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U.S. DEPARTMENT OF AGRICULTURE,
DIVISION OF ENTOMOLOGY.
BULLETIN No. 30.
eter ok bS:-
OF
OBSERVATIONS AND EXPERIMENTS
THE PRACTICAL WORK OF THE DIVISION,
MADE
UNDER THE DIRECTION OF THE ENTOMOLOGIST.
(PUBLISHED BY AUTHORITY OF THE SECRETARY OF AGRICULTURE.)
WASHINGTON:
GOVERNMENT PRINTING OFFICE,
1893.
CONTENTS.
7
I NTL ag oS ne a oe auc dun sasene wee
EE ee ee a ae owe c aw pen accn oc bawuseoncee caus
REPORT ON SOME OF THE BENEFICIAL AND INJURIOUS INSECTS OF CALIFOR-
tS Pe See oS oe ta ee Se a ow We cewe woe uee soo e D. W. Coquillett
REPORT UPON INSECT INJURIES IN NEBRASKA DURING THE SUMMER OF
oh LER pe ee Ee a ee eer es Lawrence Bruner
REPORT ON INSECTS OF THE SEASON IN JOWA............--.. Herbert Orborn
ENTOMOLOGICAL NOTES FOR THE SEASON OF 1892.....---- Mary E. Murtfeldt
REPORT ON EXPERIMENTS IN APICULTURE, 1892 ...............d. H. Larrabee
3
LETTER OF TRANSMITTAL.
U. S. DEPARTMENT OF AGRICULTURE,
DIVISION OF ENTOMOLOGY,
Washington, D. C., March 25, 1893.
_ Sir: Ihave the honor to transmit for publication Bulletin No. 30 of
Division. It comprises the reports of the field agents of the Divi-
Sio for the past year (1892), a summary of which has been included i in
my annual report.
_ Respectfully,
= C. V. RILEY,
z Entomologist.
fon. J. STERLING MORTON,
= _ Secretary of Agriculture.
eee
REPORTS OF OBSERVATIONS AND EXPERIMENTS IN THE
PRACTICAL WORK OF THE DIVISION.
INTRODUCTION,
The present bulletin is a continuation of the series of annual reports
of the field agents of the Division, Bulletins 22, 23, and 26 of this Divi-
sion comprising those for 1889, 1890, and 1891, respectively.
Mr. Koebele’s continued absence in Australia up to the middle of the
summer, and other duties connected with the closing up of his last
Australian mission, have occupied his time to such an extent that no
regular report from him is included.
Owing to the reduction in the appropriations for the Division, Mr. F.
M. Webster, in Ohio, and the apicultural agent, Mr. J. H. Larrabee,
in Michigan, were suspended from duty July 1, 1892. The former was
immediately appointed entomologist of the Ohio Agricultural Experi-
ment Station, and has made no report upon his operations as agent of
the Division for the first six months of the year.
Mr. Larrabee, however, has sent in a somewhat full report upon the
experimental work in apiculture, which is published herewith, and which
will be found of interest to apiarists. Accounts of his experiments upon
the important questions of cross-breeding, temporary removal of the
queen to prevent swarming, the amount of honey consumed by bees in
secreting one pound of wax, the cultivation of honey plants, and others,
are included.
Mr. D. W. Coquillett, agent at Los Angeles, Cal., reports in full
upon his experiments with the beneficial insects received from Mr.
Koebele from Australia and New Zealand, giving detailed descriptions
of the different states of the species brought over. He also treats of
aspan-worm (Boarmia plumigeraria Hulst), which has lately proved
very injurious to Walnut in parts of California, and closes with some
account of experiments against the Codling Moth and a few other
insects which have been injurious to fruit trees in California during
the year.
The Nebraska agent, Mr. Lawrence Bruner, reports upon the outlook
for destructive locusts, but devotes the main part of his report to a
consideration of certain sugar-beet insects, closing with a short sum-
mary of the miscellaneous injurious insects of the season.
7
The Iowa agent, Prof. Herbert-Osborn, gives a general summary o:
the ‘injurious insects of Iowa for the season of 1892, reports upon —
further experiments upon grass insects, and gives an account of cer- _
tain tests made with the White Grub fungus of Europe against our
American species.
The Missouri agent, Miss Mary E. Murtfeldt (who was also fur-
loughed at the close of the last fiscal year on account of the reduction
in the appropriation), gives in her report an account of certain insects
which have been prominent in her vicinity during the season, bringing
out, notably, an important point in the life-history of the Cabbage
Curculio, and describing a serious attack upon Spinach by a small
leaf-beetle. :
O.Ve ne,
oe Or gee
REPORT ON SOME OF THE BENEFICIAL AND INJURIOUS
INSECTS OF CALIFORNIA.
——Ss—s
By D. W. CoQquimcLetTrtT.
LETTER OF SUBMITTAL,
Los ANGELES, CAL., November 3, 1892.
Sir: I submit herewith my annual report for the year 1892. The major portion of
this report consists of an account of the beneficial insects sent to me from Australia
and New Zealand by Mr. Albert Koebele under your directions. The caring for these
insects and the working out of the life history of the most important ones has con-
sumed a large portion of my time during the past season. The present indications
are that the Orcus australasie will prove of more benefit than any other of these >
recently introduced species. .
Early in the season reports were received of the occurrence in destructive numbers
of certain kinds of caterpillars or span-worms, in the counties of Santa Barbara,
Alameda, and Santa Clara; and in accordance with your instructions I visited each
of these localities, and spent several days in investigating these destructive insects.
The species causing the damage in Santa Barbara County proved to bea kind of
span-worm which had occasioned considerable injury to the leaves of English wal-
nut trees; an account of this pest is given in the following pages. The principal
depredator in Alameda and Santa Clara counties proved to be also a span-worm or
canker-worm, closely resembling the well known Fall Canker-worm (Anisopteryx
pometaria Harr.), but as the moths have not yet issued the species can not be deter-
mined at present, but will be reported upon later.
The Fluted or Cottony-cushion Scale (Icerya purchasi Mask.), is still held in subjee-
tion by the Vedalia cardinalis. Since sending in my last annual report I have, at
your instance, sent colonies of this useful insect to New Zealand, South Africa, and
Egypt, besides sending a large number of colonies to various parts of this State.
The treatment with hydrocyanic acid gas is coming into more general use and con-
tinues to be the most éffectual remedy at present known for the extermination of
the various kinds of scale-insects. The sheet fumigator, described in my letter to
you of March 18, and published in the June number of INsecr Lirr, is more widely
used than any other kind, being less expensive and easier to operate than those here-
tofore in use. During the present season the supervisors of Los Angeles County
instructed Mr. John Scott, the horticultural commissioner, to purchase seventy tents
and the necessary chemicals, and to fumigate the infested trees at cost to the owners.
The city of Riverside has also purchased a large fumigating outfit with which to
exterminate any scale-insects that may be introdnced there, and the citizens of Ana-
heim, in the adjoining county of Orange, have also purchased a fumigating outfit
and have treated nearly all of the infested trees in that vicinity. From the States
of Louisiana and Florida I have received letters in relation to this treatment, and
10
the entomologist of the experiment station in the former State, Mr. H. A. Morgan,
recently wrote me that he was making preparations to test it on certain kinds of
scale-insects infesting orange trees in his State.
As in former years, I am greatly indebted to you for numerous favors, especially
in the matter of identifying insects, for all of which please accept thanks.
Very respectfully yours,
D. W. CoQuicuEerr;
Special Agent.
De C. NV: RILEY,
U. S. Entomologist.
ad
BENEFICIAL INSECTS IMPORTED FROM AUSTRALIA AND NEW ZEA-
LAND.
At the last session of the legislature of this State the sum of $5,000
was appropriated for the purpose of importing from foreign countries
beneficial insects that would prey upon the injurious ones found in the
State, and this sum having been placed at the disposal of the Secre-
tary of Agriculture at Washington, D. C., Mr. Albert Koebele, one of
the agents of the Division of Entomology, was sent on this mission,
with instructions to collect specimens of all kinds of beneficial insects
and forward them to the writer for propagation and distribution. A
large portion of my time has been consumed in caring for and working
out the life histories of the insects thus received. Many of the species
originally preyed upon insects not found in this State, and much time
was spent in testing them with the different kinds of injurious insects
found here, in the hope that they could be induced to feed upon them.
Eight separate consignments were received at intervals of four weeks,
between October 30, 1891, and May 14, 1892. As the majority of these
were received during the rainy season, I had three cloth tents erected
over aS many infested orange trees, re better to protect the insects
from the inclement weather.
The first consignment of these insects, collected in the joe of
Auckland, New Zealand, was received on the 30th of October, 1891,
and consisted of two living adult specimens of Leis antipodum Muls.
and one adult and seventy larve of Scymnus flavihirtus Brown. The
body of this larva is black, and is rather sparsely covered with very short,
blunt, white bristles; on each side of the body are several prominent
bristle-bearing warts, the three low down on each side of the fourth,
eighth, and ninth segments, and also the two on the eleventh segment,
being white, the others blackish; the upper one on the eighth and
ninth segments is smaller than the others; the head and thoracic legs
are dark brown; length 3mm. The pupa is entirely greenish-yellow,
and the old larval skin is worked backward until it covers oniy the -
extreme end of the pupa. In the same box with these larve were
leaves infested with a Coccid which is apparently the Ctenochiton
depressum Mask., a species thus far known to occur only in New Zea-
11
land. I tested the above larve with spetimens of Aspidiotus aurantii
Mask. and with Lecanium ieee Linn., and they fed sparingly
upon them, The next day I placed these larve and the adult speci-
men upon a tree thickly infested with the Lecanium; this tree I have
- examined at intervals, but at the last examination did not find any of
these ladybirds in any of their stages either upon this or any of the
adjacent trees. Still, it is possible that they are established here, but
in such small numbers that it is difficult to find them, the insects also
being small and inconspicuous.
The two specimens of Leis antipodum received with the above I tested
with several different kinds of scale-insects, but they did not appear
to attack any of them and died on the 20th of the following month
without having deposited eggs. All of the other insects which came
in this consignment were dead when I received them.
With the above consignment was received, October 50, 1891, the fol-
lowing letter, dated Auckland, New Zealand, October 8, 1891:
By this steamer I send a number of Scymnids, several species, and but two single
Leis antipodum, which I wanted very badly.
I think it would be a good idea to feed them up at first in large glass jars with
Lecanium hesperidum and Red Scale; but do as you think best, yet let the insects
have light and air besides food,
Please write to me how they arrived and what they feed upon. Let me particu-
larly know about the Leis, should they arriveliving. Givethem Lecanium hesperidum
and L. olew. I think they will feed on these, if anything.
As it looks, these little beetles have not much of life in them; they are probably
hibernated insects, and through with life; yet the larve may be all right. I hope
for the best. ;
Am very well at present and hope to do much better by next steamer. It is too
early here as yet, and Sydney I will find warm, if not already hot.—ALBERT KOEBELE,
Under date of November 3, 1891, I wrote to Mr. Koebele, giving an
account of the condition of the insects when received by me, and
advising him to always pack the insects in Sphagnum moss, as those
packed in this manner had reached me in much better condition than
had those packed in paper cut into fine strips. As there was no address
given in his letter, I simply addressed my letter to him at Auckland,
New Zealand, but in the month of May of the following year it was
returned to me by the post-office officials, having for some reasons failed
to reach him.
The next consignment of insects reached me on the 28th of Novem-
ber, 1891, and the boxes, with the single exception of one from Sydney,
Australia, were marked as having been filled at Parramatta, Aus-
tralia, between the 23d and 30th of October, 1891. With this con-
signment was received the following letter, dated Sydney, Australia,
November 1, 1891:
_ You will receive by Wells, Fargo & Co. a lot of insects, all Coccinellide. Please
select an orchard badly infested with the Red Scale, and also some Black Seales, as
many of the things feed on this as well as Lecanium hesperidum. Turn all the things
loose in such an orchard. There are plenty of them to start with.
NEST Se OS ere a ee e
12
The large red and black spotted Cdccinellid is Leis conformis, feeding upon Aphids,
which I fear you will not have now; but I send a lot of this to San Francisco to be
placed in apple orchards infested with the Woolly Aphis. You will find two boxes
PA with eggs of the little blue beetle. Place them upon trees with Red Scale. This
. is and will prove to be the best remedy for that scale I shall be able to send. The
large blue beetle with orange spots also feeds on this scale. Aud as to the Scymnid,
I have marked upon boxes what they feed on: all the smaller upon Aspidiotus auran-
| “ii, and one box contains about 90 or 100 of one species found, as yet, feeding only
it upon a species of Chionaspis, upon a Banksia.
Make preparation, and as soon as the box arrives take them into the field and lib-
erate the insects. A short delay would be death to many of them.
I will run up to Queensland, but will be here again to make up another sending of
these beetles for next ysteamer.—ALBERT KOEBELE.
i This consignment contained the following living insects: Four spec-
imens of Orcus chalybeus, five of Orcus australasie, and six specimens
fl
' of an undetermined Scymnid. All of the other insects, including the
f eggs and larve, were dead when received by me. I tested the living
4 insects with specimens of Aspidiotus aurantit, and they fed upon them.
\ Not being willing to turn such a small number of insects loose, as was
* _ suggested in the letter, I had a cloth tent erected over an orange tree
l thickly infested with the above-mentioned scale and placed all of the
} ladybirds on the tree under this tent. This tree was kindly placed at
| my disposal by Mr. A. F. Kercheval, of this city.
i The next consignment reached me December 28, 1891, accompanied
1) by the following letter, dated Sydney, Australia, November 29, 1891:
ie Be ready for a large lot of specimens coming per Wells, Fargo & Co. Liberaté
them in same place as you did the last so they can find each other. Of the two Orcus
i you will receive large numbers; inclosed some of O. australasiv in box with Lecanium
| olew, where you may find eggs; also, O. chalybeus and a large black Scymnid, which
i has been, as yet, found ae on L. olew and L. hesperidum.
i * * * Box “ Vedalia sp., Toowoomba, Parramatta.” Try and breed this little
| beetle on Icerya. It is the insect destroying this scale here and at Queensland.
They will readily lay their eggs in a large glass jar if supplied with scales. You
| will also get a large lot of Thalpochares cocciphaga, both larve and pups. Do not
; set them free, but breed in confinement in large glass jars covered with muslin and
Be. well supplied with L. olee. * * *
| Please save all the boxes with dead insects for me, as I shall want them for future
notes. Of course you can have specimens for collection if you should want them. I
{| may now wait in sending future lots of Orcus until I hear from you how this arrived.
h It is not possible that all should die.
It would bea good arrangement to have three jars for the Thalpochares—one to feed
the smaller larve, one for pups, and a third with plenty of fresh food to place the
moths in as they appear. The sticks with scales could be taken out from time to
hy time and fastened onto orange trees infested with the scales in the field.
1 I think that these larve attain their growth in from three to four weeks. They
| are a stupid lot, always spinning everything together. Therefore it would be well
| to give them plenty of room. 7
The larve of Oreus could be got bythe thousands, but I can not send any on
| account of the parasites.—ALBERT KOEBELE.
| In this consignment were the following living insects: Three speci-
e mens of Orcus chalybeus, one Orcus australasie, eleven undetermined
13
Scymnids, one hundred and seventy-five specimens of Alesia fromata,
twenty-four specimens of a large, reddish-yellow Coccinellid having six
irregular spots besides the elytral suture black, three specimens of
Novius kebelei, twelve small black ones having a large red spot on each
elytron, twenty-two specimens of a black Scymnid having only the
apex of the abdomen red.
I tested them with a great variety of different kinds of insects, and
ascertained that the Alesia—the yellowish one with six elytral black
spots—the Cryptolemus, and the black one with two elytral red spots,
all fed upon the Cabbage Aphis (Aphis brassice). Accordingly, I turned
them loose in. a field of cabbages thickly infested with these Aphides.
The Novius I placed in a jar containing Iceryas; the remaining speci-
mens I placed on the orange tree under the tent where I had placed the
previous consignment.
