

Thavi snccivcta, Martyn.
''Lepsiclla adelaidir, Adams and Angas.

Lepsiella reticidata, Blainville.

Lepsiella vinosa, Lamarck.

Marinnla parva, Swainson.

Mariruda xavthostoma, Adams.

Lexiconopsis pellncidus, Cooper.

Siphoy}aria dierncnensifs, Quoy and Gaim.

Succwea anstralis, Ferrusoac.

Chloritis victorix, Cox.

Rhytida rvga, Cox.
*Odostomia metcalfei, Prit. and Gat.

Odostomia portseaensis. Gat. and Gab.
*Tiirbonilla hofmani, Angas.

Turboiiilla marix, Ten.-Woods.

Etdima avgur, Angas.

Eidima tcnisoni, Tryon.

Melanella petterdi, Beddome.

Pseudorissoina tasmnnica, Ten.-Woods.

Retusa apicina, Gould.

Haynvncea tenera, Adams.

Philine angasi, Crosse and Fischer.

r>(5

STUDIES IN TASMANIAN MAMMALS, LIVING AND
EXTINCT.

Number XI.

By

H. H. Scott, Curator of the Launceston Museum,

and

Clive Lord, F.L.S., Director of the Tasmanian Museum.

NOTES ON A MUTILATED FEMUR OF
NOTOTHERIUM.

(Read 6th Auirust, 1923.)

Among some recently acquired fraj^nients of Noto-
therium bones presented to the Tasmanian Museum by Mr.
Burnley, of INIella, near Sniithton, and therefore in the
locality of the Mowbray Swamp, is the shaft of a femur,
obviously that of a Nototherian calf. The bone lacks the
head and major trochanter at its proximal end, and distally
both the condyles are missing, yet in spite of the several
mutilations, the specimen is of especial interest.

It is the thigh bone of an animal that has apparently
been hunted, and gripped by a carnivorous animal. Both
edges of the bone have suffered, thus suggesting a double
attempt at dragging the creature down, one of which was
made upon the outer side and a second from between the
legs. Two foes falling at a time upon a calf would equally
well account for the facts, and if the Carnivores of Pleisto-
cene Australia hunted in packs, this latter is the more likely
of the two possibilities.

As a second femoral shaft of similar size, and appar-
ently the associate of the mutilated bone, is also present, a
very exact comparison of the two is open to us. The
wounded animal having escaped its foes, carried to the day
of its death the marks of the encounter, in the shann nf
two contracted bony areas, in which absorption in one in-
stance has reduced one edge to 1 nun. in thickness from a
normal of 30 mm.

Externally, the .shaft has undergone a series of altera-
tions, resulting in the formation of a groove about 100 mm
long, with a thickened boundary edge that in one ca.se at
least formed a long boss that has extended beyond the nor-
mal outline of the diaphysi.s.

i;v II. ir. sroTT am> cmvk i,ui;i). i'.l.s.

57

The diaphysis itself, upon all its faces, has been thrown
into a series of transverse hollows and ridges — suggesting
a contraction of the periosteal membrane and a later bony
secretion that followed the contour of the several corruga-
tions.

The whole character of the double wound upon the inner
and outer edges of this Nototherian femur leads to the con-
viction that a carnivorous animal had at one time attempted
the life of its owner. A strong kick v/ould not have pro-
duced such results, whilst the imprisonment of the leg in a
cleft among rocks or an accidental slip into a hole would
have atlected more directly the themal and anconal aspects
of the shaft.

We are of the opinion that the mutilations were caused
by one of the larger marsupial Carnivores, and look to the
future for obtaining material proofs of the former existence
of Thijlucoleo and associated animals in the Pleistocene for-
mations of Tasmania.

< '^"^f^'^-"- >|^ ^\ ^^^^

' /tfditrtJ ^ a. ffj tjft

±±.y

Text fig. — Approximately one quarter of natural si-^e.

58

AUSTRALIAN' DIXID.Y.. [Dipt.]

By A. L. ToNNOiR,

Research Student in Diptera at the Cawthron Institute,

Nelson, N.Z.

(Comniunicatt'd by C'livc Lord.)

(Read Gth August. 1923.)

INTRODUCTION.

Previously nothing was known of the representatives of
this family in Australia except a record of Skuse <i) saying
that he knew three species belonfiinj? to the genus Dixa in
New South Wales; they remained, however, undescribed, and
I have been unable to find the specimens in his collection,
preserved pro parte in the Australian Museum in Sydney
and pro parte in the Macleay Museum in Sydney University.

During a short stay in New South Wales and Victoria
and one summer spent in Tasmania, I found five species of
Dixa, and recently Mr. A. J. Nicholson discovered another in
New South Wales, which he kindly gave me for study, for
which loan I am much obliged to him.

The.se Australian species indubitably belong to the genus
Dixa, as they differ very little fiom the forms of the rest of
the world; like them, they are differentiated from each
other by mere details of colouration, relative length of
antenna\ peculiarities of venation such as the position of
r-vi and relative length of fork of J,'^ , .< and chiefly by the
structure of the hypopygium.

Their larvjc of which three types have been secured,
differ also very little from the European forms. Like them,
some have the peculiar crown of hair on the dorsum of the
abdominal segments 2-7, and some present this d :)rsum com-
pletely smooth; they arc provided also with the pair of
pseudopods on the two first abdominal segments, the arma-
ture of hooks on the G-8 segment; the mouth-parts and
spiracular armature present only minute differential char-
acters in their structures.

(1). Austral. Aaa. Adv. Sci., Melbourne, Vol. II.. 1800, p. 680.

r,\ A. L. TONNOIK. 59

ADULTS.

Table For Male and Females.

1. Antennae loner, nearly as long as the body, or at least,

as the abdomen; basal joints of flaffellum
elongated and scarcely distinct from each other;
r-m placed well before fRs. 3.

Antenna' rather short, about as long as thorax ; the
basal joints of the flageilum somewhat fusi-
form, well distinct from each other; r-»i placed
at or after fRs. 2.

2. Mesonotum nearly all orange; front legs rather

dark; stem of Ro ^. 3 much longer than Ho.
smaller species. " D. FLAVICOLLIS, 'n.sp.

Mesonotum with three well-marked dai'k bands; all
legs yellow with dark tip at femora and tibia' ;
stem of Rj . .J somewhat shorter than |,'^.
larger species.' D. GENICULATA~ n.sp^

3. No other marking on the wing but a spot on r-m

which extends along the stem of Rs up to K, .
mesonotum orange with two dark bands con-
nected in front. D. TASMANIENSIS, n.sp.

Wing spot never extending up to Rl ; or else wing
nebulous and colouration of mesonotum ni'ariy
all black. 4.

4. Besides the roundish spot around r-m the wings

are infuscated on some other pai'ts, chiefly on
the apical region; nearly completely dark
species. /). HVMKRALIS, n.sp.

Wing pi-esciiting only one spot near r-)n or scarcely

any trace of one. 5.

5. The spot of the wing distinctly marked, rather large.

extending on the whole length of the .stem of
Rs. D. VNIMACVLATA, n.sp.

The spot of the wing very faint, restricted only along-
side r-m D. NICHOLSON I, n.sp.

60

ArsiR.Vl.lAN IMXIU.K.

niXA FLAVICOLLIS, ii.sp.

ViK. 1. Hvpopyuium of D. JlavicoUi.i fiom al'ovc ;iiul from the side.

Male: Face and snout dark yellowish; palpi black;
antenna' with scape brown, flavcelluni black; vertex black,
shininp:. Thorax rather dull oranc:e, with exception of the
prothorax blackish; on the middle of the mesonotum. anterior-
ly, there is the bejrinning of a dark band, another dark band on
the pleurje between the front and the hind coxae; a brownish
space below the wind's base; coxas yellow, also the base of
femora, which are gradually darker towards their extremity,
the hind rnes lighter; tibiie and tarsi brown; apical swelling;
of hind tibiie very conspicuous, claws large; halteres with
orange stem and light brown knob. .Abdomen brownish
black, little shining; hypopygium large, completely black;
wing nearly hyaline with a small infuscated spot on r-iu.

Antennae short, somewhat less than the head and thorax
together, with very distinct joints in the flagellum, the basal
ones being rath(.'r short and fusiform. The palpi with a
short first joint, the second and third subecjual. about four
times as lo/ig as wide, last joint about twice the length of
the third.

Venation: Origin of lis well after the tip of Sc; r-vi before
fRs; first part of the stem of Rs three times larger than the
second part; stem of K._, _■ 3 distinctly larger than K'.j

Hypopygium small, the lamella? showing between the base
of the side i>ieces presenting rounded angle; apical internal
process of the side pieces axe-sha})ed, rather short and hairy on
their whole surface ;claspers shorter than the side pieces, sub-
cylindrical at base, and then suddenly curved downwards
and tapering into an acicular extremity; a?d<x?agus little
developed, without any conspicuous hook or process.
Length of wing: 3 mm.

r. f A. I.. TONNOIIt.

61

Female: Similar to male in colour, but the median band
of the mesonotum more marked, and with two lateral very
faintly marked dark bands; otherwise agreeing completely
with the type as to colouration and wing venation.

Type and allotype, which were the only specimens cap-
tured, come from Sassafras, Victoria, 19th October, .1922.
They are in the collection of the Cawthron Institute.

DIXA GEXICULATA, n.sp.

Fig. 2. Hypoi)ynium of D. (Knimlalcu from above .tikI from the side.

Similar to the ])recediiig species but largeV; and v.'ith
darker marks on body but with lighter legs.

Male: Face and snout orange-yellow as well as ili.' .scape
of antenna^; the fiagellum black; palpi also black, vertex
brown shining; mesonotum orange with three disconnected
brown bands, the median one much abbreviated behind, the
lateral ones in front; scutellum orange,- post-scutellum
infuscated ; halteres with orange stem and black knob.
Prothorax brown, somewhat dark marks on the pleura? from
the front coxai to the base of the abdomen and on the lower
part of the meso.sternum. Abdomen blackish brown, rather
dull; coxae, femora, and tibia? yellow, the femora with black
tip, the tibiie with slightly darker base and black tip, tarsi
brown, the metatarsi somewhat lighter towards their base
on the anterior legs, the hind metatarsi distinctly lighter
with dark base and extremity. Wing hyaline or scarcely
greyish, with Sc and Rl as well as the costal field yellowish,
one dark subcirculai- spot round /->/( extending downwards
on tn-rn.

g2 AISTKAI.I AN DIXIU.K.

Antennae short, about the length of the thorax, the basal
flagelluni joints very distinct from each other; palpi as in
preceding species.

Venation: Orijrin of Rs after tip of Sc; first part of stem
of Rs double the length of the second part, thei'efore r-m
well before fRs; stem of K., . :; somewhat shorter than R.,
Hypopygium built on the same plan as in D, fiavicollis, but
the parts differ as follows: — The lamellse, visible from above
between the base of the side pieces, are produced in a small
blunt dif^itation; the internal distal processes of the side
pieces are rather long, about half the lenjrth of the claspers,
and much widened at their extremity, which carries a row
of small setje; the claspers are about as lonj;' as the side
pieces and nearly straifjht, their tip, which is suddenly
pointed, is somewhat turned down; no conspicuous process
or hooks on the sedceagus or the tergum of the hypopygium;
as a whole, all the parts are relatively more developed and
robust than in flavicollis.

Length of wing: 3 2-3 mm.

Female: Similar to the male, the legs very slightly
darker, especially the front ones.

Type and allotype from Burnie (Tasmania), 2Gth. 27th
October, 1922. In the collection of the Cawthron Institute.
Four paratypes, i.ne male and three females from the same
locality, and one female from St. Patrick's River, 21st
October. l'J22.

This last-mentioned specimen from St. Patrick's River
has the dark marking of the mesonotum much obliterated;
it corresponds very well in every other point. One female
from Sassafras, captured at the same spot as I), fiaricollifi,
agrees very well with the characters of fjciiiciildtit, with the
size, the wing venation and marking, and the yellow scape,
but differs from it in the c()mpletely orange mesonotum and
haltercs as well as by the darker legs. I was, therefore, at
first disposed to consider the Tasmanian form as a variety
of the Victorian one, but closer examination showed that the
points <if difference are well marked and justilied considering
them as different species.

This difference in characters may be summe«l up as
follows: —

Size I'lrger in (jcnimi-tid.

Scape distinctly orange and not brown.

Mesonotal dark bands well marked, ;ind in mesr,*iotum
nearly completely orange.

Knob of haltcres distinctly black and relatively short.

BV A. I.. TONNOIa

63

All femora and tibiae yellow with dark tip.

Anterior veins yellow.

Spot of the wing extendin-i- alongside r,^-cn.

Greater robustness of hypopygium, with some of the

parts presenting a different shape.
Stem of K'.j 4. :{ about equal to J^^ and not very much

longer, as in flavicollis.

D. TASMAXH'JXSIS, n.sp.

Fitf. 3. Hypopyfiiiim of D. ia-'-tnanietisis from below and from the side.

Male: Head shining black, proboscis yellow, palpi and
antenna? black, but the scape a little lighter on the side.
Mesonotum yellowish-orange with three brown-black bands,
confluent anteriorly, the median one divided by a very thin
line, and shortened behind so as to leave a huge yellow space
in front of the scutellum, which is also yellowish, except on
the sides; post-scutellum black; pleura? blackish, lighter be-
low the base of the wings. Front coxie brown at base,
yellowish at tip as well as the others, and the base of
femora, which are more or less testaceous on their whole
length, their tip being distinctly black; the middle femora
arc somewhat darker; tibite and tarsi brownish, the hind
tibia? a little lighter, chiefly at base. Base of stem of haltercs
yellowish, then dark, and the knob again yellowish. Abdo-
men l)lack, moderately shining; hyp;)pygium also black,
the daspers lighter; wing greyish with a moder-
ately marked brown spot extending from the Imse of Rs
towards flis and r-iii, also a slight shadow near the extremity
of Cu.

The antcnme are as long as the abdomen at least, and
very thin t iwards the end; the iv-ints are elongated, cylin-

64

AtSTKAl.IAN UlXID.i:.

drical, indistiiifruishahle from each other, especially towards
the end; relative length of palpal joints as in preceding
species.

Venation: r-m placed after fRs; stem of |J., ;. only a
little shorter than R.,

Hypopyjrium: Side pieces moderately lani;- with an in-
ternal pre-apical thin process about as long- as the claspers
and swollen at tip, which carries three or four small bristles,
two of which are stouter; claspers broad, trianjjular, ending
in two branches separated by a semi-circular notch, the in-
ferior branch curved upwards and with its tip black, strongly
chitinous; the two lateral inferior pieces of the aidceaj>us dark
and with three hooky spines, two pointirifr downwards and
the terminal one upwards.
Wing- length: 3 1-3 mm.

Female: Colouring exactly the same as in male; stem of
Rs relatively shorter, wing marking more intensive, espec-
ially the shadcAv around the extremity* of Cu.

Type and allotype from Mt. Wellington, Tasmania, 25th
November, 1922. In the collection of the Cawthron Institute.
A dozen i)aratypes from the same locality and from Hartz
Mt., 9th December. 1922; Burnie, 31st January, 1923; Eagle-
Hawk Neck, 15th Novcml)er, 1922; Mt, Field, National-park,
IHth December, 1922; Mt. F^arrell. 9(h February, 1923. All
these localities in Tasmania.

I). XICHOLSOM, n.sp.

Hk.

Hyiicpyi'iiim oi /I

I inm Jil>iivc anil li-.'m llii-

<|p.

Male: Head with appendages darl: brown; niesonotum
with three confluent broad dark bands which leave only very
little dull ferrUL'inous colour on the side-^ mikI Itefort the

I!V A. I,. TONNOIIt.

65

scutelluni, this and post-scutellum obscurely fervufiinous.
Pleurae with exception of sternopleurae testaceous-orance, as
well as all the coxie; legs brownish, the femora slightly
lighter. Base of sten) of halteres testaceous, the rest and
the knob brown. Abdomen black, more or less shining, with
dark scarce pubescence; hypopygium ferruginous; wings grey
with a very indistinct smoky marking on fRs and r-m.

Antennae tiliform as in preceding species; palpi alsO
similar.

Venation : Origin of Rs in front of the end of Sc, f-m
placed after fRs; stem of Rs equal to stem of 1?,^ _, ;,

Hypopygium: Side pieces with an internal pro-apical pi'o-
cess of moderate length and bifid at the end; claspers cylindri-
cal without any spines, hooks, or bristles, their ends blunt;
£edccagus complicated, presenting two downward pointing
processes '-' ending in a sharp black spine and presenting
a small tuft of hair at base of this spine, the internal parts
of the a-dcpagus in form of two strong hooks pointing up-
wards. •

Wing length: 3 mm.

Female: The colouring seems to agree well with that of
male as far as it is possible to judge from alcohol specimens;
there is agreement in all morphological details.

Type and allotype from Mill, Allyn River, N.S.W., 18th
December, 1922. In the collection of the University, Sydney.

Nineteen paratypes in spirit collected in the same locality
at the same date, by Mr. A. J. Nicholson, who found these
flies clusteretl on stones.

D. HUMERALIS, n.^p.

FlK. 5. Hypopygium of I), hiinnintl^ from Ixjlow ,^lul from tho si.lf.

Male: Very similar to /;. tijchohoni, Inil its general
colouration very much darker. The thorax, which is rather

CD. Tho hypiipyKium of Pixa us in most CuHcoulva is invorfrd, the
tprnuni l)oiii(r sit.UHteil veiiliHlIy.

66

ATSTRAMAN DIXID.T:.

shininpr. is only yellow-oranjrc at the shoulder and at inferior
part of the mesosternum ; haltores uniformly dark yellowish;
all coxse yellowish, the femora also, but with dark tip;
anterior tibije brownish, the hind one yellowish, with dark,
moderately swollen extremity; tarsi brown; winj? nebulous,
with a rather st'-on^'ly marked roundish spot near the base
of Rs, and extending on fRs and v-?h, a slight infuscation on
the whole wing tip from the level of f R^ ^. .t, but extending
more towards the base of R4 + 5 a slight infuscation also at
base of the anal area, then under the first half of Cu and on
both sides of the extremity of Cu.

Antennrc and palpi as in prcteding species.

Venation: Origin of Rs after the tip of Sc; stem of Rs
shorter than the stem of U.^ j .; . r-in placed at fRs; stem of
J»'j + ;t 'I little shorter than It^,

Hypopygium: Small, the side pieces without any internal
process, the daspers bifid, the upper branch blunt, the
inferior one thinner, curved upwards, and with a black hard
tip; the a-dwagus with two downward directed long, thin,
yellow hooks, with a dark tip. and carrying some short hair
in tuft on the middle of their inferior side.

Wing length: 2i mm.

Female unknown.

The type, a unique specimen, was collected on Mt. Wilson
(Blue Mt.s., N.S.W.), 20th November, 1921, and is in the
collection <»f the Cawthron Institute.

D. UNIPUNCTATA, n.sp.

FiK- fi. H>-|io|iyuiiim of D. iniipvnclnia rrom hIhivc imil frnm Ihi- Hide.

IJY A. L. TONNOIIl. g7

Male: Clypeus yellowish, palpi brown, antennje with the
scape brown, flagellum black; vertex shininj? black. Thorax
orantre-yellow, with the exception of the prothorax, which
is dark; three dark disconnected bands on mesonotum; a
very wide dark band across the pleurae from the anterior
coxje to the base of the abdomen; all coxiE yellow, also the
femora, especially at base, the hind ones completely, except
for the tip. which is black, whereas the anterior ones become
gradually darker towards the tips; anterior tibiae brownish
with dark tip, the hind one yellowish with black moderately
swollen extremity; tarsi blackish; halteres completely oranp:e-
yellow. Abdomen brownish black, rather dull, hypopyp:ium
slijrhtly brownish, winp: {jreyish with an infuscated roundish
spot on the last half of the stem of Rs on fRs and r-m, also
a very indistinct shadow on the last part of Cu.

Antenna? elong^ated as in preceding species, and relative
length of the palpal joint similar.

Venation: Origin of R<? not much after the tip of So,
r-?» placed a little after fRs; stem of Rs about equal to stem
of K2 -4 ;;, the latter about half the length of Rs.

Hypopygium: Small, side pieces with a very small incon-
spicuous internal distal process, which looks like a small spine,
but is composed of a cylindrical basal part on which are in-
serted two small bristles; claspers about half the length of the
side pieces, axe-shaped, their outer edge serrated; ledceagus
with two conspicuous orange hooks pointing downwards with
black tip.

Length of wing: P>h mm.

Female unknown.

Type from St. Patrick's River, Tasmania, 1st November,
K>22. In the collection of the Cawthron Institute. One
paratype from the same locality and date.

LARV^.

The three larva^ which have been secured up to now are
not referred to the three particular species by way of rearing,
but only by simultaneity of capture of the imagines in the
same spot whore the larva? had been found. Therefore their
identity remains somewhat dubious, although in each case
only one species of the adult had been found at the same time
with the larva' hereafter described. None of the pupa»
are known.

68

AI'STR.VI.IAN niXID.K.

TABLE OF KNOWN LARViE.

Dorsum of abdominal sejjmeiits 2-7 carrying a con-
spicuous crown of hairs; armature of spines
present only on the abdominal sternite o and
6 D. GENICULATA, Tonn.

The abdominal sejrmcnts without crown of hairs;
armature of spines present on the abdominal
segments 5-7 2.

Base of the lateral plates of the spiracular armature
connected by a chitinous plate; spiracles round;
caudal appendage not much longer than the
lateral plates. /;. TASMANIENSIS, Tonn.

The lateral plates not connected between them at
base; spiracles elongated; caudal appendage
distinctly longer than the lateral plates.

D. MCHOLSONI, Tonn.

Fisr 7. Kxtrrmity of the boily of Inivip ftom nliovp : — A: P. prti^rulata;

It: iJ. 'iirhiilsoiii : C: h. IcmmnnioiniH ; n : xpirnrU* : up: fpir-

acular plate: Ip : Inlct-nl j)lnlf ; ca : caiKlnl npiifridat'o ; dc :

clonal crown of hairu.

i:v A. I.. TO.NNom. 69

DIXA NICHOLSOXI, Tonn.

The full-grown larva is 8 mm. long, its colour grey with
brown diffused markings on the dorsum.

Head black with ferruginous parts chiefly on the sides.
Antennae with the usual short triangular spines, without
hairs, carrying only one small external bristle inserted about
one-third before the extremity. Mandibles and maxillse of
the usual type, these last conical and as long as the maxillary
palpi. Mentum bluntly conical without any distinct inden-
tation. Labrum with two rather well developed tufts of
hairs.

Anterior edge of prothoracic sternite with a row of very
long bristles reaching beyond the head; four of them are dis-
posed in a tuft, and are, with the others, in the following
order: 1.1.1.1.4.1.-1.4.1.1.1.1. The two pairs of pseudopods of
the two first abdsminal segments are equally developed. The
armature of spines on the sternum of abdominal seguients
5-G ai'e composed of two groups of two juxtaposed rows of
spines, containing each 7 spines pointing backwards, the
spines of the upper row being much stronger than those of
the inferior row; on the 7th segment the groups are composed
only of rows of o spines; the two groups of rows are separated
by a .small longitudinal chitinous band. The basal sternal
plate (if the caudal appendage has two groups of three rather
long bristles reaching beyond the end of the caudal appen-
dage, which is black, and carries six long bristles at its ex-
tremity.

The structure of the spiracular plates, as in figure 7B ;
the spiracles themselves elongated; between them there is a
chitinous armature in shape of a V surmounted on each side
with three tufts of small curved hairs. The lateral plates
are not connected at their base by a chitinous structure;
their comb, situated on the middle of their inferior side
(the lateral side of the body), is formed by a regular row
of moderately developed spines, the last of which is stronger
than the others.

DIXA TASMANIENSIS, Tonn.
Length of full-grown larva 6 mm.; it is very similar to
the larva; of the preceding species; its colouration is the
same, and its whole body is also covered with a microscopical
but very dense pubescence. Head mostly ferruginous, blackish
above and with a black posterior edge. Antenna^ with the
usual short spines, and besides the external small bristle,

70

ArsiHAI.IAN niXID.K.

which is nearly median, they carry on the ventral side a
number of hairs. Labrum with well-developed dense tufts
of hairs. Maxilla? conical as in prccedinj? species, but with-
out hair at its extremity; the palpi with rather lartrer spines
on the internal side. Mentum without distinct indentation.

Anterior border of prothoracic sternum with moderately
lonjr black bristles pointinj; forward and not reachinjj; be-
yond the head; they are disposed according to the following:
order, four of them making a tuft on each side: 1.1.1.4.1.-
1.4.1.1.1. The two outer ones on each side are only half the
size of the others. The armature of spines on the sternum
of abdominal sejrments 5-7 are as in the preceding species
as to number and disposition; the spines, however, are
relatively longer, and between the two groups there is no
chitinoiis longitudinal small plate.

The sternal basal plates of the caudal appendages with
two groups of three moderately long bristles; the caudal
appendage, which is testaceous and I'elatively small, carries
six long black bristles about twice as long as the appendage
itself.

Spiracular plates according to figure 7C; the spiracles
themselves are i-oundish; the V-shaped structure between
them is provided with two groups of three small
tufts of curved hair as in preceding species. The
bases of the lateral plates are connected with each other
by a chitinous formation; their inferior comb is composed
of a row of very small spiniiles which end in a relatively
large trilid spine.

niXA Cl'JNICI'LATA, Toiin.

Len'jth of full-grown larva (ll min. Its colour is of a
dirty yellowish, the dorsum darker on account of the long
hairs of the abdomen; head testaceous with a black anterior
and posterior edge above. Antenna.' and palpi black; labrum
with the usual dense, well-developed tufts of hair; mandibles
as usual, maxilbe also, pointed, with only a few hairs at the
tip. Anlenmr without hairs or bristles, only with the short
triangular spinules. Mentum without distinct indentation.

No conspicuous bristles on the anterior edge of the pro-
thoracic sternum; the first pair of abdominal prolegs more
(level' ped than the second; armature of hooks present only
on the .'ilh and 6th abdominal segments, and composed of
two adjacent groups of spines in two juxtaposed rows, the
inferii r one being formed of six straight thin spines, the

15Y A. L. TONNOIll. 71

superior one of five closer somewhat falcate spines, no
chitinous small plates between the groups of spines. All
round the dorsum of abdominal segments 2-7 there is a
conspicuous crown of stiff hairs which are more develojied
on the sides than anteriorly or posteriorly. Basal sternal
plate of caudal appendage without conspicuous bristle, the
caudal appendage, which is short and testaceous, is provided
with six black terminal bristles, only a little longer than the
appendage itself; lateral plates connected at their base by
a chitinous plate; their median bristle is coarse and branched
at the tip.

The spiraculav plates according to figure 7A; the spir-
acles themselves round, separated by a row of four little
groups of branched hairs.

NOTES ON AUSTRALIAN BOMBYLIIDIE,

MOSTLY FROM THE MANUSCRIPT PAPERS OF THE

LATE ARTHUR WHITE.

By G. H. Hardy.
(Read 6th August, 1923.)

The manuscript papers of the late Arthur White are in
the possession of Dr. E. W. Ferguson, to whom I am in-
debted for permission to publish original matter contained
therein. These manuscripts consist of (1) contributions
that have already been published; (2) a very large mass of
compiled notes and descriptions, interspersed amongst which
ai'e (3) a few pages of original material that have not been
published, and that contain certain information based upon
the examination of Walker's types in the British Museum.

Notes on the types of earlier described species are of
utmost importance, but White limited his observations al-
most entirely to those characters that he could use in keys,
and often a number of species included by him under a
genus also include some he has never seen. It is difficult to
judge how much of the keys is based on observation and
examination of the type material, and how much on com-
pilations from other works.

Owing to this confusion, White's manuscript cannot be
compiled into a condition suitable for publication as an in-
dependent paper. I have therefoi-e considered it advisable
to publish White's records with my own, and to accept that
which appears to me to be original, and within the prob-
ability of being correct.

The keys and notes taken from White's manuscript are
indicated so that it can be readily understood how much of
my paper is to be attributed to White's researches.

So far only manuscript containing linmbyliidn' and
NcmcHtrbr'Khr has been found to contain unpublished matter,
and from the information given in the former family, I find
it necessary to amend my catalogue on the Bombyliklu' which
was previously published in these Proceedings; some altera-
tions which are the result of other researches ai"e also in-
cluded. White's key to the N cmeHirinidiv is given else-
where.

!iv <;. II. HAKiiY. 73

ANTHRACIN^.

Ginus Hyperalonia, Rondani.

White's DunniHcrtpt. — "Tabic ' of the Aitstralioii Spccien
of Hjfpera Ionia.

1. Wings not spotted. 2.
Wings spotted. :>.

2. Abdomen black, apex silvery; wings blackish witli

base yellow, tips hyaline. funesta, Walker.

3. Abdomen black with golden or white bands near the

base; wings spotted with foremargins yellow.

hombyliformis, Macl.
= Ej;op)osopu pimctipeiDiis, Macq.
Wings with foremargins brown, with small spots

below and towards base. silvauus, Fabr.

All the above were described under the genus Anthrax.
Hyperalonia argenticincta. Bigot, is unknown to me, but I
suggest that it is probably the same as H. honibyliforviis,
Macleay."

Obfieri-atioiis. — //. fnuexfa, Walker, is the same as my
H. fintynis, Fabricius, but from White's key this is scarcely
apparent. App.irently Bibio t^yliHuins, Fabricius, was only
known to White fiom the description, and he^ followed
Walker's identification for this species, or possibly he took
his chai'acters in the key from the original description; I
have already associated the species with the genus Covtptoxia,
and do not see any reason to alter my opinion.

The distinguishing characters of the four described
species as recognised by me are as follows: —

H. satyrus, Fabricius. A black species with only three
pairs of white spots at the apex of the abdomen. A closely
allied species (apparently undescribed) has an extra pair
near the base.

//. bombytifoniiix, Macleay. A species with four fuscous
spots on the wing. This is the only large species known
to mc with this character; the abdomen varies in the amount
of silvery tomentum on it so that some unusually light forms
may be mistaken for new species.

H. ciiifjnlata, v.d. Wulp. A specirs tliat h;is the wings
with the anterior border for two-thirds the le:i.;rth, and an
isolated blotch at apex of the second basal cell, fuscous.

//. ninnatifafieiata, IMacquart. .\ s;peci:>: with the -ame
wing character as H. cingidata, v.d. Wulji. except that the
whole of the second basal cell and tlv- ai)ex of Ihj discal cell
an- fused with fuscus.

74 NOTKS ON Al STUAr.IAN liOMliVI.Il 1>.K.

Genus Exoprosopa, Macquart.

White's mayuiscript. — "Table of Australian Speci€s of
Exoprosopa.

1. Abdomen shininp: blue. viargi)ticollis. Gray.
Abdomen black oi- brown. 2.

2. Wings brown, with tips hyaline. stellifer, Walker.
Wings brown with ape.x very broadly hyaline and

with large hyaline indentations below.

adelaidica, Macquart.
Wings hyaline with the base, costa, and two oblique

stripes brown. obliquifusciata, Macq.

(unknown to me).
Exoprosopa laterimbuta. Bigot, I cannot at pi'esent place.
E. piinctipennis, Macquart, is a Hyperulonia. E. bicellata,
Macquart, is of doubtful position."

Observations. — I am not certain if E. laterimbuta, Bigot,
as identified by myself, is not a colour variation of E. stelli-
fer, Walker; I have re-examined the specimens together
with the variation of E. stellifer, and failed to find a satis-
factory character other than the general black and brown
abdomens respectively, to distinguish these species.

Exoprosopa marginicollis. Gray.

Anthrax rnarginicollis, Gray, in Griflfith's Animal Kingdom,
XV., Ins. ii. 1883, p. 780; pi. cxxv., fig. G.

This species, new to my list, was described without a
locality. Gray states that it "has the thorax green with a
"white line on each side; the body blue, the wings diaphanous
"with the anterior part and base black." In the Macleay
Museum there are several specimens which are undoubtedly
this species, but all arc cntii-ely metallic blue, except one,
and that has a metallic green abdomen showing that either
the blue and green are interchangeable, or the latter is a dis-
coloration.