On the 30th of December, 1891, I wrote Mr. Koebele as follows:
The two packages of insects which you sent me from Sydney reached me in very poor
condition. In your first sending were only four living Orcus chalybeus, and in the
last sending three. Of Orcus australasie, five were alive in the first lot, but only one
in the last. As these are the two species that we look to for ridding the infested
trees of the Red Scale, it would be well to pay especial attention to them in your next
sending. Try especially to send the pup, as these withstand the voyage better
than the adult beetles. The square boxes with sliding lids are better for sending
them in than are the smaller circular ones. I noticed that those packed in Sphag-
num moss came through in better condition than those you packed in paper cut into
strips. A good plan would be, to place in the bottom of the box a thin layer of damp
Sphagnum, then twigs infested with the scales, after this the ladybirds, placing on
the top another thin layer of Sphagnum.
Packages intended for me should be addressed to me at 236 Winston street, so that
the express company will not have any difficulty in delivering them.—D. W. Co-
QUILLETT.
The next consignment of insects reached me January 23, 1892, and was
accompanied by the following letter, dated Sydney, Ausahee Decem-
ber 28, 1891:
A lot more of Coccinellids, to be let loose in same place as previously. Also anum-
ber of things in one box, to breed in confinement. Donot open boxes outside of room
or with open windows. ‘The parasites will not only destroy these larve, but all orany
Coccinellid. Ihope yousee the point, and I trust to you not to let any escape. Also,
more larve and pupex of T.cocciphaga. Feed Coccinellid larve from Whitton on
Lecanium, as also those of O. australasie.
Why did you not write about the New Zealand‘insects ?—ALBERT KOEBELE.
In this consignment were four hundred living adults of Oreus chaly-
beus, seventy-five of which I placed on the orange tree under the tent,
and liberated the remainder in the orange grove adjoining this tree,
this grove being very thickly infested with Aspidiotus aurantii. The
consignment also contained forty-five adults and thirty-six living pups
of Orcus australasie ; twenty-two of these. I placed on the orange tree
under the tent, while the balance were placed on an ash tree thickly
infested with Lecanium oleew. I retained the pups in my office until
14 | be
the beetles issued, then placed the latter on the ash tree above men-
tioned. Besides these, there was also a package of twigs on which were
numerous specimens of Lecaniwm ole infested with a fungus; these I
placed on an oleander bush thickly infested with the above-mentioned
Lecanium. The package also contained eight large black Scymnids,
which fed sparingly upon Lecanium olee, and I therefore had a tent
erected over an orange tree thickly infested with these scales, and
|. placed the Scymnids in this tent. This tree was placed at my disposal
me by Judge E. Silent, of this city.
| ae I received the next consignment on the 20th day of February, 1892.
| It was not accompanied by any letter. The entire package was com-
pletely soaked with water when it reached me, and several of the boxes
| were broken open. This consignment contained eight living adults of
Orcus chalybeus, which I liberated in the same orange grove where I
f had placed those of the previous sending; twenty-three Seymnids, which
i I placed on the orange tree infested with Aspidiotus aurantii, under the
I tent, and thirty adults of Orcus bilunulatus, which I placed on the
p orange tree infested with Lecaniwm olee under the tent at Judge Silent’s.
h The next package of insects reached me on the 21st of March, 1892,
and was accompanied by the following letter, written at Sy ae New
| South Wales, February 22, 1892:
T have your letter of December 30. Sent a lot more of Orcus and a small Scymnid
on Red Scale; this latter is as good as Orcus in destroying these scales.
In box with Eriococcus you will find some Scymnids feeding on Black Seales, also
their larve, larvee of Thalpochares and of a Pyralid (?). This latter you had before.
They may feed on Lecanium. Breed all these in confinement, and not get box near
' Eucalyptus. A whole box full of Lecanium with internal parasites. You had better
not place them on trees, but at a distance from them, as, if necessary. in case the
Seales should establish themselves, they could be promptly destroyed. The same
may be said of the Eriococcus, which, although only feeding on Eucalyptus, is a bad
thing on these trees.
Await Leis antipodum and rear on Lecanium hesperidum.—A, KOEBELE.
a Seen
ss
SS
This package did not contain a single living insect when I received
it. Among the dead insects was a ladybird larva which I recognized
as belonging to Scymnus lophanthe Blaisdell, a species which had evi-
dently been imported into this State from ay es several years ago,
and upon procuring specimens of the larve of this ladybird from orange
trees in this city I found that the two forms were identical. The
package also contained dead specimens of a ladybird which agree in
every particalar with specimens of the above-named Scymnus contained
in my collection and which were captured in this city several years
| ago. Specimens of both were submitted to Dr. Riley in order to settle
| this question definitely, and he writes me that the two forms, the one
| received from Australia and the other collected in this city, are indis-
tinguishable, and that both belong to the species recently described by
| Dr. Blaisdell as Scymnus lophanthe (see ‘‘ Entomological News,” vol. 111,
| p. 51). I gave a description of the larva and pupa of this ladybird in
)
|
|
|
15
Bulletin No. 26, Division of Entomology of the U. S. Department of
Agriculture (pp. 16 and 17), where it is referred to as ‘‘an undetermined
species of Scymnus, closely related to Scymnus marginicollis Mann., but
having a distinct metallic, somewhat brassy tinge upon the wing-cases.”
I have found this larva feeding upon the Red Scale (Aspidiotus aurantii)
as well as upon the San José Scale (Aspidiotus perniciosus) and the
Woolly Aphis (Schizoneura lanigera). This is doubtless the ‘small
Scymnid on Red Scale” referred to by Mr. Koebele in the letter given
above and which he says is “‘as good as the Orcus in destroying these
scales,” the other Scymnids referred to being much larger species.
Another package of insects from Sydney, Australia, was received on
the 15th of April, 1892. No letter accompanied this package, wlitch
contained the following living insects: Twenty-seven specimens of Orcus
chalybeus and nine of Orcus australasie, all of which I liberated in the
orange grove in which the former consignments were set free; four speci-
mens of Leis conformis, and five of the large yellow Coccinellid with six
elytral black spots, which was also represented among those received
December 28, 1891, and alluded to above. The svecimens of the last
two species I placed on an orange tree thickly infested with Aphides.
There was also a box containing a number of larve and chrysalides of
the moth Thalpochares cocciphaga in their cocoons; these I placed in
breeding cages in my office and kept them well supplied with Lecanium
olee. During the month of May nine adult parasites belonging to the
genus Bracon issued from these larve or chrysalides. The moths issued
in the latter part of June and during thegnonth of July, and after the
last one had finished depositing her eggs I placed the entire contents of .
these cages in an orange tree thickly iufested with Leeanium olee.
The eighth and last consignment of insects from Sydney, Australia,
reached me on the 14th of May, 1892. This package also was not accom-
panied by letter. For the first time, all of the insects had been packed
in Sphagnum moss, as advised in my letter to Mr. Koebele, of December
30, 1891, a copy of which is given on a preceding page, and the insects
reached me in much better condition than did those of any previous
sending. This package contained 560 living specimens of Orcus chaly-
beus, 20 Orcus australasie, 170 specimens of Leis conformis, and 5 speci-
mens of the yellow Coccinellid with six elytral black spots. I retained
20 of the Orcus chalybeus and 10 Orcus australasie, for breeding in my
office; the remainder I turned loose in an orange grove, in this city,
thickly infested with Aspidiotus aurantii, Lecanum ole, and a certain
kind of Aphis. The specimens ot Leis conformis I liberated in an apple
orchard, in this city, thickly infested with the Woolly Aphis (Schizoneura
lanigera), while the yellow ladybirds with six elytral black spots were
kept in my office, in a large glass jar well supplied with Aphides. On
the 28th of May a parasitic larva issued from the under part of the body
of one of the last-named ladybirds, and spun its tough brownish cocoon
beneath the latter, thus attaching the ladybird to the surface upon
16.
which it rested, and the adult fly issued from this cocoon eight days
later. On the 30th of May another parasitic larva issued from a second
of these ladybirds, and spun its cocoon as the previous one had done,
7. cand the winged parasite issued seven days later. I submitted both
specimens of this parasite to Dr. Riley for identification, and he writes
me that they agree in every particular with specimens of Huphorus
sculptus Cr. in the collection of the National Museum. Itis interesting
to note that on page 57, volume III, of INSECT LIFE, Dr. Riley records
having bred this same species from adults of the native ladybird,
Megilla maculata, collected at Washington, D. C., and also at La Fayette,
Ind.; while here in California I have bred what he pronounces to be
this same species from two of our common ladybirds, Hippodamia con-
vergens and Coccinella sanguinea, both of which are also found in the
eastern part of this country. Thus this parasite is known to occur on
both sides of this continent as well as in Australia. With the above-
mentioned package was received a box of Aspidiotus aurantic infested
by a fungus; these I placed in an orange tree thickly infested with this
kind of scale-insect. | :
As stated above, no insects were received by me from Mr. Koebele
later than the 14th of May, 1892. .
The following are my notes and descriptions of the early stages of
some of the insects received from Australia. These are not complete
in regard to all of the species, since a sufficient number of specimens
of several of the species was not received to permit of my making
descriptions of all the stages, and I was unwilling to hazard the life of
any of the larve belonging to species not thoroughly established here
by submitting them to repeated and critical examinations such as it
would be necessary to make in order to describe the various stagés
through which these insects pass:
I
i
t
V
!
Seay:
x
SSE SS Ses ee epee aes
Pe eS
a aes ee ek ay
ORCUS AUSTRALASIZ.—Egg.—Elongate-ellipsoidal, two and half atimes as long as
broad, polished, but slightly scabrous, one end bearing numerous minute tubercles;
color, light lemon yellow; length, 14™™. Deposited beneath dead, empty specimens
of Lecanium olew partially raised from the surface upon which they rest; usually
deposited in pairs, the eggs being attached at one side to the under surface of the
scale.
Time from deposition to hatching, eighteen days.
Larva.—First stage.—Body brownish black; first segment encircled in front and
| on the sides with a row of fourteen small tubercles each tipped with a single bristle,
| except two of the lateral ones each side, each of which bears two bristles. There is
also a pair of smaller subdorsal bristles near the posterior end of this segment; sec-
ond segment bearing twelve tubercles, arranged on each side of the segment, one
subdorsal, three suprastigmatal arranged in the form of a triangle, and two stigma-
| tal tubercles placed one in front of the other, the anterior of these being much
q smaller than the posterior one, and destitute of a bristle. Eachof the other tuber-
cles bears a bristle which is more than twice as long as the tubercle itself, except
the anterior of the three arranged in the form of a triangle. This bears two bristles;
one, which is shorter than the other, is inserted below the apex on the front side, at
which point this tubercle bears a minute branch; third segment like the second,
i
except that the upper of the three tubercles in the triangle is wholly wanting, leav- 4
5 | | 17
ing only ten tubercles on this segment; fourth segment bearing a tranverse row of
six tubercles, the subdorsal ones each bearing two bristles, the second of which is
inserted below the apex on the front side; each of the suprastimatal tubercles bears
three bristles, two of which are inserted below the apex, one on the front side and
the other on the outer side; the lowest tubercle bears but a single bristle; fifth to
tenth segments, like the fourth; eleventh segment like the fourth, except that the
lowest tubercle on each side is wanting, leaving only four tubercles on this segment;
twelfth segment destitute of tubercles; head wholly black.
Duration of this stage, six days.
Second stage.—Body brownish black, a yellow dot on the posterior margin of the |
first segment; a larger medio-dorsal yellow spot on the second, third, seventh, and
eighth segments; tubercles black, except the posterior four or six on the first segment,
all of those on the second, all except the lowest ones on the third, all on the seventh
and eighth, and all except the lowest on the ninth segment, which are largely or
wholly yellow; sometimes, however, the lowest tubercles on the second, seventh, and
eighth segments are black; first segment encircled in front and on the sides with a
row of sixteen long tubercles, each of which bears a long apical and several shorter
lateral bristles; there is also a small, yellow subdorsal tubercle each side of the
middle, near the posterior end of this segment, each tubercle bearing a bristle which
is three times as long as the tubercle itself; other tubercles arranged as in the first
stage, each bearing an apical and several lateral bristles, the apical one not appreci-
ably longer than the tubercle itself, except in the case of the tubercles situated low-
est down on each side of the body; the anterior of the two lowest tubercles on the
second segment is scarcely more than half as long as the posterior one; the anterior
of the two lowest tubercles on the third segment is minute and scarcely apparent;
‘head entirely black.
Duration of this stage, seven days.
Third siage.—Marked as in the second stage, except that all of the tubercles on the
ninth segment and the subdorsal ones on the tenth are yellow; tubercles arranged
as in the second stage; the subdorsal tubercles near the posterior end of the first
segment are now much larger, being scarcely shorter than the bristles at their apices;
the anterior of the two lowest tubercles on the third segment is scarcely one-sixth
as long as the posterior one, and is yellow; the four tubercles on the eleventh seg-
ments are noticeably longer than any of the others.
Duration of this stage, eleven days.
Fourth stage.—First segment yellow, the center above, including the greater portion
of the space inclosed by the tubercles, black; second segment black, the anterior
and posterior margins and the sides broadly yellow, that on the posterior margin
being produced forward in the middle above; third segment yellow, marked with a
pair of black spots in front and with a second pair behind the subdorsal tubercles;
there is also a black spot in front of the upper of the two lateral pairs of tubercles,
and another at the base of the posterior of the two lowest tubercles; fourth, fifth,
and sixth segments black, marked with an irregular silvery-white stripe between the
tubercles, the sutures of these segments yellow; seventh segment silvery-white,
marked with a small black spot between the two upper tubercles and with a larger
one behind the upper of the two lateral tubercles; eighth segment black, the greater
portion of the space between the subdorsal tubercles silvery white, and there is also
a spot of the same color at the base of the lowest tubercle; ninth segment black,
the middle of the posterior margin, extending nearly as far as the upper of the two
lateral tubercles, silvery white; tenth segment black, the posterior margin silvery
white, which color crosses the segment obliquely between the subdorsal and the
upper of the two lateral tubercles; eleventh segment like the tenth, except that
there is a silvery-white spot at the base of the lower tubercle; twelfth segment
_ wholly black; there is also a silvery white medio-dorsal line extending from the
19866—No, 30-——2
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second to the eight segment; venter yellow, the abdominal segments marked with
dusky black; tubercles arranged as in the preceding stage, black, all of those on
the first, second, seventh, eighth, ninth, and tenth segments yellow, as are also
those on the third, with the exception of the posterior of the lowest two; the low-
est tubercle on each side of the sixth segment is also yellow; the subdorsal tuber-
cles near the posterior margin of the first segment are nearly as large as those on
the sides of this segment; the anterior of the two lowest tubercles on the second
segment is slightly longer than either of the three arranged in the form of a triangle
above it; the anterior of the two lowest tubercles on the third segment is not half
as long as either of the two above it; except on the first segment, none of the bristles
are as long as the tubercles which bear them; head black, marked in the middle
with a yellow spot. Length, 8™™.
Duration of this stage, eleven days.
Pupa.—Yellow, marked with a medio-dorsal row of oval black spots, one to each
segment, and on each side of these is a row of larger black spots, one to each seg-
ment, except the first, those on the second segment sometimes connected along the
front end of this segment with the median spot; wing-cases entirely, or at least
their upper edges, black; entire surface thinly covered with a yellowish white,
appressed, scaly pubescent; first and second segments bearing several short, erect
bristles; remaining segments each bearing a large cluster of bristles in the subdorsal
and alsoin the stigmatal region; length, 7™™. F
Duration of this stage, eleven days.
In pupating the old larval skin is rent along the back from: the head
to the front end of the eighth segment.
The time passed by this ladybird in its preparatory stages from the
depositing of the egg to the issuing of the adult insect is seen to be
about sixty-four days, divided as follows: Egg, eighteen days; larva,
thirty-five days (first stage, six days; second stage, seven days; third
stage, eleven days, and fourth stage, eleven days); pupa, eleven days.