Genus ANTHRAX, Scopoli.
M7ii7f'.'i wunuscrij)t. — "Tabic of Australian S])ccics of
Anthrax.

1. Wings at least half brown. 2.
Wings hyaline with at most the costal margin

brown. . T).

2. Wings cut sharply in a nearly straight line into a

deep brown ba.-'al half, and a hyaline apical
half. incisa, Macq.

RY <;. U. HAUDV. 75

Wings cut sharply into a basal and hyaline half, the
dividing line being greatly sinuated so that the
prolongations of the brown encroach on the
hyaline portion. concisa, Macq.

Wings with the base and costal half suffused with
brown, which melts gradually into the hyaline
portions without any distinct line of demarca-
tion. 3.

Scutellum testaceous, abdomen with the sides testa-
ceous, obscnra, Macq.

Scutellum black. 4.

Abdomen with two white bands. alternans, Macq.

Abdomen with white spots. comviista, Macq.

Wings completely hyaline, pubescence at sides of
thorax yellowish white, small species.

mbwr, Macq. = ?vitrea. Walk.

Wings practically hyaline, but a little darker alonq
the course of the closely adjacent mediastinal
and subcostal veins; pubescence at sides of
thorax fulvous, small to middle sized species.

nigricostata, Macq.

Wings hyaline; yellow haired species; abdomen with
black hairs on sides of fourth and fifth seg-
ments; large species. flaveola, Macq.

Wings hyaline, but largely suffused -with brown from

the base; large species. albirufa, Walk.

Wings hyaline with base and costal margin brown. 6.

Large species (usually about 12 mm.) 7.

Small species (5 to 8 mm.) 8.

The brown colouration on the foremargin never
descends so far as the bifurcation of the radial
and cubital veins, which are always clear; the
black pubescence on sides of abdomen is con-
fined to the third and subsequent segments, that
on the second basal segment being pale yellow.

Tnarginata, 'Wa\k. = ffuscicostata, Macq.

The brown colouration of the foremargin covers the
bifurcation of the radial and cubital veins; the
black pubescence on the sides of the abdometi
commences on the second segment. vclox, White.

Pubescence at base of abdomen yellowish-white;

wings rather dull. simplex, Macq.

{A. pelhicida, Walker, belongs here, but I cannot say
whether or not it is distinct.)

76

NOi-i:s ON .\i SI It M.i w r.oMi'.Yi.im.K.

Pubescence at base of abdomen bright silvery white;

winjjs brijiht >>listenins. (itj/oitipenuis, White.

The type of A. tu^finauica, Walker, in the British Museum
collection is in too bad condition for identification. The types
of the followinfr three species are not to be found in the B.M.
collection : —

.1. ulti'r>i((, \N alker. .1. rcsiiri/riis, Walker, and A. .s/f/)-
seuex. Walker, and it is ini|)ossible to say to what fienera
they belonfr."

Ohscrrations. — In a inar.uinal note of a compiled note
on Aiitluax iiicisa, White wrote "Doubtfully an A)itlirax\'; in
my catalogue I have suggested that it should come under
the genus Ai yi/runia'ha. Under this ^ame genus I have
placed A. coticisa, Macquart.

.4. tasntaiiica, Walker, is apparently a manuscript name,
as I have failed to find any jjiiblished rcfeience to it. and
White did not include any notes upon it under his com-
pilations.

,4. sKhst'tic.r is refen-cd. in this i)aper, to the genus
Com jit lis id.

CJenus CVTHKRKA, l''aliri(ius.

(iliissitd liiiiiiisit, Bigot, was placed by White in his numu-
.•-•cript under the genus Mnlia, Latrielle. Init he added in
brackets "this species is unknown to me."

Genus .Ai{<;vi:AM<i;i'.A. .Sihiner.

W'hltr's nid iiiisoijit . — "Tdlilr of Axft rdl id ii Spcri'Fi of
A I (/ ifrd Diirhd.

1. Wings mostly deep l)lack. 2.
Wings mostly hyaline. li.

2. .Midomcn black with apex silvery white.

mdcnhild , yinc(\.—ddsl idli^, Walk.

.'{. Wings with base and basal i)!iit of foremargin
brown, and three br>iwn sjiots, there Iteing ouf
at api<al end <if discal (dl. iiirnm /ita, Walk.

Like incotDfita, only without any spots at apical end

of discal cell. .s< iiiinidcnld. Walk.

(All the above were (l< .scrilH-d und' r the genus Aii-
Ihrar.)"

i:v <;. II. iiAKi>v. 77

LOMATIIN^.

Whitr'K )iiaini.'<crii)t. —

"GcMius C'oMi'TosiA, Mac(]uavt.
This {it-mis was oiijiinally dt'scribed by Maciiuail as
possL'ssinji' three- subnuirjiinal cells, the type of the ^eiius
being C fuscipe mix, Macquait, from Australia, but jiiveii
in error from Mona- Video; afterwards, however, Macquart
placed in this jicnus species possessinii- only two subniarjiinal
cells.

Table of Aiist ralid ii Species of C'uiiiptoxio.

1. Three subniar.iiinal cells. 2.
Two subniaruinal cells. 7.

2. Winjrs brown, but the tips niay i>e hyaline, and some

hyaline spots may be present. o.
Wings hyaline, with only the costal margin narrowly

or broadly brown. 6.

3. Scutellum red. 4.
Scutellum brown or black. 5.

4. Wings dark brown with very distinct white tip;

abdomen long, very large species.

fiiscipevnis, Macq.^ iiifiif/iiis. Walk.
Wings entirely pale brown, or with tips indistinctly
hyaline; abdomen short, large species.

decedens, Walk.= .''/)a.s'i7/.s, Walk.

5. Wings completely brown on which are darker small

brown spots; small species. ,scrpeuti(/cy. Walker.

6. Wings with foremargins very broadly and irregularly

brown, narrowest in the middle, and with a long-
hyaline spot towards the tip; no brown spots
present; small species. duisalis. Walk.

Wings with foremargins brown, and many small

brown spots; small species. plena. Walker.

Wings with foremargins broadly and irregularly
brown, and four brown spots below; medium
sized species. enrenlnni, W ii\k. = I'hieclhita, Macq.

7. Wings entirely brown; large species.

aiirifrons, Macq. = f'.v/<(/.sr/, Walk.
Wings brown with the tips white. S.

Wings hyaline with foremargins brown. 1).

8. The brown portions of the wings containing hyaline

spots. macidipevviH, Macq. = ocellata, Walk.

=zhicliisa, \\a\k. = eo(j)i(itn. Walk.

fj-g NOTES ON Al STHAI.IAN UOMIIYLIID-E.

The brown portion of the wing has the base and band

across the middle hyaline. tendens, Walk,

The brown portions of the wings contain no band or
spots, but the base of the wing is hyaline, and
the brown portion pale. qnadripeunis, Walk.

The wings with the exception of the white tips are
wholly dark brown; a rather small species.

pvR'argoitata, Macleay.
(fof^ciata, Fabr.. according to my description, agrees
with privargentata, Macl.)

The wings like those of prieargentata, but not so

dark; a much larger species. stria, Walk,

9. Hyaline portion of the wing without any brown spot.«. 10.
Hyaline portion of the wings with brown spots. 11.

10. Wings quite hyaline, except for narrowly brown

costa. Kobriciila, Walk,

Wings faintly tinged with brown, costa moi-e broadly

brown than in i^ohricitlu; rather large species.

sobria, Walk.
Costal half of wing suffused with brown; very small

species. partita, Walk.

11. Abdomen very broad, with side-tufts of black and

white hairs; wings with foremargins brown, and
brown diffused spots below; large species.

patida, Walk. = plana, Walk.=:«?Hp/a, Walk.
Abdomen narrow, without side-tufts of black and
white hairs; wings with foremargins broadly
brown, and four small brown spots below;
medium sized species.

ycomeirica, Macq. = o/).s-r ?(»•«, Walk.
The following species I am not at present able to
identify: — C. hicolor, Macq., and C. fidviprs. Bigot. Bigot's
Lijijira ruhrifera is probably a Comptofiia."

ObHervationx. — This part of White's manuscript is ex-
ceedingly valuable, in so far as it elucidates various descrip-
tions previously found too inadequate- to allow for a determina-
tion of the species. White's group C'ow/j^o.su/ is equival.Mit to
my Lowa/n'/'fl', under which I have placed it. I have divided
the group into three genera, all of which need adju:^ting.
My Lotiiatia siibscnc.r is now referred to Coviptoxia proper.

Oiiciidncfra plaiid, Wall<<'i".

A)ithra.r phnin. Walker, List Dipt. B.M., ii.. 1849, p. 272 and
Ins. Saund. Dipt., lKr,2, p. inx.

ity (;. u. )i.\itDY. 79

Oncodocera plana, Hardy, Proc. Roy. Soc. Tasm., 1921, p. 54.
Anthrax imtula, Walk., ibidem, 1849, p. 273; and 1852, p 168.
Oncodocera patula. Hardy, ibidem, 1921, p. 53.
Anthrax ampla. Walker, Ins. Saund. Dipt,, 1852, pp. 167-185.
Oncodocera ampla. Hardy, ibidem, 1921, p. 53; pi. xvii., fig 11.
Sipionymt/. — The above synonymy is given on the
authority of White's manuscript.

Comptosia plena. Walker.

Obsertmtion. — If the characters given in White's key are
accurate, my determination of Anthrax plena. Walker, is
wrong, but a further comparison with Walker's description
leads me to believe otherwise, and on this account I think it
is possible that White extracted his characters from the de-
scription, and did not base his remarks upon specimens.

Comptosia fasciata, Fabricius.

Anthrax fasciata, Fabricius, Syst. Antl., 1805, p. 118.
Comptosia fasciata. Hardy, Proc. Roy. Soc. Tasm., 1921, p. 57,

which see for further references, and synonymy.
Anthrax prsearnentata, Macleay, in King'^s Narr. Surv.

Austr., ii., 1832, p. 468. Id., Hardy, Proc. Roy. Soc.

Tasm., 1921, p. 60, which see for further references.
Synonymy. — White probably based his identification of
Anthrax pneargentata, Macleay, upon a specimen identified
by Walker. The whereabouts of the type is not known, so it
seems advisable, for the time being at least, to accept White's
statement "fasciata, Fabr. according to my description
"agrees with prieargentata, Macl.," to be the probable solution
to Macleay's species. A. fas'ciata, Fabr., is not referred to
elsewhere in White's manuscript, so the details of White's
description are unknown.

Comptosia fascipennis, Macquart.

Comptosia fascipennis, Macquart, Dipt. Exot , ji., 1, 1840,
p. 80; pi. fig. Id., Hardy, Proc. Roy. Sec. Tasm.,
1921. p. 54.
Nenria lateralis, Newman, Entom., i., 1841, p. 220.
Comptosia lateralis. Hardy, ibidem, p. 58, which see for fur-
ther references and synonymy.
Synonymy. — According to the infornuition given by
White in his manuscript, this name, C. fascipennis, Macquart,
mu.st be given the preference over C. lateralis, Newman. I
do not know from where White could have secured his in-

OQ Nori:s ON AT silt A I. IAN I'.OMI'.Yl.IIK.K.

formation, as apparently Macquart did not correct the
orig:inal locality which was "? Monte \'ideo."

L'oinijtosid v.rtciiKU, Walker.

A»thrft.r exteii^fi. Walker. Ent. Mag., ii., 1835, p. 473; and

List Dipt. B.M., ii., 1849, p. 269. hi, Hardy. Proc.

Roy. Soc. Tasni., 1921. p. 60.
XiiD-iii extoisa, Newman, Entom., i., 1811, p. 221. Jd.,

Walker. Ins. Saund. Dipt.. 1852, p. lOT.
<'()iHj)t():<i(i Tfiirifroi's, Macriuart, Dipt. Exot., sui^pl. 4, 1850,

p. 118; pi. X, fiii'. ir.. Id., Hardy. Proc. Roy Soc.

Tasni.. 1921, p. ".<.).
S//y/o;/y/i»//.— -The abme synonymy is probably correct;
"White stated it to be so in his manuscript, and the descrip-
tions conform rather well.

Correction. — In my catalogue, in the note under C. aiiri-
frons, for "front" read "face."

Coniptosiu haailis, Walker.

Anthntx hosilix, Walker. List. Dipt. B.M.. ii., 1849, i. 207.

Id., Hardy, Proc. Roy. Soc. Tasm.,'l921. p. 00.
Neuriu baaiU.s, Walker, Ins. Saund. Dipt.. 1852, p. 107.
Anthrax dercdcus, W^alker, List Dipt. B.M., ii.. 1849. p 27L

Id., Hardy, Proc. Roy. Soc. Tasm.. 1921, p. 60.
Neuria decedcvn, Walker. Ins. Saund. Dipt., 1852, p. ]67.

Synovipiiii. — The above synonymy is given on the*
authority of White's manuscript.

Note. — From White's key and the descriptions. I am able
to recognise as this species three specimens which are from
Perth, Western Australia, and which are in my collection;
they were captured during Noveml)er, 1912.

('o)ii])tiii<i(i siil)sc)icj', Walker.

Anthrax, unbHevcx, Walker, Trans. Ent. Soc. Lon., iv., 1857,

p. 144.
Lotuatial suhscvex. Hardy, Proc. Roy. Soc. Tn.sm., 1922, p. 52.
Statit.H. — Pr'.'viously I had overlooked the line above the
<iescription where Walker referred this .species to his group
8. This reference places the species amongst the true Cnmp-
tosia, and I am now able to identify it with a common Sydney
•Species which was previously unnamed in collections.

i:v c. n. iiAKnv.

81

Description. — A rather laijie unifonuly blackish l)rown
species with soft whitish pubescence laterally, and covering
the whole ventral surface.

Male. — Eyes approximate; ocellar triangle with some
rather long- black hairs; antennal triangle black, with black
hairs and some light tomentum, especially along the eye mar-
gins. The face is covered with shining white tomentum that
is slightly stained yellow near the antennae, which have
abundant black hairs on the basal segment. The dorsal sur-
face of the thorax is covei-ed with bi'own tomentum; thei'e
are traces of white tomentum at the sides. About six
bristles are situated anteriorly to the insertion of the wings,
and a group of about six more are on the postalar callus,
but the presence and number of these bristles depend largely
upon the condition of the specimen. The abdomen is uniform-
ly brown, with a tx'ace of a margin of white hairs at the apex
of each segment, but more intensified on the first. The legs
are reddish brown. The wings are uniformly suffused brown
with reddish brown costal margin and veins. There are only
two submarginal cells, and the upper branch of the cubital
vein has a stump-formed appendix.

Female. — The characters of the female are similar to
those of the male, from which it difi'ers in the sepai'ated eyes;
the front is similar to the frontal triangle of the male in col-
our and pubescence, and the face shows more yellow, tending
to golden, hairs below the antennze.

Levf/th : 12-15 mm.

Hub.— New South Wales; Blackheath, November, 19 It),
and Como, October, 1921.

Type. — The type, according to White's manuscript, is
not to be found in the British Museum, and presumably it is
lost. The specimens described above, a pair in my own col-
lection, were taken at Blackheath on the 21st November,
1919. There are four other pairs taken in copula, and i fur-
ther seventeen specimens in the series examined.

Note. — This species is similar to C. extensa, but differs
in having white instead of yellow pubescence; the loop of
the radial vein is not quite so long, and the presence of the
appendix on the cubital vein will also serve as a more or less
reliable distinguishing character. From C. dacena and C.
sobria, it differs in the absence of the cross vein between the
radial and cubital veins as well as in colour and other de-
tails.

82 NOTES ON ATSTllALIAN r.0.MBYLllD.?3.

SYSTROPIN^.
Genus Systropus, Wiedemann.
Note. — Amongrst White's manuscript there is the de-
scription of a species for which it was intended to give new
generic and specific names. I have seen in the Melbourne
Museum specimens of the same species and they are ciosely
allied to and cei'tainly cogencric with my Syi^tropns clavi-
femorata. White's description was based upon two male
specimens sent by Mr. F. P. Spry, and were from Belgrave
and Gippsland, Victoria. Names were not given in the
manuscript, and although White stated "Gen. nov. allied to
"Systropus," he did not give particulars of what he con-
sidered to be the characters of his proposed new genus
whereby it can be distinguished from Systropus.

BOMBYLIIN^.

White's manuseript. — .... (Here comes a key to the
genera of the Bomhylins sensu luto, which has already been
published by White in these proceedings) -

"Great variation is shown in the amount of curvature
"of the radial vein, but this appears to be a specific char-
"acter only. I have examined all Walker's type species, ex-
"cept B. areolutns, but the following four species of Macquart
"are unknown to me, and I cannot at present place them: —
"Bombylms consohriuus, peveUlatus, pictipennis (should be
"easily identified by the markings of the wings), and tcnui-
"cornis, Mac(i. Of the two following, I have not the doscrip-
"tions: — B. (instraliunus and rubriventris, Bigot.

Genus DisCHlSTUS, Loew.

The fir.st posterior cell open; first basal cell much longer
than the second basal cell.

Table of AustraVmu Species of Dischistun.

1. Minute specirs, dark with whitish pubescence; radial

vein straight. antecedens. Walker.

Larger species. 2.

2. Broad tawny species; radial vein much upturned;

wings tinged yellow.

altnn, Walker —piuyuis, Walker.
Yellow species; radial vein moderately upcurved;

wings nractically hyaline. immufatns. Walker.

I'.Y C. ir. HARDY.

83

Observations. — Of Walker's nine spec-ies placed by me
under the genus Sisyromjia, four are placed by White under
Dischistus.

Dischistiis antecedeus, W&lker.

Bombijlins antecedeus. Walker, List Dipt. B.M., ii., 1849,

p. 293.
Sisyyoviifia avtecedcns, Hardy, Proc. Roy. Soc. Tasm., 1921,

p. 72.

Disclii:<tus alttis, Walker.

Bombyliiis altiis, Walker, List Dipt. B.M., ii., 1849, p. 2H8.
Sisyromyia altns, Hardy, Proc. Roy. Soc. Tasm., 1921, p. 72,
Bombylbis pingnis, Walker, List Dipt. B.M., ii., 1849, p. 29(),
Sisyromyia pivfjuis, Hardy, ibidem, 192f, p. 72.

Note. — The species labelled by me Sisyromyia piugnia in
the Macleay Museum cannot be identical with Walker's
.«:pecies, if the information gathered from White's manuscript
is correct.

Dischistus imrnKtatus, Walker.

Bombyliiis im))ii(taiii.s, Walker, List Dipt. B.M., ii., 1849,

p. 292. .
Sisyromyia immutatus, Hardy, Proc. Roy. Soc. Tasm., 1921,

p. 72.

Genus Systoechus, Loew.
White's mannscript. — "First posterior cell closed; lirst
and second basal cells of almost equal length.

Table of Australian Species of Systoechus.

1. Apex of abdomen with a tuft of dark brown pubes-

cence on each side; abdomen with a brown
band across the middle. 2.

Apex cf abdomen without side tuft.s of pubescence;

abdomen not banded. 3.

2. Pubescence of abdomen pale brown.

crassus, 'Wa\k. = i)lnt!iin its, Walk.
Pubescence of abdomen white.

I'lctustns, Wii\k. = ^srricavs, Macq.

3. Pubescence of abdomen golden. di.^tiuctus, Walk."

Observations. — It is possible that Choristus will have to
take the place of Systa'chus, but as the type species is not
known to me, I refrain from changing the nanies for the pre-
sent. White seems to have overlooked Choristus bifron.t,
Walker, as his manuscript is without refei-ence to it.

g4 .\OTi:S ON AISTKAMAN T.OM I". VI.I IP.T..

Sifstvechiis australis, Guerin.
Domhylms anstralis, Guerin, Voy. Coq. (2) ii., 1830, p. 2it4;
pi. XX., fig. 4. Id., Hardy. Proc. Roy. Soc. Tasm..
1921. p. 75.
Note. — According to the descripticMi and illustration,
this species could be either a Bombi/liKs or Siisf(vchns. Four
specimens of the latter genus, from Sydney, agree with the
curvature of the radial vein, and with the very long palpi,
both of which characters in the illustration ai-e unknown to
nie within the genus Douihifliiis. Other characters given in
the illustration are not reliable, and are due to inferior
drawing; even the colour is unsatisfactory, as the copy of the
work in the Australian Museum shows the insect to he uni-
form, and dark in colour, whilst that in the library of the
Linnean S(;ciety shows a brighter insect, with light stripes
at the sides of the thorax.

I propose to utilise the name for four specimens (:> J t? • 1 V )
which are in my collection, and were taken in the vi- inity
of Sydney. These specimens differ from the illustrations
in colour, but agree with the description and the illustration
moderately well, allowing for the inferior drawing, and they
are the only specimens known to me in this ^^x allied genera
that have the very long palpi.

Genus Sisyromyia, White.
White's mfDiiiscript. — "F'irst posterior cell open; first
and second basal cells of almost equal length.

Table of Anfttraliau Species of Sisuronmid.

1. .\pex of abdomen with a tuft of black pubescence

on each side. 2.

Apex of abdomen without side tufts of black pubes-
cence. «^-

2. Yellow haired species. tetidtriclnis. Walker.
.*$. Abdomen with a yellow or white centre stripe. 4.

Abdomen without a centre stripe. 7.

4. Centre stripe bright yellow.

(Ill I (it us. Walk. — cni ss lios t ris , M acf |.
Centre stripe while. 5.

r>. Wings with the costal half brown, remainiler hyaline;
legs altogether red; abdominal pubescence dark
tawny. deeordtiis, Walker.

Wings hyaline, or with only the costa brownish, and

not clearly divided a« in dvconitio*. 6.

i:v <:. 11. ii.\ui>Y.

85

6. Bright reci-haired species.

rutilus, Wiilk.= ?albicinctus, Alacq.
Fulvous haired species. albivitta, Macq.

(Position doubtful, but probably belongs here).

7. Yellow hailed species.

breinroHtri!^, ^lacq. = CHlahiaius, Bigot.
Type denuded, a small species from Swan River, re-
sembling brrrirostris, but costa more broacHy
brown, though not extending to the tip.

pvimogenitufi. Walker."
()l>srirat'iniiK. — Four species, jjiiif/uis, alias, u)iteccdens,
and inintnfafns, Walker, which were placed in my catalogue
under this genus, are now referred to DischiNtiift. White
queried B. cdbicinctas, Macquart, to be the same as D. aura-
tits. Walker, but Macquai't states "abdomine albo fascialio . . .
"quatrieme segment de ce dernier a longs polls blancs au bord
"anterieur . . . premiere cellule posterieur fermee . . . ,"
all of which does not agree with White's suggestion.

Sisyromifia auratus. Walker.

Bombt/Uiis nin-atiis. Walker, List Dipt. B.M., ii., 1849, p. 289.
Sis!in))iiiii(i (iiDatus, Hardy, Proc. Roy. Soc. Tasm., 1921,.
p. 71, which see for further references and synonymy.
BovibijUns nitilus. Walker, ibidem, p. 289.
Sisijyoimjia rutilus. Hardy, ibidem, p. 72.

Sifiioii 1/1)11). — It seems evident from White's description
that B. rntilits. Walker, is one of the forms placed by me
under the name Sisyromyia auratus, Walker. Possibly fur-
ther study will result in the separation of this series into
more than one species, but tbere are no described characters
that will enable this to be done at the present time. I have
recently detected some differences in the palpi that possibly
may he of s|)ecific value, but the material available for study
is neither sufficient in numbers nor good enough in condition
to verify the points.

Genus BoMBYUUS, Linnajus.

White's niauiiscriiH. — "First posterior cell closed; first
basal cell longer than the second.

Key to the Species of the (units Boiubi/lius.

1. Abdomen fringed posteriorly with white; wings with
costa! half brown, remainder hyaline.

Ii ilaris, Waikt r.
.\l)domen not fringed with white. 2.

gg NOTES OX ATSTRAMAX r.OMr.YMIO.i;.

2. Golden haired, very small species; abdomen without

any black hairs. chryse-iidctr(s. White.

?)}auuf>, Walker.
Fuscous haired species. 3.

3. Face in male narrow, about the width of one eye;

legs pale red. fnscanus, Macq.

Face in male broad, about the width of two eyes;

legs dark reddish black. palUolutus, White.

The type of B. matutinus, Walker, is in too bad condi-
tion for identification ; the face is narrow, and it can possibly
be fnscanus. Another specimen named matittimts in the
Museum collection is B. palliolatiis and quite distinct from the
type."

Obscri^ations. — White seems to have overlooked B.
vidims, Walker, and he states that he did not see B. anreo-
latus, Walker. Beth species have been recognised from

tTieir descriptions, and have been placed suitably in my cat-
alogue.

No alterations can be made under the genus in my
catalogue at present, but the discovery of a single specimen
of B. fuscavus, Macquart, collected in the vicinity of Sydney,
makes it desirable that three names of described species
should be reconsidered, namely, B. vmtutimts and temdrornij-i,
Walker, and B. consobi-inns, Macquart. B. cmstralianus.
Bigot, is undoubtedly the same as my identification of B.
tenuicornis, Macquart, under which Bigot's name was })laced
as a synonym.

87

AN EXPERIMENTAL METHOD OF PRESENTING THE

PRINCIPLES DETERMINING THE GENERAL

PROPERTIES OF OPTICAL GRATINGS.

By a. L. McAulay, B.Sc, B.A., Ph. D.
(Read 6th August, 1923.)

In a laboratoi'y which is not well equipped with modern
optical instruments, the actual appearance and meaning of
many of the phenomena whose theory is studied is not in the
least appreciated. This seems especially the case in con-
nection with the elements of the more advanced theory of
optical gratings, and with the theory of interference spectro-
scopes.

The following presentation is an attempt to provide a
set of experiments, made with fairly cheap and simple
apparatus, which shall illustrate the various effects that
produce the phenomena exhibited by an optical grating, and
includes such simple theoretical discussion as is necessary to
understand the experiments.

In the course of the experiments the effects that
determine such things as the resolving power of a grating,
the intensity of the spectrum of a given order, and so on, are
directly observed. At the end of the paper the results
b^jtained in the discussion are applied to the cases of the
ordinary plane grating and the Michleson Echelon.

SECTION 1. APPARATUS.

The arrangement of apparatus is shown diagrammatically
in Figure I. G is an ordinary metallic filament electric lamp
of about 60 candle power, enclosed in a box which is fairly
light tight; a kerosene tin lying on its side, with a black cloth
over one end, and a window cut in the other serves the pur-
pose very well. A is a vertical slit placed against the
window. It should have good straight jaws, and be ad-
justable. Considerable use may be made of this adjustment,
for some purposes it is convenient to have the slit very much
wider than for others. It is best to have a large diameter
short focus lens in the box to diffuse the light falling on the

S8

i-KOI'lMlTIKS Ol' ni-IICAI, (;UATIN<;S.

slit. B is a short focus k-ns. It nnist be well correctL'd for
chi-omatic aberration, as it must work with a fairly large
diaphrasini. A synuiietrical camera lens by Beck of about
2S cms. focal length, working at FH, proved very satisfactory.

n

-— H-

CD

T^u

re

C is another vertical .slit. Its jaws must be good, and it
should be fitted with a micrometer adjustment enabling its
width to be measured. Otherwise, some such device as

closing it on a piece of metal foil whose thickness is after-
wards measured by a micrometer must be employed to de-
termine its width. D is a wire grid, made by soldering
togethei' a metal rectangle, two sides of which are screws of
tine pitch. Twenty-two gauge copper wire is wound round
the rectangle over the screws, thus foiniing a double grid of
the same pitch as the screws. The wire is next fa.stened to
the rectangle with sealing wax, and the strands on one side
cut away. In this way a grating of 22 lines, of pitch .7(5 mm.,
was nuifle. and ))r(>ved satisfactoiy. E is a telescope lens,
corrected foj- (hronjatic a'lerration. of about a nu'tre ftx-al
length. I' is a micrcmeter eyepiece in whose lield the
j)henoinena to be described are observed, and by means of
which distances on the (liffraction patterns are measured.
An ordinary eyej)icce and scale could probably be made to
serve.

.^KCTION 2. AD.irSTMFONT.

A is opened to about a third of a millimetie, and B ad-
justed to render light from A |)ar«'llel. (' and I) a<-c re-
moved, and F. and F so arranged that A is sharply focussed
along the vertical crosswire of F. I{, K. and F should be
sufficiently well corrected to give a brilliant image of A with-
out strikintc aberrations.

BY A. L. HcAULAY. Tl.Sc. H.A.. Ph.D. 83

SECTION 3. DIFFRACTION PATTERN DUE TO
SINGLE SLIT. VISIBILITY CURVE.

The slit C is first completely closed, and then siowly
opened. When its width is about .1 mm. tha field of the eye-
piece is seen to be slightly illuminated. On increasing its
width the illumination increases, and at a csrtain stago dark
vertical bands appear, one from' each side of the field, and

Tt

^!±I£.

H

move towards the centre. The slit is opened till it com-
pletely uncovers one aperture of the grid D, i.e., until its
width is about .4 mm. The appearance is now as indicated
in Fig. II., where abscissai represent distances from the cross-
wire of V, and ordinates the intensity of the light. This
curve in what follows will be referred to as the visibility
curve.

Measure the distance, f, from E to F, the width of the
slit, e, and with the micrometer eyepiece the corresponding
distance, 2d. between the first njinima on the visibility curve.
Repeat with* three diffex-ent slit widths, ending by op;.>ning
the slit till one whole aperture of the grid is exposed. Show
that in each case <i^^ f/e. "here /\ is the mean wave length
of the light used (about •' x 10-'> (.,„!,.)

90

PUOPERTIES OF OPTICAL GRATINGS.

TTic^uye WL

KY A. L. McAULAY, B.Sc, B.A., Ph.D. C)l

SECTION 4. THEORY OF SECTION 3.

Figure III. shows diagramniatically the slit D and the
lens E. Light falls on D normally, and therefore leaves
every part of it in the same phase. Consider a beam leaving
the slit at an angle 0 with the direction of the incident light.
The distui'bances over a plane such as q perpendicular to this
direction will be brought together by E at Q, the point at
which a wave front at q would be focussed. The disturbances
over q at any instant will, however, not be in exactly the same
phase, and it is the combined effect of a set of out of phase
waves that will produce the illumination at Q. Let p, P be
the wave front, and focus for & = o. It is obvious that
this is the position of the image of the slit, that is, it is on the
vertical crosswire as adjusted in section 3.

It is required to investigate the illumination at Q when
Q takes up different positions. For this purpose the slit
D will be thought of as made up of a large number of ele-
ments, and the combined effect of the wave trains from each
will be considered. The waves arriving at Q will be re-
presented as vectors in the usual way, and, as there are an
equal number of wave lengths between each element of q and
Q, a vector drawn for q will equally well stand for the effect
01* the same wave train at Q. a and b are two adjacent ele-
ments of the slit. Then obviously the path difference at q
of the light coming from a and b is .ib sin 0, and the phase

difference of the wave trains at q (or Q) is ab sin 6.