These periods are for the months of August and September, the insects
having been bred in breeding cages kept in the window of my office,
where they received the benefit of the afternoon sun. It is probable
that in the open air they would have passed through their various
changes in a somewhat shorter period of time than that indicated above.
On the 14th of May of the present year I placed in one of my breed-
ing cages, 10 of these ladybirds received that day from Sydney, Aus-
tralia, and kept them well supplied with specimens of Aspidiotus au-
rantii, Lecanium ole, and various kinds of Aphides, but more than six
weeks elapsed before any eggs were deposited. At certain intervals
after this I removed the larve from this cage, and placed them on an
orange tree thickly infested with Aspidiotus aurantii and Lecanium olee;
on the 16th of August I thus removed about 100 of them, on the 5th
of September 13 more, and on the 28th of September I piaced the
entire contents of this cage on the same orange tree. At this latter
date several of the beetles originally received from Australia were |
still alive, which would indicate that they are comparatively long lived,
since I had them in my possession for a period of over four months, —
and they may have been several weeks old at the time of their capture —
in Australia.
19
ORCUS CHALYBEUS.—L9qg.—Elongate-oval or elongate- ellipsoidal, from somewhat
over twice to nearly three times as long as broad, surface polished, the upper end
scabrous and on one side of the middle bearing a white, flattened, branched process,
haying somewhat the appearance of an antler of a Moose-deer; color of egg, light
lemon yellow; length,1}™™. Placed on one end in clusters of from 4 to 10 eggs each.
Time from deposition to hatching, eight days.
Larva.—First stage.--Body yellow, the tubercles dusty; first segment surrounded
in front and on the sides by a row of ten long tubercles, and with a transverse pair of
much smaller tubercles on the dorsum near the posterior end of this segment,each of
these smaller tubercles being as broad as long; second segment bearing a transverse
pair of long tubercles, each size Leside a dorsal transverse pair of much smaller tu-
bercles, and a single small tubercle in front of each of the lowest tubercles on this
segment; each of these small tubercles is as broad as long; segments three to eight,
each bears a transverse row of six long tubercles; segments nine and ten each bears
a transverse row of four long tubercles; eleventh segment bearing a single transverse
pair of long tubercles; twelfth segment destitute of tubercles; each of the small
tubercles above mentioned bears a single long bristle at its apex; each of the long
tubercles is truncated at its apex, where it bears a stout bristle whichis usually
longer than the tubercle itself; in.addition to this, the second tubercle on each
side of the middle of the dorsum on the second and third segments bears a sec-
ond Jong, stout bristle on its outer side a short distance below the apex; each of
the long tubercles also bears one or two short lateral bristles; the surfaceof the body
is thinly covered with minute tubercles, each giving rise to a very short yellowish
hair; head light yellow, thinly covered with slender bristles and bearing three
black ocelli each side in the form of a triangle.
Duration of this stage, six days.
Second slage—Same as in the first stage with the following exceptions: Each of the
small tubercles in the transverse subdorsal pair near the posterior end of the first
segment, as well as those in the subdorsal pair on the second segment and the fore-
most one of the two lowest oneach side of this segment, is nearly three times as long as
broad; each of these smaller tubercles bears a single apical bristle which is slightly
longer than the tubercle itself, and each of the remaining one bears a pair of apical
besides several lateral bristles of various lengths, but none of them are as long as
the tubercle itself.
Duration of this stage, six days.
Third stage.—Same as in the second stage, with these exceptions: Dorsum of seg-
ments two to nine black, most extended on the second and third segments; the
tubercles in the dorsal pair near the posterior end of the first segment and also
those on the second segment are nearly as long as the adjacent ones, being some-
what more than four times as long as broad, but the anterior of the two lowest
tubercles on each side of the second segment is still much shorter than the others,
and is scarcely over two-thirds as long as the posterior one; each of these tubercles
bears several short lateral bristles.
Duration of this stage, seven days.
Fourth stage.—The black of the dorsum is extended so as to include four rows of
tubercles, and on the second and third segments it is divided by a medio-dorsal
yellowish line. There is also a yellowish line on segments four to nine between the
first and second rows of tubercles each side. The black coloring on the outside of
these lines is not so intense as it is within them. The anterior of the two lowest
spines on the second segment is five-sixths as long as the posterior one. Otherwise
as in the preceding stage. Length, when fully grown, 5™™,
Duration of this stage, fourteen days,
. Pupa.—Light citron yellow, head almost surrounded with blackish, first three seg-
ments each marked with a pair of oblique black dorsal spots, those on the second
Segment the largest; fourth segment marked with a pair of smali black dorsal dots
ne
a eee
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20
which are scarcely apparent; segments five to eight each marked with a pair of
black dorsal spots, those on the sixth and seventh segments larger than the others;
wing-cases bordered above with black; surface thinly covered with a light yellow
pubescence; length, 5™™.
Duration of this stage, fourteen days.
From these data it will be seen that this species passes through its
various Stages in a somewhat shorter time than is the case with Orcus
australasie. In all of its stages it is much more delicate than the last-
named species, and the beetles appear to be much shorter lived. On
the 14th of May I placed twenty adults of Orcus chalybeus in one of my
breeding cages and kept them well supplied with specimens of Aspi-
diotus aurantti and Lecanium olece, but no eggs were laid until about
two months later, or on the 25th of July; and the last beetle in this
cage died on the 2d of August. Specimens of Orcus australasia,
obtained at the same time as these and treated in the same manner,
were Still living nearly two months after the last chalybeus had died.
On the 10th of August a larva of chalybeus, only four days old, was
attacked by a whitish, feathery fungus which spread out on all sides
of its body, giving the latter the appearance of resting upon a minia-
ture mat of feathers. I submitted this specimen to Dr. Galloway, the.
mycologist of this Department, by whom it was referred to Mr. J. B.
Ellis, a well-known authority upon fungi, who reported that this fungus
was either the Microcera coccophila, or else a species of Isaria, probably
the latter. The Microcera here alluded to is known to attack various
kinds of seale-insects in Australia, and it would be interesting to learn
if the spores of this fungus were brought over with the ladybirds
recently imported from that country; but a second letter to Dr. Gallo-
way upon this subject elicited the fact that the specimen in question
had been mislaid and could not be found.
NOVIUS KOEBELEI.—£qg.—Elongate-ovate, two and a half times as broad, the sur-
face very scabrous; color, deep orange-red; length, 0.75™™. Attached lengthwise to
the body of an Icerya, or thrust into the egg-sac of the latter.
Time from disposition to hatching, six days.
Larva.—First stage.—Body, including the head and legs, blood-red, the first three
segments each marked with a pair of subdorsal black spots, those on the first seg-
ment the largest; first segment bearing four long bristles, two on each side, besides
two shorter ones near the front end; second segment bearing a transverse pair of
bristles each side, of which the upper bristle is the shorter; third segment like the
second; segments four to nine, each bearing a single long stigmatal bristle each
side, which springs from a small black tubercle; segments ten and eleven on eaeh
side bearing a subdorsal and a stigmatal bristle; twelfth segment destitute of
bristles; the long bristles described above are slightly longer than the transverse
diameter of the body, and curved upward; there are also several much shorter
curved bristles thinly scattered over the body, and they likewise occur on the head
and legs; on the under side of each femur are two long bristles; each tarsus bears
four rather long, knobbed bristles, resembling the digitules on the tarsi of certain —
kinds of Coccids. Towards the end of this stage the body becomes thinly covered
over with a very short, white, woolly substance.
Duration of this stage, five days.
> 21
Second stage.—Same as the first, with these exceptions: First segment bearing twelve
long bristles, of which four are in a row along each side of this segment, one is located
slightly above the second bristle in each of these rows counting from behind, besides
a subdorsal bristle each side, situated near the middle of this segment; segments
three to seven each bear a transverse pair of bristles each side; the longest bristles
scarcely exceed the transverse diameter of the body.
Duration of this stage, three days.
Third stage.—Body, blood-red, the subdorsal region being the darkest, but there
are no definite black markings; first segment bearing fourteen bristles, six of which
are ina row on each side of the segment, and one is situated above the second
bristle in each of these rows, counting from behind; segments two and three each
bearing a stigmatal cluster of four bristles each side and with asingle bristle in front
of each of these clusters; segments four to nine each bearing a stigmatal cluster of
four bristles each side; segment ten bears a subdorsal bristle besides the stigmatal
cluster of four bristles each side; segment eleven bears a subdorsal bristle and a
stigmatal cluster of three bristles each side; segment twelve bears a transverse row
of four rather short bristles; each of the clusters of bristles above described issues
from a large elongated tubercle the apex of which is rounded and blackish; the bris-
tles in these clusters are arranged one in front, another behind, and with a transverse
pair between them, but on the eleventh segment the anterior bristle is wanting;
these bristles are of unequal lengths, the transverse pair being longer than the others,
these but slightly exceeding one-half of the transverse diameter of the body; head
slightly darker than the body and marked with a black spot on each side; legs red,
the tarsi slightly blackish ; the surface of the body is thinly covered with a very short,
white, crinkled, woolly substance which does not entirely conceal the ground color.
Duration of this stage, three days.
Fourth stage.—Same as the third stage, with these exceptions: Body marked each
side by a subdorsal black stripe which passes between two rows of low, transversely
oval warts which are blackish at their apices, two warts to each segment, except on
the second and third segments, where only the lower wart is present, but neither
the warts nor the black stripes extend upon the first segment; this segment bears
eighteen bristles, of which seven are arranged in a row along each side of the seg-
ment, and one is situated above the first and second bristles in each of these rows,
counting from behind; the eleventh segment bears a stigmatal cluster of four
bristles each side; the remaining bristles are arranged as in the preceding stage.
Duration of this stage, ten days.
Pupa.—Orange-red, first segment marked with a medio-dorsal black spot, second
and third segments each with a large transverse black spot; segments six, seven,
and eight each with a transverse black spot on its anterior end, that on the sixth
sometimes divided medially into two spots; surface thinly covered with a short,
light yellow, mostly recumbent pubescence, which converges towards the middle of
the dorsum, forming a small cluster near the center of each segment; length, 4™™,
Duration of this stage, fourteen days.
About three days before pupation takes place, the full-grown larva
attaches itself to some object by the posterior part of the body, and in
pupating the old larval skin is rent from the head to the anterior end
of the seventh segment, and is allowed to remain, partially enveloping
the pupa. About ten days after pupation takes place the pupa-skin is
rent, disclosing the included beetle, but the latter does not issue from
the pupa-case until four days after this stage is reached.
This ladybird breeds as readily in confinement as does the Vedalia ear-
' dinalis and closely resembles the latter in all of its stages. The obser-
,
22
vations above recorded weré made during the months of August and
September, and the insects were kept in glass jars in a sunny window
of my office. The eggs are darker and much rougher than those of the
Icerya, which they otherwise closely resemble, and are usually thrust
into the egg sac of the latter. The young larve prefer the eggs of the
Icerya to the insects themselves as food, and shortly after issuing from
the eggs they burrow into an egg sac and frequently remain in it-until
full grown. On several different occasions I have reared a Novius
larva from the egg to the adult state upon the eggs in a single egg mass
of the Icerya. They spend a somewhat longer time in their preparatory
stages than the Vedalia does, this being especially noticeable in the
pupa stage; and being much smaller insects they do not destroy the
Ieeryas as rapidly as the Vedalia does. The latter appears to prefer
the Novius larve to the Iceryas for food, and whenever the larve of
these two ladybirds inhabit the same plant the Novius larva falls a
prey to its more powerful rival. I learn from Mr. John Seott, the
Horticultural Commissioner of Los Angeles county, that he introduced
a few Vedalia larve into a glass jar containing a colony of the Novius,
and, although he kept them well supplied with Iceryas for food, still in
a Short time the Vedalias had completely annihilated the Novius
larve.
LEIS CONFORMIS.—Egg.—Elongate-ovate, twice as long as broad, the outline quite
regular, tapering gradually toward each end,the upper end convex, the lower one
flattened at its attachment; surface highly polished, but under a highly magnifying
power appearing somewhat scabrous, owing to minute, blisterlike, raised spots
which are thinly scattered over its surface; color, light lemon-yellow; length, 14™™.
The eggs are attached by one end to a leaf or other object and are
deposited in clusters of from three to forty-one eggs each. Time from
deposition to hatching, seven days.
Larva: First stage.—Body of the usual Coccinellid form, being widest in front and
. tapering quite rapidly posteriorly; olive-brown, varied with black, and bearing
many black, somewhat conical tubercles, each tipped with a black style which atits
apex is compressed laterally and is truncate or sometimes slightly emarginate; first
segment somewhat flattened above and bearing a circle of twenty-six tubercles; of
these, the anterior fourteen (seven on each side) are arranged in a single row, and
the style at the apex of each is longer than the tubercle itself; next to these are
four transverse pairs of tubercles, two pairs on each side of the segment, the two
tubercles composing the second pair being united at their bases; following these
are four tubercles two on each side, in which, as also in the tubercles, comprising
the four pairs above mentioned, the style is shorter than the tubercle itself: besides
this circle of tubercles, there is also a transverse pair near the center of this segment;
second segment, on each side, bearing a subdorsal oblique pair of tubercles which
are united at their bases, a suprastigmatal cluster of five tubercles, three of which
are united at their bases, the other two being slightly above and on either side of
them; below this cluster is asingle tubercle in front of which is a stout bristle;
third segment the same as the second except that the suprastigmatal cluster con-
tains only four tubercles, the anterior of the two single ones being absent; fourth
segment, on each side, bearing a subdorsal cluster of three tubercles united at their
bases, a suprastigmatal pair of tubercles which are also united at their bases, and
, below them is a single tubercle; segments five to eleven are the same as the fourth;
23
each of the tubercles on segments two to eléven is longer than the style at its apex;
twelfth segment on each side bearjng two subdorsal and two small stigmatal, widely
separated tubercles, each of which is shorter than the style at its apex; head polished
black and bearing a few stout bristles; legs black and also bearing a few stout
bristles.
Duration of this stage, three days.
Second stage.—Same as the first, except that the color of the body is black and the
tubercles on the seventh segment are yellow; the styles of the tubercles are not com-
pressed at their tips; the united bases of the tubercles which are arranged in pairs
or in threes are longer than the tubercles proper and each bears a few slender
lateral bristles; the posterior tubercle in each cluster of three is longer than either
of the others in the same cluster.
Duration of this stage, three days.
Third stage.—Same as the second, except that sometimes, but not always, some or
all of the tubercles on the fourth segment are yellow,
Duration of this stage, three days.
Fourth stage.—There is no appreciable difference between this and the preceding
stage.
This is as far as I was able to carry these larve, a host of mites
belonging to the species Heteropus ventricosus of Newport having
invaded my breeding cages and in a very short time destroyed not only
these larve, but also many others which I was rearing at the same
time, the soft, recently transformed chrysalides and pup being
attacked as well as the smaller larve of all descriptions. No specimens
of the Leis were received by me after the above date, so I was unable
to procure a fresh colony of larve and thus complete the life history.
On the 14th of May I placed in one of my breeding cages about a
dozen adult specimens of Leis conformis and supplied them with orange
twigs infested with an undetermined species of Aphis. Three days
later some of the beetles were paired, and on the 19th of May I exam-
ined the twigs in this cage, but found no eggs; I then replenished it
with fresh twigs infested with the Aphides, and in the afternoon of the
same day this cage contained two clusters of eggs, containing seven
and ten eggs, respectively. The beetles were very lively and fed
greedily upon the Aphides. The females laid eggs readily in confine-
ment, even when inclosed in a small-sized box. The larve were com-
paratively easy to rear and fed readily upon the Aphides, large numbers
of which were destroyed in a day by a single larva.
UNDETERMINED COCCINELLID, (elytra yellow, marked with six black spots).—
Egg.—Elongate-ellipsoidal, two and a half times as long as broad, light lemon-yellow,
the upper end marked with a rather large white spot, surface highly polished, but
under a high magnifying power appearing slightly scabrous, owing to minute blister-
like spots, which are scattered over its surface; length, 14™™.
Placed on end in clusters of about ten eggs each. Time from depo-
sition to hatching, five days.
Larva: First stage.—Body of the usual Coccinellid form, olive-brown varied with
black, sides of the fourth segment lighter, almost white; first segment bearing a
circle of twenty-six elongated tubercles, besides a transverse pair near the center
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24
of the dorsum; second segment, on each side, bearing a subdorsal cluster of three ©
tubercles, a suprastigmatal cluster of five, below which is a pair of tubercles, and
there is also a single tubercle situated between the subdorsal and suprastigmatal
clusters; third segment on each side bearing a subdorsal and a suprastigmatal
cluster of three tubercles, while between these two clusters, and also below the low-
est one, is a pair of tubercles; fourth segment, on each side, bearing a subdorsal
and a suprastigmatal cluster of three tubercles, and below the latter is a pair of
tubercles, the anterior of which is smaller than the posterior one; segments five to
eleven are the same as the fourth; all of the tubercles above described are black;
twelfth segment, on each side, bearing a pair of subdorsal and a widely separated
pair of stigmatal bristles; head polished black.
I was unable to carry these larve any further, owing to the invasion
of the mites above referred to. Two of the beetles were destroyed by
internal parasites, as already stated on a previous page of this report;
the remaining beetles died without depositing eggs, and as no more
Specimens of this insect were received from Australia subsequently, I
was unable to obtain any more eggs of this species and thus complete
its life history.
The beetles were received at the same time as the Leis conformis above
described, and were treated in the same manner as the latter. They
were not as lively as these and did not deposit eggs so readily in con-
finement. Both the adults as well as the larve fed greedily upon the
Aphides which I introduced into their breeding cages.
THALPOCHARES COCCIPHAGA.—Egg.—Turnip-shaped, being twice as broad as high,
attached at one end, the upper end rather deeply concave and furnished with a small
rounded tubercle in the center; surface covered with irregular raised lines which
encircle the egg, besides others which extend vertically, these lines forming shallow
cells of various shapes and sizes; diameter, nearly $™™. Deposited singly.
Larva.—First stage.-—Body whitish; head grayish-black; cervical shield dark
gray; provided with six thoracic, four abdominal, and two anal legs, the abdominal
legs located on the eighth and ninth segments; these as well as the anal prolegs are
extremely short, but are encircled with minute hooks at their tips.
Full-grown larva.—Body very robust, dull white, usually with a tinge of yellow or
pink; piliferous spots indistinct, pale brown; spiracles yellowish; head and cervical
shield blackish-brown; no anal plate; legs as in the first stage; length, 8™™.
Chrysalis.—Of the usual form, light yellowish-brown; destitute of transverse rows
of teeth-like processes; posterior end rounded and bearing a transverse, slightly
curved row of six rather short, recurved spines.
Shortly after issuing from the egg the larva spins around its body an
oval case of light gray silk, which it drags around after it when crawl-
ing about in search of food. This consists of the younger specimens of
Lecanium ole, and perhaps also the young of other kinds of Coccids.
As the larva increases in size it enlarges its case by the addition of new
material, and it frequently attaches to the outside of its case fragments
of the scales, besides various other small objects, these being so small
in size as to be scarcely noticeable except upon a close inspection. The
case is closed at one end, while at the opposite end is a somewhat
Square opening, out of which the larva protrudes its head and the fore
part of the body when feeding or when moving about upon the tree.
Each of the four sides of this opening is furnished with a rounded silken
25
lobe, or prolongation of the case, and these lobes converge toward the
. center of the opening, thus closing the latter when the larva retreats
into its case. After each meal the larva fastens its case to the bark
by a few silken threads, then retreats into its case and remains hidden
from view until the pangs of hunger again force it to come out in
search of food. The chrysalis stage is passed within the silken case,
and frequently ten or a dozen of the cases are fastened together in a
mass by their occupants a short time before the latter assume the
chrysalis form.
It is quite impossible to extract one of these larve from its silken
case without-fatally injuring the larva, so firmly does it retain its hold
upon the inside of the case by means of the small hooks with which the
prolegs are provided, and nothing short of cutting open the case will
accomplish the removal of the larva. When removed from its case and
placed upon a flat surface the larva is able to move about, but only very
slowly, and in walking the posterior end of the body is elevated, no use
being made of the last pair of prolegs. Whenever two of the larve tius
removed from their cases meet each other a fight is almost certain to
occur, each larva seeking to grasp with its mandibles the mouth parts
of the other, and, if successful, it will frequently shake from side to side
the head and fore part of the body of its opponent, somewhat as a terrier
shakes a rat. In these encounters the softer parts of the body are never
attacked, and the encounters are apparently in the nature of sport.
The moths, as might be expected, are nocturnal in their habits, remain-
ing perfectly quiet during the daytime and coming forth rather early
in the evening.
My notes on this species are necessarily imperfect, as but few of the
larve were obtained from eggs laid in confinement, and.in order to
work up their complete life history it would be necessary to frequently
remove the larve from their cases, and this I was unwilling to do until
the species becomes firmly established in this State.
At the present writing two of the most. important of the imported
species, the Orcus australasie and Orcus chalybeus, are breeding in two
localities in this city, as well as in an olive grove in Santa Barbara
County, and the former species is also breeding in Alameda County.
While they do not increase with sufficient rapidity to give us the as-
surance that they will be able to practically free all of the trees in
this State of the different kinds of seale insects that infest them, still
they will undoubtedly prove valuable allies in keeping these seale
insects in check.
Novius kevelei is also firmly established here. I have it breeding
in my office at the present writing, and have sent a few colonies to dif.
ferent localities in the State. The horticultural commissioner of this
county, Mr. John Scott, also has colonies of this insect breeding in his
office, and has sent out colonies in place of the Vedalia cardinalis.
While this last-named insect has effectually kept in check the destrue-
q aE . =
26
tive Fluted or Cottony-cushion Scale (deerya purchasi), still of course
there is abundant room for this second species to aid in this commend-
able work. Being much smaller than the Vedalia and. not passing
through its changes any more rapidly,it is very doubtful whether the
Novius could have accomplished the same work i in the same ee that
the Vedalia did in California.
It is very probable that four other kinds of beneficial insects, the
Leis conformis, Alesia fromata, the reddish-yellow ladybird with six —
elytral black spots, and the small black one with two large elytral red
spots, are also established here, but these were received in such small
numbers that some little time must elapse before they will have multi-
plied sufficiently to be met with except after a long and careful search -
for them. It is also possible that the Cryptolemus and two or three
species of Scymnids, as well as the Thalpochares, may yet be found to
have gained a foothold here, but this can be determined only after the
lapse of several months, or perhaps even longer than this. I have
already alluded to the fact that the Scymnus lophanthe was also among
the specimens introduced, but this can hardly be considered an intro-
duction in the same light as the other species, since it was already
established here before these later specimens were received.
I have not observed that either of the two species of fungi received
from Australia, the one attacking Lecanium olec, the other on Aspidi-
otus auranti, has spread to the healthy scale insects, but of course it
is possible that the spores of these fungi may remain dormant until the
wet season sets in.
THE WALNUT SPAN-WORM.
The English Walnut is quite extensively grown in certain localities
in this State, and, in proportion to the amount of care bestowed upon
it, yields a larger revenue than almost any other tree grown upon this
coast. It is remarkably free from the attacks of insects, those here-
tofore known to attack it never occurring in sufficient numbers to cause
any widespread destruction of the trees or nuts. Two years ago,
however, a span-worm appeared in such large numbers in a certain
locality that many trees were almost completely defoliated by it.
The first intimation I received in regard to the appearance of this
new pest was a letter from Hon. Ellwood Cooper, of Santa Barbara,
under date of April 29, 1890, and which reads as follows:
I send you by this mail a box of worms. Please write me by return mail what
they are, whether from a moth, miller, butterfly, or beetle. What kind of eggs, and
the time required for them to hatch? When do the worms go into the pupa state,
and where? Nothing of this kind has ever been seen on the ranch before. My fore- .
man said he saw the very small worms about ten days ago. I had never seen any-
thing on the walnut trees, and hence did not at once go to look after them. A few
days later I made an examination, but could find no eggs, yet very minute worms.
I sent the foreman, but none could be found. The eggs must have been laid on the
twigs, because the leaves have only been out about fourteen days. About one week
27
ago there were but few signs, now the whole thing is being eaten up. I never saw
anything so ravenous. Please write me at once what to do and what it is. I fear
the crop is gone.—ELLWOOD COOPER.
Thinking the matter of sufficient importance to require investigating,
I paid a visit to Mr. Cooper soon after the middle of May. Prior to
this, however, the trees had been sprayed with Paris green and water
at the rate of 1 pound of Paris green to 130 gallons of water, and now
it was no easy matter to find any living, healthy worms. ‘The trees at-
tacked were very large ones, being about 30 feet high, and the branches
extending a distance of nearly 20 feet, making for the tops of the trees
a diameter approximating 40 feet. The span-worms appeared upon
nearly every tree in a grove containing 20 acres, but they were most
abundant near the center of the grove, where they had almost com-
pletely defoliated the trees. They also appeared upon the walnut trees
in an adjacent grove, but not in such large numbers as in the one above ©
mentioned. Mr. Cooper informed me that he has lived on this ranch
continuously for nineteen years, but never before had these or any
other kind of span-worms appeared upon his trees in sufficient num-
bers to attract attention, and he is unable to account for the present in-
vasion.
The following year these span-worms were also present upon some
of the trees, but were far less numerous than during the preceding
year. The infested trees were again sprayed with Paris green and
water at the rate of 1 pound to 180 gallons, and this effectually de-
stroyed the span-worms. In the month of March of the present year,
however, Mr. Cooper-wrote me that the span-worms were again appear-
ing in large numbers and requested me to come to his ranch and inves-
tigate them. Having received instructions from Dr. Riley to this ef-
fect, I again, on the 6th of April, visited Mr. Cooper, and found that,
while the span-worms were quite abundant upon some of the trees, still
they were in much smaller numbers than during the season of 1890. I
also made a careful examination of the trees growing near the walnut
trees; these consisted of Olive, Persimmon, Eucalyptus, Sycamore, Al-
der, Oak, Elder, Willow, and a few other kinds of trees, besides various
kinds of shrubs and plants, but failed to find specimens of this span-
worm upon any. of them, with the single exception of the Oak (Quercus
agrifolia). The new, spring growth was just starting out upon this
tree, and I found several of these span-worms feeding upon the newly
expanded oak leaves; a careful comparison of these oak-feeding speci-
mens with those from the walnut trees failed to disclose the slightest
difference, and when I tested them with walnut leaves they also fed
readily upon them. Several trees of black walnuts are also growing on
Mr. Cooper’s ranch, but these were not yet in leaf at the time of my
visit.
During a visit which I made, in the latter part of April, to portions
of Alameda and Santa Clara counties I found specimens of this same
Le ee Ee See SD NS ) ee ee eee
Ne ee, Se ee ee er + Re a a i SS SS Ee a
28
kind of span-worm on some apple and prune trees as well as on Eng- | |
lish walnuts in some of the orchards of the above-mentioned counties.
Under date of April 27, 1892, Mr. Cooper writes me that he recently
found this pest in three other groves of English walnut in Santa Bar-
bara County, where it was very destructive to the leaves of these trees-
Thus it appears that already this span-worm is quite widely distributed
over the State, and unless active measures are adopted to suppress it
there is every probability that it will in time very seriously interfere
with the profitable growing of English walnuts upon this coast.
Unfortunately, the moths have not yet issued, so it is impossible at the
present writing to identify the species or to ascertain if it has proved
destructive in other States than our own.
The eggs from which these span-worms hatch are flattened oval, as
if compressed between the thumb and finger; the surface is quite scab-
rous, and bears numerous minute transverse ridges; at each end of
the egg are numerous quite large, shallow punctures; the color is a
dark greyish drab, with a strong brassy tinge; length, about 2 ™™.
These eggs are fastened to the small twigs of trees, in loose, irregu-
lar patches, each egg lying on one of its flattened sides; there is no
regularity in their arrangement upon the bark of the twig. One piece
of a twig an inch and a half long by a quarter of an inch in diameter
contains upwards of two hundred of these eggs. The young span-worm
issues through a nearly circular hole in the larger end of the egg, and
the empty eggshell is of an iridescent, pearly white color. ;
The full-grown span-worm closely resembles the larva of the Eastern
Angerona crocataria as figured on Pl. vii1, Fig. 6, of Packard’s ‘‘ Guide
to the Study of Insects,” but the piliferous spots are larger, giving to
the body a much rougher appearance, and when viewed from the side
there is seen to be a large prominence on the dorsum of the fourth and
sixth segments as well as on the fifth and eleventh. I give herewith a
detailed description of this span-worm, in order that it may be recog-
nized in the future:
Body of nearly an equal thickness throughout its length, the head and first tho-
racic segment slightly wider than the rest of the body; head as seen from front a.
trifle wider than high, the lobes rounded and destitute of a tubercle or other proc-
ess; color of head dark brown, variegated with yellowish; body light pinkish
gray varied with darker gray or purplish, or sometimes with black and yellow, never
marked with distinct lines; piliferous spots tuberculiform, black, or dark brown, and
back of each of the spiracles situated on the fifth and sixth segments is a large, coni-
eal, fleshy prominence surmounted by a piliferous spot, and on the dorsum of each ot
the segments four, five, six, and eleven, is a pair of similar but smaller prominences;.
in front of the pair of prominences on the dorsum of the eleventh segment is a pair
of spots which are of a clearer yellow or gray than the ground color, each spot
usually bordered each side by a short black line; spiracles orange-yellow, ringed
with black and usually situated on a yellow spot; venter concolorous with the upper
side, marked in the middle with a faint whitish stripe, and with a less distinct one —
near each outer edge; ten legs; length, 20™™,
29
These span-worms reach their full growth in May and then enter the
earth to adepth of from two to four inches; here each one forms a smooth
cell, but does not spin a cocoon. The chrysalis state is assumed a few
days after the cell is completed, but the moth does not issue until the
following winter or early spring. The chrysalis is of the usual form,
of a dark reddish brown color, and the posterior extremity bears two
diverging spines; the tips of the wing-cases almost reach the posterior
end of the fifth abdominal segment; length, 14™™,
Perhaps the most important enemies of these span-worms are cer-
tain kinds of insectivorous birds, particularly the black birds, which
1 repeatedly observed in.the infested trees, and Mr. Cooper informs
me that he has seen one of these birds carrying four of the span-
worms in its beak. Of internal parasites, only one species is at pres-
ent known to me to attack these span-worms; this is a small black,
four-winged fly belonging to the genus Apanteles. The sides of its
abdomen are largely yellow, the front and middle legs, including their
coxie, are also yellow, while the hind legs, with the exception of the
tips of the femora and tibiz, and the whole of the tarsi, are of the
same color. I found several of the white cocoons of this parasite
attached to the trunks of the infested trees on the 21st of May, and
near each was the shrunken remains of one of the span-worms in which
the parasite had lived. One of the parasitic flies issued one week
later. It is probable that a Tachina-fly of some kind also attacks these
Sspan-worms; on the day above mentioned I found one of them to whose
body was attached a white egg, evidently of one of these flies, but as
no parasite issued from this span-worm I am unable to settle this point
at the present time.
Mr. Cooper informs me that he sprayed some of the infested trees
with Buhach and water at the rate of 1 pound to 50 gallons, but this
did not destroy the span-worms. He also tried the kerosene emulsion,
such as he uses for the destruction of the Black Scale (Lecanium ole)
on olive trees, but this was not effectual. Paris green was also used
in varying strengths, from 1 pound in 50 gallons to 1 pound in 200 gal-
lons of water, and this latter strength he found effectually destroyed
the span-worms without injuring the trees. With each 100 gallons of
this mixture he used 20 pounds of a soap made principally of mutton
tallow and caustic soda; this caused the solution to spread more
readily over the leaves, and also had a tendency to cause the poison-to
adhere more firmly. The soap was first dissolved in hot water, after
which the Paris green was added, then the balance of the water, and
the solution was kept constantly stirred while being applied to the trees.