Now V(i = f sin 0 = <\. Therefore, the phase difference be-
tween the wave trains is -
to the distance of Q from P.

tween the wave trains is —a'. — r^ i.e., it is proportional

Consider the vectors representing disturbances from suc-
cessive elements as short rods hinged to each other at the ends
(see Figure IV.). Then the line joining the ends of the
composite rod will be the vector representing the resultant
effect of all the elements. At P the waves are all in the samo
phase, the jointed rod or chain lies stretched out in a straight
line (Figure IV. 1), and the resultant is the arithmetic sum
of the components. At Q, from what has been said nbovo,
wave trains from adjacent elements will have a phase differ-

once of " ai. . ^ ila say, i.e., each section of the chain will

A t

make an angle of ,]n with the one next to It. Obviously,

92 iMioi'KKTiHs or orxn'AL chatinws

V • 3 •

2 \ '^n^

i

/

/

A

lw^»^

.<-. \(Si

' — 5

if \

Ftqure JST

if there are n elements, the angle between the end v.'ctors

will be '"'^"ai.' -ii.ia = a and as n ab = e— the width of

,\ f

the slit a= -"'' ''• Figure IV., 1, 2, 3, 4, and 5, show the

.\ f
chain of vectors for a = o, n, 'iw. ^ir, itr. Remembering that
the resultant is the line joining the ends of the chain, it is
easy to see that the visibility curve must have the general
form found for it in section 3, Figure II. It must not be
forgotten that the intensity of the illumination is proportional
to the square of the amplitude of the wave, while the vector
represents the amplitude. It is evident from a consideration
of Figure IV. that the first minimum of the curve will occur

when a -In which gives as found experimentally d = or

e

•! fin ^ X. A more complete theory (see Schu.ster, Theory

of Optics, p. 99 et seq.) shows that the expression giving the

form of the visibility curve is I -:: '.. f*""' '^'f 1 where I
is the intensity, I . a constant and a "" '• Hin tK

1!Y A. L. M.AILAY, H.Sc. IJ.A.. IMi.l). 93

SECTION 5. THE TWO LINE GRATING. POSITION

OF SPECTRA FORMED BY A GRATING.

The slit C is widened till a second aperture of the
grid begins to be uncovered. When a very narrow strip is
uncovered the pattern of section 3 is still clearly seen in the
eyepiece F, but it is furrowed by dark lines. A typical curve
connecting illumination with distance from the crosswire is
shown in Figure V. 1. On further widening the slit till the
vv'hole of the second aperture is uncovered, the dark bands
deepen, and the pattern splits into bright strips, all but the
centre one being coloured at the edges. The colour ", are dis-
persed more the further the strips are from the crosswire.
These bright strips with coloured edges correspond to the
spectra formed by gratings, and are, in fact, the spectra
formed by a grating of two lines. Figure V. 2 shows the
way in which V. 1 would develop on widening the slit. As
will presently be shown, these spectra should be evenly
spaced. Measure the distances of their centres from the
centre of the central uncoloured sti-ip with the micrometer
eyepiece, and calculate the corresponding values of «iii o. 0
having the same meaning as in the last section. It will be
noticed that some gaps are double others, indicating that cer-
tain spectra are missing. This is due to the fact that they
should appear where there is a minimum of the visibility
curve, and where c:;nsequenlly there is no light available for
their production. c Figure V. 2 represents such a case.

Draw and dimension curves similar to Figures V. 1 and
V. 2 from your observations, and compare them with the
dimensioned visibility curve you obtained as in section 3.
Make a special note of any spectra that are missing. Com-
pare the values you obtain for sin 0 for the centres of the

spectra with '" ' where 1 is the distance between two

successive apertures of the grid, m is an integer, and A is a
mean value for the wave length of white light, ray •' x 10— ■>
cms.

SECTION (5. THEORY OF SECTION 5.

The case taken for con.'-ideration is that observed when
the two apertures are equal in width, i.e., when two complete
apertures of the grid D are uncovered by the slit C. Con-
sider the illumination at a point on the field uf F correspond-
ing to an angle of diffraction o. Then from what has gone
before, the illumination due to each slit separately is that

PBOPBBTIKS OV OPTICAL OKATINGS.

Tujure Y"

^^[\.

BY A. h. McAlLAY. B.Sc. H.A.. ThD. 95

given by the ordinate of the visibility curve, -and these two
beams will combine to produce illumination on the field.

X>

Tt<}ii.Ye yl

If the distance between corresponding points of the two
apertures is I, the phase difference between the two beams

is evidently - '^ Uin 6 (see Figure VI.), Thus the two
beams will completely interfere when rJT i ^ilI t) = tt '2 m-l)
where m is an integer, i.e., where -in 0 - ' '" ~ • The
centres of the bright bands or spectra evidently come where
2 tt/X 1 ,siii<? -2 111 TT, i.e., where .-in 6> -l^-Jm — . The

1:: I i

spectra formed for m = l, 2, 3, etc., are cailed first, second,
third, etc., order spectra. If the value of sin 0 = '-!!— is

such that it coincides with the value for a minimum of the
visibility curve, the spectrum will have zero intensity. Ob-
viously in general, the intensity of the spectra will depend
on the position they happen to occupy in the visibility curve,
and this depends on the ratio of the pitch of the grating, 1, to
the width of the aperture, e.

The abcve discussion has been concerned with aomo-
geneous light. In the case of white light, each colour forms
its spectra in a different place, determined by the value of
'\ ; hence the colour effects at the edges of the spectra.

SECTION 7. GRATING WITH MORE THAN TWO

LINES. SECONDARY MAXIMA, ETC.

Widen the slit C till three apertures of D are opened and
observe the appearance of the pattern in the field of F. Next
uncover four apertures, then five and six. Finally, remove
the slit C so that the whole of D is effective. D should con-

gg I'KOrEKTlKS OK OPTICAL (iKATlNOS.

sist of about twenty apertures. As more slits are uncovered,
it will be seen that the spectra, although their centres remain
unchanged in position, become narrower and sharper, and the
colours purer, and no longer confined to the elges. Also, in
the dark regions between the spectra, now wider than before,
secondary maxima appear. These are much narrower and
fainter than the spectra themselves. It will be found that
if N is the number of apertures exposed, the number of sec-
ondary maxima is N — 2. They can readily be counted, for
N = 3. 4 and 5, but after that, become rather too faint and
close together. On replacing the white light of the lamp by
a sodium flame, it will be seen that the spectra are now quite
narrow lines. This was, of course, indicated by the purity
of the colours in the white light specti'a.

Draw curves as in section 5, Figure V., and dimension
them tc show the positions of the centx-es of the spectra, the
width cf the dark bands separating them, and the positions
of the secondary maxima. Verify that the positions of the
spectra have not changed on increasing the number of
apertures.

SECTION 8. THEORY OF SECTION 7.

Fcr simplicity, the discussion will be confined in the
first instance to illumination by homogeneous light. As in
section 6, the visibility curves from the different apertures
are superimposed, and the illumination at any point is I'mited
by the ordinate of the visibility curve.

Consider first a grating with a large number, N, of lines.
Let E be the total width of the grating. It may be looked on
as an aperture of width E divided into N elements. Figure
III, of section 4, represents this case as well as the case of a
slit. The scale i?, however, different. The whole discission
of section 4 will also be seen to hold, but instead of there be-
ing an infinite n imber of elements supplying 'ight, there is
a large finite number. E is much larger than e, and there-
fore the distances from P of corresponding parts of the
diffraction patter.n are much smaller, and instead of a broad
central band, there will be a fairly narrow central line
flanked by secondary maxima, the whole phenomenon being
confined to a very narrow region near P. The Tirst minimum
occurs where •! f X /K or calling d f (the very small angle
which separates the maximum from the minimum) •l'' it dccurs

I'.

TiY A. L. McAlLAY. r..Sc., B.A.. Pli.D. 97

The essential difference between the two cases lies in the
fact that en further increasine: '^ in the case of the j^rating,
a point is reacherl where the resultant disturbance from one
clement diflers frcaii that from the one next it by exactly one
wave length, i.e., the disturbances over q (Figure III.) are all
in phase again. This is evidently where 1 a'lu 0 ^ \ (see
Figure VI., section 6), and results in the first order spectrum.
This can never occur for the slit, because the elements are in-
finitely close together, and 1 = 0,

Refer to Figure IV., section 4, and consider the illumina-
tion at a point Q, as represented by the distance between the
ends of the jointed rod or chain. As Q moves away from P,
the chain passes through the stages 1, 2, 3, 4, and 5, and then
continues ceiling up on itself, the successive maxima becom-
ing smaller and smaller. In the case of the grating, there
comes a point where one .section is turned back compl'^tely
ever the cne next it, and a further rotation of the sections
begins to uncoil the chain once more, the uncoiling continuing
till one section has turned through 360 degrees relatively to
the one next it, and the chain is again stretched straight out. It
is here that the first order spectrum is found. In the case of
the slit the sections being infinitesimal, the chain continues
to coil up for ever, degenerating to a point when Q reaches
infinity.

The above shows the reason for the existence of the
spectra and the secondary maxima near the central line,
but a little further consideration is needed to extend the dis-
cussion to the region in the neighbourhood of the spectra and
to find the position of the first minimum associated with a
rpectral line.

Referring to Figure VII., p is a wave front of the beam of
rays which goes to form the central maximum of a spectrum,
and q is the plane normal to the bundle which is united at the
first minimum flaniiing the spectral line. Then the dis-
turbances at C on both p and q are in the same phase, and the
disturbances at C and B are in the same phase. Therefore,
the phase difference between extreme rays of q is the same
as the phase difference between B and D which is evidently

"- [K sin (0 + <\ 0) - \: r-iu 0]. i\ 0 is Very small. Identifying

C'PH >\0 witli 1 mikI (-ill <!/' wiili i\(), this expression becomes

^ ]•: CO.* e (1 0. F'rom section 4, Figure IV., the first mini-

mum occurs when the phase difference between extreme rays

of 11 i» 2 IT, i.e., \\\<''n ~^ Ei-'^s II d e-^-l IT or when A O = —

K co« tf.

98

•KOI'EUTIKS or Ol'TICAI OUATr.SCS

SECTION 9. COMPARISON OF THE EXPERIMENTAL

RESULTS OF SECTION 7 WITH THOSE FOUND
THEORETICALLY IN SECTION 8.

Using methods similar to those of section 4, and dia-
grams of the nature of Figure IV., find the number of second-
ary maxima that should appear between spectra given by
gratings of 3, 4, and 5 lines. Roughly estimate their posi-
tions with respect to the specti-a, and compare your results
with those obtained experimentally in section 7.

SECTION 10. APPLICATION OF THE FOREGOING TO

THE CASE OF THE ORDINARY TRANSMISSION AND

REFLECTION GRATINGS.

The plane transmission grating consists of a transparent
surface closely ruled with lines; 15,000 lines to the inch is an
average spacing. In such a case, a transparent aperture will
have a width of roughly lO^-* cms. The light from these
apertures passes through a lens, and is focussed, all the in-
dividual visibility curves being superimposed. The angle
through which the central maximum of the visibility curve

extends on one side of the centre is given by sin e = ~- (see

sections 3 and 4). Here therefore hiH 0 •; • lO-«)/(l x 10-<),
i.e., it extends over more than 30 degrees on either side of
the direction of the incident light. The form of the curve

UY A. L MoArLAT, B.Sc.. B.A., Ph.D. 99

will not be exactly that deduced for smaller angles owing to
the influence of obliquity, but the error introduced will not
be large.

The spectra will appear at positions given by fin e

in \

(section 6), or if :^ is the number of lines per cm. sin 9~
and their intensities will be as the ordinates of the

10
visibility curve for corresponding values of 6.

The resolving power of a grating is defined as the re-
ciprocal of the fraction of a wave length that separates two
spectral lines which the grating can just exhibit as distinct,
that is, if the lines have wave lengths X hiuI ,\ -,- d A the re-
solving power is ^_- Experience indicates that if the maxi-
mum cf one line falls on the first minimum of a line adjacent
to it, the two lines can just be recognised as distinct This,
therefore, is taken as the criterion of resolution. Let two
lines that a grating just resolves have wave lengths \ "lul

X + (1X. Then as .sin 0= '" ^' ^ (section 6) c<,.s ^ d e = '" ^' ''^

10

ainl (1 6, the angle by which they are separated is
ni N (1 X /lO cos 6. Now the angle between the maximum of
a line and its first minimum is (16= (section 8).

10 C...S 0

Then, as the two lines under consideration arc just resolved,
these two values of d fl must be equal, and , — -^

I', i-os o \'j ci)8 a

or - luN, i.e., the resolving power is the pi'oduct of the
il X

order of the spectrum, and the total number of lines in the
grating.

The foregoing discussion applies equally well to reflection
grating?, and with slight modifications to the case of obliqut
illumination.

References.

Baly, Spectroscopy, Chap. VI.

Houston, Treatise on Light, p. 171 to p. 180.

Questions.

In a certain transmission grating the transparent spaces
are the same v/Jdth as the opaque spaces. Where on the
visibility curve do the second and third order spoctra lie?

100 rHOI'KRTIKS OK OlTKAl- OIlATINflS.

Why cannot a two line grating resolve two specti-al lines

for which is less than 6, although the expression ob-

tained above would give G as ths resolving power in its third
order spectrum?

SECTION 11. APPLICATION TO THE ECHELON.

In this instrument some twenty plates of optically plane
parallel slabs of glass, all accurately of the same thickness
(about 1 cm.), ai'e piled above one another, each one over-
lapping the one beneath it by about a millimetre. Light is
passed normally through the pile, emerging from the over-
lapping ledges, which behave as the clear spaces of a grating,
the beam coming from one ledge being retarded many
thousands cf wave lengths behind that from the ledge next
it, owing to its passage through a greater thickness of glass.
The spectra observed are thus of about the tsn thousandth
order.

The following brief discussion should be supplemented by
reading. Treatments will be found in Schuster, Theory of
Optics, p. IIG; Baly, Spectroscopy, p. 190; Wood, Physical
Optics, p. 274; and in other text books.

Figure VIII. shews two plates of an echelon. HL is a
wave front for wave length ^ in the m th order.

The Visibility Curve. — The width of the slil is about 1
mm. Thus (sections 3 and 4) the breadth of the central
maximum of the visibility curve is given by - 0 wln-ic «iii ft

X/e <V'<JO~' Therefore -iff- about 4 minutes. Out-
' 1 .; 1".-'

side this narrow range the spectra have not v.ufficicnt inten-
sity to be observed, consequently the echelon is only useful for
examining the fine structure of a spectral line or determining
the separation of two lines very close together.

Separation of the Orders. — Let HK (Figure VIII.) be a
wave front for wave length \ m 'In- m + I th order, e is
about 1 mm. Therefore, •\ (> l.K/IIL \/e the angle

between the two orders, is about !_? ^-L. i.e., is half the

•1

breadth of the central maximum of the visibility curve. The

result is that there are in general two orders of every wave

length in view in the field, and that the different lines are

piled on one another in an inextricable jumble. It is, '.here-

BY A. L. McAfLAY. n.Sc. I!. A.. IMi.D.

101

fore, necessary to use the echelon in conjunction wi .'i an
ordinary spectrometer or other device for selecting a narrow
range of wave length.

S

e

— ■m"

— r

L
K

rMt«i--»e inn.

Dispersion. — Let HK (Figure VIII.) be a wave front of
wave length \ + <i \ of the m th order. From general con-
siderations, it is obvious that the dispersion will be large, for
if the refractive index of glass were a constant, LK would
equal m ci ,\ [the ray BL would have an optical path m X
and the ray BK a path m i\ • <1 \) longer than the ray AH],
and thus with m lii;;cil^^ must be relatively large. Actually
the conditions are complicated by the fact that m is a func-
tion of \, fj- being the refractive index of glass. It can very
easily be shown, however (see references above), that the di.s-

persion .1 o\\ \ '" ' '' >^''^ ^

Resolving Power. — Evidently to find th*^ angle, <1 '>.
between the maximum of a spectral line and its first mini-
mum, the discussion of section 8 holds without alteration, but
with the restriction that 0 is always very small, and there-
fore that c(p« tf ', very nearly. Therefore, .1 (' ^

102 PROPKRTIKS or OPTICAL GKATINQS.

This is also the angle between the maximum of the X
line and the maximum of one of wave length X + <1 X which
is just resolved from it (see section 10), and this is given
by the expression for the dispersion obtained in the last

paragraph. Equating these two values of d 0, '" •^~*-'' ^

e

= _ and E = Ne where N is the number of apertures. There-
j-;

fore, _ N/in-— ':' tl Now t a n/d X is almost always
<i X \ d X •/

less than .1 of m. Thus the resolving power is given very

nearly by Nm, the same expression that holds for the ruled

grating.

103

A NOTE ON THE KING ISLAND EMU.

By H. H. Scott,

Curator of the Launceston Museum.

(Read 8th October, 1923.;

The present note is to be regarded as being strictly
additional to the published data of Spencer and Kershaw
(1910). To recapitulate, it may be said that the authors
quoted describe Dromseus minor in the following terms: —
"Size varying considerably, but always smaller than that of
"D. novse-hollandix ; not exceeding that of D. peroni, but of
"more robust build. Tibio-tarsus rarely exceeding 330 mm.,
''most usually from 270-320 mm., in greatest length. Tarso-
"metatarsus rarely exceeding 280 mm., most usually from
"220-280 mm. in greatest length. Frontal region of skull
"dome-shaped. Length of skull from frontal suture to
'^occiput not, or only slightly, exceeding 60 mm. Greatest
"width of the skull not, or only slightly, exceeding 55 mm.
"Habitat: King Island, Bass Strait. Now extinct." The
range of measurements here given is wide, and it must be
noticed that the exact ratio between the tibio-tarsus and
tarso-metatarsus cf any single bird is not stated. As a
matter of fact, I happeii to know that the material Spencer
and Kershaw worked upon did not contain any three leg-
bones that were beyond all question associates — neither did
they hold any two that they could be certain were parts of a
single bird. In these circumstances the notes I am here putting
upon record should be welcome ones, as they detail the
osteology of various bones, found buried in actual »osition,
and beyond all doubt parts of a single individual Emu.

FEMUR.

The total length of the femur is 189 mm., the right being
here taken, as it is a shade longer than the left. Both bones
are in good order, and could not have exceeded 190 mm. at
any time. The proximal width is 48 mm., and the distal 55
mm. It is of interest to note that Spencer and Kershaw
place their maximum femur at a total length of 186 mm.
We are, therefore, in pos.scssion of a maximum test bone
upon their scale — a mo.st fortunate circumstance, as it
enables us, by a process of comparative ratios, to get a fair
idea of the total height of a fully adult and apparently well-
developed King Island Emu.

J04 * XOTK ON TIIK KIN(; ISLAND KMl'.

THE TIBIO-TARSUS.

The tibio-tarsus of our bird is only 2S5 mm. long,
with a proximal width ot 58 rniTi., and it distal width of 34
mm, Now, this agrees with number 25 of Spencer and
Kershaw's list, whei'eas the femur practically agreed with no
one! Obviously, therefore, either a maximum femrr of
this King Island Emu has not yet been found, or the ratio
of the tibio-tarsus to femur was not constant, and that
suggests sub-racss, since the actual variation between speci-
mens one and twenty-five is 109 mm. — far too much for sex
variation. The actual maximum specimen of the published
list is the property of the Launceston Museum (it was lent
for descriptive purposes), and is therefore available to me
at the present time. This tibio-tarsus has a proximal width
of 73 mm., and therefore must have carried a heavier femur,
since this is 15 mm. wider than our associate of the femur
detailed above. It is not fair to claim the whole of this 15
mm., since the hamular process of the larger specimen is very
robust; but at least 10 mm. of articular increase may be
fairly assumed to have_ existed.

TARSO-METATARSI.

Both tarso-metatarsi are present, and, as obtains in the
case of the other associates, they are in beautiful order.
The greatest length is 237 mm. This falls into Spencer
and Kershaw's list at about folio No. 25, and therefore agrees
exactly with the tibio-tarsal position. The proximal width
is 39 mm., and the distal width, 42 mm.

From these comparisons we are led to infer that our
lists of tibio-tar.ii and tarso-metatarsi of King Island Emus
are more complete than that of the femora, but that, upon
the whole, our conceptions of the actual sizo of the birds
are fairly accurate. Spencer and Kershaw's remarks,
quoted above, respecting variation in size, are accentuated by
these notes; indeed, it is rather hard to account for all the
variations among adult specimens by individual and sex-
variation alone; and, unless wc call in insular environment
as a potent factor, we are without a solution of the problem.

THE EXTINCT TASMANIAN EMU.

Of the extinct Tasmanian Emu I have to record the

finding of a tibio-tarsus, which was recovered from the

Pleistocene swamp at Irish Town, N.W. Tasmania, during

some draining operations carried out in 1920. Our

ISY II. If. SCOTT.

105

Museum is indebted to Mr. Willes, of this city, and to the
finder of the bone — Mr. E. H. Fenton — for this interesting
specimen, which, from its long immersion in the swamp, must
be, beyond all doubt, the leg-bone of a Tasmanian Emu.
Unfortunately, the bone is broken at its pi'oximal end, the
shaft terminating 44 mm. below the femoral articular plat-
form. If the amount named be allowed for, it exactly agrees
with a second similar-sized bone to be dealt with presently.
If allowance is made for the cnemial crest, 75 mm., instead
of 40 mm., should be added to the present length. Put into
tabular form, we get: —

Total length of the imperfect bone . . . . 371 mm.

For restoration to articular platform allow 40
mm., or to the top of the cnemial crest, allow
another 35 mm. — total . . . . . . . . 75 mm.

Total for the greatest length of the bone 44G mm.

This tibial length (446 mm.) gives the Tasmanian Emu
exactly the maximum mainland tibial length (as cited by
Spencer and Kershaw upon page 21 of their brochure), but.
as I shall show presently, the variation incidental to the
insular species was more tarso-metatarsal than tibio-tarsal.
The point to be noted here is that the bone is beyond all
question of Tasmanian origin, since its inclusion into the
peaty matrix of the swamp was certainly at a much earlier
date than that at which any mainland Emus v,^ere imported
into Tasmania, and therefore it stands as the earliest
known specimen of a Tasmanian tibio-tarsal shaft.

I have next to mention the finding of the leg of a Tas-
manian Emu, recorded by Ronald Gunn (1852, p. 170), who
says: — "A leg of a Tasmanian Emu is now in my possession,
"and as far as I can judge from it, as a very imperfect
"specimen, there are differences in the arrangement and
"size of the scutes, which may justify the separation of the
"Tasmanian Emu from that of New Holland." A footnote
supplied by the secretary of the Royal Society — Mr. J.
Milligan — says: — "Captain Hepburn, of St. Paul's Plains,
"possesses a breed of Tasmanian Emus, which he succeeded
"in rearing from eggs found many years ago upon the
"high, heathy land in his vicinity. Mr. J. Hepburn informs
"me that the booming noise is not peculiar to the female, and
"that the male bird does, though not frequently, make the

106 ^ NOTi: o\ Tin; kinc island i;.\ii .

"same sound. The Tasnianian Emus share the toils of
"incubation between the sexes, but upon the mothei- devolves
"the care of brinpring up the young brood, to which the
"male parent, for the most part, displays an unnatural and
"most bitter antipathy." After resting in the cellar of New-
stead House for some 70 years, this Emu's leg has now come
to light again, and is upon the table before me as I write.
Gunn's statement that the scutes make a depai'ture from
those of the mainland Emu's leg is quite correct, when com-
parison is made between the dried skin of his specimen and
that of a mounted Australian Emu shown in our case. It
will be noted, however, that Gunn makes the reservation, "so
"far as I can judge from a very imperfect specimen," mean-
ing, obviously, as the specimen still shows, that the outer
cuticle has peeled off the scutes, and, in this condition, they
appear far less developed than obtains with the Australian
Emu. That the scutes should vary upon the tarso-meta-
tarsus, during the creation of a species, and, indeed, that
the bene itself should vary more than the other bones of the
leg, is not unexpected, since the tarso-metatarsus is a later
evolution than either the femur or tibia, and is therefore
more plastic, and accordingly responsive to external condi-
tions. Just how much the scutes varied, cannot be accurately
stated to-day, any more than it could by an examination of
the specimen 70 years ago, so we are restricted to Gunn's
.statement in his own terms, which personally I am inclined
to accept; and I conclude that the cuticle and its under
layers may very well, during life, have manifested differ-
ences that added to the several specific characters of size
and colour. As this leg is beyond all question that of a
Tasmanian bird, it supplies us with the following com-
parison:—

Tibio-tarsus . . . . . . 44() mm.

Tarso-metatarsus . . . . ;{77 mm.

The femur is not present, and may never have been in
Gunn's possession, but the central and external toes and
part of the internal toe, are .still in tht skin — the bones
being those of a right leg.

When the tibio-tarsus from Newstead House is placed
upon the measuring plate, side by side with the sub-fossil
bone recovered from the Irish Town swamp — the one being
a right, and the other a left — the two bones so exactly agree
in every respect that, except for locality and age, they
might be selected as associates.

I'.Y II. If SIOTT.

107

There are thus available to students two tibio-tarsi, one
tarso-metatarsus, and a nearly complete foot of a Tasmanian
p]mu, which are beyond all question correctly named, and
which cannot be derived from Australian Emus introduced
into Tasmania.

Whatever the variations in colour, plumage, and dennal
scutinj? may have been, it would appear that the tarso-
metatarsus was relatively shorter in the Tasmanian, than
in the mainland, form. In a specimen of Dromams nova.'-
hollundiii, with a tibial length of 446 mm., we should look
for a tarso-metatarsus of 411 mm., instead of one of 377 mm.,
as in Gunn's specimen.

Much historical data have been published by G. M.
Mathews in regard to both the Tasmanian and the King-
Island Emus ; and as this work is commonly available, it need
not be even quoted here.

LITERATURE CITED.

1852. R. Gunn — Papers, Royal Society of Tasmania,
1852. Vol. II., p. 170.

1910. G. Mathews— Birds of Australia, Vol. I.

1910. Spencer and Kershaw — Memoirs National Mv.seum
(Melbourne), No. 3.

108

DESCRIPTION OF TWO UNDERGROUND FUNGI.

By L. Rodway, C.M.G.

(Read 8th October, 1923.)

Tasmania is peculiarly rich in underground funtri be-
longing to the family H i/moiogastracea.', and new members
are constantly being found. I wish here to record two such
plants. They both belong to the genus Hydnanyium.

Hydnangium clelandi, v.s. Subglobose without a sterile
base, 1-2 cm. diameter. Peridium pale yellow, tough, about
one millimetre thick, readily .separating. Gleba compact,
dark brown, often with a greenish tinge; spore cavities large,
isodiametric, as in H. tasmavicum, separated by thin tramal
plates. Spores pale yellow, globose, smooth, or becoming
slightly rough when old, 21 M-- diameter, exospore very thick.
It differs from H. urcheri in the absence of a sterile base and
smooth spores.

Underground on hills about Hobart. Rare.

Named in recognition of the work done in mycology by
Dr. Cleland of the Adelaide University.

Hydnangium vic'alpinei, n.s. Irregularly globose, with-
out a sterile base, very dark, 1.5 cm. Peridium thin, ttmgh.
Tramal plates very thin, gleba dense, nearly black. Spores
very dark brown, globose, i)-10 ;" , rough, with small warts.

Very similar to H. tasmanicum, but the spores niucli
darker, and not echinulate.

South Australia.

Named in honour of D. McAlpine, of Melbourne.

109

R. M. JOHNSTON MEMORIAL LECTURE.

GEOLOGICAL EVIDENCE OF THE ANTIQUITY OF

MAN IN THE COMMONWEALTH, WITH SPECIAL

REFERENCE TO THE TASMANIAN ABORIGINES.

By

Professor Sir T. W. Edgkworth David, K.B.E., CM.G.,

F.R.S., B.A., F.G.S.

Plates VIII.-XI.
(Read 8th October, 1923.)

CONTENTS.

PART I.
Summary of R. M. Johnston's life and character.

PART II.

Geological evidence of the antiquity of man in the
Commonw^ealth, with special reference to the Tasmanian
aborigines.

1. Time scale supplied by glacial epochs of Pleistocene

time.

a. In Northern Hemisphere.

b. In Tasmania and Australia.

2. Evidence of the antiquity of man —

A. In Tasmania. i. Geological. ii. Distribution
of a. implements, b. kitchen middens. iii.
Cultural. iv. Anatomical and physiological.
V. Association (?) with remains of extinct
animals.

B. In Australia. i. Legendary. ii. Geological,
iii. Anatomical. iv. Age of dingo, on the
assumption of its introduction into .Australia
by man.

PART III.
Summary.

PART IV.
Bibliography.

no K. M. .1011NSTON MKMOIUAI. l.KlTrilK.

PART I.

BRIEF SUMMARY OF THE LIFE AND CHARACTER
OF R. M. JOHNSTON.

The .creat honour and privilege has been conferred
upon me by the Fellows of the Royal Society of Tasmania
of inviting me to deliver the first of the Memorial Lectures
to a truly great man, one who always gave of his best, and
whose whole life was one of loving and faithful service, the
late Robert Mackenzie Johnston. From my heart I thank
you for this privilege.

Already a grateful countrj' has published a fine work
in "The R. M. Johnston Memorial Volume," embodying his
chief papers and pamphlets and giving a summary of his
biography, with a foreword from one who perhaps knew
him best, the Hon. Sir Elliott Lewis. The Royal Society
of Tasmania in its volume for 1918 has also given a short
biography and a complete list of his published papers.
Under these circumstances, I do not propose to more than
very briefly touch upon his life work, but will review briefly
some recent geological I'esearches inspired largely and to
a great extent built on the foundation which Johnston so
well and truly laid.

Though one shrinks from treading on such holy ground
as that of the life of a vanished friend, one is nevertheless
drawn to do so by the strength of one's lovj for him, for
in the simple phrase of the country of his birth, he ^vas "a
lovely man."

Born in 1845 at a little fishing village in the Black Isle,
on the shore of the Moray Firth in Scotland, he died in
Hobart in 11)18 at the age of l^i years. His father had a
small croft, on which he owned a humble cottage.

Young Johnston was educated at the village school, and
derived much inspiration from the works of the famous
stone-mason geologist, Hugh MillerT who lived in the neigh-
bouring town of Oomarty. His early taste for geology
may be traced to this source. He left school very young,
and for two years was herd laddie and harvest hand on a
neighbouring farm. In spite of hard work he found time
for some reading, and the ambition t^vcw strong within him
to see something of the great world. When only a laddie
of 14 years of age he showed the great strength of his
character in breaking from all his surroundings. In the long

1!Y I'ROIKSSOIl SiU T. W. K. I)A\II>. K.I5.K., ETC. m

run this break brought him to Hobart. It is a pathetic
story. One is tempted here to parody Kiplin.c;: —

"How far is Hobart City from a Scottish lad at play!
What makes you want to wander there with all the
world between?

Oh mother, call your son ajjain, or else he'll run away."
But young Robert had no mother to call him back. She
had died seme years before, and so he ran away. How
terrible must have been the mental strain and struggle for
one so young and so strongly swayed by his affections to
break away frcm his father and sister, and seek his fortunes
in the great world beyond his ken!

By the sweat of his brow he earned his daily bread
at Edinburgh, but still found time to I'ead. He lead poetry,
science, fiction, and philosophy. Later he left Edinburgh
to do manual work on a railway in the Nci'th of Scotland,
interesting himself in the geological structure of the country
as revealed in the cuttings. His good work won him the position
cf a ticket clerk, and later he became clerk ai a Railway
Goods Department, Glasgow. In 1870, at 25 years of age, he
once more showed his enterprise, ambition, and tenacity of
purpose by selling all his books, and most other belongings,
and emigrating to Victoria. He was engaged as a clerk at
Colac. While here, when the first railway line in Tasmania
— that from Launceston to Deloraine — had been opened, he
received the appointment of clerk in charge of the
accountant's department, and soon afterwards was promoted
to chief clerk in the Auditor-General's Office. In 1881 he
was appointed to the newly-created office of Government
Statistician and Registrar-General for Tasmania, a position
which he held for 37 years until the time of his death.

Others can speak with authority on the gi'eat value of
his numerous annual volumes of Tasmanian .statistics, of
the very important work he accomplished in unifying
methods of presenting statistics, methods followed later
by statisticians in various pai-ts of Australi;r, on his con-
tributions to economic questions relating to Labour and
Capital, to the framing of the per capita scheme for the
equitable distribution among the States of the Common-
wealth (that was being initiated) of the surplus revenues
derived from the collection of Customs and excise duties,
and the successful advocacy of proportional representatian.
One who can speak with authority has *•.! ready spoken of
this already in terms of high praise that carry weight. Sir
Elliott Lewis, and laiidari a landatis viris sumnm lans.

212 ^ "^1 .lOllNSTOV .NtKMOUIAl. i.KCTrui:.

The above was his chief life wovk. It is specially his
hobbies that claim the attention of his brother scientists.

When at Launceston he became the friend of Mr. Gunn
after whom not a few Tasmanian plants have been named,
and from him derived a taste for botany. Later he con-
tributed five papers en the flora of Tasmania.

His extraordinary versatility and energy are shown by
the fact that he also contributed eight papers on mollusca.
sixteen upon fishes, and no less than .5G papers on geological
subjects.

He v;as Royal Commissioner on Fisheries, anu I am
informed by no less an authority than Mr. C. Hedley, F.L.S.,
of the Australian Museum, Sydney, that Johnston's work
on the fishes was of great value, and, particularly in view
of the many limitations in those early days, was most
meritorious. The great work which he published in 1888,
"The Geology of Tasmania," with an account of the minerals
and rocks of Tasmania, has laid a splendid foundation on
which future generations may build, and his geological map
of Tasmania is a masterpiece. There is, of course, much
to be added to it, but little to alter in the main features.
But in profiting by the wealth of information in his classic
books and papers, one must not lose sight of the tremendous
physical effort, hardship, and privation which he, with his
stalwart comrades, endured in their quest of the unknown, a
quest fraught with difficulties which might well have
appalled all but the bravest of the brave. We know that in
1874, in company with the late J. A. Scott, W. C. Piguenit,
Lieutenant Burgess, and two others, R. M. Johnston spent
six weeks (all of the party laden with knapsacks weighing from
CO to 701b.) in exploring the whole of the south-we.stern
highlands lying between the mouth of the Huon and Mac-
quarie Harbour, and in making collections and observations
on the geology and botany of that region.

In 1879 he formed one of a similar party in exploring
the northern region of the western highlands, including
Gad's hill, Middlesex Plains, Vale of Belvoir, Valentine's
Peak, Mount Bi.schoff, the headwaters of the Mackintosh
V^alley, and other tributaries of the Pieman and Arthur
Rivers.

Next, in the year 1HH7, in company with his friend, the
late C. P. Sprent, Deputy Surveyor-General, and five others,
he traversed on foot and examined the whole of the region
lying near to the route across the island b\ way of the

I'.Y PUOl'KSSOK SIR T. W. K. DAVID. K.HK. KTC. JJg

Ouse, Bronte, Lake St. Clair, Mount Kin^- William I., Mount
Arrowsmith, Coilinswood Valley, King River, Mount Lyoll,
Queen River, a 'id Macquarie Harbour, thence northward
across the Henty, Mount Heemsk\rk, Corinna, Whyte and
Heazlew^ood Rivers, Magnet Range, and Mount Bischoff, to
Emu Bay on the North-West Coast. Only those who have
experienced them can realise what terrible barriers to pro-
gress are the native scrubs, the "horizontal," the Bauera, and
the myrtle scrub.s, not to mention the dense masses of fern,
rotten sassafras, logs, etc., and the swiftly rushing and
swollen streams to be crossed, by the slow and tedious pro-
cess of felling trees to span the rivers. All this would
be most trying to the most vigorous and unencumbered of
men, but how Johnston and his colleagues and their hardy
predecessors, wet, ccld, weary, and half famished, fought
their way through these almost insurmountable obstacles,
each with his 60 to 701b. weight of pack, involved efforts
almost superhuman.

We who have entered into their labours and follow now
.so easily and swiftly in train or car where they so slowly
and painfully, but so surely, blazed the trail, must not forget
the hardy heroic pioneers who marched ahead of the army of
occupation. Who were these heroes? Men such as he who
was such an early inspiration to science in this country,
the heroic sailor soul, Sir John Franklin, and it should not
be forgotten that in his desperate march through scrub and
jungle to Port Davey Lady Franklin went with him and
shared his hardships; men such as Charles Gould, C. P.
Sprent. J. A. Scott, W. C. Piguenit, Lieutenant Burgess,
and many another, and last, and not least, the man we to-
night specially delight to honour, R. M. Johnston.

And while we honour these leaders among men, let us
not forget the pioneer work of the rank and file, that goodly
fellowship of prospectors and pathfinders, many of whom
perished lonely and unsung. Surely not the least honour is
due to the memory of these unknown warriois.

The spirit of these men lives yet, in young explorer.s
of Tasmania to-day, as testified by the recent fine journeys
made under the leadership of Major L. F. Giblin and A. V.
Giblin, which have led to the conquest of Mount Anne. As
one who may be permitted to^claim to have attempted some
pioneering work in another field, I would offer here a humble
and heartfelt tribute to the pioneers of Tasmania, and fore-
most among them to my old comrade, R. M. Johnston,

2J4 " ^' lOirNSTON .MKMOKI.M, LKCTIUK.

PART II.

GEOLOGICAL EVIDENCE OF THE ANTIQUITY OF

MAN IN THE COMMONWEALTH, WITH SPECIAL

REFERENCE TO THE TASMANIAN ABORIGINES.

One now passes to notes on the special research "Evi-
"dence of the Antiquity of Man in the Commonwealth, with
"special reference to the Tasmanian aborigines."

This subject would not seem inappropriate to this
memorial lecture, a& Johnston was no mean authority on
the Tasmanian aborigines and their implements, and, more-
over, their ancient history, as will presently appear, was
intimately linked up with phases of the great ice age through
which Tasmania has passed many thousands of years ago,
and evidence of the former presence of glaciers and ice
sheets in Tasmania was a favourite subject of research
for R. M. Johnston. One of his chief scientific papers
is wholly devoted to this subject.

Before proceeding to consider the age of the first
coming of man into Tasmania and Australia, we must
briefly review some time scale, to which wfe can refer the
evidence, a scale which has been made after much toil of
many workers in the Northern Hemisphere.

This scale depends on phases of what is known as the
Pleistocene Ice age. It is now generally recognised that
there were four glaciations, separated from one another by
three mild inter-glacial phases.

1. Time Scale Supplied by Pleistocene Glacial Epochs.
a. In the Northern Hemisphere. (24)
These four "flacial phases, with their inter-glacial phases,
were approximately as follows: —

Post-glacial Time, about 7.0(10 years, that is, ab:)ut .^..00l\

B.C., to present
Wurm or Wisconsin Ice Age, 5,000 B.C. to 15,000 U.V.

(possibly 50,000 B.C.).
Diirntenian or Sangamon, mild epoch, 15,000 B.C. t(»

G0,000 B.C.
Kiss or Illinoian Glaciation, 60,000 B.C. to 80,000 B.C.

(possibly 150,000 to 1K0,000 B.C.).
Helvetian, or Yarmouth, or Tyrolian. mild epoch, K0,000

B.C. to 250,000 B.C. (possibly 180,000 to 350,000

B.C.).

r.Y l'K()I'i;SSOK SIK T. \V. K. DAVID. K.I! K.. KTC. IJ5

The Mindel or Kansan Glaciation, 250,000 B.C. to 280,000

B.C. (possibly 360,000 to 400,C'00 B.C.).
Norfolkian, Aftonian, or Cromer, mild opoch, 280,000

B.C. to 350.000 B.C. (possibly 400,000 to 470,000

B.C.).
Gunz Glaciation. 350,000 B.C. to 380,000 B.C. (po'-5ibly

470,000 to 500,000 B.C.).

The estimates for the last mentioned phases of sjlacia-
tion, such as the Giinz and the Mindel, are necessarily only
very approximate. The age of the Giinz glaciation, for
example, may have been as far back as fully 500,000 years
ago.

b. In Tasmania.

In Tasmania there have been many workers who have
recorded evidences of the great Pleistocene glaciation of this
island, notably R. M. Johnston, C. Gould. C. P. Sprent, T. B.
Moore, M. E. J. Dunn, A. Montgomery, Graham Officer,
Lewis Balfour, E. G. Hogg, W. H. Twelvetrees, L. K. Ward,
Professor J. W. Gregory, Dr. F. Noetling, Dr. W. N. Benson,
Professor T. Griffith Taylor, Dr. Loftus Hills, Mr. Mackin-
tosh Reid, and Mr. Arndell Lewis. Professor J. W. Gregory
has also given a special account of the ai-ea near Queenstown
and Mount Lyell, Q.J.G.S. He concludes that the glacier ice
in the Linda Valley, near Gormanston, and near Queenstown,
came down to within about 900 to 1,100 feet of sea level.
Professor W. N. Benson has described in detail the Cradle
Mountain area, and concludes his valuable paper with a full
bibliography of Tasnianian Pleistocene glacial literature. (1)
Professor Griffith Taylor and Mr. Arndell Lewis agree that
thei'e are evidences of at least two, if not three, glacial
invasions of Tasmania during Pleistocene times. The
earliest apparent one "was by far the most considerable,
"and was followed by two later phases." This earlier
glaciation developed an ice sheet, which actually came down
to sea level at Port Davey, extended to below 1,000 feet above
sea level, in the neighbourhood of Gormanston and Queens-
town, and came down to within 100 feet or less of sea level
between the mouth of the Henty River and the Elden Valley.
Recent observations by Dr. Loftus Hills and the writer have
fully confirmed Mr. T. B. Moore's statement as to the down-
ward limit of the Pleistocene ice sheets, when at their
maximum development, in that part of Tasmania. So extensive
was this glaciation that fully a third of Tasmania was under
a more or less continuous ice sheet, with points like Barn

Jig H M. .lOllNSTOX MEMORIAL LKfTrRK.

Bluff, Cradle Mountain. Mt. Pelion, etc., showing as nunatakr.
"Outwash apron gravel.s" deposited by the thaw waters of
surface or subglacial streams now cover low-lying -strips
around Macquarie Harbour, and thence northwards to be-
yond the mouth of the Hcnty River. These uuiwash gravels
are separated from one another by deposits of peaty sand
and peat. They hav? previously been described as raised
beaches, but the writer would point out that while there is
evidence there, as in most parts of Tasmania and Australia,
of a raised beach up to 15 feet above high water, accom-
panied by the presence of marine shells, no trace of post-
Tertiary marine shells, as far as the writer is aware, has
ever been found in Tasmania at a higher altitude than about
]5 feet above high water. The great shingle terraces, on
the other hand, in the neighbourhood of Kelly's Basin,
Macquarie Harbour, and to the east of Strahan, attain
altitudes of from 200 up to over 240 feet above sea level.
Close to Strahan railway station the followinp- section was
measured by the writer at the lowest terrace there: —
1ft. Sin. Peaty sand.

6in. to 9in. Loose grey sand.
2ft. Oin. Peaty sand. A few pebbles near

the top.
2ft. Oin. Shingle with pebblea mostly 3 to 4

inches in diameter, restii g on
an eroded surface of peaty
shale.
3ft. Oin, Laminated hard peaty shale, emit-

ting a sliRhtly woody ring when
struck.
33ft. fiin. Mostly coarse shingle, pebbles from

1 inch up to 1 foot in diimeter,
oval and well rolled. In tne.
lowest 5 to G feet of this bed
there are numerous disrupted
fragments of carbonaceous
shale, belonging apparently to
slightly older post-Tertiary or
late Tertiary formation. These
disrupted fragments are on a
line of strong erosion.
IS-rt Oin Sandy clay, carbonaceous, passing

almo.st ir\U peat in places, but
the top 5 feet is mostly sandy,

weathering yellowLsh grey. This

Total 60ft. Sin. extends down to sea level.

liv ruoi'fossoK sm t. \v. k. david, k.15.e.. Kxr. j^Y

There are many hundreds of feet in thickness of soft
sandstones and flays below the lowest bed of shingle, but
they appear to be pre-fjlacial.

Mr. Arndell Lewis would ascribe such outwash gravels
to the maximum Pleistocene ice-sheet of approximately Riss
or Mindel age. Mr. Arndell Lewis appears tentatively to
hold the view that the lowest evidence of glaciation in the
Broad River Valley at National Park is of about the same
age as the outwash gravels of Strahan. Such glaciation at
National Park would be approximately at its lower limit
about 2,000 feet above sea level, possibly as high as 2,400
feet.

Recently Dr. Loftus Hilis has observed evidences of
glaciation at Mount Victoria, between St. Helen? and
Seottsdale, at an altitude of about from 3,964 feet (which
is given as the altitude of the summit) for several hundreds
of feet downwards.

The question of Pleistocene glaciation and its a.'^e in
this north-east pai't of Tasmania ]<? of .special importance
in regard to a very important piece of evidence about to be
detailed presently, by far the oldest as yet recorded on the
iiubject of the antiquity of aboriginal man in Tasmania.

In this part of the island there are widespread sheets
of shingle and gravel, with peaty beds intercalated, which
have been worked extensively for stream tin between Herrick
and Boobyalla. At the Pioneer Mine, to the north of
Herrick, these strata attain a thickness of at least 80 feet;
they are up to 68 feet in thickness at the Scotia Mine, oiie
mile to the north-west of Gladstone. At the old Doone
Mine, about a mile west of the Scotia, the drift was about
15 to 25 feet thick. The drift apparently dips below sea
level towards thf; coast below Boobyalla. It appears to
the writer that this old peaty granite sand drift, which the
late W. H. Twolvetrees suggested tentatively (35) was
raised beach material, is in reality, in view of later evidence
now available, outwash apron material, analogous to that
of Strahan. In this case it would have b^en formed by
the thaw waters of the last great ice sheet, at newest the
Wiirm ice sheet, dating back to about 17,000 years ago. If
this supposition is correct, the deposit would have been laid
down by extensive floods coming from the head of the
Ringarooma Valley and its numerous tributaries, at a time
when Mount Victoria was under ice and the lower spurs
of the adjacent ranges supported extensive nevee fields.

Jig U. M. .lOllNSTON MKMOUIAL I.KCTIUK.

An attempt has been made in the table piven in the
summary of this paper on pages 130. 131, to supply a pro-
visiona! scheme to show the probable approximate relative
agres of the evidences of the presence of early man in Tas-
liiania and Australia. This table is very tentative, and the
dates, of course, very appi'oximately assigned, may be much in
error, but it is believed, nevertheless, that they are a i-eason-
able approximation. We may now proceed to consider the
details with regard to the antiquity of nian within the
Commonwealth, commencing with Tasmania, and then pass-
ing on to Australia. No attempt is made to put forward any
case for man having a geological antiquity in New Guinea.
Evidence, in the writer's opinion, will be forthcoming later
to prove that his first coming into New Guinea dates a
long way back into the past.

2. Evidence of the Antiquity of Man.
A. In Tasmania,
i. Geological and Geographical.

a. Occurrence of aboriginal chalcedonic flake in
fluvio-glacial (?) compact drift at the Doone
Mine, near Gladstone, North-East Tasmania.

b. Occurrence of aboriginal chipped pebbles and
stone coi'es at Regatta Point, on right bank of
Tamar River, one mile north of Launceston,
Numerous specimens of this type were found
by the writer last February in the consolidated
shingle of a slightly raised beach (3-4 feet above
high water).

c. Occurrence of very numerous aboi-iginal cherty

flakes and other implements in what appears
to be an old natural shore-line of the so-called
Lake Leake, now an artiflcial reservoir. 15
milos east of Campbell Town.

ii. Antiquity deduced from distribution of implements.

a. Wide area over which stone implements are
found in Tasmania, and the var.t number of
such implements.

b. The thickness and extent of the aboriginal
kitchen middens.

iii. Cultural evidence.

a. Pala-olithic or Eolithic stage of culture of the
Tasmanian aborigines.

i!V I'lsoi i;sson sill T. \v. K. DAVin, K r.i; , i:t<^ ' jjg

b. Ignorance of making sea-going canoes. This
implies that they must have crossed the Bass
Strait area at a time when Tasmania was a
peninsula of Australia.

iv. Anatomical evidence.

a. Alliance of Tasmanians to the primitive negrito

races,
h. Archaic type of their dentition.

c. The Tasmanian a true homo, and probably newer
than Pithecanthropus of Bengawan, Java, oi
Eoanthropns dawsoni, of Piltdown, Sussex.

d. Tasmanian aboriginal, though for long an in-
habitant of a cool temperate climate like Tas-
mania, does not exhibit any tendency towards
a whitening of his skin, which appears to have
maintained throughout its original blackness.

V. Associated fauna.

a. In this respect the entire absence of the dingo
from any human remains in Tasmania cor-
roborates the evidence suggested by the Tas-
manian aboriginals' ignorance of the art of
making sea-going canoes, that he arrived in
Tasmania by a land bridge before the dingo
was imported into Australia by the early Aus-
tralian aboriginal.

b. Evidence is not yet to hand that the Tasmanian
aboriginal was contemporaneous with extinct
animals such as the marsupial rhinoceros
{Notothcrium mitchclli, N. tasmanicum, etc.),
and yet the peaty deposits of Mowbray Swamp,
near Smithton, appear to belong to an age at
least as new as the stream tin deposits of
the Gladstone district, in which a human-
worked flake has been found. Moreover, Messrs.
H. H. Scott and Clive E. Lord describe the
femur of the calf of a Nototherium from the
above swamp which has been damaged by some
sharp-cutting tooth or instrument, possibly
either the carnassial tooth of a Thi/lacoleo or an
aboriginal hache. (20)

We may now review these evidences in detail. In
regard to i.a., the late Mr. W. H. Twelvetrees has described
this occurrence (Roy. Soc. Tas. Papers and Proceedings,

J20 " *' .10UNST0X MKMOniAL LECTIRE.

1916, pp. 48-50, pi. 5). The flake is formed of chalcedony,
which, after being struck off by a single blow, has been
dressed on one side and retouched later on the same side so
as to give a number of small saw-like teeth to the cutting
edge, which was evidently u.^ed for smoothing down or
sharpening spears. Mr. W. H. Twelvetrees submitted the
flake, just after its discovery, to the late Mr. R. ]\I. Johnston,
who had an exceptionally wide experience in the matter of
Tasmanian stone implements. Mr. Johnston was absolutely
convinced at once, as indeed anyone must be with any know-
ledge of the subject, that the flake was of human workman-
ship. This flake is illustrated' on Plate VIII.

It was found at the old Doone Mine, about three miles
north-westerly from Gladstone, and under an overburden
of about 10 feet of very firmly compacted drift. This drift
was formed of granite sand, with a certain amount of
interstitial clayey peat. Mr. Twelvetrees was of opinion
that the whole deposit was of marine origin. In view of
later sections and discoveries, the writer cannot entertain
this view, and holds, as the result of a personal examination
of the scene of the discovery, and of similar deposits in other
parts of Tasmania, that the deposit is to be correlated, as
regards origin, though younger in time, with the "out -wash
"apron" deposits of Strahan, on the west coast of Tasmania.
These consist of gravel with peaty sands, peaty clays, and
peat, and lie on the seaward side of the great terminal
moraine between Eden and the Henty River, which marks
the maximum advance of the old Pleistocene ice-sheet in
Tasmania as far as present evidence goes. Certainly tht
deposit at Gladstone is very wide spread, and at the Pioneer
Mine, a few miles to the south, it is over 80 feet in thick-
ness. Obviously, since the deposit was laid down, the
Ringarooma River had deepened its channel by at least 60
leet, as shown on the section, PI. IX. The river did not occupy
its present channel, in Mr. Twelvetrees' opinion (in which
the writer concurs), at the time when the drift was de-
posited at the Doone Mine.

The flake was found by Messrs, Richards and Murray
at the time when Mr. Richards was using the hydraulic
nozzle to wash away the overburden from above the tin
gravel. The latter is there about 2i to 4 feet thick. Mr.
Richards had been requested by Mr. Twelvetrees, a day or
two before, to be on the look out for possible traces of sea
shells in the deposit. Richards's attention was attra<;ted
suddenly by the unusual object of this chipped flake, which

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BY I'KOI'KSSOK Sill T. \V. K. DAVID. K.B.E., KTC. 121

he thought to be a shell, just exposed to view by the water
jet. He immediately went forward, and picked it out of
its matrix, to which it was slightly adherent. In doing so,
a small piece fell off. This has not been preserved. He
called to Mr. H. Harvey, the Government inspector of the
Mount Cameron water race, who was close by in the mine at
the time, and who informed the writer (last February) that,
on hurrying to the spot, he carefully examined the site from
which the flake had been picked by Mr. Richards, and dis-
tinctly recalled the fact that he noticed at the time of the
discovery that there was a well marked impression in the
old drift, into which the flake exactly fitted, and from which
it had been lifted out by Mr. Richards.

Mr. Murray, a son of a late Government Geologist of
Victoria, Reginald Murray, and a pai-tner of Mr. Richards,
quite confirms the account originally given by Mr. Richards
to Mr. Twelvetrees, and also that now given by Mr. Harvey.
They all agree that there is not the slightest possibility of
the flake having fallen from above and having been driven
by the water from the hydraulic nozzle into the compact
drift. The extreme freshness of the chalcedony considered
as a mineral specimen (that is, the remarkable absence of
weathering) made the writer seriously consider at first the
possibility of the flake having been artificially injected, in
the manner indicated above, into the drift overlying the
stream tin, but ho is quite satisfied that some other explana-
tion must be found for its extraordinarily fresh state of
preservation. He thinks it is to be attributed to the inter-
stitial peaty clay in the sand having stopped all water cir-
culation and also prevented contact with the air, and so
checked weathering. At the same time, the "retouching"
on the edges of the flake suggests to him a more modern
phase of artefact evolution than that indicated by the
specimens about to be described, from a more recent deposit.

The following is a general section at the old Doone
Mine southwards to the present channel of the Ringarooma
River: —

Surface level, about 100 feet above sea.

6in. Peaty humus covered with grass

6in. Grey sand.

Gin. Peaty sand.

4in. Grey sand.

lOin. Hard ochreous sandy silt.

122 ^ ^f .lOIl^CSTON >ri:MORIAL LECTUKE.

6ft Oin. Dark grey fine sandy silt, compact and
dark grey, through peaty material.
This rests on a slightly eroded sur-
face.
4fl Oin. Gritty, pebbly sand rock; the aboriginal
chalcedonic flake occurred in this
layer, immediately overlying the
stream tin gravel below.
8ft. to 12ft. Oin. Gravelly consolidated drift, with
in places thin- stream tin and well rolled pebbles

ning to 3ft. of quartz and slate from 1 inch to

3 inches in diameter, and sub-angular
reef quartz up to 6 inches in dia-
meter; pot-holes of shingle occur in
places about 3 feet in depth. The
lower pai't of this drift yields stream
tin at the rate of from 1 to IJlb. per
cubic yard.
Floor under stream-tin drift fine-grain-
ed, greenish felspathic quartzite; dips
W. 18 deg. S. at 18 deg. The
age of these sedimentary rocks is
.assumed to be Cambro-Silurian.

The undulating, but on the whole flattish, floor, on which
the drift reposes, is just about G5 feet above the Ringarooma
River and 85 feet above sea-level.

At the time these wide-spread gravels and sands were
being deposited, the Ringarooma River could not have occu-
pied tts present channel, which is about a quarter of a mile
to the south, and which has subsequently been deepened in
hard rock (partly felspathic quartzite, partly of granite)
by about 65 feet. At the rate of erosion determined by C.
C. Brittlebank for the Bacchus Marsh district of Victoria,
such a work of erosion might have been done by a river
like the Ringarooma in a period of time of the order of
100,000 years.

This would surely be older than the Wiinn glaciation,
and would more nearly correspond with that of the Riss.

If, therefore, this flake was really in situ, as seems orac-
tically certain, it would put back the coming of man into
Tasmania into perhaps the time of the Riss glaciation.
At the same time, if the early part of the Wiirm glacia-
tion dates back, as some think, to 50,000 years ago, the
excavation of the present Ringarooma valley out of the

VI t. Victoria
3964 feet

Plate I.X.

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e found at the Doone Mine at
:eet below surface.

South

sea level

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ina; Island

Mowbray
Sv/amp

ina -\>

:dcn .^^-j Strahau

Gladstone

Regatta Point
Launccston

Lake Leake

ilobart

p. and P. R.S. Tas..

Section across Buss Strait

428 feet 771 ic

30 fatlioins

"""■•"• ^-«f- "IsSi™

Hogan Group Kent Groui)

428 f"-- -r, . ..

30 fathoms ,

Slates and

Ringarboma River, aljout
les below Gladstoiic.River.
bout 20.foct above sea

Chalcedonic aboriginal flake found at the Doone Mine at
point X at 10 feet below surface.

Length of section about 2 miles
Above section with vertical scale the same as the horizontal

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outwash apron material and the undulating peneplain of
hard rock on which it reposes, may very well have taken
place in post-Wiirmian time.

Meanwhile this is the most important discovery up to
date, as to the high geological antiquity of man within the
Commonwealth.

i.b. Last February the writer discovered at Regatta
Point, one mile north of Launceston, on the east bank of
the Tamar River, a large number (altogether about 100)
of specimens of very roughly chipped implements formed
out of pebbles embedded in the loosely cemented conglomerate
of an old raised beach. So rudely fashioned were some of
these implements that at first he doubted whether they were
necessarily of human workmanship. The occurrence of
these sharp-edged flaked stones alongside of well rolled
shingle attracted attention as an anomaly in sedimentation
requiring explanation. Eventually he discovered in situ
a roughly chipped somewhat water-worn implement of sub-
translucent chalcedonic quartzite, most obviously of human
Workmanship. At least 30 definite blows had been struck in
order to fashion the implement into its present form. (See
fig. 2 of PI. X.) Unfortunately the original has been
temporarily mislaid.

This raised beach is about 4-5 feet thick, and extends
to at least 2-3 feet above high water spring tide, and is
further covered by an overburden of about 8 feet of talus
from the hill slope. The raised beach material is a ferru-
ginous gravel, loosely cemented. The raised beach rests
on Tertiary lacustrine leaf beds, perhaps of Miocene or
Pliocene age. The raised beach belongs to the period, in
the opinion of the writer, of a higher sea-stand, when sea
level was perhaps 3-5 feet above what it is now. The
maximum sea level of this epoch within the area of the
Commonwealth averaged about 15 feet above present sea
level, and dated back to a time suggested by R. A. Daly
to be about 7,000 years ago. From this an age of perhaps
1,500 to 2,000 years may be deduced for this raised beach on
the assumption that the decline in sea level took place at a
uniform rate from 7,000 years ago down to the present
time. The aborigines preferred a hard laminated pre-
Cambrian quartzite for making their rough scrapers there.
These were obtained from pebbles, in a gravel bed 8 feet
thick and 85 to 110 feet above high water immediately above
(to the east) the raised beach. A few scrapers are made

124 '' ^1 lOIINSTON MEMORIAL LKCTUUK.

of diabase. These are rotted, throuj>h weathering-, to a depth
of from laeth to 1 10th of an inch. The writer thinks it
would take over 1,000 years for diabase to weather to this
extent. Many of the "cores" show discoloration due to the
action of fire, which was evidently used to cause the pebbles
to exfoliate in curved flakes.

More search in this area is much to be desired, as it
mipht reveal an early stage in the evolution of the fashion-
ing of stone implements by the Tasmanian aborigines. Only
one implement fomied of chert was found, among the 100
collected, at Regatta Point.

i.e. At Lake Leake last February the writer found ovev
100 specimens of stone implements of the Tasmanian
aborigines in what appears to be the beach of an old lake
before it became naturally drained. The site of the old
lake has now been used as a reservoir so that the water
level, as the result of the damming cf the valley forming
the present outlet of the reservoir, has now risen about 10
feet, to that of the small teirace where the implements were
found. The writer takes this slight terrace to be a relic
of an old shore line. It may be mentioned that under two
miles to the south-east there is an aboriginal stone quarry,
where large numbers of these implements were fashioned,
all made from cherts. These cherts were formed by the
alteration of Jurassic clay shales along their plane of con-
tact with masses of intrusive diabase. The author would
not press for this last piece of evidence proving any special
geological antiquity for the "tronattas," but thinks it should
be recorded, as the area is worthy of further investigation.
Evidence i.b. conclusively proves geological antiquity to be
something of the order of perhaps 1,500 years, for within
the last 100 years no appreciable alteration has been ob-
served in sea-level anywhere around the shores of Australia
or Tasmania. i.a. can prove a far higher geological an-
tiquity for man if the "outwash" api'on material dates bad.
to the Riss Pleistocene ice sheet. The locking up of so much
ice to form the great Riss ice sheets might have lowered
.sea level all over the world to the extent of about 200 feet.
The levels of the old valley gravels at the Tamar and Mersey
Rivers, together with the submerged terraces at about Sis
fathoms to the west of King Island, point to the sea level
having been lowered In late geological time to the extent
of about 200 feet, and to have paused long enough at this
low level to enable it to cut back a terrace over 50 feet in

Plate XI.

)rth, showing occurrence of rough arte-
aborigines in small raised beach at Re-
le north of Launceston High levol

sands
High level ,'
gravel. ;

96 feet above

i^O

Metres

Feet
10 ^0

^ I,- , m u I'ertiary lacustrine
!d shingle Beach leaf beds resting on
eot above high diaba?c (?)

f with rough ar-
ts made by abo-
ics out of pebbles
nn high levol
gravels

hill-wash

liigh w.ater

diabase (?)

; the terminal moraine marking
)ron" ("schotter") gravels.

Quartzites and Conglomerates

possibly Silurian : heavily
glaciated ;

East

Edon
371 feet

l—L.

J 1 1 1 I 1 ' t ' ■ L

1, i .1 Metres

1 I Foet

0 -^00 1^-00 600

-ocene ice sheet with a thickness of

Section, looking north, at Emu Bay Railway Company's
bi-idge over Pieman lUver, 65' _, miles from Emu Bay to-
wards Zeehan, showing two U-shaped glacial valleys with
the V-shaped post-glacial valley depth 160 feet from bottom
of older glacial valley to bed of Pieman River, and 100 feet
from bottom of newer glacier valley to bed of Pieman

fZ I'l^"^^- ""'■"'• ^lio^^ng occurrence of rough arte-
facts of Tasmanian aborigines in small raised beach at Re-
gatta Pomt. one mile north of Launceston High

VO

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Metres
Feet

High lerel
gravel.

96 feet kbove
Ijigh water

Raised shinele Boaeh ?i",^l^V laeustnne,
3-4 feut above h?gh ''^^^ b""? --estiiig c
watel- with rough ar. d'abasc (?)^

tefacts made by abo-
rigiuios out of pebbles
frcui high level

West Section 7 miles in length, from W, Coast of Tasmania, near mouth of Henty River, to Eden, showing the terminal moraine marking East

lormer maximum extension of the Pleistocene ice sheet, near Malanna, together with the "outwash-apron" rscLX?'rgravei^ ^

"Joo if.ao 6oo

■^}?2il®.^®.'"''.°" ^'"^ ^'ertical scale the same as the horizontal with ideal restoration of the Pleistocene ice sheet with a thickness of

Ice Sheet restored

1000 feet at Eden,

:rs:;

I!Y I'KOFESSOR SIU T. \V. K. DAVID. K.15.1:.. ETC. J25

height. The sea would in this case have completely retreated
from Ba.ss Strait and Torres Strait, and would hav-: laid
bare the bulk of the J2:reat Sahul shoal, or bank, and so
have admitted of aboi'iginal Tasmanians migratinj^ more or
less dry-shod over the greater portions of the long road from
their possible early home in the Malay Peninsula or Nether-
lands East Indies to Tasmania. The coming of aboriginal
man into Tasmania may date back, on the above supposi-
tion, to a time of the order of 100.000, or more, years ago.

ii. Distribution and Number,
a. Of Stone Implements.

The stone implements of the aborigines, chiefly of the
nature of scrapers for fashioning spears and throwing sticks
and notching trees for climbing, are very widely distributed
not only around the coast of Tasmania, but inland, par-
ticularly in the neighbourhood of the great lakes, such as
the Great Lake, Lake St. Clair, etc. Some idea of the
numbers may be formed from the fact that the writer last
February, as the result of a quarter of an hour's search,
picked up about 100 aboriginal chert flakes, almost all of
which had been used as scrapers, near tht present outlet
of the Lake Leike Reservoir. These "tronattas" are

strikingly like those found on the horizon of the remains of
Piitdown man in Sussex.

b. Based on the Extent and Thickness of the Kitchen-
Middens Akng the Coast.