Mr. Cooper informs me that five men—one to drive the team, one to
stir the solution in the spraying tank, another to pump, and two to
handle the spraying nozzles—sprayed on an average 27 of his largest
walnut trees in a day; this is equivalent to one acre of trees per day,
30
THE CODLING MOTH.
(Carpocapsa pomonella Linn.)
It is not my purpose to give a complete account of this insect at the
present time; its habits and life history are pretty well known to those _
of our fruit growers who suffer by reason of the inroads it makes in
their deciduous fruit crops. A very full account of this pest, written
by Mr. L. O. Howard, will be found in the Annual Report of tlhe U.S.
Department of Agriculture for the year 1887 (pp. 88-115). I will there-
fore simply record a few additional notes which have come under my
observation during the last eight or nine years.
In the above-mentioned account it is stated that in the northern
part of this country the Codling Moth is two-brooded, while in the
south it is three-brooded. My notes indicate that in California, as
might be expected, it is also three-brooded, the moths from the hiber-
nating worms issuing in the latter part of March and during the first
half of April, those of the next brood appearing in June and during
the first half of July, while the third brood of moths appear in August
and the early part of September.
Of the two kinds of internal parasites reported as preying upon the
larve and pupe of the Codling Moth in this country, the Pimpla annu-
lipes is not represented in my collection from California. The second
species, Macrocentrus delicatus, not heretofore known to occur upon
this coast, I have never bred from the larve of the Codling moth; but
my notes indicate that on the 3d of September, 1891, I bred three
specimens of this parasite from larve of a Tortricid, Pedisca strenuana
Walker, which lives in the dry stems of a wild sunflower, Helianthus
annuus. I notice that in volume itt of INSECT LIFE (p. 59), the editors
record having bred this parasite from another Tortricid, the Cacecia
JServidana, as well as from one of the Dagger-moths, Acronycta oblinita,
making in all four different insects upon which it is known to prey.
In the above-mentioned account it is stated that the Dermestid
beetles, Trogoderma tarsale and Perimegatoma variegatum, are reported
as preying upon the pup of the Codling Moth in California. My
observations on the larve of these two beetles lead to the belief that
the Trogoderma larva feeds upon dead insects, but will not attack the
living ones; on the other hand, while the Perimegatoma larva doubt-
less prefers dead insects upon which to feed, yet it will also feed upon
the smaller living pupe, or chrysalides, of moths; and perhaps also
those of other insects.
This latter larva bears quite a close resemblance to the one figured
at 396, on page 448, of Packard’s ‘Guide to the Study of Insects.”
It is of a dark-brown color, with the sutures of the segments whitish;
the body is quite hard, somewhat flattened, of nearly an equal width
throughout, except that the last fourth tapers slightly posteriorly,
and the body is a trifle widest at the fourth segment; there are appa-
dl
rently only eleven segments, the first of which is the longest, and is
nearly as long as wide; the last segment is rounded behind, and is des-
titute of a projection of any kind; the body is thinly clothed, with
_ rather long yellowish and dark-brown hairs, and in the older individu-
als each of the last three or four segments bears a transverse pair of
short, brush-like tufts of black hair, which are wanting in the younger
individuals; the head is nearly as wide as the first segment of the
body, is of a reddish brown color, and is thinly covered with rather
long reddish hairs. This larva attains a length of about 6™™, and
the pupa is formed within the old larval skin, the latter simply split-
ting open along the back. The larve are found during the greater
portion of the year, and are quite frequently met with among the dead
leaves and other débris lying in the crotches of orange trees. I have
bred the beetles in June and also in December.
On the 17th of July, 1890, I found a larva of this kind engaged in
feeding upon a dead and dry moth. I also inclosed three of them in a
box containing a dead and dry chrysalis of the moth Teniocampa ruyfula, _
and in a few days they had devoured it. I then placed in their box a
living chrysalis of this moth, but they did not harm it, and in due time
it was changed toa moth. A fresh, living chrysalis of a Tineid moth
which I placed in their box, however, did not fare so well; I saw one of
the larve feeding upon it, and if was finally entirely consumed. I also
placed in their box a living chrysalis of a Codling Moth still in its
cocoon, and they finally gnawed a hole through the cocoon, entered,
and devoured the chrysalis.
The fact above recorded, that one of these larve was found feeding
upon a dead, dry moth, and the further fact that the larve devoured a
dead dry chrysalis of a moth, but would not attack the living chrysalis
of the same kind of moth, is sufficient evidence to prove that these
larve prefer dead and dry insects to living ones. Still, the other cases
here recorded indicate that under certain conditions they also attack
the healthy living chrysalides.
The larva of the Trogoderma quite closely resembles that of the
Perimegatoma above described, but is a much more robust form; the
body is widest at the last third of its length, and is of a lighter, more
yellowish color; the short brushes of hairs on the posterior portion
of the body of the older individuals are also yellow instead of black.
I have repeatedly found these larve within the empty cocoons of the
Codling Moth, but there was nothing to indicate that they had entered
the cocoons prior to the escape of the moths, and it is probable that they
fed only upon the empty shell of the chrysalis and the cast-off skin of
the larva. I placed a dead and dry Horse-fly in a box containing several
of these larve, and they soon attacked it and in a comparatively short
time reduced it to a powder. I then placed in their box a living larva
and two living chrysalides of a Tineid moth, but they had not attacked
either of them after ‘a lapse of six weeks, This would seem to indicate
os si
32
that these larve feed only upon dead gacuca and that masons’, attack |
those still alive.
For the destruction of the Codling Moth our growers of deciduous
fruits depend almost altogether upon spraying the young fruit with
Paris green and water. The proportions vary from 1 pound of the
Paris green in 160 gallons of water to1 pound in 200 gallons. My own
observations and experiments indicate that the former strength is lia-
ble to injure the leaves somewhat, so it will be advisable to use it not
stronger than at the rate of 1 pound to 200 galions of water.
On the 12th of May, 1890, I had twenty-two pear trees sprayed with
Paris green and water at ihe rate of 1 pound in 160 gallons, and to
this was added 4 gallons of the resin wash, composed of: resin, 20
pounds; caustic soda, 6 pounds; fish oil, 3 pints, and water sufficient to
make 100 gallons. This was added for the purpose of causing the solu-
tion to spread more readily over the trees and fruit. These pear trees
were kindly placed at my disposal by Mr. C. H. Richardson, of Pasadena.
They averaged about 10 feet in height, and the tops measured about 4
feet in diameter. Twenty-eight gallons of this solution were used on
these twenty-two trees. I examined them at intervals throughout the
summer; the fruit had not been in the least injured by the solution,
but a very few of the leaves had small brown spots burned in them, not
sufficient, however, to produce any material injury. When ripe, fully
five-sixths of the pears on these trees were free from the attacks of the
larve of the Codling Moth, whereas on adjacent trees not treated
nearly all of the fruit had been attacked by these larve.
Throughout the entire summer season these sprayed trees remained
free from the attacks of the Pear-slug (Hriocampa cerasi Peck), although
I found leaves on some of these trees in which the eggs of this insect
had been deposited; and upon adjacent pear, apple, and quince trees
that had not been sprayed these slugs were quite numerous. It would
well repay our growers to spray their trees with the above-mentioned
solution as a protection against the attacks of these slugs and other
leaf-eating insects.
It is the custom of some of the growers in the northern part of the
State to first dissolve the Paris green in ammonia before adding it to
the water, but it is very doubtful that this is any improvement.
Ammonia is known to be very injurious to vegetation whenever brought
in contact with it. Iam informed by Dr. H. W. Wiley, the chemist of
this Department, that Paris green, which ordinarily consists of a mix-
ture composed of one molecule of the acetate of copper and three mole-
cules of the arsenite of copper, is changed to an entirely different
chemical compound when treated with ammonia, this compound then
consisting of the acetate and the arsenite of ammonia combined with
an ammoniate of copper—a mixture much more soluble in water than
Paris greenis. It is evident that the more insoluble the Paris green
is rendered the less liability there will be of its injuring the foliage of
33
trees sprayed with it, and there will be less danger of its being washed
off of the trees by therains. Instead, therefore, of seeking to render it
more soluble, the opposite course should be pursued, and, if possible,
the Paris green should be treated in such a manner as to render it ©
wholly insoluble in water. To accomplish this result it is only neces-
sary to mix a pound of freshly slaked lime with each pound of the
Paris green, add a gallon or two of water, and let stand over night.
Treated in this way, the portion of the Paris green that is soluble in
water, and that produces the injury to the trees sprayed with it, unites
with the lime to forma compound wholly insoluble in water; by this
simple and inexpensive treatment the Paris green is rendered harmless
to the tree, while at the same time its poisonous nature is not lessened
to any appreciable extent. . This process was first used by Prof. C. P.
Gillette, now entomologist of the Colorado Experiment Station, and
his observations have been confirmed by a number of other experi-
menters.
The great benefits resulting from treating fruit trees with Paris green
for the destruction of the Codling Moth are well understood by the
majority of our growers of deciduous fruits, a few of whom have learned
this by bitter experience. At a recent meeting of the horticultural
commissioners of southern California, Mr. John Scott, the commissioner
‘for Los Angeles County, stated that early in the present season he in-
structed his inspector in a certain locality to serve a notice on all of
the fruit growers in his district to spray their pear and apple trees with
Paris green and water for the destruction of the Codling Moth. The
majority of the growers complied with the request, but one of them, for
some reason, asked to be allowed to defer the spraying for a short time,
and his request was granted. The spraying, however, was deferred
longer than was originally intended, and it was now considered too late
in the season to obtain good results, so his trees were not sprayed.
Long before his pears were ripe this grower made a contract with the
manager of one of the canneries in this-city whereby he was to deliver
his crop of pears to the cannery, for which he was to receive the sum of
$2,000. When, however, he delivered his first load of pears, so badly
were they infested with the larve of the Codling Moth that the manager
of the cannery refused to accept them. The grower then offered them
at three-quarters of the original price, but his offer was refused; he next
offered them for one-half of the price originally agreed upon, but the
manager informed him that he would not accept the pears even if they
were given to him free of all expense. By the outlay of a very small
sum of money necessary for spraying the trees all of this loss to the
grower might have been averted.
19866—No. 30——3
REPORT UPON INSECT INJURIES IN NEBRASKA DURING
THE SUMMER OF 1892,
By LAWRENCE BRUNER, Special Agent.
LETTER OF SUBMITTAL.
LINCOLN, NEBR., Nov. 12, 1892.
Sir: As special field agent for Nebraska, I submit herewith a report upon insect
injuries in this State during the summer of 1892. ‘The report touches upon the out-
look for destructive locusts, but is mainly devoted to a consideration of certain sugar-
beet insects, with a brief notice of the miscellaneous injurious insects of the season.
Very respectfully yours,
LAWRENCE BRUNER.
€. V;: Kinny,
U. S. Entomologist.
DESTRUCTIVE LOCUSTS.
On account of the great amount of injury done by destructive locusts
during the past few years and because of their threatened increase
again early the present season in many localities over the country at
large, a careful watch has been maintained during the season that has
just passed for reported injury to crops by these much-dreaded insects.
It is with pleasure, therefore, that I am enabled to state that com-
paratively little damage has been done by them the country over.
True, in a few localities, there was some local injury; but, when we
take into consideration the fact that last year a number of different
species were unusually numerous in various portions of the country, -
west, north, south, and east, it is certainly encouraging, to say the
least, that so little injury has resulted the present year.
Here in Nebraska several species hatched in rather large numbers
and began to do some injury to gardens; but during the summer these
became more or less infested with parasites of different kinds. These —
parasites thinned their ranks materially. In a number of localities the —
fungous disease known as Empusa grylli killed off myriads of the —
34 : : |
remaining individuals, while at the same time others became literally
covered with the Locust Mite (Trombidium locustarum). In fact, so
extensively were these insects beset with afflictions of one or another
kind that but few eggs were deposited. Even where they were, the
large number of the egg parasites present will likely insure compar-
ative immunity from locust attack next year.
From the northward we have heard but little of the pest that at one
time last year appeared to be becoming so formidable. In central
Idaho and portions of Utah and Nevada, where several species did
considerable damage to both crops and grasses on the range, compara-
tively little injury has been reported, while from Colorado, western
Kansas, and southwestward, the pest seems to have dwindled to nearly
the normal condition for the region. Even in portions of Indiana,
Ohio, and other sections of the East, where last year these insects did
some injury, the conditions have somewhat improved.
CAUSES FOR THIS DECREASE IN THEIR NUMBERS,
It is not at all surprising that these insects have so suddenly become
less numerous in the many localities where they were so recently
threatening devastation. The large number of parasites and preda-
ceous insects which attack them have had an opportunity to increase
also. These latter, together with the Entomophthora, which has been
unusually abundant and severe during the past few years, have com-
bined in reducing the pest. Here in the city of Lincoln and envi-
ronments this year the dead bodies of Melanoplus differentialis were
to be seen by the thousands clinging to weeds, stems of grasses, and
other vegetation, where they were overtaken by death from the effects
of the disease. On some single weeds more than a dozen of the hop-
pers were frequently to be seen. The dead bodies of other species like
the femur-rubrum, bivittatus and atlanis were also occasionally to be
met with upon the same weeds. These latter were, however, much less
common.
One feature observed in connection with the distribution of locusts
of this region was the presence in many parts of middle and eastern
Nebraska of such species as Dissosteira longipennis and Melanoplus spre-
tus, Which must have come from abroad. Here at Lincoln both of these
species were of quite common occurrence. On the university campus
a female of the former was taken in coitu with a male of Dissosteira
carolina. Other specimens of the same species were taken at Norfolk,
Grand Island, West Point, and Columbus, and even in the vicinity of
Hot Springs, 8S. Dak.
Such species as Camnula pellucida and the glaucous-legged form of M.
atlanis, that have been mentioned on former oceasions as gradually
moving eastward and southward, were this year met with in rather
large numbers in different parts of the Black Hills and even in the
northwestern counties of Nebraska.
36
BEET INSECTS.
Possibly more attention was paid during the summer to sugar-beet
enemies than to any other class of insect pests inthe region watched
by me. This was due to the interest which is centered in that partic-
ular crop at the present time and also because of my having already paid
considerable attention to this subject. It is needless, therefore, for me
to state that during the season several additional species have been
found attacking that plant here in Nebraska. Among these a smail
Hemipteron (Hadronema militaris Uhl.), that has heretofore been fre-
quently seen and taken on different species of Amarantus in the
western part of the state and in Colorado, was very common, in fact
quite numerous, upon a small patch of beets in Sioux county during
the latter part of July. Like others of these Hemiptera it attacks
the leaves and leaf stems by inserting 1ts beak and sucking the sap.
Usually, but not always, the points attacked show as stained or par-
tially deadened spots. Two or three additional leaf-hoppers were also
taken upon beets here and at Norfolk, West Point, Grand Island and
other locaties where beet fields were visited. These, however, were not
present in sufficient numbers to do any noticeable injury to the parts
attacked. The names of these were not ascertained, but will be.re-
ported later if deemed advisable.
Blister-beetles of several species, though none that were new to the
Jant, were unusually common and troublesome at a number of locali- -
1 ) J
ties within this State and parts of Kansas during the season. Here at
Lincoln, as well as at other localities, the common black one, Hpicauta
pennsylvanica, was exceedingly annoying to the owners of patches of
beets. This beetle always comes and goes in comparatively large num-
bers, and one never knows where it will settle in the field. Choosing
certain plants the insects congregate upon them and either eat the
leaves full of holes or completely strip off all the foliage before going
to the adjoining plants. Or, possibly, as soon as one plant has been
stripped, they will go to another part of the patch or else leave alto-
gether. _In Sioux county the small Spotted Blister-beetle, Epicauta
maculata, appeared to be the most common of these insects, and
was always met with in large numbers on upland wherever beets were
growing or a clump of the Chenopodiwm album occurred. Others of the
blister-beetles were taken in the beet fields during the season, but
these were present in much smaller numbers, and did but little dam-
age aS compared with what was done by the two species named above.