Some of the largest of these shell-mounds are to be
found at Swanport, on the east coast of Tasmania. Accord-
ing to Mr. Clive Lord, one of these shell-mounds is no less
than 10 feet deep in its highest part, and covers an ai-ea of
several acres. The late Dr. Fritz Noetling attempted to esti-
mate the approximate date of the coming of the first abori-
gines into Tasmania by the amount of material now to be
found in the .shell-mounds considered in relation to the aver-
age aboriginal population of Tasmania in the past. d'-

The aboriginal population of Tasmania is estimated at
2,000 in 1803. This population, he estimates, would consume
shells of oyiters, mutton fish (Haliotis) , Turbo, etc., at the
rate of about 120 cubic feet a year each. That would be

(I) Proc. Roy. Snc. Tasmunia for 1910, pages 231-264. Plates I anJ
il. The Antiquity of Man in Tasmania.

226 "• ^' JOHNSTON MKMOllIAL 1-KrTt'RE.

240,000 cubic feet a year, for the average rate of {irowth of
the shell-mounds for a population of 2,000 aborigines. It
5,000 years the shell-mounds would have a capacity of no
less than 1,200,000,000 of cubic feet. This would cover a
tract of land about half a mile in width and ten miles in
length, with kitchen midden to a depth of about 9 feet.
Dr. Noetling concludes from this that, as this amount is
probably in excess of the aggregate of all the shell material
in all the kitchen middens of Tasmania, the first arrival of
the Tasmanian aborigines may not have dated back more
than 5,000 years from the present. That this is an under-
estimate would appear from the following: —

Firstly. The aboi-igines did not subsist on shell-fish
alone, but partly on animal and plant food.

Secondly. For some considerable period of time after
the coming of the first few individuals into Tasmania the
population may have been considerably under 2,000.

Thirdly. The existing kitchen middens have been much
reduced through various weathering processes, which have
partly dissolved the shells, partly removed them by the
mechanical agency of wind, water-floods, waves, etc.

Fourthly. A very important consideration is that as
ft is highly probable that the first coming into Tasmania of
the aborigines took place during a low sea level, coinciding
with one of the later Pleistocene glacial phases, the kitchen
middens of that age, when sea level was some hundred to
two hundred feet lower than it is now, have long since been
completely submerged. If the home of the Tasmanian
aboriginal was originally somewhere near the Malay Penin-
sula, some thousands of miles in length of shoreline, with
intermittent shell-mounds, have been submerged along this
assumed early road of migration. The estimate, therefore,
of the date of the first arrival of the Tasmanian aborigines
may have to be increased by many tim</s the 5,000 years
suggested by Dr. Noetling.

iii. Cultural Evidence.

a. Paheolithic stage of culture of the Tasmanian
aborigines.

The Tasmanian aborigines had no shield nor womerah
nor boomerang, and had no knowledge of putting a cutting
edge on their stone implements by grinding them down on

BY rUOrKSSOR SIR T. W. E. DAVID. K.B.E., ITC. 127

another stone used as a hone stone. Their implements are
distinctly of a Palaeolithic type, strikingly like those of
Piltdown man, but many of them show exquisitely fine finish
by the method of re-touchinpr, as proved by many fine speci-
mens in the collections of the Tasmanian Museum, Hobart,
as well as in those of Dr. W. L. Crowther, some of the best
of which were collected near Ross and Oatlands. Their
implements mostly show concave surfaces, evidently used
for spokeshavinpr their spears and shapinjr their throwing
sticks. These throwing sticks (Lughrana) had an effective
range up to about 40 yards, and their spears (Perenna) up
to about 60 yards. The latter, hardened at the point by fire,
wbuld go through the body of a man at a range of 60 yards.
The club, waddy, or throwing stick was about, 2 feet long,
notched or roughened at one end to give a grip; sometimes
knobbed at the other end. None of their stone implements
was ever hafted. Occasionally in the kitchen middens may
hi found palettes of the nature of stone dishes, or shallow
mortars, in which they ground their hsematite for raddling
their hair. They had no nets nor fish hooks, and do not
appear to have eaten fish. The aboriginal women made
neat baskets (Tughbrana), or "dilly-bags."

b. Tasmanian aborigines had no knowledge of making
large dug-out canoes, or outrigger canoes, such as those used
by the Australian aborigines from Hinchinbrook Island
northwards to Cape York, or the large dug-out canoes, or
the stringy-bark canoes used by the Australian aborigines
from Carpentaria to west of Darwin. The canoes of the
Tasmanian aborigines had a maximum length of 9 to 10
feet, a width of 3 feet, and a height of 1', feet, with a depth
inside of about 9 inches. They were practically three cigar-
shaped bundles of bark tied together with grass string or
strips of kangaroo skin so as to form a rough canoe or
slightly hollowed float. They were propelled by poles
whether in deep or in shallow water. Crude craft as these
were, the aborigines nevertheless were able to cross in
them from the mainland to Maatsuyker Island and Maria
Island; the latter involved a voyage of about "^ miles. The
Seri Indians in Sonora (California) in their •'balsas" (30
feet long bundles of reeds lashed together) can even cross
the Gulf of California in calm weather. This is from 50
to 100 miles in width. (31).

That the formation of Bass Strait, or, at any rate, the
western part of it, in which King Island lies, must date

128 " ^f JOHNSTON MEMORIAL LKCTIRE.

back many thousands of years into the past, is suggested
by the following consideration, among others: —

The marked differentiation of the Tasmanian emu and
the King Island emu (respectively Droviains dicmensis and
D. peroni) from the emu of the mainland, D. uovw-hoUandiae,
surely demands a period of geological time to be estimated by
more than just a few thousands of years, probably some-
thing more of the order of 20,000 to 50,000 years. It will
be noticed that King Island w^ould have been united to the
mainland of Tasmania up to the latest date of the union
of Tasmania with the Australian mainland, as the old eastern
land bridge by way of Flinders Island and the King Island
land bridge would both be restored if the ocean level were
dropped by 30 fathoms.

iv. Anatomical and Physiological Evidence.

a. Alliance of Tasmanians to the primitive negrito
races.

This matter will be discussed very briefly, the reader
being referred to the works of reference by Professor Berry,
Dr, S. A. Smith, etc., given in the Bibliography.

The Tasmanians living in the eastern half of the island
were mostly of small stature, the average height of the men
being 1661 millimetres = 5ft. 5iin., that of the women 150.'j
mm.~4ft. ll^in. The colour of their skin was rather moi*e
black than brown.

b. The mouth was big, and the teeth larger than thjse
of any other existing race. They were ulotrichous. Cephalic
index .75.

c. As regarcTs a downward limit to the date of the
Tasmanian aborigine, the fact must not be lost sight of that
he was essentially hnyun, at all events, as far as relates to
the types of him with which we are familiar. He had little
special affinities with Enavthropim or with PithccanthropuH.

d. Had the Tasmanian aboriginal been resident in a
cool temperate climate like that of Tasmania for a vast
period of geological time, one would have expected that the
primitive blackness of his ccmplexion, so characteristic of
trrpical peoples, would have shown some signs of passing into
paler shades, sucn as light br.jwn, or even white.

V. Associated Fauna.

a. It will be shown in the next division of this paper
that the dingo at the Wellington Caves, in New South Wales,

UY ruoiKsson sir t. \v. k. david, k.h.k.. ktc. i29

and elsewhere on the mainland, was contemporaneous with
extinct marsupials, such as Thylncoleo, Diprotodon, etc.; also
at the Wellington Caves, a human molar tooth was found,
apparently in sit7i, in the cave breccia. There can be little
doubt that the dingo was brought into Australia by the early
emigrating Australian aboriginal. The dingo, therefore, on
the mainland, dates back to at any rate late Pleistocene time.
The Tasmanian aborigines had no knowledge whatever of the
dingo, which evidently was blocked from getting into Tas-
mania through the flooding of the old isthmus joining Tas-
mania to the mainland, by the waters of Bass Strait having
already become "un fait accompli" before the dingo reached
the shore of south-eastern Victoria. If, therefore, the Aus-
tralian aboriginal dates back to late Pleistocene time, the
Tasmanian aboriginal must be relegated to an older period
still. Incidentally, it may be remarked that the survival in
Tasmania of Thylaciims and SarcophUns is directly due, in
the opinion of Sir Baldwin Spencer, to the absence from that
island of the dingo. Thylacinns and Sarcophilus ranged over
nearly the whole of Australia in late Pleistocene time, but
have now become wholly extinct through having been exterm-
inated by the dingo.

b. Reference has already been made to this considera-
tion (b) on page 119,, and the reader is referred to the
paper by Messrs. H. H. Scott and Clive E. Lord. With the
exception of the bones of the extinct emu, Dromormn
oustruliti, showing evidence of having been hacked by aborig-
inal implements, according to the Rev. J. E. Tenison Woods,
no traces have been found so far of any marks loft by
aborigines on bones of extinct vertebrates, either in Aus-
tralia or in Tasmania. The bones of extinct kangaroo now
preserved in the Ballarat Museum, and stated to show toma-
hawk cuts, must be looked upon as doubtful evidence of the
contemporaneity of man. The observations of Heber Long-
man, Curator of the Brisbane Museum, show the clearest
possible evidence of deeply-cut incisions made by the car-
nassial teeth of Thylncoleo on the bones of his herbivorous
contemporaries. It is highly probable that cai-eful search
in the future may reveal the presence of some marks left by
man on the .skeletal remains of extinct marsupials or mono-
tremes. This is a i)oint to which the attention of future
observers might well be directed.

130

K. M. JOHNSTON MKXtOKIAL LEl n RK.

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nV PROFESSOR SIR T. W. K. D.VVII), K ISK . ETC.

131

Aboriginal chalcedonic flake
at 10 feet below surface in
firmly compacted "outwash
apron" drift? This may
belong to the Riss Glaciation.

(See below.)

Taiga i Skull of Dalrymple
Creek near Warwick, Dar-
ling Downs, Queensland.

Aboriginal chalcedonic flake
from near Gladstone, at 10
feet below surface in "out-
wash apron" drift.

1

Trunks of Dickson ia and
shells of recent MoUusca and
remains of Nototherium
viilrhrtli and N. taf-mani-
cum, etc.

Older portion of the Dar-
ling Downs Pleistocene
Fauna, Euriizygoma dunense,
Heber Longman, found at
depth of (SO feet.

Possible "oulwash apron"
stream tin drifts of the
Doonc Mine near Gladstone,
the Pioneer Mijie near Her-
rick. Tasmania. Torren-
tial gravels (newest) of
eastern Gippsland.

Mowbray Swamp peat de-
posits.

i

1

Great terminal moraine with
rotted blocks of diabase, 2
feet through, between mouth
of Henty River and Lower
Kden Valley, Western Tas-
mania, near Malanna.

Out-wash apron gravels of
Strahan.

Kosciusko-Snowy River
moraines at 5,000 feet level.

Last severe glaciation of Tasmania.
Lakes formed in National Park at the
3,200-3,500 feet altitudes. Glacia-
tion of Blue Lake. Kosciusko, at alti-
tude of 6,150 feet.

Erosion.

Old U-shajud valley of Pieman Kiver,
Tasmania, deepened by V valley which
from Riss time to present-day has
I)eeri deei)ened 100 to 130 feet in hard
rock. Wide flats of Ringarooma Val-
ley between Pioneer Mine and Doone
Mine near tlladstone excavated in hard
rock from this down to present time
to depth of 50-60 feet. U-shaped
valley of Snowy River, Kosciusko, be-
low Charlotte's Pass, deepened by V-
shaped notch, in hard granite, about
30 feet deep, from this date to the
present.

Morainic material of National Park,

Tasmania, at altitudes of 2,500 to

2,800 feet.

Maximum development of the Tas-

manian Pleistocene Ice sheets, and the

'"cahjtte" ice of Mt. Kosciusko.

E-i

U

Riss-Wurm
Inter-glacial

(Durnten-
lan or San-
gamon mild

epoch).

Riss
Glaciation.

Riss-Mindel
Inter-glacial
(mild
epoch),
Helvetian
or Tyro-
lean or
Yarmouth.

Mindel
Glaciation.

oo
oo

0.00
o-r o

o So
o Ouo

Sa
:5
i^o

as

o^

is,

250,000 to poe-
■ibly 400,000

132 " ^'- 'Oll.NSTON MK.MDKIAL LKCTinK.

B. Evidence of the Antiquity of
Aboriginal Man in Australia.

To whatever date the first coming: of the Australian
aborigines into Australia be assigned, it is obvious that the
first arrival of the Tasnianian aborigines in Tasmania ante-
dates it.

It is next important for our inquiry to review any evi-
dence as to the geological antiqiiity of man in Australia.

Such evidence may be classed as: —

i. Legendary.

ii. Based on the age of the deposits in which remains of
man or any of his artefacts, or other traces of his
handywork, have been found.

iii. Based on anatomical structure of the human re-
mains.

iv. Based on the age of the dingo on the assumption
that the dingo was introduced into Australia by the
early Australian aboriginal inmiigrants.

i. Legendary.

a. James Dawson states, "An intelligent aboriginal

"distinctly remembers his grandfather .speaking of
"fire coming out of Bo'ok (a hill near the town of
"Mortlake, in Victoria) when he was a young man."

b. Dawson also states that when volcanic bombs from
the extinct volcano of Mt. Leura were shown to an
aboriginal native of Colac, Victoria, the aboriginal
said that "these were stones, which his forefathers
"told him had been thrown out of the hill by the
"action of fire."

c. Similar legends of aborigines having seen Mts.

Franklin and Buninyong in eruption have been re-
corded.

Too much reliance cannot be placed on these
.statements, especially the former, as the aborigines
may have been practically repeating what they had
picked up earlier from some white people.

ii. Evidence based on the age of the deposits in which

remains of mun or of his artefacts or other traces of his

handywork have been found.

a. Bennett has recorded the finding of grooves made
by aborigines honing down or sharpening their toma-
hawks on sandstone surfaces 30 feet below the sur-

liV I'KOKIOSSOU SIK T W. K. DAVID, K. II K . KTI'. -oo

face of *^he ground, the overlyinj? material beinj? the
alluvium of the Hunter River, in the Maitland dis-
trict. New South Wales.

In view of the rapidity with which the Hunter
River changes its channel from time to time, as the
result of floods, this evidence must be accepted with
caution, as being quite inconclusive, unless support-
ed by other evidence,
b. Gerard Krefft (7). (8), a former curator of the
Australian Museum, Sydney, records the finding by
himself of the "fractured crown of a human molar
"tooth in the same matrix as Diprotodov and Thijla-
"coleo at Wellington, in this colony" (the Welling-
ton Caves of New South Wales).

Commenting on this remarkable discovery, Mr.
R. Etheridge, jun. (7). concludes that this would
be much the most important evidence up to date a.s
to the geological antiquity of man in Australia, if
it were certain that the molar had been found in the
same mass of cave breccia as the remains of the ex-
tinct marsupials. There is still some of the red cave
earth adherent to this tooth, which is preserved at
the Australian Museum, but there is no trace of any
adherent breccia. At the same time the statement
of a scientist like Mr. Krefft, that he actually found
the tooth in the breccia, must surely be accepted.

Mr. Etheridge has figured this tooth (vide Rec.
Aust. Mus., XI., 2, p. 31, and PI. 12, figs. 3-4, ' Ex-
ploration of Caves and Rivers of N.S.W." Parlia-
mentary Paper 1882).

Important confirmatory evidence as to the tooth
having been in sitit in the breccia is supplied by the
fact that teeth of dingo (Canis dingo) occur in situ
in the bone breccia of the Wellington Caves, in as-
sociation with bones of Thylacolso, Sarcophilus, and
Diprotodon. The value of this evidence rests, of
course, on the assumption that the dingo was boated
over to Australia by the early Australian aborigiiu-s
(9).

c. Mr. James Bonwick (7) states, "at Ballarat, a basai-
"tic stone weapon or tool-head, was unearthed in
"in the process of gold-prospecting, 22 inches below
"the surface, in a place which evidently had been
"disturbed."

J34 " ^'- lOllNSTON MEMORIAL LECTIKK.

d. The late Rev. J. E. Tenison Woods states that bones
of Dromornis australis have been found in vSouth
Australia, scraped and cut by aborigines. Unfor-
tunately, no figure of these bones has been pub-
lished, and the bones themselves cannot now be
traced.

e The late C. S. Wilkinson records that (39) in 1864
he found at a spot 2 miles east of the Cape Otway
lighthouse, flint chips, and a sharpened stone toma-
hawk, and several bone needles. Mr. R. Ether idge,
jun., has reported (6) that in 1865-06 he found a
bone spike in beach material, formed of pebbles and
broken shells, and apparently passing under the sand
dunes. As the dunes near the scene of Mr. Wil-
kinson's discovery are 200 feet in height, it is as-
sumed that the deposit is of some antiquity. In
view, however, of the speed with which dunes come
and go, this evidence seems inconclusive.

f. C. S. Wilkinson states (39) that "a stone hatchet has

"been obtained on the Bodalla Estate, in the allu-
"vium, at a depth of 14 feet." In the absence of
details as to the rate at which this alluvium has
accumulated, this evidence is of small value.

g. C. G. W. Officer describes the imprints of human
feet and buttocks in the consolidated calcareous dune
rock of Warrnambool. These are very possibly
genuine human impressions, though some doubt this.
In any case, they do not necessarily prove a high
geological antiquity for man in that region (23).

h. Messrs. R. Etheridge. jun., T. W. Edgeworth David,
and J. W. Grimshaw have placed on record (8) the
finding of no less than four stone tomahawks at
Shea's Creek, near Botany Bay, in the Sydney Dis-
trict.

In the same paper they describe and figure the
remains of a dugong, the bones of which show con-
clusive evidence of having been hacked by aborigines.
The top of the .skeleton of the dugong was about 5
feet below mean high tide, and the base of the
.skeleton about 7 feet below. The skeleton was cover-
ed partly by peat, partly by estuarine clays. It is
thought that sea level has risen by about 5 feet
since the aborigines feasted on the dugong.

BY niOFKSSOR SIR T, W. E. DAVID, KIJ.E., KTf

135

As regards the stone tomahawks, two were
found at 11 feet below mean high water mark, in a
sump hole, and are said to have been found in peat,
or on the surface of the peat. Peaty beds were in-
tersected there at various levels, the lowest bed
occurring at 10 feet below low water. Numerous
stumps of swamp mahogany {Eucalyptus botry-
oules), mahogany {Eucalyptus resinifera), honey-
suckle {Banksia scrrata) , occurred in situ in the
peat, representing a submerged forest. One of the
banksia stumps at 10 feet below low water level,
that is, PC about 14 ft. below high water, showed clear
evidence of having been burnt off at the top, while
in situ. The roots were also charred. The burnt
stump is not, in itself, conclusive evidence of the pre-
sence of man, as the fire may have been due to na-
tural causes. In connection with this, it may be
mentioned that in a bore put down by a geological
party from the University of Sydney, with the as-
sistance of Mr. G. H. Halligan, charcoal was found,
obviously caused by a contemporaneous fire, at about
60 feet below sea level, near the southern end of
the bridg.; over the Narrabeen Lagoon, about 7 miles
north of Sydney Heads. Had only one stone toma-
hawk been found at Shea's Creek, at 10 feet below
high water mark, it might have been argued that it
was accidentally dropped overboard from a canoe,
but the finding of no less than four between 7 and 11
feet below high water mark, taken in conjunction
with the fact that the bones of the dugong, now
buried to a depth of 7 feet below high water, under
estuarine clays and peat, had been hacked by
aborigines, is good proof that sea level in that
locality has risen considerably to the extent of at
least from 7 to 11 feet since the imbedding of the
tomahawks. When it is considered that tidal ob-
servations in various harbours around Australia
and Tasmania show no appreciable variation in sea
level for the past fifty years, a variation of sea level,
in so relatively stable an area as that of Botany Bay,
of from 7 to 11 feet, probably indicates an antiquity
of not less than a few thousand years.

Captain S. A. White (38) and Professor W.ilter
Howchin (13) state that at the Reedbeds, near Ful-
ham. South Australia, the sands and clays, on being

136 " ^^- JOHNSTON MKMOIUAI. LKCTrUK.

excavated, revealed three aboriginal basins, formed
of clay. With these "dipping basins" for holding
water on the surface of the sand [as practised now
at Kisimayu, on the East Coast of Africa (/. S.A.
White)] were found six undoubted artefacts, mostly
pounding stones, hammer stones, etc. This was at
a depth of approximately 8 to 9 feet below high
water. Therefore, there has been a positive move-
ment of the sea there, or a negative movement of
the land of at least 8i feet since man made the clay
"dipping basins." This evidence, so remarkably in
accord with that of Shea's Creek, is suggestive of a
eustatic positive movement of the ocean since the
occupation of the Adelaide and Sydney areas by
aboriginal man.

j. Mr. Walter Enright (5) has recently recorded the
occurrence of an aboriginal tomahawk in sit^i at
Font Hill, near West Maitland, at 11 feet below the
surface. This was found in a bed of clay at the
Maitland Colliery Shaft.

iii. Based on anatomical structure of the human remains.
The Talgai Skull.

The state of mineralisation of this skull would not, in it-
self, be a proof of high antiquity, inasmuch as Dalrymple
Creek, near Talgai Station, where it was found, deposits a
considerable amount of carbonate of lime in a relatively short
space of time. But the dentition is considered to be dis-
tinctly archaic. The left canine of the upper jaw is not
only unusually large, but is separated from the adjacent
tooth by a diastema, and is strongly facetted on the side
where the canine of the lower jaw slid past it in such a way
as gradually to grind this facet. Such an interlocking of the
canine teeth, so characteristic a feature in the Piltdown man
{Eoanthropnx dav;soni) of Sussex, is, of course, a special
attribute of the .nnthropoid apes. It should here be mentioned
that Professor Keith considers that this skull has aflTinities
with those of the Tasmanian aborigines, but his opinion is
not shared by other anthropologists and anatomists. If,
therefore, this skull be that of an Australian aboriginal, a
later immigrant than the Tasmanian, the first coming of the
Tasmanian into Australia must have been still more remote
in time.

I!V r-KOKKSSOU SIR T. \V. K. DAVID. KIVK.. KTf, I37

iv. Based on the age of the dingo on the assumption
that the dingo was introduced into Australia by the
early Australian aboriginal immigrants. (9).

Remains of dingo (warrigal) have been recorded at the
following: —

a. At a cave in basalt on Toolern-Toolern Creek, ."> iTiiles
S.E. of Gisborne, in Victoria, in 1857, C. D'Oyly, H.
Alpin, with Dr. A. R. C. Selwyn, found perfect
skulls of dingo, of the Devil of Tasmania (S^trco-
philns uysbnts), etc. <2).

b. At Lake Colungulac, near Camperdown, cranial re-
mains of dingo, as well as remains of Thylacoleo
cannfex, were figured by McCoy from the lakt allu-
vial deposits. <■*>.

c. From alluvial deposits at Lake Timboon, Co. Heytes-

bury, Victoria, R. B. Smyth states that remains of
Canis dingo were found with those of Sarcophilus
vrsiyms, Harris, Macropus titan, Owen, and M. at-
las, Owen, and of Nototheriiim and Diprotodou. <•".

d. Smyth also states (op. cit., p. 149) that in sinking a
well at Tower Hill volcano, near Warrnambool, after
penetrating 63 feet of basaltic tuff, dried grass of an
old land surface was struck, then blue and yellow
clay, and at further depth of 60 feet, that is, 123 feet
below the surface, the skull and bones of a dingo
were found. Much doubt, however, exists as to the
authenticity of this discovery, and the statement is
now discredited.

e. The late Professor R. Tate states <5) that the Warri-

gal and Diprotodon "whose remains are found be-
"neath the ashes of the Mt. Gambler volcano" were
contemporaneous. This statement is also now
seriously called in question.

f. Krefft <•>) records the occurrence of the first two

molars of the lower jaw of a dog in a cave breccia
from Wellington, New South Wales, associated with
remains of Thylacinus, Sarcophihis, and Diprotodon.
Mr. R. Etheridge, jun. ('>, verified the occurrence
of teeth of Ca)iis in the cave-breccia specimens from
Wellington, in the collections at the Australian

(2) Selwyn. Q..J.G.S.. XVI.. 1860, p. M5.

McCoy, Ecol. Sur. Vii!t. Nott>s attached to Quarter Sheet, vii., N.W.

(.3) McCoy, F'rodromus Pal.. Vict., Dec. vii., 1S82, pp. S ami 0.

(4) Smyth, Aborik'incs of Victoria, i., 1878, pp. 119-150.

(5) Trana. Phil. Soc. Adelaitie. 1878-79 (1879), p. I.XX.

(6) Gfol. M.1K. ii., 18fi5. p. 572.

(7) Mem. dcol. Sur. N.S.W., KthnoloKical Scries. No. 2, p. 50.

138 " ^' .JOHNSTON MKMORIAL LECTIRE.

Museum, Sydney. This evidence is important, as
confirming that of the human molar tooth, already
quoted.

g. Professor J. W. Gregory (8) records finding re-
mains of Canis dingo associated with those of Thyla-
ciyms, in the N.E. part of the Lake Eyre region, on
the Diamantina.

h. Professor Wood Jones (15) states that "the Dingo
"falls into line with all the other races of domestic
"dogs, in being of the true northern wolf type.
"Moreover, in the large size of the carnassial teeth
"he approaches nearer to the ancestral type than do
"the other races of dogs of which I can obtain speci-
"mens or records" (op. cit., p. 258).

Wood Jones concludes that the Dingo, unaided
by man, could never have crossed Wallace's Line
(the Strait of Bali-Lombok), which is 15 miles in
width, oi" other still wider straits separating Timor
from the Sahul Bank, or the nearest other islands
of the Netherlands East Indies from New Guinea.
He summarises thus: —

"The progenitor of the Talgai man came with
"his wife, he came with his dog, and with his dog's
"wife, and he must have done the journey in a sea-
"worthy boat, capable of traversing this unquiet part
"of the ocean, with his considerable cargo. Be-
"sides this living freight, and the food and water
"necessary for the adventure, he carried other things
" — he carried a knowledge of the boomerang, of the
"basis of a totem system, and various other cultural
"features, all bearing a strange suggestion of very
"distinctly western origin" {op. cit., p. 2G3).

All this evidence combines to .show: —

1. That man in Australia was almost certainly con-
tompo/aneous: —

(a; with extinct marsupials such as Diprntodou, Thijht-

coleo curnifcx, etc.
(b) With extinct birds such as Droinorvin aiiHtralis.

2. That the Dingo, or Warrigal (Cauis dingo, or Canift
familinris dingo), was certainly contemporaneous with ex-
tinct marsupials in Australia, and that he was almost cer-
tainly introduced into Australia by aboriginal man.

(8) Dead Heart of Auitralia. pp. 78 and 152.

r.Y i>uoi"i;ssou sm t. \v. e. daviu, k.b.e., etc. j3f)

PART III.
SUMMARY.

The table herewith is only a very tentative and pro
visional attempt to approximate to the relative antiquity of
the various evidences adduced as to the age of abori^-inal
man in Tasmania and Australia.

From the ar<i:uments already deduced the followinp; con-
clusions may be provisionally drawn: —

(1) That *:he limitinpr of the date of arrival of the.
first Tasmanian aborigines to some such period as about five
thousand to seven thousand years, en the evidence of the
size of the refuse mounds or kitchen middens, left by the
aborigines, is apt to mislead for the following reasons: —

First, the kitchen middens are liable to be considerably
reduced in bulk through being dismantled by floods, winds,
etc., as well as solution by rain water, so that they are very
much smaller now than they formerly were.

Secondly, a large proportion of the aboriginal inhabitants
of the island did not dwell along the coast, but subsisted on
animals and plants, which they found useful for food, in the
inland areas. Thus out of the total population of aborigines
in Tasmania in 1803 of two thousand, as estimated by Dr
N^oetling, perhaps only one-half inhabited the coastal_ai'eas,
and so contributed to the kitchen middens. If this has been
so in past time, the limit assigned by Dr. Noetling of seven
thousand years would have to be doubled.

Thirdly, that while the evidence of aboriginal flaked im-
plements, in situ, in the cemented raised beach at Regatta
Point, near Launceston, points to the aborigines having in
habited the northern part of Tasmania at a time when sea
level was perhaps some three to five feet higher than it is al
present (perhaps 1,500 to 2,000 years ago), the remarkable
evidence of the Chalcedonic flake (beautifully finished by re-
touching by the aborigines) in situ, in a deposit probably of
fluvio-glacial origin, near Gladstone, in N.E. Tasmania, car-
ries the date back probably to an epoch approximately con-
temporaneous wi^h some important phase of Pleistocene glaci-
ation. If aboriginal man in Tasmania was really contemporan-
eous with one of the last great ice ages, he must have witnessed
a sea level, perhaps no less than 200 feet lower than it is at
present. This lowering of sea level was due to the locking
up of enormous volumes of sea water which went to form
some eleven millions of square miles of Pleistocene ice sheets.

140 " ^' XHINSrON MK.MOIUAI. I.KCrrilK.

Soundiners of the sea between the Malay Peninsula and Tas-
mania show that, but for a few relatively narrow deep straits,
such as those of Sunda, of Bali-Lonibok, and the trench be-
tween Timor and the Sahul bank, the ancestors of the Tas-
manian aborigines would have been able to cross over on dry
land from that famous tete-du-pont for migrations across
the Pacific of early man — the Malay Peninsula (if they ever
came from that quarter) — all the way to Tasmania. Obviously,
as Torres Strait is not more than sixty feet in depth, and Bass
Strait about 180 feet (along the line of shallowest ridge con-
necting it with the mainland), a fall of sea-level of 200 feet
would completely unite Tasmania with New Guinea. If the
Tasmanian aborigines arrived by such "strange roads" as now
"go down" beneath the sea, and if in the earlier stages of
their wanderings they followed the shore lines, and subsisted
largely upon shell-tish, the bulk, indeed perhaps by far the
greater portion, of their kitchen middens would now be sub-
merged, many of them under Bass Strait. This submergencb
would result from the gradual rise in sea level, due to the
thawing of the huge ice sheets of late Pleistocene geological
time.

2. Next, the absence of any knowledge of makinir sea
going canoes on the part of the Tasmanian aborigines, such as
would tend to their negotiating safely a strait of the present
width of Bass Strait, strengthens the belief that they must
have crossed at a time when the straits were either far
narrower than now, or did not exist at all. We are now in a
position to estimate very approximate date in absolute time
for the arrival of our aborigines in Tasmania. The evidence
at Launceston pointing to a higher sea level than at present,
to the extent of about three to five feet, belongs probably
to the epoch of greater warmth than at present (about 4 deg.
Fah.), which followed on .soon after the final melting away
of the last of the great Pleistocene ice sheets. This rai.sed
the sea level apparently all over the world by about fifteen
feet. Subsequently, possibly through the resorption of sea
water by very recently expanding polar ice caps, sea level
has since been lowered by fifteen feet. If the maximum sea
level, namely fifteen feet above its present level, took place
.seven thousand years ago, the Regatta Point evidence may
indicate an antiquity of about 1,500 to 2,000 years. Ob-
viously, this is an absolute minimum date. Next, it has been
shown that the dingo was brought into Australia by the
Australian aboriginal, the dingo being a domesticated wolf
imported by th^ An-^t mlian .'ilinrifinnl from A.sia. This

r.Y rilOKKSSOK SIK T. \V. K. DAVID, K.Il.K.. ETC. ^4]^

evidence suprgests that to whatever ape the dinp:o belonprs, the
Australian aboriginal is cquallj' old. GeoJoKical evidence
shows that on the mainland the diniLjo was contemporaneous
with some forms of extinct marsupials, such as Thylacoleo,
Diprotodov, etc. This, alone, carries back the coming of the
Australian aboriginal into Australia to many thousands of
years ago.

3. If the aboriginal flake discovered in the Doone Mine
deposit belongs to the Epoch of Wiirmian Glaciation, it may
date back to 20,000 years. If, however, as seems not improb-
able, it dates back to the time of the Riss Glaciation, then
the antiquity would be of the order of about 100,000 years.

4. The Talgai skull of the Darling Downs, near War
wick, in Queensland, although regarded by Professor Keith
as essentially that of a Tasmanian aboriginal, is considered
by others to be more Australian than Tasmanian- If the
latter view is correct, the anthropoid ape characteristic evi-
denced in the size and facetting of the canines shows again
the high geological antiquity of the Australian aboriginal.