Hand picking was more successfully used in combating these insects
than any other remedy tried. Poisons in the case of Lpicauta pennsyl-
vanica proved to be of little or no value, since the insects often left
immediately after the application was made, and at all times before
they had eaten sufficient of the poisoned leaves to have any visible
effect upon them. In the case of the Spotted Blister-beetle, poison was
not tried that i am aware of; but I believe it would be more effective
37
against it than against pennsylvanica, for the former is less easily dis-
turbed when feeding, besides being more regular in its habits than the
latter. Like that species it is exceedingly gregarious in its nature,
and always occurs in immense numbers when found at all.
Some indications were found at West Point of the possible injury
that can be inflicted upon the beet crop by White Grubs. Here on
one small field it was found that fully 15 per cent of the beets had been
kilied or injured by some insect working under ground. An investiga-
tion soon showed the criminal to be the grubs of some one or more spe- _
cies of Lachnosterna. These grubs had eaten away the tap-root and
all the fine fibrous roots at a distance varying from 6 to 8 or 9 inches
below the surface, but averaging about 7 inches. A dry spell coming
on the tops began wilting, and finally died, after which the roots rotted
in the ground. In this case the ground had been idle a year or more.
This would suggest to us the advisability of not using grass land for
beets; but to plant in ground that has been thoroughly cultivated for
two or more years prior to its use for beets.
The Beet Web-worm.—Preéminent among the insects that attacked the.
beet crop here in Nebraska during the season which is just coming toa
close, were two or more species of web-worms belonging to the genus Lovo-
stege as at present restricted. Of these the one known as Lowostege stic-
ticalis has been the chief depredator. Its history as an injurious species
can be given briefly, as follows: By investigations instituted here at the
experiment station only after the injuryhad mostly occurred it was ascer-
tained that last year it was noticed that beets growing in the vicinity
of Grand Island, Norfolk, and some of the adjoining towns, which sup-
plied the beets for the two factories in the state, were infested by a
few of the worms. These, however, did not appear in sufficient num-
bers to cause alarm at the time, or even to suggest to the interested
parties the advisability of learning something of their nature, life his-
tory, and possible remedies. This year the caterpillars again made
their appearance in these same localities and also at the Government
station located at Schuyler. Considerable injury was done at this last-
named locality on the experimental plats of sugar beets by a brood of
the worms that matured late in July. Whether or not this was the
first brood that appeared during the season 1s not positively known;
but. that it was the first brood that did visible injury is quite evident.
Had this been otherwise the notice of Mr. Maxwell would have been
called to them earlier in the season. As soon as the insect was ob-
served by him to threaten the beets in his charge, as I am informed,
specimens were at once sent to you in Washington. He also told me
that experiments were at once started with a view to controlling the
pest. Just what was accomplished in that direction I was unable to
learn at the time of my visit to Schuyler on the last of August when the
next brood was at its worst, but I presume he has reported to the
Department just what was accomplished in this direction,
CYR PE aR a ere 2 er eR a ea
38
We did not have the insect here at Lincoln in sufficient numbers to
attract attention. Althoughseveral larve of theordinary Garden Web-
worm (Loxostege similalis) had been taken early in July, nothing was
thought of the matter and no further considerations taken concerning
them until after the destructive brood had done its work at Grand
Island and Schuyler, and a report of its presence and injuries was seen
in the state papers. A special inspection of our beet plats at this time
resulted in the finding of a number of specimens of another web-worm
that we had noticed on several former occasions working on Amarantus
and Chenopodium, but not on the beet. Upon visiting the station at
Schuyler it was found that this second web-worm was identical with
the one which occurred there; and, as Dr. Maxwell assured me, the
same as was then present at Grand Island and several others of the
surrounding towns where beets were being grown. A couple days
later the same insect was found to be quite plentiful at Norfolk, Platte
Center, and Genoa, where many of the beet fields either had been
stripped or were at the time being stripped of theirleaves. At Norfolk
-the greater part of half a day was spentin company with Mr. Huxman,
the agriculturist in charge of the fields ‘which supply that factory.
Here a careful examination of the grounds was made and some facts
gathered in relation to the insect as it appeared in this locality at least.
Several new insects were here added to the list of “ beet insects” as
heretofore recorded. Afterward Norfolk, Stanton, Wisner, Beemer,
and West Point were visited. At each of these localities sugar beets
had been planted for the Norfolk factory, and at each some signs of
the insect in question were found, though in much smaller numbers
than where beets had been grown the year before.
From observations made at these different localities, and from infor-
mation gathered through conversations held with various persons who
were interested in the culture of beets, the following facts were gath-
ered: These web-worms are more numerous away from sheltered loeali-
ties than near bordering groves; and on high grounds, as hill tops and
slopes, than on low flat grounds; they are never plentiful on a piece of
ground planted to beets for the first time unless it adjoins one that was
in this crop the year before; they are more plentiful in the middle of
large fields than in small ones, and those that were allowed to run to
“pig weeds” the preceding year, than in those where these weeds were
kept down. The insects are also apparently more numerous where the
soil is sandy than where it is heavier; at least this latter appeared
to be the case in the localities where I made my observations. It was
also learned that these web-worms are very subject to the attack of a
number of parasitic insects, as well as falling prey to several species of
predaceous beetles, bugs, and wasps, while birds and toads seem to rel-
ish them. Chief among the parasites reared from the specimens se-
eured at Schuyler, Norfolk, and Grand Island is a small yellowish
Hymenopterous fly. Next in point of numbers is a species of flesh-fly.
-
39
‘This latter was observed to be rather common in the fields both at
Schuyler and Norfolk, while it has been bred in fairly large numbers
from Grand Island worms. In addition to these, several other para-
sites have thus far been bred from the web-worms contained in my
breeding cages,
As to the life history of these web-worms we are posted only in a
general way, and not specifically. Our observations on the present spe-
cies, Loxostege sticticalis, have not extended over a period of more than
three months, hence we can not positively assert how it carries itself
throughout the year. Thatit varies somewhat in its transformations
and developments at different periods of the year is quite evident from
what little we have seen of it so far. But two weeks is required be-
tween the maturity of the late July caterpillars and the appearance of
the moths for the next brood. ‘These immediately mate and deposit
their eggs for another brood. The worms must therefore transform to
chrysalids immediately after entering the ground. Such is not the case
with the caterpillers of the last brood. With these the chrysalis stage
is not entered for some time—possibly not until very late in the fall or
even during the following spring. When I visited the Grand Island
fields, fully three weeks after the last worms had entered the ground,
they were found still in the caterpillar stage. Even at the present
writing most of those in my breeding cages are unchanged. In this
respect the insect imitates the slugs of some of our saw-flies. Its bur-
row is made and lined with silk, and the inner cocoon constructed
immediately on entering the ground, but the worm instead of at once
changing to the pupa stage lies in a semi-torpid condition until the
proper time arrives for the change to take place, whether the insect
enters the ground during the summer brood or broods when transform-
ing, was not learned; but, if its life history is similar to that of the
common Garden Web-worm, Loxostege similalis, it does not, but merely
spin among the débris on top of the ground. Some of the larve of the
August brood transformed and issued during September and October.
It is barely possible that there is another set of caterpillars produced
by these stragglers during the fall if the weather permits; but, as
indicated above, the majority of the August brood remain unchanged
until sometime during the following spring.
At least three distinct forms of these web-worms were taken from
beet fields in different parts of the State, and a fourth one was found
upon Chenopodium album growing in waste places here at Lincoln.
Possibly still others might have been recognized if a close observation
had been kept for that purpose. The similar food habits among the
species of a genus of insects will very likely give us several more of
these web-worms to add to our already large list of beet insects.
The web-worm found feeding on the Chenopodium album here at Lin-
coln can be recognized by the following description which was drawn
up at the time of capture, and before it spun up: Length,20""; slender,
~
——_—_—_- =: eee nn
1
40
tapering gently towards both ends. Of a light transparent green, the
head and cervical shicld inclining to amber yellow, but with a greenish
tinge. Four small, whitish piliferous spots upon dorsum of segments—
the anterior pair somewhat nearest together. Very fine hairs arising
from these piliferous spots, as well as from sides. Larva very active—
jumping aside and squirming vigorously when touched, as in the larve
of Gardenand Beet Web-worms. Also spins a slight web when feeding,
to which it retreats when at rest. |
Mamestra sp.—While walking through the beet fields at Norfolk
a number of specimens of a Noctuid larva, apparently a Mamestra,
were taken, in company with the web-worms mentioned above. This
larva is about the size and has something of the same general appear-
ance of the dark form of J. chenopodii, but differs from that insect in
habits and markings. It was apparently quite plentiful, as specimens
were taken at several different points in the fields, and three of them
were found on a single row within 6 feet of one another. None of them
were reared, aS my breeding jar was overturned and the caterpillars
destroyed by some one who meddled with affairs not belonging to his
duties.
Anthomyia sp.—In connection with beet insects it might be well here
to refer to a Dipterous larva that was taken herein Lincoln mining the
leaves of Chenopodium album. Whether or not this is one of the spe-
cies of Anthomyia which Lintner found mining the leaves of beet in
New York, I can not say; but, from what I have observed heretofore
in connection with these weed-feeding insects, there is danger of all of
the enemies of the Chenopodaceous plants attacking the beet. Hence,
whether this is a recorded enemy of the beet or not, it is very liable to
become such sometime in the future. In its mode of attack this larva
is somewhat peculiar, entering the leaf and feeding upon the pulp it soon
separates the cuticles, making the leaves appear blistered. The mag-
got, in case of the Chenopodium, requires the substance of severalleaves
before coming to maturity, hence is obliged to pass from one leaf to
another. These maggots are from 7 to 8™™ in length and nearly 2™™
in their greatest diameter. When ready to transform they enter the
ground and there undergo their change to the pupa. One of the im-
agos issued within ten days of the time of entering the ground. The
others, of which there were five, are still in the ground.
Silpha opaca.—During my visit at Norfolk and while talking with
Mr. Huxman relative to Beet Insects in general, he mentioned the fact
of theinjury done by Silpha opaca in Germany. He said that the larva
of this beetle was by all odds the most troublesome insect pest with
- which beet growers in that country had to deal. Hand picking was .
the remedy usually resorted to. He also stated that he had seen sey-
eral specimens of the insect during the past summer at West Point,
this State, upon sugar beets, and that he had killed them. He said
that he could not be mistaken about the insect, as he had seen too
-
ua “i
sh
- 4
many of them in Europe not to know them at sight. With this second
reported presence of this insect in beet fields at this one locality it
begins to appear that perhaps, after all, it is present in America.
CHINCH-BUG NOTES.
While this insect has not been general over the State, it has begun
to increase in such numbers in some of the counties along our southern
boundary as to cause an uneasy feeling among the farmers of the see-
tion in question. Several letters have been received from different
individuals in the counties of Nuckolls, Franklin, and Fillmore, asking
for aid in the suppressing of this insect, which, as their letters stated,
was becoming quite numerous and was threatening the fall wheat.
They all asked for diseased bugs with which ‘to innoculate the healthy
ones” in their respective neighborhoods. These letters were received
during the latter part of September. Heavy rains have, fallen in the
region since, and nothing further concerning the bugs has been heard.
MISCELLANEOUS INSECTS.
Aside from the damage to ‘beets by web-worms, the most marked
injury done by insect pests in Nebraska during the season which has
just come to a close was due to the presence of several species of cater-
pillars and saw-fly larve. Some of these have been excessively numer-
ous in portions of the State, where they did great injury to the trees
attacked. Some of these were the tent caterpillars, Fall Web-worm,
the Walnut Datana, Cecropia larva, Green-striped Maple-worm, Tus-
sock Moth, the Ash-tree Sphinx, Celodasys unicornis, and a species of
Lyda (?) that worked upon the wild and tame plums. The Pear-tree
Saw-fly also made its appearance within the State and did some injury
to trees growing near Norfolk, in Madison County.
In towns and cities the caterpillar pest appears to be greatly on the
increase, and it is next to impossible to impress upon the authorities
the necessity for taking decisive steps toward their destruction, The
comparative absence of insectivorous birds and of predaceous and para-
Sitic insects is the cause for their increase. These latter are kept down
by the burning of rubbish and other refuse under which they hide and
spend their winters,
REPORT ON INSECTS OF THE SEASON IN IOWA.
By HERBERT OSBORN.
LETTER OF SUBMITTAL,
AMES, Iowa, November 5, 1892.
DEAR Sir: I inclose herewith a report on some of the observations for the year
1892, and beg to acknowledge at this time the many favors received which have been
a material assistance in the prosecution of the year’s work.
Very respectfully yours,
HERBERT OSBORN.
ir C.-Y. Riley,
U. S. Entomologist, Washington, D. C.
Perhaps the most striking features of the insect conditions the
present year have been the almost total absence of many of the com-
mon pests during the early part of the season, a consequent slight
amount of damage from insect attack, and the rapid multiplication of
insects during the later months of the year and some quite conspicuous
injuries. One of the most striking instances of this is to be noted in
the plant-lice which were exceptionally rare during the spring and sum-
mer, but in late summer and autumn multiplied prodigiously and caused
serious injuries to many kinds of plants.
The season was unusually backward and the spring months Br
by much rain and cold weather, which retarded insect lifein general.
Such reports as were received during the early part of the season
indicated little if any damage even from such common pests as cut-
worms, squash beetles, ete.
The species of ‘ bill- wee ” (Sphenophorus), which have been stances
noticed in the State heretofore, have become plentiful, and one species,
Sphenophorus parvulus, quite threatening in its attacks upon corn. This
indicates naturally a considerable damage to grasses and probably
wheat and other cereals, which passes without notice. It is quite prob-
able that this species will demand serious attcntion from Iowa farmers
during the next few years. Sphenophorous ochreus has attracted some
42
43
attention, but no serious damage has resulted from its presence: so far
as I know, and I do not anticipate from it any serious difficulties for
this State. Attention has been called to-these in a paper read before
the Association of Economie Entomologists at Rochester and pub-
lished in INSECT LIFE (vol. Vv, p. 111), and no further notice of them
need be given here. Several cases of insects affecting grain in storage
have come to my notice, and especially in the case of mill owners there
seems to be a decided interest in the subject and a desire to adopt
remedies for the insect pests that infest their mills. It is needless to
add that the recommendation of bisulphide of carbon has given very
satisfactory results.
The Potato Stalk Weevil (Trichobaris trinotata Say) has been quite
plentiful and destructive, causing a loss of a large percentage of the
crop on the college farm and probably over a considerable part of the
State, though from the nature of its attack it seems to escape the
notice of most growers.
A quite notable outbreak which came directly under observation was
that of the Diamond-back Moth (Plutella cruciferarum) upon Rape,
Cabbage, Cauliflower, and related plants. This insect has seldom
caused any noticeable injury, though often observed as occurring in
limited numbers, but this year it became so abundant as to seriously
damage all the patches of Rape on the college grounds. The worms
are so well protected in folds of the plant leaf and many of them on
the under side that they are difficult to kill, and sprays of London
purple were only partially successful, and it seemed that this poison
applied in the form of powder diluted with flour and blown among the
leaves was more effective.
‘The Cabbage Plusia (Plusia brassice) was also plentiful and accom-
panied the preceding species in their attacks on Rape, Cabbage, ete.
For a time they caused more injury than that species. They were,
however, attacked by a disease that swept many of them off, so that
their damage was perhaps not so important in the aggregate as that
of the preceding species.