5. This is supported by the occurrence of remains of
dingo, and of a human molar tooth in the cave breccia at the
Wellington Caves, in New South Wales, the dingo remains
certainly, the human molar doubtfully, in association with
remains of Thylacoleo.

6. However far back the date of arrival of the Aus-
tralian aboriginal is pushed into the past, the coming of the
Tasmanian must have been older still, for neither the Aus-
tralian aboriginal nor the dingo has ever found his way into
Tasmania. The obvious explanation is that at some time subse-
quent to the arrival of the Tasmanian aboriginal in Tas-
mania, during the low sea level which laid bare Bass Strait,
the sea returned in its strength, as the result of the melting
of the great Pleistocene ice sheets, and stopped the Australian
aboriginal and the dingo from migrating into Tasmania.

7. We have seen that in the Northern Hemisphere the
very early men, such as those of Heidelberg in Germany, and
Piltdown in Sussex, date back to possibly over a cjuarter of
a million years ago, whilst the ape man of Java, the Pithe-
cduthropuH, may be fully half a million years old.

Now as regards the backward limit in time for the Tas-
manian aboriginal, it may be noted that their anatomical struc-
ture shows little approach to Pithccnnthropnx, or to the old
men of Heidelberg or Piltdown. Piltdown man, in particular,
is considered by Professor Grafton P^lliott Smith and John

242 " ^' •'••IINSTON MKMOIUAT- I.KiTl HK.

Hunter to be in the direct line of ascent of man from the
ancestral stock from which the modern anthropoid apes
diverged. If the age of Piltdown man is to be referred
back to Giinz-Mindel inter-glacial time, he might be 300,000
to 400,000 years old. The Tasmanian aboriginal would be
newer than that.

8. The fact may again be emphasised that whereas there
is little doubt that the earliest members of the human family
inhabited the tropics, and had black skins, and that the black
men slowly became white, as the result of living for thou-
sands of years in cool temperate climates (and so we should
expect that the Tasmanian aboriginal, if he had been in
occupation of Tasmania for a very long period, would have
shown some change in colour of his skin from black towards
wTiite), there is no evidence that the skin of the Tasmanian
aborigines was other than black, right up to the time of their
extinction in 1877.

On the whole, then, the evidence is in favour of the Tas-
manian aboriginal having arrived in Tasmania between
about twenty thousand and one hundred thousand years ago.
As regards their original home, the opinion of the late A.
W. Howett, later supported by Professor Grifiith Taylor, is
that they came from Asia, being closely allied to the negrito
type of Semangs, who inhabit the highest ridges of the Malay
Peninsula. These peoples have the same strongly curling
hair, etc., as the Tasmanian aborigines. In the same region,
but at lower levels, are aborigines known as the Sakai. These
have many close affinities with the Australian aborigines.

The opinion, however, of Professor Sir Baldwin Spencer
is that possibly A. W. Howitt's conclusions will now have to
be modified. Spencer states in a letter to the writer: "The
"Tasnianians are not now regarded as true Negritos. They
"are probably a remnant of a very ancient ulotrichous
"(woolly-haired) people, the ancestors alike of the Negritos,
"now isolated in the Andaman Islands. Malay Peninsula,
"(Semangs), anl Philippines (Aetas). and possibly al.'^'o of
"the Tasmanians, but even this is doubtful as the Negritos
"were brachycephalic (cephalic index, 80-85), whilst the
"Tasmanians were dolichocephalic or me.saticephalic (ceph-
"alic index, 75), and seem to represent a distinct offshoot of
"these very early ulotrichous people, who may also have
"spread beyond New Guinea to the Western Pacific."

In regard to the Australian aboriginal and his origin,
Sir Baldwin states (also in a letter to the writer) : "The Aus-
"tralians of the present day seem to belong to a dolicho-

BY i'KOi'KSSOH SIK T. W. E. DAVIU, K.ll.K., ICTC, I43

"cephalic, cymotrichous group, usually now spoken of as pre-
"Dravidians, surviving relics of whom elsewhere are possibly
"the 'Jungle Tribes' of the Deccan, the Veddas of Ceybn,
"and the Sakai of the Malay Peninsula; but the Australians
"have developed along various lines, perhaps independently of
"contact with other peoples."

While, therefore, the original centre of dispersal of the
Tasmanian aborigines is still in doubt, that of the Australian
aborigines was probably in Asia, the home, too, of the dingo.

In regard to future geological researches en the antiquity
of man within the Commonwealth, and particularly of the
Tasmanian aborigines, attention should, in the opinion of the
writer, be directed, inter alia, to the following: —

1. Systematic exploration of the oldest and largest
kitchen middens, like those of Swanport, the Der-
went Estuary, Macquarie Harbour, Mussel Roe, etc.

2. Search for aboriginal implements, etc. —

(a) In the 1.5 feet (above high water) raised beach
deposits of the E., N., and W. coasts of Tas-
mania, and the islands of Bass Strait.

(b) In the older dunes, like those of King Island,
Flinders Island, etc. Those of King Island
have already yielded interesting remains of
Nototherium and Zaylosaus hurrissoni.

(c) In peat deposits, like those of Mowbray Swamp.

(d) In cave deposits, like those of Mole Creek.

(e) In older terraced river gravels, dating back into
the Pleistocene, including fluvio-glaciai "out-
wash-apron" deposits.

(f) At aboriginal "quarries" for stone for their
stone implements, or at places where they dug
out lumps of haematite for poun'ding into raddle
for colouring their hair.

(g) In any dredgings in Bass Strait or adjacent
estuaries, or in excavations for harbour works,
a very great desideratum for the dating of the
first coming into Tasmania of the Tasmanian
aborigines would be the zoning and correlation
of the Pleistocene glacial and inter-glacial de-
posits of Tasmania, with a view to making a
time scale for the Southern IIemisi)here fur com-
paring with the standard time scale of the
Northern Hemisphere.

244 " -^l 'OIINSTON MKMORIAL LKCTl'UK.

What seems to be specially needed is a systematic map-
ping of all the placial evidences, beginning with the oldest,
those on the West Ccast. There the jrrcat terminal moraine,
so well seen in the railway cuttings in the Lower Eden Val-
ley, can be followed north and south, and the outwash-apron
gravels together with their peat beds should be carefully
differentiated. The retreat of the great ice sheets, belonging
perhaps to Riss cr Mindel, or even Giinz time, should be
carefully followed up, traces of terminal moraines, Karnes
(csars), drumlins, trend of grooves on pavements, carry of
erratics, nature, thickness, and time value of varve clays
should be noted, together with positions and boundaries of
existing or silted up (most of these older Pleistocene glacial
lakes have been siltfd up), glacial lake basins, often with a
great rock bar (or "riegel") helping to form the lake. Then
estimates of the former thickness of the ice sheet may be
formed from a close .study of the height up to which old
glacial markings can be traced on "tinds," "horns," or "nuna-
takr." Afterwards evidences of the later glaciations super-
imposed on the older can be studied and mapped, culminating
in the final small mountain glaciers.

Truly, a fascinating and awe-iiispiring quest! Any
one familiar with the phenomena of existing Polar ice sheets
and Alpine glaciers can visualise the tiers of Tasmania under
their snowy mantle with great glittering ice-fields between ;
can see the glorious sapphire blue of the deep crevasses where
the ice sheet plunged down the steep mountain escarpments
of the West Coast, and mark the long sinuous lines of
moraine streeling away from nearby nunatakr to be lost to
sight in the far distance; can hear the harsh roar of the
sub-glacial stream rolling its tawny waters past the great
terminal moraine, and spreading, far beyond, its alluvial fan
of gravel and sand; can follow every phase in the retreat of
the ic3 invader; the ponding back of the glacial streams to
f;rm lakes in rear of the terminal moraines, the silting up
of the older lakes and their passing into peat swamps and
button grass flats. And then, too, he can see all the won-
derful phenomena of the rc-advance of the ice, as told so well
for Switzerland by Nussbaum, and finally view the highlands
alone snow-covered, the white of the come glaciers, framed
in dark rock, whilt all the rest of the 'slo is under a living
garment of green.

What changes the Tasmanian man must have witnessed.
Probably some of these glacial phases with the gradual
drowning of the Bass land bridge, which so effectually check-

liY I'KorKSSOU SlU T. W. K. .lAVID. K U.K.. KTC. 245

cd the Australian Pharaoh and his hounds cv ^hs; Victorian
bank. What ditfcience, if any, ensued in his culture as the
result of this isolation from tha mainland?

Then with what animals was the Tasmanian man con-
tomporaneous?

Did he see the marsupial rhinoceros alive, and, if so, did
he defend himself against him with his spears and throwing-
sticks?

The whole problem teems with interest, and is worthy
of devoted work from many workers.

Whoever may f(;llow this trail in the future should
never forget that the man who blazed it was the man whom
we specially delight to honour to-night.

One cannot conclude this memorial lecture on the Geo-
logical History of the aborigines of the Commonwealth with-
out some thoughts for the future as well as the past.

Unfcrtjnately, most unfortunately, these most primitive
children of men. the genuine Paleolithic type of hunters, the
Tasmanian aborigines, are extinct, have been extinct since
1877. Most unfortunately, our remaining Australian aborig-
ines are fast becoming extinct. These people whom we have
dispossessed of their hunting grounds, and mostly driven into
the most inhospitable and arid areas of the Commonwealth,
will soon share the fate of the Tasmanian aborigines, unless
we quickly change cur mctViod of dealing with them, and
cease interfering with their normal mode of life. They must
not be allowed to live in houses, they must be discourajjed
from wearing more thar. the very minimum of clothing. They
must be prohibited from opium, alcohoi, and every form of
the white man's vices. These conditions can be secured for
them if we have the will, in two ways: (1) When they are
in actual employment as stockmen, domestic servants, etc., on
stations, by treating them firmly, but kindly, as I saw them
treated by Mr. and Mrs. E. R. Kempe, on Sir Sidney Kid-
man's station at Macumba, near Oodnadatta. There they
are healthy and happy. (Secondly). Where they are not
in the employ of white people, they should have suitable re-
serves made and maintained for them as has been so eloquent-
ly advocated by Sir Baldwin Spencer, of Melbourne, and
Captain S. A. White, of Adelaide. The Ni>rth American
Indians were becoming extinct until our American cousins
seriously took up the subject of their presei'vation, and
secured for tribes like the Kavajo Indians suitable reserva-
tions, with proper hygienic regulations. Now the Navajos

146 "• ^* .lOlINSTON MKMOlllAl. l.K( TIUK

have ceased to decrease in numbers, and are actually in-
creasing. We could secure surely the same happy state of
things for our Australian aborigines if we had the will to do
it, and it is part of our frolemn duty and service to humanity
to have the will and to see that the lot of our aboriginal
is made as happy as may reasonably be. This about the
Navajos we have learnt thi'ough the recent Pan-Pacific Con-
gress, and the Congress has made us realise more than ever
before our responsibilities to the native races of the Pacific
in our own or in mandated territories and protectorates O)-

Many of these highly interesting peoples have become
extinct, many are fast becoming extinct, partly through dis-
eases endemic in the islands, partly through diseases intro-
duced by the white man.

At the Pan-Pacific Congress, Dr. Cumpston, Chief
Medical Officer to the Commonwealth, weighed his words
well when he said that if half the cost of a modern battleship
were expended, over a period of five years, on rliminating dis-
eases and providing proper hygienic conditions for the
native races within the shores of the Pacific, all those dis-
tressing diseases of tonu (Yaws), filaria, hookworm, and
many others which cause so much suffering ana prematui'o
death, could be completely eradicated.

Surely, surely the great nations around the Pacific should
co-operate without delay in setting in hand such a work
not only for the sake of our own health, a.s well as that of
the Pacific peoples, but for the sake of that humanity which
should raise modern man to heights undreamed of by his
Pala?olithic ancestor.

Certainly the noble character whose memory we cherish
so particularly to-day would, were he among us now, h.-.ve
been foremo.st in this pleading, fcr as Sir John Dodds has said
of him: "The actions of his life appear tj be governed by
"those principles of justice and kindness towards others which
"God has established as the only true guide ^o human t-on-
"duct."

Carlyle says truly that man in this life i.'- attended by
"the Terrors antl the S[)lendours." Johnston saw much of
both, and who does not, but his face was set upon the
Splendours, and we are thankful to him, devoutly thank-
ful, for helping us to realise the good and grandeur and the
sacred mystery in human life.

('.)) The resolution (if the ConKreHN urKinK the need for the eittablish-
inK of n Chnir of Anlhropolrnty nt nn Auntralian IiniverHity in to be
submitted for, it in hoped, favourable conHiUeration to the federal Govern-
ment.

iiY i'Rori;ss()u sik t. \v. k, david. k.i;.k,. kt<'. 147

This memorial to him stands for a sipn and for a prom-
ise. For a sifrn that we honour him, for a promise th-^.t we
always will honour duty so well and nobly done.

PART IV.
BIBLIOGRAPHY.

1. Benson, W. N., D.Sc, B.A. (Research Cantab.), F.G.S.

Papers and Proc. Roy. Sec. Tas., 1916, pp. 34-
40 — "Notes on the Geolopy of the Cradle Mountain
District" (45 references given to jflacial papers re-
latinjr chiefly to Tasmania).

2. Conder, Hartwell, M.A., Assoc. R.S.M.

Geol. Surv. Tas. Bull. No. 26. pp. 8, 9, 26

3. David, T. W. Edp:eworth. (See under Etheridge, No.

8.)

4. Debenham. F., B.A., F.G.S.

Proc. Roy. See. N.S.W., Vol. 44, pp. 560-575—
"Notes '^n the Geology of King Island, Bass Straits."'

5. Enright, W. J., B.A.

"On the occurrence of an aboriginal stone toma-
hawk at 10 feet below the surface at the Maitland
Colliery Shaft." Report Pan-Pacific Congress, Aus-
tralia, 1923 (in press),

6. Etheridge, R., junior.

Trans. Roy. Sec. Vic, Vol. XII., 1876— "Observa-
tions on Sand Dunes of the Coast of Victoria."

7. Etheridge, R., junior.

Proc. Linn. Soc. N.S.W., Second Series, Vol. V.
1896. pp. 259-266— "Has Man a Geological History
in Australia?"

• 8. Etheridge, R., junior.

Jour. Roy. Soc. N.S.W., 1896, with Professor
T. W. E. David and J. W. Grimsbaw— "On the
occurrence of a submerged Forest with remains of
Dugong, and with aboriginal stone tomahawks at
Shea's Creek, near Botany Bay, Sydney."

9. Etheridge, R., junior.

Mem. Geol. Sur. N.S.W., Ethnol. Series,
No. 2, Gov. Printer, Sydney, 1916— "The VVarrigal
or Dingo introduced or indigenous."

10 Grimshaw, J. W., sec under Etheridge.

]4S '' ^' 'OllNSTON MF-MOUIAL I.KCTIKK.

11. Gregory, J. W., F.R.S.. D.Sc.

Proc. Roy. Soc. Victoria, Vol, XVII. (new
series), Part i., pp. 120-144— "The Antiquity of
Man in Victoria."

12. Gregory, J. W., F.R.S., D.Sc.

"The Dead Heart of Australia," pp. 78 and 152.

13. Howchin, Professor Walter.

Tra:)s. and Proc. Roy. Soc. S. Australia. Vol.
XLIII., pp. 81-84 — Supplementary Notes on Aborig-
inal remains below Marine deposits, Fulhani. near
Adelaide.

14. Howitt, A. W.

The Native Tribes of South-East Australia.
London, Macmillan and Co., 1904.

15. Jones, Professor F. Wood.

Proc. Roy. Soc. S. Aust., Vol. XLV., 1921, pp
254-263.

16. Johnston, R. M.

Geology of Tasmania.

17. Johnston, R. M.

Papers and Proc. Roy. Soc. Tas., 1893— "The
Glacial Epoch of Australasia." Republished in the
R. M. Johnston Memorial Volume, 1921, pp. 16-96.

18. Lewis, Arndell N., M.C., LL.B.

Papers and Proc. Roy. Soc. Tas.. 1921, jip. 16-
36. Pis. VI.-XIII.

Ibid., 1922— "Further Notes on the Topography
of Lake Fenton," pp. 32-39.

Ibid, 1923, pp. 4-42, Pl.s. I.-VL

19. Longman, Heber A., F.L.S.

Mem. Queensland Museum, Vol. VII., Pt. II.,
1921— A New Genus of For.sil Marsupials, pp. 05-80
(Eiiryzyfjono duiiense) .

20. Lord, Clive E., F.L.S., and H. H. Scott.

Studies in Tasmanian Mammals, living and ex-
tinct. Papers and Proc. Roy. Soc. Tas., 1920 pp.
13-32; "O-UC; 97-113.

Ibid., 1921, pp. 1-0; 13-15.

21. Noetling, Dr. F.

Papers and Proc. Roy. Soc. Tas. 1909 -"A
Peculiar Group of Tronattas."

r.Y I'Koi'Ksson sir t. w. k. kavid. K.it.K., inc. 149

Ihid., I'JIO — The Antiquity of Man in Tasmania,
Pis. I. and II., particularly pp. 247-2r>5.

Ibid., pp. 265-278 — Comparison of the Tasmanian
Tronatta with the archaeolithic implements of
Europe. Pis. III.-VI.

Ibid., pp. 279-305— "The Food of the Tasmania:!
Aborigines."

22. Xoetling. Ur. F.

Tasmanian Handbook, Brit. Assoc, Australian
meeting, 1914, especially p. 118.

23. Officer, C. G. W.

Victorian Naturalist, Vol. IX., 1892, pp. 32-39—
"The discovery of supposed human footprints on
aeolian rock at Warrnambool."

24. Osborn, Henry F., and Reeds, Chester A.

Bull. Qeol. Soc. Amer., July, 1922— Old and
New Standards of Pleistocene Division in relation
to the Pre-History of Man in Eui'ope.

25. Reeds, Chester A. (see above).

26. Roth, H. Ling.

"The Aborigines of Tasmania," London, 1890.

27. Scott, H. H.

Geol. Sur. Records, Tasmanian, No. 4 — Moid-
graph of Nototherium tasmanicum.

2ft Scott, n. H.. and K. M. Harrisson.

"On the Discovery of a Nototherium in Tas-
mania." The Tasmanian Naturalist, Vol. II., No.
4, April, 1911, pp. 61-66.

For further references see under Lord.

29. Shortt, Captain, R.N.

Papers and Proc. Roy. Soc. Tasmania for 1889,
pp. 18-20 — Notes on the possible oscillation of land
and sea in Tasmania during recent years.

30. Smyth, R. Brough.

"Aborigines of Victoria," 1878.

31. SoUas, W. J.

"Ancient Hunters," second edit., 1915.

150

K, M. JOHNSTON MEMOKIAL LECTURE.

32. Somerville, J. L., B.Sc.

Jour, and Proc. Roy. Soc. W. Australia. Vol.
VI., Pt. 1, 1919-20, pp. 5-20, Pis. I.-V.— "Evidences
of uplift in the neighbourhood of Perth."

Cottesloe and Fremantle Shell Beds up to 23
feet abov-? h.w. Wave-cut platforms.

33. Spencer, Sir Baldwin, K.C.M.G., F.R.S., and J. A. Ker-

shaw, F.L.S.

Mem. Nat. Mus., Melbourne, No. 3, 1910 — A col-
lection of Sub-Fossil Bird and Marsupial remains
from Kin<i: Island, Bass Strait.

34. Taylor, T. Griffith, D.Sc, B.E., B.A. (Research Can-

tab.)

American Geographical Review, Dec, 1919, pp.
292-3 — Climatic Cycles."

35. Taylor, T. Griffith, D.Sc, B.E., B.A. (Research Can-

tab.)

Papers and Proc Roy. Soc, Tas., 1921— "A
Note on a Model of Mt. Field Ranges, National Park
of Tasmania."

36. Twelvetrees, W. H.

Geol. Sur. Bull., No. 25— The Gladstone Mineral
District.

37. Twelvetrees, W. H.

Papers and Proc. Roy. Soc, Tas., 19ir>, pp. 48-
50. PI. ^).

38. White, Captain S. A., C.M.B.O.U.

Trans, and Proc. Roy. Soc. South Australia,
Vol. XLIII., pp. 77-80 — "Notes on the occurrence
of aboriginal remains below marine deposits at "the
Reedbeds, Fulham, near Adelaide."

Do. do., pp. 81-84 — Supplementary Notes on
above by Professor Walter Howchin.

39. Wilkinson, C. S.

Geology of N.S.W., by authority, Sydney, p. 90.

151

TASMANIAN HYMENOGASTRACEIE.

By L. Rodway, C.M.G.,
Government Botanist.

(Read Gth November, 1923.)

In the year 11)11 I had the honour of reading to the
Society a paper of a similar title. Since then, there have
arisen reasons for additions and alterations. Our list of
these forms is now so large that there appears little prospect
that new specie? will come to light, wherefore the present
appears to be a suitable time to revise the family.

The Hymenogasters are small underground tubers which
produce their spores on basidia, generally 2, sometimes 4 on
each basidium. The characteristic of the family is that the
gleba does not break down into a mass of spores and ^bres
as in allied tubers, such as Mesophellia, Scleroderma, Diplo-
derma, Lycoperdon, and Geaster, but remains as a series of
contorted tubes or spaces without change at maturity, till
broken up by decay or eaten by an animal. The genus Seco-
tium, however, is intermediate between the Hymenogasters
and the Agarics. Formed underground it tends to emerge at
maturity, and has a more or less developed sterile portion,
often piercing through the gleba to the apex, and the tramal
plates approach the appearance of distorted gills. Some
plants may equally well be placed in one group or the other.

Of the Hymenogastracea;, we have in Tasmania six
genera of more or less artificial grouping. Three of these
have spores longer than broad, namely: —

H ymenogaster, with a fleshy gleba and rooting at the

base.
Rhizopogov, with a fleshy gleba and .strands of mycelium

marking the surface.

Hysternngium, with a gelatinous gleba, and thick peeling
peridium.

The other three have spherical spores: —
Octai'iana, an apparent peridium, and a sterile ba.-.e.
Hydnangium, an apparent peridium, and no sterile rase.
Gymnomyccx, no appreciable peridium, nor sterile b-ise

152 TASMAMAX IIY.MIONOI I ASTHACK.K.

HYMENOGASTER. TULASNE.

Members of this genus arc of a dry fleshy character.
Poridium from thin and continuous with the trama to thick
and ahnost gelatinous. Gleba fleshy, the hymenial cavities
small and very convoluted, trama thin, formed of elongated
cells. Not floccose, nor gelatinous. Spores generally ellip-
tic or fusiform, generally rough, papillate or sulcate, rarely
smooth. Sterile base present sometimes, piercing the greater
part of the gleba.

The followinc:: are specific distinctions: —

albellus, spores ellipsoid, pale, rough.

maideni, spores ellipsoid, pale, smooth.

aureus, spores fusiform, allantoid, smooth.

fulvus, spores brown, obtuse. G x 3«

violaceous, surface gelatinous, violet. Spores bvown,

rough, 9 X 7m-
nanus, peridium thick, brown.
rodwayi, spores ribbed, gleb?. dark.
albidus, spores ribbed, gleba pale.

Hymenogoste-- albellus, Mass. ct Rod. Irregularly glo-
bose, 1-3 cm., gray. Peridium nearly white, membranous.
Gleba brown to ochraceous-brown, canals small, very tortuous.
Spores ellipsoid, dark brown, one or both ends rather acute,
exospore thick, often inflated into small warts, or into few
large warts, or again into small wing-like expansions, 15-18
x 6-7 M

Common throughout Tasmania. Collected by Dr. Cleland
in New South Wales.

Hymcnoyaster maideni, Rod. Irregularly globose, 1-2
cm. Peridium white, very thin. Gleba white, becviming
pale ochre when dry, tough, canals minute, very toi-tuous.
Spores ellipsoid, one or both ends sub-acute, pale bvown,
smooth, 10-12 X 6m.

Rare. Near Ilobart. Difi'ering from //. clhfllK.s, chiefly
in paler gleba and spores.

Hymenoyaster aureus, v.s. Irregularly subgbbose,

mo.stly 1-2 cm., bright golden yellow, surface rugose. Per-
idium tough, yellow, about 0.5 mm., thick. Gleba compact,
pale brown, canals small, numerous, contorted. Spores ellip-
tico-fusiform, quite smooth, allantoid, pale yellow, 15-21 x
6."

BY L. RODWAY, C.M.G. jjj

Differs from H. albelliis in colour, thickness of periJium,
and glabrous, allantoic! spores,

Mt. Wellington, 3,000 feet.

Hymenogaster frilviis, Rod. Irregularly globose. 1-4
cm. diameter, pale gray, becomin?; black with age. Peridium
very thin, membranaceous. Gleba dense ochre, becoming
dark brown. Canals numerous, tortuous. Spores oblong,
brown, obtuse, 6-7 x S-SS^h-

West Coast and about Hobart Collected in South Aus-
tralia by Dr. Cleland.

Hymenogaster violaceus, Mass. et Rod. Globose \iolet
and white, with a viscid surface. Peridium thin, but dis-
tinct. Sterile base from ob.solete to piercing to the apex, and
broken into limbs. Gleba dense, the tortuous canals small,
pale, becoming dark brown. Spores broadly ellipsoid, obtuse,
brown, verruculose, 9 x 7m-

Fairly common.

Hyinenogaster nanus, Mass. et Rod. Irregularly glo-
bose. Often 2-3 cm. diameter. Outer layer of peridium of
a firm gelatinous consistency. 1-2 mm. thick, inner layer
membranous. Sterile base usually well developed. Gleba
fleshy, dark brown, cells wide. Spores dark brown, ellip-
soid, minutely verruculose, 15 x 1/j-

Unfortunately the first specimens sent to Massce were
very small, hence the inapplicable name.
Cascades, Hobart.

Hymenogaster' rodicayi, Mass. Irregularly globose, l-o
cm. diameter, colour gray-white. Peridium fleshy, about
1 mm. thick. Gleba compact, dull dark brown, sterile base
from obsolete to spreading in strands nearly to the surface.
Spores ellipsoid, longitudinally furrowed, usually both ends
acute. Ochraceous when young, then brown, 18-20 x 9^_

Fairly common in Tasmania. Collected in New South
Wales by Dr. Cleland.

Hymenogaster albklns, Mass. et Rod. Irregularly glo-
bose, 1-2 cm., usually clothed with floccose mycelium; white.
Peridium membranous, very thin. Sterile base, slight or
none. Gleba at first pinkish- white, becoming ochre-brown
with age. Cells small, very tortuous. Spores ellipsoid, ob-
tuse, yellowish-brown, longitudinally carinate, 20-25 x 15m.

Cascades, Hobart. Rare.

134 'lASMAMAN llYMK\0(;ASrHA(I'..K,

RHIZOPOGON, TULASNE.

Peridiuin thick and persistent or thin and disappearing
with strands of mycelium traversing; its surface. Cavities
distinct at first empty, spores smooth.

ritbesceiis, red externally.

Inteolus, v/hile, then Irownish-olive.

Rhizopogoii Inteolus, Tulanuc. Irregularly globose, 2-6
cm. diameter; peridium ochre- yellow, very thin. Gleba
rather dense, at first pale, smoky, then dark ochre-brown, or
greenish. Tubes contorted up to 300m diameter. Spores
oblong, obtuse, smooth, pale olive. 8 x 2a*

Sandy Bay, beneath Pines. Snug Falls track, wilh no
conifers near. Collected in Victoria. Common in Northern
Hemisphere.

Rhizopofjon rufescens, Ti(l(i^-)ic. Subglobose, 2-4 cm.

diameter, red-brown; peridium thin, marked with mycelial
strands. Gleba white, becoming yellowish with age, some-
times brown when very old, dense, canals minute. S)iores
narrow oblong, hyaline, or slightly tinted, 11 x 4"-

Common under Pines. Cosmopolitan.

HYSTERANGIUM, VITTADINI.

Peridium distinct, separable; gleba at first mucilaginous,
becoming gelatinous, cavities at first empty: spores smooth.

affinc, gleba greenish-blue.

hiirbi(riannv>, gleba brownish-green.

]»imUum, dwarf gleba ochraceous.

rhcidum, surface red-brown, viscid.

iifrattivi, surface pale purple, viscid.

)n f/lcciiini, peridium thick, fleshy brown, not viscid

nhtiixum, peridium thick, violet, not viscid.

rldthroidefi, waxy consistency throughout.

inflatio)!, exospore inflated.

nipmhranuceum, delicate white to pale brown, turning
indigo where bruised.

jiisiy])(>)}ii))i, white, drying ochre, spores fusifoini. shin-
ing.

HyHterniifjiom tiffinc, Mctss rt Rod. Globose, seldom ex-
ceeding 1 cm. diameter. White to pale brown; peiidium
white, leathery, 1 mm. thick, readily scp; rating from the

liY L. IIODWAY. C.M.C

155

gleba. Gleba dense, gi-eenish or bluish, jielatinous. C tnals
small, net crowded, tortuous. Spores ellipsoid to fusi''orm,
obtuse to sub-acute, smooth, slightly tinted, 11-13 x 5-6 M-
Common in Tasmania.

Hifsteyavginm hnrhiiiifnium, Rod. Globose, 1-2 cm-
diameter, pale brown; peridium leathery, easily separating,
1 mm. thick. Gleba gelatinous, pale brownish-green, canals
numerous, convoluted, walls thin. Spores obiong, smooth,
obtuse, 5x3,"

Differs from H. affiue by paler gleba, and the smaller
obtuse spores.

Collected near Launceston.

HystcriDiyiion piimilnni, Rod. Globose, pale ochre,
ca9spitose, 2-3 mm. diameter. Peridium thin, dark, horny.
Gleba gelatinous cchre. Canals relatively large, not crowded,
little convoluted. Spore.< smooth, hyaline, fusiform, 12 x
4m.

Differs from small specimens of H. affiiie in small size,
caespitose habit, pale gleba, and broader canals.

In heathy soil. Tasman's Peninsula.

Hysteraufjiion viscidi'in, Mdss. ct Rod. An irregularly
globose tuber, mostly 2-3 cm. diameter, viscid, che.-,tnut-
brown; peridium rather thick, tough, readily separating Irom
the gleba. Gleba at first pale, but dotted by the minute
brown canals, becoming dark brown with age. Spores broadly
oblong, very obtuse, dark brown minutely pajiillate, 12 14 x
8-IOm

In gullies near Hobart.

Also collected in South Australia by Dr. C.eland.

Hi/stcranf/iKm fi(.sis})onn)), Muks. ct Rod. Irregularly
globose, mostly 2 cm. broad, white to cream coloured, becom-
ing darker with age, surface very rugose. Peridium very
thin, papery, white. Gleba soft dense, but not as gelatinous
as that of most members of the genus, white, drying pale
yellow, canals small, very convoluted. Spores ellipsoid to
fusiform, mostly acute at one or both ends, hyaline, .shilling,
smooth, 20-22 x Sp.

Fairly common throughout Tasmania.

HiiHternvriinm vlathroklo^, Vittadiui. Very irregular in
shape, about 2 cm. in diameter; peridium thin, floccose con-
tinuous with the surrounding mycelium. Gleba gray-hyaline,

J 56 TAS.MANIAX nYMEXOGASTRACE.B.

5ioft. almost waxy. Canals fi'ee, little tortuou?;, narrow, pale
brown. Spores ellipsoid, acute at both ends, smooth, pale
brown, 10 x 5 ,"•

Knocklofty, Hobart. Rare.

Hysterangium neglectum, Mass. et Rod. An irregular
tuber, 2-3 cm. diameter, ochre coloured; peridium thick, fleshy,
not viscid, not x*eadily separating from the gleba. Gleba
dark, rich brown, sub-gelatinous, canals minute tortvous.
Spoi'es ellipsoid, light yellow-brown, rather obtuse, smooth,
12-8.".

Very near //. viscidum, only different colour, not viscid,
more gelatinous gleba, and distinct spores.

Found in many parts of Tasmania,

Hysteravgiinn inflatnm, Rod. Globose, reddish-brown,
smooth, about 1 cm. diameter; peridium fleshy, about 1 mm.
thick, readily peeling from gleba. Gleba blue-black, very
gelatinous, canals not crowded, but very tortuous. Spores
almost fusiform, very pale, smooth, 12 x 4m . enclosed in a
dilated exospore, much inflated above, i-educing towards the
base.

With a darker gleba than in H. affinc it has distinct spore
structure.

Rare. Mt. Wellington.

Hysteranyiam atratiim, Rod. Subglobose, 1.5-2 cm.
diameter, pale purple, smooth, viscid, becoming dark brown
when old; peridium thin, gelatinous, readily peeling. Gleba
clay-coloured, changing to dark brown, cannls small, but
numerous. Spores very dark brown, minutely rough, nearly
spherical, mostly 1 1.5-1 Ia*

Near //. viscidum. It differs besides general features by
the rounder and even darker sporeh.

Mt. Nelson.

Hystcravyinm obtusv.m. Rod. Irregularly subglobose,
pale pink-violet, becoming ochraccous when dry, mo.stly 2 cm.;
peridium thick, deep violet. Gleba pale slatey olive. Spores
ellipsoid, very obtuse, smooth, hyaline, 9 x 4"

Differing from H. affine by the thick violet peridiuni and
smaller and more obtuse spores.

Mt. Nelson,

BY L. KODWAY. CMC.. 15'7

Hysterangium membranaceum, Vittadini. Irregularly
globose, 1-2 cm., delicate, white, becoming blotched with
indigo. Peridium very thin, dry, subtomentose. Gleba
white or tinted with indigo, ochraceous with age. Spores
ellipsoid, smooth, pale brown, 12 x 6m-

Not common, but cosmopolitan.

OCTAVIANA, VITTADINI.

Peridium cotton j-. Sterile base distinct. Trama byssoid.
Canals small contorted. Spores spherical.

carnea, pink, spores finely echinulate.
aiistraliense , brownish, spores verruculose.
levispora, pale to light brown, spores glabrous.

Octaviana australiensc, Berk ct Br. Subglobose, mostly
2 cm. diameter, smooth, cream coloured to chestnut-brown, ac-
cording to age. Peridium thin, tough. Gleba cream-cclour-
ed, then pink-brown, pierced below more or less by arms from
the sterile base, canals about 1 mm., very contorted. Spox'es
globose, with an irregular surface, or smooth, pale yellow,
9-12M.

When young it will exude white milky fluid when cat.

Common in Tasmania. Widely spread in Australia.

Octaviana carnea, Wallr. Irregularly subglobose, 1-3
cm., smooth, pale-pink. Peridium thin, papery, or cottony,
hardly appreciable. Gleba pink and white, cells very numer-
ous and contorted, walls thin, sterile base, well developed.
Spores globose, finely echinulate, white, 9-10,«-

Cosmopolitan.

Octaviana levispora, nom. nov. Irregularly globose, 2-3
cm., white, then gray or very pale brown. Peridium thin
floccosc. Sterile base, sometimes well developed, someUmes
obsolete. Gleba white, then pale brown, dense, the canals small
and tortuous. Spores spherical, pale brown, smooth, 9-10 /n.
Peridium much thinner than in Octaviana australiensc, and
the canals smaller, but the spores similar.

Tasman's Peninsula.

HfDNANGIUM, WALLROTH.
Peridium fle.shy or thin, smooth or silky, sterile base
absent; cavities minute irregular, or occasionally larger
and not contorted. Spores globose or subglobose, seldom
smooth.

158 JASMAMAN HVMIONOCASTUACK.V;,

The genu.> may readily be divided into two sections: —

Contorta, in which the canals are very small, much con-
torted and empty.

Covipacta, in which the sporogenous cavities are roi^hly
iso-diametric, and crammed with spores.

Of the Couiorta: —

brislmucnsis, yellow, spores verruculose.
hinshyi, cchre-brown, spore.^ sub-echinulate.
glabrum, spores hyaline, smooth.

Of the Co)»pacta: —

Sporogenous cavities about i nim. diameter.

tasmanicnm, spores IIm , brown, echinulate.
clelcuidi, spores 11m-, black verrucose.
mc'alpinei, spores 21m-, yellow verrucose.

Sporogenous cavities much under I mm.

alveolatiim, spores alveolate.
microsporiitm, spores 5-6m-, verrucose.
densum, spores brown, echinulate.

Hydmnifjhnti hrishanensis, fierk. et Br. Irregularly glo-
bose, yellow, becoming brown when old, no sterile base, 1-3
cm., surface rugose. Peridium under 1 mm. but tough.
Gleba ochre to ochre-brown, tubes numerous, small, very con-
torted, mostly 0..3 mm. Spores globose, pale-ochre, obscurely
verruculose or minutely echinulate, 7-8m- diameter.

North-East Tasmania. Reported from Queen.iland

and Victoria. Many collections in New South Wales by Dr.
Cleland.

Hydnangimn hinshyi, v.s. Irregularly globose, rugose,
ochre-brown, 1-3 cm. diameter. Peridium thin, hardly ».ppar-
ent. Gleba rather dense, no ?terile base, umber, "anals
small, numerous, contorted. Spores globo.se, light brown,
densely covered with small erec', obtuse asperities, appear-
ing echinulate under a low power, 9-12/'

West Coast of Tasmania.

Hydmiitfjiitm yluhrum, Rod. Iiregularly glc hose to oblong,
mostly about 1 cm. diameter, surface smooth, dull chestnut-

I'.Y r,. HOIiWAY. (Mr;.

159

brown. Peridimii thin and continuous with the tiania. No ster-
ile base. Gleba at first pale, then brown, tubes convolute very
irreprular in size. Spores p:lobose, smooth hyaline 6 m-
diameter. Often the exospore dilated and making the spore
Su., with a double contour.

Distinguished from H. anntraliense by the dense gleba
and small hyaline spores.

Cascades, Ilobart. Coliected in South Au.otralia b;, Dr,
Cleiand.

Hydmntffunn tasmcniiciDu, h'alchbr. Globose, gray, be-
coming dark with age, 1-2 cm. diameter. Ptridium thin,
tough, continuous with the pale trama; canals 1-2 mm,
diameter, irregular, but little contorted, stuffed full of brown
spores, giving the surface a marbied appearance. Spore-j glo-
bose, coarsely echinulate, dark liown, 10-12«. diameter.

Found occasionally in Tasmania.

H 1/(1)1(1 iif/inm mc'alpinei, Rod. Irregularly globose,
ochre-coloured, surface rough, 1-3 cm. diameter. Peridium
tough, about 0.5 mm., thick, continuous with white trama.
Gleba dense, canaliculate spares, 1-2 mm. broad, not at all
contorted, black with dense masses of spores. Sporeo glo-
bose, dark brown to black, rough, with small dark warts,
9-12 M. diameter.

Mt. Nelson, Hcbart. Also collected in South Australia
by D. McAlpine.

Hydnaiifjium clchnidi, Rod. Irregularly globose, whitish
ochre, 1-2 cm. diameter. Peridium thin, membranous, white,
continuous with the trama. Gleba dull brown-clay to umber,
becoming browner with age, cavities about 1 mm , not con-
torted, but densely ci-owded with spores. Spores pale yoUow,
globose, smooth, becoming obscurely verrucose, 20-22 /*•
diameter.

Cascade Valley, Hobart.

H tjdtKDifjiitni ahn'okituni, Cl.c. ct Mohn. Globose, 1-1.5
cm., whitish ochre. Peridium distinct, continuous with the
trama, becoming dark. Gleba soft, waxy, solid, trama pale,
becoming dark, cavities minute, pale, not contorted. Siiores
globose, hyaline to pale brown, minutely alveolate, 10-12 ".
diameter.

Ca.scades, Hobart. Also in Victoria.

JgQ TASMANIAN ITYMKNOOASTRACEiB.

Hydnanginm microsporium, Rod. Globose, white to pale
ochre. Peridium rather thick and toujrh. Gleba dense,
orange to i-aw sienna ; cavities round about 0.5 mm. diameter,
not contorted, full of spores. Spores hyaline, globose, armed
with short spines or warts, 5-6,". diameter.

]\It. Nelson.

Hydiiauf/ium doistivi, Rod. Globose, 5-8 mm., ochra-
ceous. Peridium 0.5 mm., thick, leathery. Gleba marbled
with black from the spore masses; trama white. Canals
round, not convoluted, 0.3 mm. diameter, densely packed with
spores, black. Spores globose, brown, minutely echinulate.
l'2n. diameter.

Mt. Nelson.

In one specimen the base had few small canals, tnving
the appearance of a sterile base.

GYMNOMYCES, MASS. ET ROD.

Peridium none or rudimenta)y. Gleba fleshy; hyiaenial
spaces numerous, not much contorttd, trama thin. Sterile
base absent, except in a few isolated tubers. Spores hyaline,
globose, rough or echinulate.

pallidus, white, spores verruculose,
sevii)nidi(f!, white, spore? echinulate.
flams, yellow, spores echinulate.

Gymnoniffrcs pallidu.'>, Mas!>. ct Rod. Subglobose, 2-3
cm. diameter, white, becoming light ochre when old. Per'dium
obsolete. Gleba dense, fragile white, canals small, very con-
torted, tramal plates white, very thin. Spores globose,
hyaline, verruculose, 9-10m diameter.

Cascades, Hobart.

(ilfmnomiiceH Hcvuimditu, MasH. ct Rod. Globose, white,
then tinted with ochre, 2-4 cm. Peridium very thin, con-
tinuous with the trama. Gleba white, tougher than in G.
pnlliduit, canals minute, very contorted, irregular, tramal
plates white, rather firm. Spores hyaline, globose, stiorgly
echinulate, 11-12m- diameter.

Cascades, Hobart.

BY I,. nODWAY. CMC. 1Q1

Gymnomyces flavns, Rod. Subglobose, but very irregular
in shape and size, mostly from 5 to 10 mm. diameter, dull
canary yellow when fresh, ochraceous when dry. No perid-
ium; the surface floccose and marked by protruding hymen-
ial canals. Gleba fragile, canals broad, numerous con-
torted, trama thin, fleshy. Spores globose, hyaline, 10-11 M-
diameter, armed with broad, short spines.

Common in Southern Tasmania.

Gathered in New South Wales by Dr. Cleland.

/. tetraspora. Gleba less compact. Spores armed with
longer spines and adhering in fours.

Cascades, Hobart.

The following described species are here suppressed. —

Hymenoyaster harnardi, too near Hys. fusisjjoruin
Octaviana archeri, no sufficient description.
Gymnomyces solidus, too near G. pallidus.
Hymenoyaater levisporus, referred to Octaviana.

162

THE ROYAL SOCIETY OF TASMANIA

ABSTRACT OF PROCEEDINGS

1923

2Gth February, 1923.
Anmiul Meeting.

The Annual Meeting was held at the Society's Rooms,
the Tasnianian Museum, Hobart, on the 26th February, Mr.
L. Rodway, C.M.G., Vice-President, presiding. The Annual
Report and Statement of Accounts were read and adopted.
The following were elected as members of the Council: —
Messrs. W. H. Clemes, W. H. Cummins, Dr. W. L. Crowthcr,
Major L. F. Giblin, The Right Reverend Dr. R. S. Hay,
Messrs. J. A. Johnson, J. Moore-Robinson, L. Rodway, and
Dr. Gi'egory Sprott. Mr. R. A. Black was appointed Hon.
Auditor.

Mr. Rodway exhibited specimens of Millie/and liiulonunia.

Papers.
The following papers by Messrs. H. H. Scott and Clive
Lord were read: —

1. Pleistocene Marsupials from King Island.

2. Notothcriiiin victoriiv.
.']. Macroptis anaU.

UluHtrutcd Lecture.

Professor Sir T. W. Edgeworth David delivered an
illustrated lecture on "Recent Observations of the PleistoLcne
Ice-Age and its Relation to the Coming of Man into Tas-
mania."

Cnnrersaziove.

At the conclusion of the meeting a conversazione was
held in the .'\rt Gallery.

16th Ai'RiL, H)2;j.
The Monthly Meeting was held at the Society's Rooms
on the 16th April, Mr. L. Rodway, C.M.G., presiding.

The following members were elected; — Drs. A. W. Green
and A. L. McAulay, Messrs. J. C. Breadcn, J. A, Gorririge,
G. H. B. Rogers, and H. C. Webstei.

AllSTKACT OP ri{(»CKi;i)IXi;S. JgJ

Paper.

The followinfj- paper was read: —

"Notes on a Geological Reconnaissance of Mt. Anne
and the Weld River Valley. South-Western Tas-
mania." By A. N. Lewis, M.C., LL.B.

Illustrated Lecture.
Major L F. Giblin delivered an illustrated lecturo on
thfe Mount Anne District.

14th May, 1923.

The Monthly Meeting was held at the Society's Rooms
on the 14th May, Mr. L. Rodway, C.M.G., presiding.

The following members weie elected -.—Captain Bcwer-
man and Mr. F. L. Gunn,

The matter of the Cradle Mountain-Lake St. Clair Re-
serve was referred to. and it was resolved to communicate
with the Government in reference to the matter.

Mr. Rodway drew attention to the need for a Gun Act,
and tabled the New South Wales Act.

Illustrated Lecture.
Mr. E. T. Emmett, Director of tht Tasmaniaii Tourist
Bureau, delivered a lecture on "The National Parks of the
World."

nth June, 1923.

The Monthly Meeting was held at the Society's Room."!
on the nth June, Mr. L. Rodway presiding.

The following members were elected •. — Messrs. ll.
Gibbings, G. A. Purcell, and R. Harley.

Illustrated Lecture.
Mr. L. Rodway delivered a lecture entitled "Studies in
Tasmanian Flora," the lecture being illustrated by a large
number of lantern slides specially prepared by Mr. J. C.
Breaden.

9th Jlly. 1923.

The Monthly Meeting was held at the Society's Rooms
on the 9th July, Mr. L. Rodway presiding.

The following members were elected: — Mrs. G. H.
Butler and Dr. G. M. Parker.

Ig4 ABSTRACT OK rUOCKEDlNGS.

Papers,
The following papers were read: —

1. Vinculum "Hexfasoiatum, an addition to the Fish

Fauna of Tasmania. By Clive Lord, F.L.S.

2. A Note on the Burial Customs of the Tasm-^nian

Aborigines. By Clive Lord, F.L.S.

3. Mollusca of King Island. By W. L. May.

Illaatrated Lecture.
Mr. Clive Lord delivered an illustrated lecture on '"The
Economic Importance of the Tasmanian Fauna."

6th August, 1923.

The Monthly Meeting was held at the Society's Rooms
on the 6th August, Mr. L. Rodway presiding.

Papers.
The following papers wei-e read: —

1. Australian BomhylUdu'. By G. H. Hardy.

2. Australian DixklR'. By A. Tonnoir.

3. Studies in Tasmanian Mammals, Living and Extinct,

No. XI. By H. II. Scott and Clive Lord.

4. An Experimental Method for Determining the Prft-

pcrties of Optical Gratings. By Dr. A. L. McAulay.

Mr. J. Moore-Robinson presented a statement dealing
with the history of the first clock placea in Old St. David's
Church.

Illnstrdted Lecture.

His Lordship the Bishop of Tasmania, the Rt. Rev. Dr.
R. S. Hay, delivered a lecture on "The Historical Associations
of the County of Durham."

11th Skptembkr, 1!»2;{.

The Monthly Meeting was held at the Society's Rnoms
on the 11th September, Mr. L. Rodway jjresiding.

Reference was made to the death of M.-. Dudley Le
Souef, Director of the Melbourne Zoological Gardens.

Mr. P. Thomas gave an interesting note of a frraft
hybrid apple which was placed on exhibition.

AliSTRACT OP PROCKIJIMNOS. Ig5

Lecture.
Mr. L. Rochvay delivered a lecture entitled "Botanical
Notes."

8th October, 1923.

The Monthly Meetinp: was held at the Society's Rooms
on the 8th October, Mr. L. Rodway presiding.

The followinj]: papers wore read: —

1. Description of Two Underground Fungi. By L. Rod-

way.

2. Notes on the Tasmanian Emu. By H. H. Scott.

R. M. Johnston Memorial Lecture.
Professor Sir T. W. Edgeworth David delivered the first
R. M. Johnston Memorial Lecture, and the Chairman pre-
sented Professor David with the R. M. Johnston Memorial
Medal.

Conversazione.
At the conclusion of the meeting the members adjourned
to the Art Gallery of the Museum, where a conversazione
was held.

6th November, 1923.

The Monthly Meeting was held at the Society's Rooms
on tne (5tK Novembei, Mr. L. Rodway presiding.

The Chairman extended a welcome to the visiting dele-
gates attending the Royal Australasian Ornithnlojfists'
Union Conference.

Paper.
The following paper was read: —
Tasmanian Hymenogastracex. By L. Rodway.

Mr. Clive Lord drew attention to the fact that a memorial
to Tasman had recently been erected, but there existed no
memorial to Furneaux, Bligh, Cook, D'Entrecasteaux, Baudin
etc., all of whom had visited Adventure Bay, and suggested
that the Society might take steps in order to have a memorial
erected at Adventure Bay.

Illustrated Lecture.
Dr. J. A. Leach, President of the Royal Australasian
Ornithologists' Union, delivered an illustrated lecture on
the Birds of Australia.

266 Al'.STRACT OF I'UOCKEDINGS.

17th December, 1923.

The Monthly IMeetin<; of the Society was held at the
Society's Rooms on Monday, 17th December, at 8 p.m., Mr.
L. Rodway, C.M.G., presidinjr.

Mr. Lord reported that he had interviewed certain of
the residents of Adventure Bay concerninp the proposed
memorial to the early navigators, and that the matter was
under consideration.

The following members were elected: — Hon. F. B. Ed-
wards, Messrs. E. E. Unwin, M.Sc, W. H. Hudspeth, H. T.
Gould, S. E. Shoohridge, Charles Davis, Alfred Davis, Rev.
H. B. Atkinson, and Misses A. Wherrett, B.A., Hur.st, and
.•\}inew.

A discussion took place with regard to the site of the
landinjj place of Tasman's Carpenter. Mr. Moore-Rob'nson
stated that a party which included himself, Captain Bower-
man, Mr. John Kennedy, and others had vit,'ited the looalitj
in January last, and, beine; furnished with certain data and
maps, they formed the opinion that they had found the exact
spot of the landing, including the four trees meritioned by
Tasrnan. This wu.-- at tht ht':iO of the iiuu-r >y>ve of Piince
of Wales Bay.

Mr. Clive Loi'd i-eferred to the fact that the ixisitioii had
been investigated previously, namely by Cell (1S4.")). Walker
(1889). He considered the flag was planted on the north
.side of the bay, as Tasman's sketch definitely showed it there,
and not at the head of the inner bay. Moreover, Ta-man
leferred to the trees being on sloping ground, and the
northern side of the bay had such ground, whereas the head
of tbtf inner cove was flat. Trees could be noted on this
site also if need be, but no reliance could be placed on trees.
Further, Tasnian would never have ventured over the I'cef
into the inner cove.

Mr. John Kennedy ciuestioncd whether the sketch re-
terrcd to by Mr. l^ord had been included in Tasman's oricinal
journal. He considered that the four trees niv-ntioned were
of considerable agt — one of them could easily be from 800
to 1.000 years old.

Mr. G. H. Halligan, late Government Ilyv'rographer of
New South Wale;, gave rca.sons for hi.s opinion that Tasman's
carpenter landed in the centre of North Bay and not in

■'if^^^:

O/

'^.^\

AllSTUACT Ol' I'KOCKKUINCS. Jg^

Prince of Wale? Bay. As far as the trees in Prince of
Wales Bay were concerned, he was of the opinion that not
one of them was 100 years old.

Mr. L. Rodway said that the trees in the locality were
slow growine:, the greater number would not be more than
70 years old, but there was one tree which nii.uht be a very
considerable a«;e. He considered the trees of no value at
all to not<? the position.

Major L. F. Giblin said that the impression he j^ot was
that the problem could not be solved. He had not hearu of
anything- which was in harmony with all the data. Possibly
there were mistakes in the journal or the charts. As it
stood the evidence before them was not conclusive as to the
exact site of the landing.

Captain Bowerman said that Tasman's chart was not
as vague as they thought. The anchor was positively shown,
and the course could be followed, and any snjall error of
bearings would nol affect the result as far as the location
of the bay was concerned. A detailed Admiralty chart of
that section of the East Coast of Tasmania was badly needed.

Mr. John Reynolds (Honorary Secretary, Historical
Section) dwelt upon the need for accuracy in historical mat-
ters and also stated his opinion that the bar across the inner*
cove was at any rate largely of natural formation. Mr.
Reynolds moved that the Society alter the inscription on the
monument from "At this spot, etc.," to "Near this spot, etc."
The motion was carried.

168

ANNUAL REPORT

1923

-^ Patron :

]iis :majestv thk king.

President :

HIS kx(i:m,knuv tiii; admimsikaiok.

Vice-Presidents :

I,. 1{(1|>\V AV, (■ M.t;.
A. H. ( I.AUKK, .M.l{. C.S., I,.H.C.P.

Council :

(Kleclcil l''el.ni:u.v, lit.>.i).

L. IKtOWAV, V.yiM. (ri.ainiiaii) I,. K. (.IIIMN, D.S.O.

W. II. l'Li:.MKS, 15.A., II S(. lir. Hkv. H. S. IIAV. h.D.

W. K L. CUOWTIIKU, I)>.().. MB. .). A. .lOII.NSU.N, .M..V.

W. II. ( r.M.MINS, A.I.A.C. .1. .MODKi: HOISl.NSON, K.l{.(;..s.

Du. CKKCOKV .si'Uorr, .Ml)., C.M.

Standing Committee:

W. II. (lj;.\IK>. I, K. CII'.I.IN. I.. ItODWAV.

Hon. Treasurer :

.1 Miioiji -uiimNMiN. i.K.(;.s.

Editor:

( i,ivi; i.oitn, I' i„s.

Auditor:

1! A. l;l„\< K.

Secretary and Librarian:
( i.ivi; i.oiti). iM,.s

LIST OF MEMBERS

Honorary Members:

David, Sir T. W. Edgowoith, K.B.E., C.M.G., B.A., F.R.S.,
F.G.S., Professoi* of Geology and Physical Geography
in the University of Sydney. The University, Sydney.

Mawson, Sir Douglas, B.E., D.Sc. Adelaide.

Spencer, Sir W. Baldwin, K.C.M.G., M.A., D.Sc, Litt.D.,
F.R.S. Melbourne.

Ordinary, Life, and Corresponding Members :

"C," Correspondinsr Member.

"L," Member who has compounded subscriptions for life.

* Member who has contributed a Paper read before the Society.

•{• Member who has been elected a member of the Council.

Year of
Klfftion.

1922 Adams, A. W. National Mutual Buildings, Mac-

quarie Street, Hobart.
1921 Anderson, G. M., M.D., CM. Clare Street, New

Town.
1023 Agnew, Miss K. Augusta Road, New Towr.

1921 Allen, D. V., B.Sc. Principal Launceston Tech-

^ nical College.

1923 Atkinson, Rev. H. B. Holy Trinity Rectory,

Hobart.
1918 L Avery, J. 52 Southcrland Road, Annandale,

Melbourne, Victoria.
1908 L Baker, Henry D. C/o American Consulate,

Hobart.

1921 Baker, H. S., LL.M., M.A. Stanley, Tas.

1922 Bamford, H. Commercial Bank of Australia

Chambers, Elizabeth Street, Hobart.

1887 Barclay, David. 143 Hampden Road, Hobart.

1921 Barr, J. Stoddart, M.D., Glas. Lower Sandy

Bay.

1890 *Beattie, J. W. 1 Mt. Stuart Road, Hobart.

1918 Bellamy, Herbert, City Engineer. Town Hall,

Hobart.

1901 C Benham, W. B., M.A., D.Sc, F.R.S., F.Z.S. Pro-
fessor of Biology, University of Otago,
Dunedin, N.Z.

1903 Bennett, W. H. Ashby, Ross.

170 LIST UK MKMllKKS.

Year of

Hlettion.

1921 Bortouch, V. Voiij^ "Wellington Square Prac-

tising" School. Launceston.

1920 Bernacchi, A. G. I). .Maria Island.

1921 Bethune, Rev. J. W., B..\. ("hurch Grammar

School, Launceston.
J921 Birchall, J. A. 118 Brisbane Street, Launceston.

1922 Biss, F. L. U.S.S. Co., Hobart.

1912 *Black, R. A. Chief Clerk, Department of Agri-

culture.
1909 ^'Blackman, A. E. P^ranklin.

1920 Blaikie. T. W. Tractising School, Elizabeth

Street, Hobart.
1918 Bowling. J. "Barrington," Tower Road, New

Town.
1892 C Bragg, W. H.. M.A., F.R.S. Professor of Physics

in the University College, London.

1923 Breaden, J. C. 12 Waverley Avenue, New Town.

1923 Brett, R. G. r)8a Hill Street, Hobart.

1917 Brettingham-Moore, E., M.B.. Ch.M. Macquarie

Street.
1911 Bx'ooks, G. V. Director of Education, P^duca-

tion Department, Hobart.

1921 Brown, Mrs. Justin. "Waratah." York S^-eet,

Launceston.

1922 Brownell, C. C. 29 Napoleon Street, Battery

Point.
1907 Brownell, F. L. "Hci-wyn," Mercer Street, New

Tow n .

1921 Bruce, L. S. Tourist Bureau, Launceston.

191K Burbury, Alfred. "Glen Morey," Antill Ponds.

1918 Burbury, Frederick. "Holly Park," Parattah.

1919 Burbury, Charles. "Brookside," Moonah.
1919 Burbury, Gerald. "Syndal," Ross.
1919 Burbury, T. J. "Park Farm," Jericho.

1922 Burrows, Major H. O. A. D. The BaiTacks, Hobart.

1923 Butler, Mrs. G. H. Augusta Road, New Town.
1909 ^Butler, W. F. D., B.A., M.Sc, LL.B. Bishop

Street, New Town.
1921 Butler, Rev. W. Corly. The Parsonage, Mel-

ville Street.

l.isr OK MI.MUKItS. 171

Y«ar of
Klectiiiii.

1917 Butters, J. H. Chief Enjrinecr and Manatrer

State Hydro-Electric Department, Hobart.

1921 Camm, Dr. Carlyle. George Street, Launceston.

1920 Cane, F. B. 90 High Street, Sandy Bay,

1919 Chapman, A. D. Collins Street, Hobart.

1912 Chapman, J. K. Holebrook Place. Hobart.
1901 C Chapman, R. W., M.A., B.C.E. Elder Professor

of Mathematics and Mechanics in the
University of Adelaide. The University,
Adelaide.

1913 Chepniell, C. H. D. Clerk of Lepislative Council,

Hobart.

1920 Clarke, W. I., M.B. Macquarie Street, Hobart.
189G t=^Clarke. A. H., M.R.C.S., L.R.C.P. St. Helens,

Tasmania.

1918 Clarke, T. W. IT. Quorn Hall, Campbell Town.
1910 f-Clemes. W. H., B.A., B.Sc. Clemes College, New

Town.

1922 Collier, .1. D. A. Librarian, Tasnianian Public

Library.
1917 Copland, D. K., M.A. Professor of Economics.

The University, Hobart.
1920 Cranstoun, Mrs. F. A. 6 Gregory Street, Sandy

Bay.

1917 Cullen, Rev. John. IMacquarie Street, Hobart.

1918 tCummins, W. H.. A.I.A.C. Lindisfarne.

1915 f-Crowther, W. L., M.B., D.S.O. Macquarie Street,

Hobart.
1922 Davern, Miss N. St. George's Terrace.

1922 Davidson. R. Huon Timber Company, Hobart.

1919 Davies. H. Warlow, C.E. Aberniere, Mt. Stuart.
192;} Davis, Alfred. Lord Street. Saridy Bay.

192.3 Davis, Charles. Lindisfarne.

1908 fDechaineux, Lucien. Principal of Technical

Sch(K)l, Hobart.
1903 Delany. Most Rev. Patrick. Archbishop <.f Hob-

art. 99 Barrack Street.
1892 C Dendy. A., D.Sc, F.R.S., F.L.S. Pn.fes.sor of

Zoology in the University of London

(King's College). "Vale Lodge," Hamp-

stead, Ivondon, N.W.

172 LIST OF MKMBERS.

Yeiir of

Election.

1921 Douglas, 0. Gordon. 27 Patterson Street, Laun-

ceston,

1921 Dryden, M. S. 13 Hillside Crescent, Launceston.

1921 Eberhard, E. C. Charles Street, Launceston.

1923 Edwards, Hon. F. B., M.L.C. Ulverstone.

1919 Elliott. E. A., M.B. Main Road. New Town.

1918 Ellis, F. Education Department, Hobart.

1921 Elms, E. A. Post Office, Launceston.

1913 Erwin, H. D., B.A. Hutchins School, Hobart.

1921 Emmett, E. T. Railway Department, Hobart.

1918 Evans, L. Acting Director of Agriculture,

Hobart.

1921 Eyre, H, Manual Training School, Launceston.

1902 Finlay, W. A. 11 Sec-heron Road, Hobart.

1918 Fletcher, C. E. Education Department, Hobart.

1909 t*Flynn, T. T., D.Sc. Ralston Professor of Biology,

University of Tasmania.

1921 Flounders, A. 102 Patterson Street, Launceston.

1921 Forward, J. R. Mechanics' Institute, Launceston.

1890 L Foster, H., Lt.-Col. Merton Vale, Campbell Town.

1905 L Foster, J. D. "Fairfield," Epping.

1921 Fox, Miss. Ladies' College, Launceston.
1918 Gatenby, R. L. Campbell Town.

1922 Gatenby, Miss M. 5 Berean Street, Launceston.

1923 Gibbings, R. A. C. 28 Antill Street. Hobart.

1908 t*Giblin, Major L. F., D.S.O., B.A. Government
Statistician, Davey Street.

1922 Giblin, A. V. King Street, Sandy Bay.

1918 Gillett, Henry. "Wetmore," Ross.

1920 Gillies, J. H. Macquarie Street.

1923 Gorringe, J. A. Kcmpton, Tasmania.
1923 Gould, H. T., J. P. Liverpool Street, Hobart.
1918 Gould, J. W. Tramways Department, Hobart.
1907 Gould, Robert. Longford.

1921 Grace, W. L. 91 High Street, Launceston.
1905 L Grant, C. W. High Peak, Huon Road.

1923 Green, Dr. A. W. 30 Parliament Street, Sandy

Bay.

I,rsT nK MEMHKKS. 173

Year of
Kleotioii.

1923 Gunn, F. L. Davey Street, Hobart.

1921 Hall, E. L. 38 Lyttleton Street, Launceston.

1922 Halligan, G. H., F.G.S. 97 Elphin Road, Laun-

ceston.
1913 *Hardy, G. 11. C/o University, Brisbane, Queens-

land.

1923 Harley. R. Institution for Blind, Deaf and

Dumb, Hobart.

1918 Harrap, Lt.-Colonel G. Launceston.

1921 Harris, Miss Ha. Studio, Findlay's Buildings,

Launceston.

1921 Harris, Dr. R. E. 73 Cameron Street, Laun-

ceston.

1921 L Harvey, David Hastie. "Manresa," Lower Sandy
Bay, Hobart.

1902 C Haswell, William, M.A., D.Sc, F.R.S., F.L.S.
The University, Sydney, N.S. Wales.

1913 .' Hawson. Edward. "Remine," 174 Argyle Street,

Hobart.

1919 tHay, Rt. Rev. R. S., D.D., Bishop of Tasmania.

Bishopscourt, Hobart.
1921 Heritage, J. E. 76 Frederick Street, Launceston.

1921 Heyward, F., F.R.V.LA. 43 Lyttleton Street,

Launceston.
1915 Hickman, V. V., B.Sc. "Burnham," Mulgrave

Crescent, Launceston.
1919 Higgins, Dr. P. Campbell Town.