The Imported Cabbage Butterfly (Pieris rape) was not seen at all
in the early part of the season and it was thought that the Apanteles
glomeratus mentioned in last season’s report had accomplished a thor-
ough work; but late in August and early in September buttertlies ap-
peared in large numbers and larve were fairly plentiful in some cab-
bage patches during October. Of course the scarcity during the fore
part of the season may have been due to the previous abundance of
parasites, but it shows that such parasitism does not furnish a perma-
nent check. Specimens received from Des Moines were abundantly
parasitized with Pteromalus puparum, and this species, with the Apan-
teles glomeratus and the epidemic disease that occasionally sweeps them
away, certainly conspire to assist greatly in the reduction of damage
from this widespread pest.
a4
Specimens of the larve of the Army Worm (Leucania wunipuncta)
were received from Muscatine County with the information that they
were injuring crops in a considerable area in that county, but as they
were evidently full grown probably their injuries ceased almost im-
mediately afterward, so that I have no further information as to in-
juries from them or of their being present in any other localities in that
part of the State. . :
The Clover-seed Caterpillar (Grapholitha interstinctana) was again
' plentiful and caused a considerable loss in the clover crop. This
species feeds readily on the leaves or in the crown of the plant and so
does much injury aside from its destruction of the clover seed.
A common Pyralid moth related to the species of Crambus, the
Nomophila noctuella, was extremely plentiful in grass land during early
October, swarms of them being seen in all pastures and meadows. In
a previous report I have called attention to this species as a probable
serlous pest in grasses, with habits similar to those of Crambus, and
the observations this season on the numbers of the adults and their
habits confirm my opinion that they have larval habits similar to
Crambus and that they must cause a serious loss in pastures and
meadows. Work upon other species has precluded any effort to trace
the larval history the past season, and so far as I am aware nothing
has been recorded with regard to it. It seems to me well deserving of
jnvestigation. The imagos of Crambus exsiccatus, a species which has
heretofore been reported upon, with details of its life history, were
plentiful this season, but not in such numbers as in some former years.
Still they may be counted as among the very constant destructive
species. .
Edema albifrons was quite plentiful on Oak, and has been received
from other localities, and would seem to be more than ordinarily
destructive this season.
The larve of quite a number of Lepiaepiens that are usually rather
scarce or inconspicuous were during autumn quite abundant. Among
these I may mention Pupilio cresphontes, which, though usually very
rare here, was taken in considerable numbers upon Prickly Ash.
Mamestra picta, generally rare here (which may sound strange to ento-.
mologists in some other localities), was fairly common, though not to be
counted a destructive species. Actias luna was quite common and
many specimens were brought in by students. Also Hyperchiria io,
very seldom seen in any great numbers, was found in considerable
numbers. Datana angusii, as usual, was abundant, and Grapta inter-
rogationis and Vanessa antiopa were conspicuous in their attacks. The
common species, Papilio turnus and Papilio asterias, were more abun-
dant than usual, and in some cases did damage to their respective food-
plants.
At the meeting of the Association of Economic Entomologists held
in August I reported some notes on the life histories of certain Jassi-
45
dz which have been noted as specially destructive in this State, and
which have a general distribution over the country. Since these have
a general importance and some further details have been worked out
since the presentation of that paper, I will venture to repeat briefly the
facts as at present available.
A quite important step has been gained in the determination of the
winter conditions of the strictly grass-feeding species, notably Delto-
cephalus inimicus, D. debilis, and Diedrocephala mollipes. These all
deposit eggs in autumn in the leaves or stems of grass and the eggs
remain in such situations over winter, hatching in spring.
The suggestion made in my report for 1889 (Bulletin 22, Div. Ent., U.
S. Dept. Agriculture) is therefore well founded, and the burning over
of grass land in late fall or early spring, when the grass is dry enough to
burn down to near the surface of the ground, should prove a most effee-
tive and inexpensive method of treatment for pastures and meadows to
reduce the numbers of these pests.
The life histories of the most common and abundant species may
now be summarized as follows:
Deltocephalus inimicus.—Larve hatch from eggs deposited in fall, the
larve appearing when fairly warm weather begins—ordinarily in April.
The larve is at first light colored; but after the first molt has a black
lateral border, a character by means of which it can be readily sepa-
rated from.debilis. These larve mature by the latter part of June,
and imagos are plentiful during the last of June and fore part of July,
becoming scarce again the latter part of that month, but depositing eggs
which hatch in July and early August, and larve are very plentiful
during early August and mature during the latter part of that month
and early in September. This brood deposits eggs which remain over
winter, though some of the earlier deposited eggs probably hateh in
the fall and produce a late brood of larve, some of which seem to mature,
and this probably accounts for the numerous individuals sometimes to
be seen on warm days in Jate autumn and early winter. These seem to
all perish before spring and probably without depositing any eggs.
There is naturally a considerable amount of irregularity in the first
appearance of adults and the time of egg deposition, but as these
broods observed in the field have been paralleled with laboratory breed-
ings there can remain little doubt as to the normal number and the
time at which the bulk of the broods appear.
Deltocephalus debilis has practically the same life history, except that
the broods appear about two weeks earlier, so that some adults will be
found at the time the majority of inimicus are nearly grown larve.
This makes it possible to use the tar pan at the time when the greatest
numbers may be secured, which for most seasons will be at the time
of the appearance of larve of both species, in late May and early June,
again in early July, and a third time, if necessary, late in July or early
in August. Of course applications will be made with reference to times
46
when larve or adults are noticed as hopping abundantly, and it seems
from results of this season’s work that the greatest numbers of hop-
pers are captured in the afternoons of warm days, with little or no wind,
the hoppers seeming to jump best between 3 and 6 p. m.
Further tests of the tar pan have confirmed its-value in destroying
these pests, and a field test made with the cooperation of the farm
department of the Experiment Station, and reported in full in Bulletin
19, lowa Experiment Station, has shown that its use will practically
enable the farmer to keep a larger number of cattle, sheep, or other
animals upon grass land. In the experiment referred to, the result
showed a gain of 68 per cent, but inasmuch as the experimental plat
lay alongside other grass land and was subject to invasion from this,
it seems to me that by a continued use ofthe treatment and over whole
pastures, so as to preclude migration of insects from adjacent areas, we
would get a still better result, and while it is perhaps too much to
hope to get an increase sufficient to double the number of animals pas-
tured on an ordinary field, J should hope to secure some such propor-
tion, at least, if other destructive insects were also kept within bounds.
Another very widespread and destructive species is the Diedrocephala
mollipes, and this has been the subject of a thesis study by Mr. J. A.
Rolfs, a senior student in entomology here this year. The main facts
in its life history may be stated in brief in this connection. The eggs
in fall are mostly deposited in the rank grass of low ground, the insects
preferring low ground during dry weather, which usually prevails for
a few weeks in autumn. The larve hatching in spring, during May or
early June, become adult by the latter part of June or early July, and
in ordinary seasons will largely migrate to higher ground and deposit
eggs, so that the second brood of larva, which appears in September,
for the most part will be found widely distributed on both high and
low ground, and may cause great damage. These larve mature by
early October, and the imagos will, many of them, move to low ground
to deposit eggs. It is evident that the burning over of sloughs and
swampy or low ground is very desirable in the treatment of this
species. |
Plant-lice have been very plentiful during the autumn months, a
strong contrast to their scarcity during the early part of the season.
I had hardly returned from the Rochester meeting, where I reported a
scarcity of these insects, when they became very conspicuous in their
abundance.
Myzus persice on wild plum trees was among the species most notice-
able, but the injuries it caused were by no means so severe as occurs
when it is abundant in the early part of the season and attacks the
growing twigs and the fruit.
Aphis brassice was specially noticeable on Rape, where it causeda
considerable amount of damage, rendering the crop unfit for feeding.
It was quite numerously infested with parasites in late autumn.
47
Many other species were abundant, and especially during October
hosts of individuals were seen migrating from their summer locations
to the plants which support their winter eggs. On some of these
observations were made, but they can best be included in a discussion
of the species in detail when their full life histories are worked out.
Last year I made a trip for the Division to western Kansas to inves-
tigate a local outbreak of grasshoppers, a report of which, with the
recommendations suggested, was published in INSECT LIFE, vol. Iv, p.49.
Naturally, I was interested to know the outcome for the present sea-
son and wrote to parties in Garden City and Lakin, asking for a state-
ment as to the abundance and injuries and what steps, if any, were
taken in destroying them. I received two letters, from which I extract
the following:
GARDEN City, KANS., August 20, 1892.
Dear Sir: The grasshopper has been quite bad in localities. I think, from
reports, that it will do almost as much damage as last year in the aggregate. Ona
few farms the wheat was injured and oats entirely destroyed—probably not more
than one-half crop at the best. Farmers report that the fly is not killing many of
them. . Machines were made for capturing them. Some report large numbers taken.
ANDREW SABINE.
LATER.—Since writing the within I have been making inquiries and find that the
hopper has been destructive only in spots. Wheat has not been injured. Some
fields of oats destroyed. In other places only a few acres would be destroyed. They
are commencing to disappear. Some say that they are dying rapidly. I met noone
who had looked for the cause of death. Toads were innumerable this year—so much
so that “everybody” was talking about it. I think the damage this year will fall
much below that of 1891. pose
Lakin, Kans., August 7, 1892.
As to the number of hoppers I see very little difference from last year.
By far the most damage has been done by Melanoplus differentialis. I send yousome
hoppers caught this morning; also some dead ones found on asparagus. You can
judge from the stalks the effect that they have had on that. There is a little green
growth on the bottom yet. Parasitic Tachinids have destroyed more than last year.
As to fighting them very little has been done, and that in a half-hearted way. I
cleaned them out of the orchard wherever I cultivated the ground early enough and
solidly. Am satisfied that they can be caught on the alfalfa by hopper-dozers. We
have had some trouble in getting pans made, but they are bound to work if taken
in time.
These hoppers will be likely to stay and grow fat just so long as we give them a
good breeding ground and plenty to eat. We had some cold wet weather lastspring
* * *
just as they were hatching, which checked them some, but they seem to have out-
grown it. I find a good many young ones now.
J. W. LONGSTRETH.
Prof. H. OSBORN,
Ames, Iowa.
TESTS OF THE BOTRYTIS TENELLA ON LACHNOSTERNA.
During the spring we received from your office a tube of Botrytis
tenella from France, with instructions to test it on Lachnosterna lary
in this locality.
48
Four tests were made of the material, following the directions for
preparing and applying that accompanied the tube. Two of these tests
were made in the laboratory in small glass root cages and two of the
tests were in outdoor plats.
In the first laboratory experiment, May 26, about twenty larve were
treated, ten of which were inciosed in a root cage two and one-half by
four feet deep, and ten in an outdoor plat. Examinations later showed
no result. .
At the same time a few treated larve were placed in a glass root cage,
the earth in which had been sterilized by continued baking, and kept
in the laboratory for the purpose of closer observation. One specimen
included in this cage was found to be covered with a small cyst of earth
filled with a mycelial growth and the larve itself was covered with a
dense white growth of mycelia. Another grub in this same cage went
on and pupated and showed no signs of being affected by its treatment
nor from being in contact with the diseased larva.
On June 23d another test was made, both in laboratory and field.
Twenty-three treated larve were inclosed in a glass root cage 24 by 36
by 34 inches inside. This was filled with sterilized earth to within 6
inches of the top. The earth had been sterilized by heating in a hot —
air oven from six to eight hours at 70° to 90° C. These were examined
August 28. Three live grubs were found and five beetles. A num-
ber of larve, with no signs of growth, were observed dead on the sur-
face afew days after treatment, and it is probable that they had been
slightly injured before or during collecting, as they were picked up in
furrow after the plow. The outdoor experiment, as in the first case,
gave no result.
It will be seen that the only successful inoculation was of a single
larva in a laboratory cage, and this diseased larva did not communicate
the disease to another in close proximity toit. The field experiments
showed no result whatever, though it can not be said but that larve
became affected and escaped our notice in later examinations and that
the disease may appear hereafter.
The tubes evidently contain a small proportion of spores and a large
proportion of starch, so that it is possible the larve did not all get an
inoculation with spores,
ee dh
ak
ENTOMOLOGICAL NOTES FOR THE SEASON OF 1892,
By Mary E. MurtreLpT.
LETTER OF SUBMITTAL,
KIRKWOOD, Mo., November 2, 1892.
Str: I herewith submit such of my entomological notes for the past season as
relate to species of economic importance, including accounts of a few species that
have not hitherto been included in that category. I have been much interested in
the study of several other species, also pernicious or beneficial, but as these have not
yet reached full development, I beg to reserve my notes upon them until I shall be
able to complete the record,
Respectfull
p ys Mary E. Murtre.pr,
Dr. C. V. RILEY.
U. S. Entomologist.
MISCELLANEOUS MEMORANDA,
The climatic peculiarity of the past season throughout the Missis-
sippi Valley was found in the excessive rainfall and the low temperature
of the spring and early summer. That these conditions would produce
a noticeable effect upon insect life can not be doubted. Wheat fields
and corn lands that were inundated during April and a part of May,
so far as I have been able to ascertain, entirely escaped attack from
Chinch Bugs and Bill Bugs. I am also inclined to ascribe to the same
cause the somewhat remarkable non. appearance of the Colorado Potato-
beetle over a wide area of the country. So absolute was this disap.
pearance that repeated and careful search in this locality for specimens
upon which to test insecticides failed to reveal a single beetle or larva.
I can not say, however, that the potato crop was the better for this
immunity. The plants seemed sufficiently vigorous, but the. tubers
were few and small and the crop in Missouri almost a failure.
Another insect that seems to have mostly deserted this section of the
_ country is the Grape Phylloxera. For two or three seasons I have not
noticed any galls on the leaves of even the most susceptible varie-
ties, and examinations of the roots of Delaware, Taylor, Catawba, and
19866—No. 30-4. 49
50
Herbemont have shown them to be free, or almost free from the sub-
terranean form of the pest. Such old vines of the above and other
delicate varieties of the fruit as had been suffered to remain in some of
the vineyards around Kirkwood, have, for the last two years, renewed
their vigor and borne good crops.
-Flea-beetles gave very little trouble where gardeners had been care-
ful, during previous seasons, to eradicate such weeds as Lepidium and
Arabis from the neighborhood of their vegetable beds, since it is in the
leaves of these that Phyllotreta sinuata Steph., with us by far the most
abundant and destructive species, chiefly breeds,
The Cabbage Cureulio (Ceutorhynchus rape Gyll.) oceasions much
loss and ‘annoyance to market gardeners in some parts of the State, by
boring into the crown and roots of young cabbage and cauliflower
plants, in many cases destroying 25 per cent of the plants in the hot-
beds and just after they are set out, As this insect does not trouble
the plants after the heads begin toform, I was at a loss to conjecture
what became of it during the summer and autumn, From experiments
conducted this year I am convinced that it returns to its original food
plant, the wild Pepper-grass (Lepidium virginicum). I succeeded in
obtaining young larve in stems of the latter plant in July, but as the
plants did not thrive indoors I was unable to bring the insect through
its transformations. _
Disonycha collaris is establishing its title as a spinach pest, its perfo-
. rations being seen during Apriland May in almost every leaf of that
highly esteemed potherb, As both beetles and larve drop to the
ground upon the slightest disturbance of their food-plant they are sel-
dom associated with their destructive work.
The foliage of roses in Kirkwood and vicinity suffered this summer
from the attacks of all three of the species of sawfly larvee described in
vol. v, INSECT LIFE (p, 6), Cladius pectinicornis being very numerous and
reducing the leaflets on some bushes to mere shreds. An infusion of
white hellebore proved an effective remedy, but the necessity of apply-
ing it at intervals throughout the season adds materially to the labors
of the rose-grower.
The Twelve-spotted Diabrotica appeared in countless numbers in
flower gardens during September and October, and wrought ruin on
the blossoms of dahlias, zinias, cosmos, and early chrysanthemums.
To kill it on the flowers, or render them distasteful to it, involves
the sacrifice of all the beauty of the latter, by spraying with the
arsenites or kerosene emulsions. Where the insect breeds in such
swarms I have not been able to discover. Certainly it was not in any
of the corn fields around Kirkwood, for I uprooted a large number of
plants in the immediate neighborhood of our flower garden without
finding any trace of larve or pupe. I think its native and favorite
food-plant remains to be discovered. Another unmanageable pest, of
which there is complaint is the the Corn Ear-worm (Heliothis armiger).
rn
9
i : |
51
It shows a marked partiality for the sweet table varieties, of which it
destroyed in the gardens around St. Louis between 25 and 30 per cent
of the ears.