1921 Hill, A. H. 143 Charles Street, Launceston.

1913 Hills, Loftus, M.B.E., D.Sc.

1914 Hitchcock, W. E. Moina, Tasmania.

1918 Hogg, G. H., M.D., CM. 37 Brisbane Street,

Launceston.

1921 Hogg, W. Public Buildings, Launceston.

1922 Hood. F. W. Customs House. Hobart.

1921 Home, George, V.D.. M.A., M.D., Ch.B. f>3

Collins Street, Melbourne, Vic.

1921 Horner, A. G. 10 York Street, Launceston.

1923 Hudspeth, W. H. "The Nook," Lower Sandy Bay.

1922 Hungerford, Mrs. Red House. Fern Tree.
1922 Hungerford, Miss. Red House, Fern Tree.
19^3 Hurst, Miss E. R. 39 Bay Road. Now Town.

174 LIST OF MEMBKKS.

■N'ear of

Kleitiijii.

1909 'Hutchison, H. R. 1 Barrack Street, Hobart.
1922 Huxley. G. H. Crescent Road, W. Hobart.

1920 Hytten, T. 338 Murray Street, Hobart.

1913 Ife, G. W. R., LL.B. Summerhill Road, Hobart.

1918 Irby, L. G. Conservator of Forests, Forestry De-

jiartment, Hobart.
1898 *Ireland, E. W. J., M.B., CM. Launceston Gene-

ral Hospital.

1919 Jackson, George A. 79 Collins Street, Hobart.
1906 =^Johnson, J. A,, M.A. Principal of Phillip Smith

Training College, Hobart.

1921 Johnson, J. D. 142 St. John Street, Launceston.

1922 Johnson, W. Roye. Clemes College, New Town.
1922 Johnston, J. R. Murray Street.

1922 L Jones, Sir Henry, Kt. Campbell Street, Hobart.
1921 Judd, W., M.A. College Street, Launceston.

1921 Keating, J. H. Melbourne.

1921 Keid, H. G. W. Powelton, via Yarra Junction,

Victoria.

1911 Koene, E. H. Douglas, B.A. Burnie.

1922 Kemp. Andrew. Stoke Street, New Town.
1922 Kennedy, J. St. George's Terrace, Battery Point.

1910 Kermode, R. C. Mona Vale, Ross.

1913 Knight, J. C. E. "Windermere," Claremont.

1918 Knight, C. E. L., B.Sc. Claremont.

1919 Knight, H. W. National Mutual Buildings, Mae-

quarie Street, Hobart.
1887 tLtwis, Sir Neil Elliot, K.C.M.G., M.A., B.C.L.,

LL.B. "Werndee," Augusta Road, Hobart.
1919 *Lewis, A. N., M.C., LL.B. "Werndee," August*

Road.

1912 fLindon, L. H., M.A. "The Lodge," Park Street,

Hobart.
1900 Lines, D. H. E., M.B., Ch.B. Archer Street, New

Town.
1921 Listner, W. Parker, M.A., LL.B. 2 Byron Street,

Sandy Bay.
1875 C Liversidge, Professor Archibald, M.A., LL.D.,

A.R.S.M., F.R.S.. F.LC, F.C.S., F.G.S.,

F.R.G.S. "Fieldhcad," Coombe Warr«n,

Kingston, Surrey, England.

LIST OK .MKMIIKKS. 175

Year of
Ulectioii.

1912 t*Loid, Clive E., F.L.S. Director of the Tasnianian
Museum, Hobart. "Cliveden," Sandy Bay.

1921 Lord, Chester. "Meilifont," Hiyh Street, Sandy

Bay.

1921 Lord, Raymond. "Ilaiulroyd," G Franklin Street,

Hobart.

1922 Lowe, H. M. Hadlty'.-. Hotel, Murray Street,

Hobart.

1922 Macleod, Mrs. L. H. Hi^h Street, Sandy Bay.

1919 Mackay, A. D., B.Sc, M.M.E. 4 Fawkncr Street,

South Yarra. Vic.

1912 McAlister, Miss M. K. Holebrook Flats, Hole-

brook Place.

1893 *McAulay, Alexander, M.A., Professor Mathema-

tics in the University of Tasmania. The
University, Hobart.

1923 Mc^alay, A. L., Ph. D. The University, Hobart.

1921 McGowan, W. Superintendent of Reserves,

Launceston.

1921 McCiinton, Dr. K. 70 St. John Street, Laun-

ceston.

1921 Mclnytre, Dr. W. Ivevcrall. .'57 Brisbane Street,

Launceston.

1902 C ^Maiden, J. H., LS.O., F.R.S., F.L.S., Director of
the Botanic Gardens, Sydney, & Govern-
ment Botanist of N.S.VV. Botanic Gar-
dens, Sydney.

1918 Mansell, A. E. Melton Mowbray.

1918 Martin, Bri<;-.-General W., V.D. Launceston.

1913 Mather, J. F. 15 Church Street, Hobart.
1921 Masters, A. H. A.M. P. Chambers, Launceston.
1895 *May, W. L. Forest Hill, Sandford.

1909 Millen, Senator J. D. Roxburgh, Newstead.

1907 Miller, Lindsay S., M.B., Ch.B. U6 Macquarie

Street, Hobart.
1921 Miller. W.. c/o D. & W. Murray Ltd.. I^iiunceston.

1921 Miller, K. .M. Slate High School. Launceston.

1894 L Mitchell, J. G. Parliament Street, Sandy Bay.
1911 Montgomery. R. B. "Astor." Macquarie Street,

Hobart.

17<) U>T OV MK.MHKIIS.

Year ..f

Kk'i-linii.

1921 Morris, E. Sydney, M.B., Ch.M., D.P.H., Chiei:

Health Officer, Tasmania. 3 Montague

Avenue, New Town.
1918 Murdoch, Hon. Thomas, M.L.C. 55 Montpelier

Road, Hobart.
1921 Murdoch. Ronald. "Marathon," Lower Sandy

Cay.
1921 Muschamp, Rev. E. Holy Trinity Rectory, Laun-

ccston.
1882 Nicholas, G. C. "Cawood," Ouse.

^918 NichoHs, Sir Herbert, Kt., Chief Justice of Tas-

mania. Pillinjrer Street, Queenborough.

1910 Nicholls, H. Minchin. Government Microbiologist,

Dept. of Agriculture, Hobart. Macquarie
Street, Hobart.

1921 Nye, P. B. Geological Survey Office. Hobart.

1917 Oldham, N., J. P. New Town.

1921 Oldham, W. C. 39 George Street, Launceston.

1922 Overell, Miss Lilian. Holebrook Place.

1921 Padman, R. S. 56 St. John Street, Launceston

1921 Patten, \V. H. 59 Cameron Street, Launceston.

1923 Parker, Dr. G. .AI. Swansea, Tasmania.

1922 Park.'.-, H. T. Training College, Hobart.

1921 Parker, R. L. 81 St. John Street, Launceston.
1908 Parsons, Cecil J. 190 Davey Street, Hobart.
1888 C Pear.son, W. H., M.Sc, A.L.S. 18 Palatine Road^

Withington, Manchester, Eng.

1923 P;>dder, A. Stoke Street, New Town.

1922 Perrin, Miss K. 16 York Street, Launceston.
1902 t*l'it'sse, E. L., B.Sc, LL.B. "Merridale," Sack-

ville Street, Kew, Melbourne.
1910 I'illinger, James. 4 Fitzroy Crescent, Hobart.

1918 Pitt, Frank C. K. "Glen Dhu," The Ouse.

1919 Pitt, C. F. Campbell Town.

1908 Pratt, A. W. Courtney. "Athon," Mt. Stuart

Road, Hobart.

1922 Pulleine. R.. M.B. 163 North Terrace, Adelaide.

1923 Purcell. G. A. Clenies College, Hobart.

1922 Reid, A. R. Curator, Beaumaris Zoo, Domain,

Hobart.

LIST OK MKMKKUs. 177

Ve;ir <if
Kleclioii.

1921 Reid, A. Mcintosh. Geological Survey Office,

Hobart.
1921 Reid, W. D. Public Buildings, Launceston.

1921 Reynolds, John. Knocklofty Terrace, Hobart.

1919 Riggall, Captain A. Hortin, D.S.O. Tunbridge.

1912 i^Robinson, J. Moore-. Librarian and Publicity

Officer, Chief Secretary's Department, Ho-
bart.

1884 t'Rodway, L., C.M.G., Government Botanist. 77
F'ederal Street, Hobart.

1923 Rogers, G. H. B., M.A. Royal Exchange

Chambers, Collins Street, Hobart.

1921 Rolph, W. R. Examiner & Weekly Courier

Office, Launceston.

1913 Ross, H«*jtor. Cambridge.

1922 Sargison, H. Elizabeth Street, Hobart.
1921 Savigny, J. 21 York Street, Launceston.

i896 Scott, R. G., M.B., Ch.M. 172 Macquarie Street,

Hobart.
1921 -Scott, H. H. Curator ol' th- Victoria Museum,

Launceston, Tas.
1921 Sharland, M. S. R. C/o The Mercury Office,

Hobart.
1892 C "\Shirley, John, D.Sc, Principal Te.ichers' Training

College, Queensland. "Cootha,'' Bowen

Hills, Brisbane.
1921 Shields, Hon. Tasman, M.L.C. 13 Patterson

Street, Launceston,
1901 Shoobridge, Canon G. W. 3 Molle Street, Hobart.

1921 Shoobridge, Hon. L. M., M.L.C. "Sunny.side,"

New Town.

1923 Shoobridge, S. E. c/o Messrs. H. Jones and Co.,

Ltd., Hobart.

1923 Simson, Mrs. L. 3 St. George's Square. Laun-

ceston.

1917 Slaytor. C. H.. F.I.C. Misterton, Donta-to.'\

England.

1901 C Smith. R. Greig, D.Sc. Linnean Hall. Elizabeth
Bay, Sydney.

1921 Smithies, V. 34 Patterson Street, Ljuinceston.

1919 Snowden. Colonel R. K. "Mituillo." West Ilolmrt.

ITS I.l.sr <i|- MKMI'.KKS.

Year <.f
KlPolioii.

1896 L *Spiott, Gregory, M.D., CM. Macquarie Slreet,
Hobait.

1921 Spurlinp:, S.. Jnr. Brisbane Street. Launceston.

1919 Stevenson. Miss F. "Leith House." New Town.

1920 Swindells, A. W. 141 Campbell Street.
1907 Tarleton. J. W. Sandy Bay.

1918 Taylor, Walter E. Elboden Street, Hobart.

1020 Taylour, W. II. Equitable Buildings, Melbourne.

1920 Taylour, Harold. Equitable Buildinii-. Mel-

bourne.

1922 Thomas, Lt.-Colonel L. R.. D.S.O. Registrar of

the University of Tasmania.

1921 Thomas, P. H. Agricultural Department, Hobart.

1922 Thomson, E. H. Lower Sandy Bay.
1892 C ^Thompson, G. M., F.L.S. Dunedin, N.Z.

1918 fThorold, C. C, M.A. The Hutchins S.-ir)ol,

Hobart.
1921 Tymms, Dr. A. O. IS York Street, Launceston.

192.S Unwin, E. E., M.Sc. Friends' High School,

Hobart.

1921 Wakefield, F W

1918 Walch, Percy. King Street, Sandy Bay.

1901 C Wall, Arnold, M.A. Professor of English Lan?
guage & Literature in Canterbury College,
Christchurch, N.Z.

1913 W^ardman, John. Superintendent of the Botani-

cal Gardens, Hobart.

1918 Waterhou.se, G. W., B.A., LL.M., Cantab. Me^sr.s.

Ritchie & Parker, Alfred Green & Co.,
Launceston.

1922 Waterworth, E. N. Poet's Road. W. Hobart.
1922 Wat.son, D. W. Hobart.

1922 Wayn, Miss A. L. Lambert Avenue.

1918 Weber, A. F. Lands Department, Hobart.

152.3 Webster, Hugh C. "Greystanes," Lower Sandy

Bay.

1923 Wherrett, Miss A., B.A. Florence Street, Moonah.

1920 Williams, Hon. W. M., O.B.E. Augusta Road,

Hobart.
1922 Winch. A. A. Huon Road.

1901 Wise. H. J. Lambert Avenue, Sandy Bay.

1921 Wright, W. Invermay State School, Launceston.

179

ANNUAL REPORT

1923

The Council and Officers.

The Annual Meeting; was held at the Society's Rooms,
the Tasmanian Museum, on Monday, 26th February, 1923.
The following members were elected as the Council for
1923:— Messrs. W. H. Clemes, W. H. Cummins, Dr. W. L.
Crowther, Major L. F. Giblin, Rt. Rev. Dr. R. S. Hay, Messrs.
J. A. Johnson, J. Moore-Robinson, L. Rodway, and Dr. Sprott.

During the year 12 meetings of the Council were held,
and the attendance was as follows: — Dr. Crowther 11, Mr.
Rodway 10. Mr. Johnson 9, Mr. Clemes 8, Mr. Moore-Rjbin-
son 8, Major Giblin 6, Dr. Sprott 6, Rt. Rev. Dr. Hay 3, Mr.
Ctimmins nil (on leave of absence during part of the year
on account of ill health).

The Council at its first meeting made the following ap-
pointments:—

Chairman of Council: Mr. L. Rodway, C.M.G.

Standing Committee: Messrs. Rodway, Clemes, and
Major Giblin.

Editor of Papers and Proceedings: Mr. Clive Lord

Honorary Treasurer: Mr. J. Moore-Robinson.

Trustees of the Tasmanian Museum and Botanical
Gardens: Doctors Crowther and Sprott. Messrs. Clemes,
Cummins, Johnson, and Rodway.

Meeting.i.
During the year ten ordinary meetings of the Society
were held, and were well attended. Outlines of the papers
read and the lectures delivered will be found in the Abstract
of Proceedings.

Membership.

The membership of the Society continue.^ to be satis-
factory, and the roll at the end of the year showed three
Honorary Members, 12 Corresponding Members, '9 Life
Members, and 245 Ordinary Members.

Finance.
The financial position of the Society has received careful
consideration throughout the year. Unforrunately, it was
not possible to obtain additional assistance from the Gov-
ernment.

ISO ANNTAI, nKPOKT.

Papers and Proceedings.
The Volume of the Papers and Proceedings for the year
will be found to compare favourably with previous years, but
financial considerations have made it necessary to refuse or
postpone papers which would otherwise have been included.

R. M. Johnston Memorial.

The first R. M. Johnston Memorial lecture was delivered
by Professor Sir T. W. Edgeworlh David on Monday, 8th
October; a full report appears in the Papers published for the
year.

Tasvian Memorial.

At the Annual Meeting of the Society held on 8th March,
19'20. Sir Herbert Nicholls drew attention to the need for a
memorial to commemorate the visit of Tasman in 1G42. At
a meeting of the Historical Section held on 26th October, Mt.
Lord drew attention to the matter, with the result that the
matter was taken up by the Section. The investigations of
the Historical Section, however, were not final'sed owing to
the fact that Mr. J. Moore-Robinson and Mr. Juhii Kennedy
arranged a private visit to the site, and made a report direct
to the Council of the Society. Acting upon this report the
Council authorised the erection of a memorial on the site
selected by this expedition. The exact position chosen by
this expedition as being in their opinion the landing place
of Tasman's carpenter is at the extreme head of the inner
cove of Prince of Wales Bay. Later, the Historical Section
again took the matter up as reported in the Abstract of Pro-
ceedings, 17th December, 1923. The memorial was erected
during October by a party acting under the direction of Mr.
John Kennedy, and was formally unveiled by Sir Herbert
Nicholls on 3rd December. The erection of the memorial
was made possible owing to the subscriptions received from
members of the Society a).d others interested.

Ohitnnry.

It is with regret thai the Society has to record the death
of the following members during the year: —

T. P. Arnold, Hobart, elected a member in 1920.

R. W. Canning, Hobart, elected a member in 1920.

N. Nicolscn, Campbell Town, elected a member in 1919.

•Miss S. R. Parsons. Hobart, elected a member in 1908.

P. S. Seager. LS.O., Hobart, elected a member in 1922.

L. Simpson, Launceston, elected a member in 1921.

Dr. L. Grey Thompson, Launceston, elected a member
in 1921.

p. and P. K.S. Tas., 1921

Plate XIII.

Sir Herbert NicholK unvciliriK the Tnsmnn Mimorinl.

181

BRANCH REPORTS

NORTHERN BRANCH.
ANNUAL REPORT FOR THE YEAR 1923.

In these days of financial stress, and more or less un-
stable social conditions, it is satisfactory to be able to re-
port that a scientific society is at least holding its own, and
is on firm p.round, with room for optimism as regards its
future prospects. The Northern Branch has, unfortunately,
lost one of its most valuable members in Dr. L. Grey Thomp-
son, who died at Launceston on the 24th of October of this
year. His unselfish devotion to the cause of science, and
to the advancement of his fellow men, combined with his
genial nature and broad outlook, endeared him to all, and his
place will not be readily filled. One member has retired
owing to absence from the State, and two new members have
been elected.

On the 20th of June the following committee was
elected: — Chairman, the Honourable Tasman Shields; mem-
bers, Messrs. H. H. Scott, J. E. Heritage, R. O. M. Miller,

F, Smithies, J. R. Forward, W. D. Reid, F. J. Heyward. and

G. H. Halligan, L.S.. F.G.S., Honorary Secretary and
Treasurer.

Four papers were read, and two lectures delivered dur-
ing the session, as follows: —

31st May— LBcture by Mr. Clive E. Lord, F.L.S., Director
of the Tasmanian Museum, on "The Economic Aspects of
the Tasmanian Fauna."

12th July— Paper by Mr. G. W. Waterhouse on "The
Settlement of the North-West Coast of Tasmania by the
Van Diemen's Land Co."

2ijth July— Paper by Mr. H. H. Scott on "Additional
Notes on the Emus of King Island and Tasmania."

28th August— Paper by Mr. L. Rodway, C.M.G., Gov-
ernment Botanist, on "Plant Pathology, with special refer-
ence to Fungus Diseases."

l.'Sth October— Lecture by Mr. G. H. Halligan, L.S.,
F.G.S., on "The Doings of the Recent Pan-Pacific Congress
at Melbourne and Sydney."

12th November — Paper by Mr. W. H. Reid, A.I.M.M.,
Lond., A.C.I., Aust., on "Notes on Sampling and the Utilisa-
tion of Coal in the Pulverised Form."

182

REPORTS OF SECTIONS

HISTORICAL AND GEOGRAPHICAL SECTION.

1. Meetings.

The Annual Meeting of the Historical Section of the
Royal Society was held on 21st June. The resignation of
Mr. J. Moore-Robinson from the position of Honorary Sec-
retary was accepted, and Mr. J. Reynolds was elected to
the position. It was decided to hold only three more meet-
ings at monthly intervals if possible during the remaining
part of the year. The dilapidated state of Old St. David's
Burial Ground was brought before the notice of members,
and it was decided that the section should actively interest
itself in a scheme for preservation. The meeting concluded
with an inspection of original sketches of early Tasmania in
possession of the Royal Society.

The second meeting of the Section was held on IDth
July. 1923. The chief business was the discussion of the
measures the section should take regarding the preservation
of Old St. David's Burial Ground. A short lecture entitled
"The Cenesis of Industry in Tasmania," illustrated with
lantern slides, was given by Mr. J. Reynolds.

The third meeting was htld on 22nd August, and the
entire evening was devoted to discussing practical measures
for the pi-eservation of Old St. David's Burial Ground.
Representatives of the Church authorities and other gentle-
men actively interested were present. Afier discussion two
motions were carried. The first, that the Church authorities
he requested to confer with the City Council reunrding a
scheme for preservation, t'.ie Historical Section lending them
all assistance possible. The second motion embodied the de-
tails of a scheme for the City Council to consider, in which
it wa.«- proposed to reserve only a small area of the Burial
Ground and therein suitably arrange all monuments of
historic interest.

The last meeting was held on l.')th November. A con-
siderable aiTiount of important business was brought befcjre
the meeting, including the position of the Tasman memorial,
the propo.sed erection of a memorial to early navigators at
Adventure Bay, the commemoration of centenary of con-
stitutional separation from N.S. Wales, and the status of the
section. At the lermination of the business Mr. W. F. D.
F.utler read a paper on the Lady Franklin Mu.seum and the
Ancanthe estate.

AN'M Al, ItKl'OHT. 183

2. General licmailoi mi the Actirilics of the Scctio)}.

1. Old St. David's Burial Ground. — The preservation
of monuments of historical interest in this burial ground has
greatly interested the Section this year, the chief aim being
to raise public opinion in favour of the adoption of some
definite and fittinj;- scheme in the near future.

2. Historical IMonuments. — Owinp; to the selection of the
site for the Tasman memorial beinu' taken out of its hands,
the Section felt that it could nut assume any responsibility
for the accuracy of the determination of the present site.
At the November meetinjj, the Section, after considering the
position and recognising- that no small amount of doubt
existed, passed a motion recommending that the Council of
the Royal Society change the wording on the Memorial fi-om
"At this spot" to 'Near this spot." The Section has also
interested itself in the proposed erection of one memorial to
all the navigators who visited Adventure Bay between 1772
and 1802.

3. Historical Research. — Realising the necessity of mak-
ing a definite advance in research work and the necessity
of establishing its own bureau of information, the Section
have voted a small sum of money for the purpose of put-
ting a reference card index system into operation. The im-
portance of collecting historical reference cannot be over-
estimated, and it is hoped that in the not distant futurs the
Section will possess a both extensive and valuable reference
system.

EDUCATIONAL SECTION.
Chairman : T. W. Blaikie.
Secretary: H. T. Parker.

The following meetings were held: —

24th April — Observations made in the Schools and
Colleges of New Zealand. Mr. J. A. Johnson.

15th May. — A Historical Resume of the Development of
Educational Measui'ement. Mr. Parker.

12th June. — Intelligence: Its Measurement and Distribu-
tion. Mr. Huxley.

loth July. — (Comprehension and Interest as Related to
the School Curriculum. Mr. Fletcher.

14th August. — Tests of Schola.stic Efficiency: Measure-
ment of the Products of Instruction. Messrs. Johns(m and
Dechaineux.

11th September. — Rote Learning: Its Place in the Cur-
riculum. Messrs. Clemes and Purcell.

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INDEX

Titles of PapeiP, and New Qeneia and Spiuies in Heavy Type.

Abstract of Proceedings. 162-
167.

Annual Meeting. 162.

A Note on the Burial Cus-
toms of the Tasmanian
Aborigines (Clive Lord),
45-46.

A Note on the King Island
Emu (H. H. Scott), 103-
107.

An Addition to the Fish
Fauna of Tasmania
(Clive Lord), 43-44.

An Experimental Method of
Presenting the Principles
Determining the Cencral
Properties of Optical
Ciratings (A. L. .AIc-
Aulay), 87-102.

Acaiitho, 51.

Anne Mt., 9.

Annual Report, 168-180.

Anthracinse, 73.

Anthrax, 74.

Antigona lagojms, 51.

Area metellci, 50.

Argalista kingirola (.-p.
nov. ), 49.

Arf/yram<pba, 76.

Australian Dixid^ (A. L.
Tonnoir), 58-71.

BovibyliidiP, 72.
Branch Reports, 181.
Brookula consobrina (.sp.

nov.). 50.
Burial Customs of the Tas-

m.-mian .Mxtrigines (Clive

I»r(l). 45.

ChstodoH Hcxfasciatus 44.
Cythrrra, 76.

David. Profes.<;or Sir T. W..
Iliu.^tratod Lecture, Re-
cent Observations of the
Pleistocene Ice-Age and
its Relation to the Com-
ing of .Man into Tas-
mania, 109-150.

Description of Two Under-
ground Fungi (L. Rod-
way), 108.

Dischistus, 82.

Dixidse, Australian (A. L.
Tonnoir), 58-71.

Dixa flavicollis (sp. nov.), 59,

60 (Text fig.)
geniculata (sp. nov.), 59,

61 (Text fig.), 68, 70.
humeralis (sp. nOv.), 59,

65 (Text fig.)
nicholsoni (sp. nov.). 59,

64 (Text fig.), 68, 69.
tasmaniensis (sp. nov.),

59, 63 (Text fig.), 68, 69.
unimaculata (sp. nov.), 59,

66 (Text fig.)

ExoproHopa, 74.

Emmett, E. T.. Illustrated
Lecture, The National
Parks of the World. 16;{.

Fungi. 108.

(reological Evidence of the
.Vntiquity of Man in the
('(Mnmonwealth. with

.Special reference to the
Tasmanian .Aborigines
(Prof. Sir T. W. Edge-
worth DavidK 109-1.50.

INDEX.

IS7

Geolofiical Iteconnaissance of
Mt. Anne and Weld
Itiver (A. N. Lewis), 9-
42.

Hardy, G. H., Notes on Aus-
tralian Bombyliidje, 72-

86.

Hay, Rt. Rev. R. S., Illustrat-
ed Lecture, The Histor-
ical As.sociations of the
County of Durham, 164.

Hydnangiuni hinsbyi (sp.
nov.), 158.
clelandi (sp. nov.), 108.
mc'alpinei (sp. nov.), 108.

Hymenogastraceje, Tasman-
ian (L. Rodway), 151-
161.

Hymenogaster aureus (sp.
nov.), 152.

Hyperalonia, 73.

Johnston, R. M., Memorial
Lecture (Prof. Sir T. W.
E. David), 109-150.

King Island, Mollusca of, 47.
King Island, A Note on the
— Emu, 103-107.

Leach, Dr. A. J., Illustrated
Lecture, Birds of Aus-
tralia, 165.

Lewis, A. N., Notes on a (Geo-
logical Reconnaissance of
Mt. Anne and the Weld
River Valley, 9-42.

List of Members, 169-178.

Lord, Clive, A Note on the
Burial C'usloms of the
Tasmanian .Aborigines,
45. An Addition to the
F'ish F'auna of Tas-
mania, 143. Illus-
trated IxK-ture, The
Economic Importance of
tfie Tasmanian Fauna,
164.

Lord, Clive (and Scott),
Pleistocene .Marsupials
from King Island. 1-5.
Nototherium victoria-, 4.
Macropus anak, 6. Notes
on a .Mutilated Femur of
Nototherium, 56.

Lomatiinse, 77-81.

Macropus anak, 6.

May, W. L., Mollu.sca of King
Island, 47-55.

McAulay, A. L., B.Sc, B.A.,
Ph. D., An Experimental
Method of Presenting
the Principles deter-
mining the General Pro-
perties of Optical (Grat-
ings, 87-102.

Mollusca of King Island (W.
L. May), 47-55.

Mylitta polita (sp. nov.), 48.

Natica kingensis (sp. nov.),
49.

Northern Branch, Annual Re-
port, 181.

Notes on a (Geological Recon-
naissance of Mt. Anne
and the Weld River Val-
ley, South-Western Tas-
mania (A. N. Lewis),
9-42.

Notes on Australian IJomby-
liida" (G. H. Hardy), 72-
86.

Nototherium, Notes on a
Mutilated Femur of
(Scott and Lord), 56.

Nototherium Dntchclli, 1-3,
5, 8.

Nototherium rictnria', 1 '^.

Obituary, 180.
Odostomia, 55.
Octaviayia, 157.

Philobrya subpurpurea (sp.

nov.), 48.

188

INUKX.

Pleistocene Marsupials from
King Island (Scott and
Lord), 1.

Protemnodon anak, 6-8,

Reports of Sections, 182-183.

Rhizopogon, 154.

Rodway, L., Illustrated Lec-
ture, Studies in Tas-
manian Flora, 163. Lec-
ture. Botanical Notes.
165. Tasmanian Hy-
menogastracea», 151-161.
Description of Two Un-
derground Fungi, 108.

Scott. H. H.. A Note on the
King Lsland Emu, 103-
107.

Scott, H. H. (and Lord),
Pleistocene Marsupials
from King Island,
1. Nototherium vic-

toriie, 4. Macropus
anak, 6. Notes on a
Mutilated Femur of No-
totherium, 5f).

Sinjfromifia, 84, 85.

Statement of Receipts and
Expenditure. 184-185.

Sthciudus atlas, G.

Studies in Tasmanian Mam-
mals, No. VIII. (H. H.
Scott and Clive Lord). 1.
No. IX., 4; No. X., 6;
No. XI., 56.

Systcechns, 82.

Systropiyia", 82.

Tasmanian Aborigines, A
Note on the Burial Cus-
toms of (Clive Lord), 45.

Tasmanian Aborigines, An-
tiquity of (Prof. Sir T.
W. David), 109-150.

Tasmanian Mammals. 1, 4.
6, 56.

Tasman Memorial. 166-167.
180.

Tonnoir. A. L.. Australian
Dixidse, 58-71.

Vinndum sexfaficiatnvi, 43
(Text fig.).

Weld River, 9.

ZaglosuKs harrissoni, 1. 8.

PAPERS & PROCEEDINGS

OF THE

ROYAL SOCIETY
OF TASMANIA

FOR THE YEAR

1923

(With 13 Plates and 19 Text Figures)

ISSUED 9th APRIL. 1924

PUBLISHED BY THE SOCIETY

The Tasmanian Museum. Argylc Street. Hobart
1*^24

p..,,,,, r-v Shillings

Papers and Proceedings

of th<

Royal Society of Tasmania

BACK NUMBERS

A limited number of copies are available for purchase.
Prices, etc., can be obtained on appl'cation to the
Secretary.

ROYAL SOCIETY OF TASMANIA

PAPERS AND PROCEEDINGS, 1923

CONTENTS

Page
Studied in T.i5inaiiian Mammals, Livio^ and Kxtinct. Ku. VIH.
Pleistocene Marsupials from King Island. By H. H. Scott and
Clive Lord, F.L.S • 1

Studies in Tasmanian Mammals, Living and Extinct, No. IX.
Notctherium rictoriac. Owen. By H. H. Scott and Clive Lord,
F.L.S 4

Studieti in Tasmanian Mammals, Living; and Extinct. No. X.
Giant Wallaby, Macroptts avnii, Owen. By H. H. Scott and Clive
Lord, F.L.S 6

Notes on a Geological Keconnaissance of Mt. Anne and the Weld
River Valley, Sputh-Western Tasmania. By A. N. Lewis, M.C .

LL.B. . . : ." 0

Vinriiluni stxfasciatnm, Richardson. An addition to the Fish Fauna

of Tasmania. By Clive Lord, F.L.S 43

A Note on thr Burial Customs of the Ta-^mrmi.-m Alnirii'ini's. lU-

Cliv* Lord, F.L.S ■»

Mollusca of King Island. By W. L. May 47

Studies in Tasmanian Mammals, Living and Extinct. No. XL
Notes on a Mutilated Femur of Notothenum. By H. H. Scott and
Clive Lord, F.L.S 6ti

Auftrulian Dvtidac. [Dipt.] By A.- L. Tonnoiv •''^

Not«s on Australian Hombyliidae, mostly from Uie manusi :
papers of the late Arthur White. By G. H. Hardy

An Kxperimental Method of presenting the Principles determining
the General Properties of Optical Gratings. By A. L. McAuiay.
B.Sc, B.A.. Ph.l) »'

A Note on the King kla»d Emu. By JI. H. Scott n03

Description of Two Underground Fungi. By L. Rodway, C.M.G. . . 108

R. M. Johnston Memorial Lecture. Geological Evidence of the
Antiquity of Man in the Gommonwealth, with special reference
to t*»e Tasmanian Aborigines. By Professor Sir T. W. Edgewoi-th
David, K.B.F... C.M.G. , F.R.S., B.A.. F.G.S 109

Tahmanian HymcnoitaHlrareae. By L. Rodway, C.M.(i 1">1

Abstract of ProcpHingn H--

Atjnual Report

Officii. .168

L^t of Meml)er,. 1'"'^'

RfpoM •"'•'

ObilN.,.. l-^"

Branch Report-. '^'

R^■pol^« of Sec-ti. : 1 ^-

Ar...,,,:. 1^1

Index ""■'

Wholly »«t up and printed in Australia by Davies Brothers Limited at
"The Mercury" Office. Macquarie Street, Hobart. Tasmania, ^1U24.

i* l«j:i j\\ .1

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