The Tineide as well as the larger Lepidoptera contribute their full
quota of species injurious to growing vegetation, in addition to those that
_ prey upon stored grain and household property. Among the former the
Box-elder Gracilaria (Gracilaria negundella) was exceedingly abundant
during the past season in this locality, the leaves of the favorite shade
tree upon which it feeds being thickly spotted with its preliminary mines
and having almost every lobe turned down to form the three-cornered
tent, within which the larva feeds after its first molt. Many of the
cocoonets of the latest brood were parasitized, however, aud it may not
another season prove so disfiguring to the trees.
ADDITIONAL INJURIOUS INSECTS,
Tne OSAGE ORANGE PYRALID
(Loxostege maclure Riley.)
Among the insects that are to be recorded for the first time with
‘noxious species” the one named above has, in this section of the
country, acquired especial prominence.
Its work was first observed upon the hedges of Kirkwood and vicin-
ity in the autumn of 1890, where for a few yards in a place the twigs
and branches appeared nearly denuded of foliage. Examination failed
to reveal the author of the mischief, and it was attributed to some
Orthopteron, especially to those of the Tree Cricket family. The fol-
lowing year its ravages were seen on all the hedges of the county,
greatly impairing their beauty. Late in summer the pest was dis-
covered, and the habits by which it had so long eluded my seareh
brought to light. During the present year its work has been inereas-
ingly destructive, and unless concerted action is taken for its extermina-
tion the hedges of the Mississippi Valley will no longer be either orna-
mental or useful.
The depredator is a small, glassy, pale green caterpillar, more or less
gregarious, especially during the first larval stages. It is the young
of a rather inconspicuous Pyralid moth, new to this region, if not to
science, which may be popularly described as follows:
Expanse of wings nearly seven-eighths inch, or 24™™, Fore-wings satiny in tex-
ture, of a pale brownish-gray color, sometimes, when the insect is perfectly fresh,
faintly tinged with green or roseate, and always crossed by three curving, wavy,
interrupted, dusky lines; the outer margin back of the very short white fringes
being also dark. Hind-wings similar in color to the fore-wings, but thinner, without
the dark cross lines, but with dusky shadings on the lower edges. Body, brownish-
gray above, satiny white beneath. Head narrow, with projecting, beak-like palpi,
margined with white, very long tongue, large hemispherical eyes of a mottled, dark-
brown color, and slender, tapering, threadlike antennwe three-fourths the length of
the wings. The abdomen is very slender, and somewhat constricted or laterally
compressed, with long terminal joint upturned. Legs long, of a glistening white
color,
52
These moths emerge in spring from the first to the middle of May,
and may be seen on warm evenings fluttering in great numbers about |
the hedges. They are not much attracted by lamplight, but occasion-
ally one enters a lighted room. The eggs are laid on the under sides of
the Osage Orange leaves in irregularly shaped masses of from twenty-
five to fifty. They are circular, very flat, pale yellow, and each has
a delicate semitransparent membranous border. Like those of certain
other Pyralids, they overlap, fish-scale fashion, and as the embryo de-
velops each egg displays two minute black marks or lines. The larvee
hatch in five or six days, and, unless disturbed, remain in a close cluster,
feeding upon the parenchyma of the under side of the leaf, which sur-
face they closely resemble in color. At the slightest jar they curl up
and drop to the ground. In six days the first molt takes place, and, if
they have not sooner exhausted their food supply and been forced to
scatter, they now migrate in small companies to fresh leaves, which, in
feeding, they begin to perforate. When not feeding they stretch them-
selves alongside the midrib and principal veins, where their translu-
cent, pale green color and very slender form enable them to escape
observation. As they approach maturity they become still more elu-
sive, retiring from the leaves during the day and resting upon the inner
twigs and stems, which their coloring at this period usually imitates.
They spin considerable web upon the under sides of the leaves, and
draw out the threads as they craw] back and forth from the stems to the
leaves. In these webs and threads more or less of the castings are
caught, and add to the disfigurement of the plant.
Larva.—The full-grown larva is from eight to nine-tenths of an inch long (20
to 24™™) by about three-twentieths (4™™) inch in diameter in the middle when
crawling. Itis somewhat contracted and broadened in repose. The form is sub-
cylindrical, tapering slightly toward either end. The color at this stage is variable,
in some specimens translucent pinkish, in others dull green, and again of the gray-
brown shade of the twigs, always obscurely striped on the dorsum and sides with a
darker shade of the ground color, and having a narrow, but distinct, ivory-white
stigmatal band. Piliferous dots black, surrounded with a paler ring, largest just
above stigmatal band; four in subdorsal spaces on eleventh segment being in the
hollow of conspicuous crescents, convex toward the sides. Head narrower than
thoracic joints; cordate, with rounded lobes of a pale brown color, with irregular
stripes in a slightly darker shade, trophi fuscous. Legs and prolegs concolorous
with general surface.
The cocoon in, which the worm incloses itself for transformation is of
irregular shape and fits the chrysalis very loosely. It is of a fine tex-
ture and pale pinkish or dingy whitecolor. The summer broods change
to chrysalis soon after inclosure, but the hibernating one remains in
the larva form until late in winter. The chrysalis is from 12 to 14™™
long, very slender, with slight corrugations on the posterior edge of
the segments, and of a bright brown color. The cocoons are formed,
sometimes several together, among the webbed and fallen leaves on the
surface of the ground. At this date (December 1) the hibernating larve
are somewhat shrunken and all of an opaque yellowish-white color, on
53
which the fuscous dots, rings, and crescents are very prominent. I
have learned of the presence of the insect in one or two counties
besides St. Louis, and have reason to think it quite widely disseminated,
although not so destructive to hedges in more sparsely settled localities
as it is in the various suburbs of St. Louis. Thorough spraying with
any of the arsenites will kill it, but the process needs frequent repeti-
tion during the season, and much pains must be taken to wet the inner
as well as the outer leaves.
The principal enemy of this insect, in its own class, -is the Spined
Soldier-bug (Podisus spinosus), of whose larve and pupe I found a large
number at different times with their beaks inserted in the bodies of
the wriggling larve. A few larve were also destroyed by the small
Ichneumonid, which was kindly determined for me at the Department
as Bracon juglandis Ashm.
THE BLUE-GRASS WORM,
(Crambus teterrellus Zinck.)
For two or three years the moths of this species have in this locality
outnumbered ali the other species of Crambids combined. In the day-
time they would flutter up from the grass before us at every step and at
night our lighted windows would be covered with them. About the first
_of August, when these moths were most abundant, [ had occasion to dig
up a bit of sod from the lawn, and upon examining it closely I found sey-
eral galleries of fine white web, with sparse minglings of castings
formed against and between the stems and blades of the grass. In
each of these tubes was a minute, dingy white larva, then 4 or 5™™ in
length. This piece of sod was carefully planted in a large rearing jar
and watered, so that it might continue to grow. A day or two after
this a considerable number—eighteen or twenty—of minute, salmon-eol-
ored eggs were found on a window-sill near a dead specimen of the moth
above named. By means of a fine camel’s hair brush these eggs were
transferred to a glass tube containing several blades of grass, and in the
course of two or three days about a dozen tiny larve, of a cream-white
color, with brown heads, had hatched. Placing them upon growing
grass, they soon began the formation of tubes or galleries similar to those
taken out of doors, and as they continued to develop, it was plain that
they were identical with the latter.
During the dry weather of August and September others were found
on the lawn, where the grass had withered in small patches, and it was
evident that to this species is due to a considerable degree the faded
appearance and scanty growth of the blue grass during the latter part
of stunmer.
The growth of the larve was very slow and seemingly out of all pro-
portion to the amount of web tubing constructed. <A single larva, not
more than one-third of an inch long, seemed to require for its demicile
8 ES ET ee ee ee ee
54
a gallery 2 or 24 inches in length, and with a diameter two or three
times in excess of its own. The upper part of this tube would be
exceedingly diaphanous, but as it descended more and more of the brass
was intermingled until at the base it became quite compact. During
the day the larva rested quietly in this retreat, but at night it emerged
and fed upon the freshest of the contiguous blades. So far as I could
ascertain it seldom or never cut through the stalk or bored up or down
through the heart of the plant.
The larve seemed to attain maturity from the middle to the last of
September, after which they rested quietly for some time in their gal-
leries, without inclosing themselves in more protective cocoons.
Being absent from home for four or five weeks, from early in October
until the middle of November, my jars were overlooked in the water- -
ing process, and upon my return I found all the larve dead and dry.
As the species was known to me, however, this was not so unfortunate
as it might have been. .
In the jar containing specimens collected at various ages from the
lawn were the remains of two or three hymenopterous parasites and four
cocoons of the characteristic form, color, and structure of Meteorus,
closely resembling those of J. hyphantria.
I append more particular description of egg and larva.
Egg.—Obeonical 0.5" long, beautifully sculptured under the lens, with longitu-
dinal ridges and finer cross lines, giving it a checkered appearance. Color, bright
salmon pink.
Larva.—At first of a dingy cream white, minutely speckled with brown, with
brown head.
At maturity 15™™ in length, by 2™™ in diameter, subcylindrical, slightly larger
across thoracic segments.
Color dingy yellowish or greenish white, with dull green medio-dorsal
stripe. The surface is much roughened with impressed lines, with
conspicuous, raised corneous, fuscous plates, from each of which arises
a long, coarse, tapering, golden-yellow hair. Head with protruding
lobes and rugose surface, and of a dull whity brown color. Cervical
shield inconspicuous, darker than the head.
Pupa not yet observed.
The moth is well known as one of the least conspicuous of the group
of beautiful species to which it belongs. It expandsabout three-fourths
inch, with a brownish-white body and hind-wings. Fore-wings grayish-
white, streaked with pale brown, with two silvery gray shaded wavy
lines crossing the outer third; just back of the fringes, which have a
golden, metallic luster, is a row of seven small but distinct black dots.
LASIOPTERA SP? IN TwIGs OF HONEY LOCUST.
The work of the above Cecidomyiid was first noticed in the summer of
1891 on the shoots and new growth of the Honey Locust, a shade tree
of considerable value with us, and during the past season it became
more and more injurious and conspicuous. The irritation of the plant
55
tissue produced by this insect causes remarkable tumefaction and dis-
tortion of the twigs and scantiness and yellowing of the foliage, result-
ing in a complete checking of growth.
The perfect insect is a minute fly or gnat, expanding about 2 inch,
having a glossy black body and broad transparent fore-wings, with a
rather strong marginal vein, and a faint, forked vein on the lower
edge. These gnats emerge from their cells early in May and lay their
eggs (which I have not so far been able to detect) on the succulent
new growth of the tree into which the microscopic larve easily burrow
and begin the formation of their cells, very shortly producing gall-like
swellings and twisting of the stems. These cells, each about $ inch
‘long, and oblong in shape, become, as the season advances, exceed-
ingly compact, almost stony, and in some cases almost fill the shoots
for a space of from 5 to 7 inches in length. They are placed longi-
tudinally, and a cross-section of a twig one-fifth inch in diameter will
often cut four or five, although they are seldom regularly arranged
side by side. The larve attain their growth in July or August, and
remain unchanged in their cells until the following spring. They are
at this time from three to four millimeters in length by one in diameter,
cylindrical, with segments well defined, of a bright salmon-pink color,
with conspicuous “breast-bone” in dark brown.
The outlet to the surface is probably by the passage through which
the larva worked its way within the stem, though in what way extended,
to admit of the egress of the much larger pupa, I can not tell. At all
events when ready to emerge the pup are protruded, sometimes
singly, in other cases in clusters of three or four where the larval
cells have coalesced, from minute orifices all along the stem, giving it
quite a fringy appearance with the erect translucent white empty pupa
cases.
Two species of parasites have been bred from these Lasioptera galls,
and examinations of infested twigs within a few weeks discloses more
larvee of parasites than of the original gall-makers,
DipLosis se? ON Sort MAPLE,
This is a probably undescribed species, also a Cecidomyiid, which
destroyed a considerable proportion of the very young leaves of Soft
Maple in Kirkwood and vicinity early in the sprin g. The punctures of
the insect caused a peculiar curling and shriveling of the leaves, and
in every depression would be found a minute white larva not more than
2™™ in length and 0.5 in diameter across the anterior end, from whence
it tapered slightly posteriorly.
The first brood of flies emerged in June from little flattened oval
cocoonets spun against the surface of the leaves. A second brood
appeared late in July rolling the edges and crinkling the centers of the
more tender leaves, but was far less injurious to the appearance of the
trees than the earlier one,
56
Still another Cecidomyiid, of which I did not obtain the fly, attacked
the foliage of the sugar maples in Kirkwood, curling and producing a
gall-like thickening of the edges of the leaves. The affected portions
turned crimson and gave the foliage the appearance of being covered
with long, slender, red worms.
My attention was not called to this insect until it was too late to learn
its natural history or to attempt the use of any remedy.
SCARCITY OF PARASITES OF CODLING MOTH AND PLUM CURCULIO.
Having always had some misgivings that in the practice of spraying
fruit trees with the arsenites, we were destroying our most valuable
allies in our warfare with the above-named pests, I made it a point dur- ©
ing the past season to ascertain what proportion of them were really
parasited.
Infested fruit was collected from an unsprayed orchard at intervals
throughout the season, and both Codling Moth and Curculio bred in~
considerable numbers with a result enat 4 per cent of Curculios were
parasited, and from about one hundred Codling Moth larve not a single
fly appeared. As the defuge-like rains of the spring and early summer
may have had something to do with this unexpected result, I propose
to repeat it another year, and hope to make a more satisfactory report.
EXPERIMENTS IN APICULTURE, 1892,
By J. H. LARRABEE,
LETTER OF SUBMITTAL,
AGRICULTURAL COLLEGE, MICH., November 17, 1892.
Sir: I beg leave to submit herewith a report upon the experimental work in api-
culture conducted at this place during the season of 1892. While the results
obtained may vary with varying conditions, either more or less favorable than those
under which these experiments have been conducted, yet it is hoped that some of the
conclusions reached may prove of definite value to the important interest of apicul-
ture. i
Very respectfully,
. J. H. LARRABEE.
C. V. REY,
U. S. Entomologist.
During the season of 1892 the branch station for experimenting in bee
culture at the Michigan Agricultural College was continued at the ex-
pense of the U. 8S. Department of Agriculture, Division of Entomology,
and of the Michigan State Experiment Station.
An effort was made to undertake a line of experiments closely con-
nected with the practical work of the apiary. While all of the experi-
ments undertaken have not given results of practical value, some have.
Especially gratifying are the results obtained in the experiments upon
the subject of wax secretion and the evaporation of honey, for the
reason that they were nearly free from those elements of uncertainty
that must necessarily enter into nearly all experimental work in the
apiary, Such as season and condition of bees.
When the bees were taken from the cellar, on April 18, they were in |
rather poor condition, due doubtless to the dampness of the cellar and
the character and amount of the stores. The loss during the winter and
spring was about one-third of the number placed in the cellar.
In May and June the bees of the whole apiary were transferred from
the old hives into modern dovetailed hives, and from the old reversible
frames, of three distinct sizes, to the new, wide, thick, top-bar frames of
the Langstroth size. In this operation all drone comb or other imper-
57
4
t
'
\
é
_ season they best showed their origin and distinctive peculiarities.
58
fect combs were rejected and rendered into wax. By this change the
apiary was placed upon a modern footing, the hives made uniform, the
operations and manipulations of the apiary rendered more rapid, and its
beauty and value increased.
The spring was very backward and rainy. During fruit bloom the
bees flew but little, and their influence upon the fertilization of the
flowers of our fruits is seen in the almost complete failure in this vicin-
ity of all tree fruits and others largely dependent upon the bees for the
dissemination of pollen. As the rainy, cloudy weather did not cease
until about the first of July, the early part of the clover bloom was lost
to the bees. No supers were put on until July 8, and at that time
strong colonies were swarming, with almost no honey in the hives. All
of the white surplus was taken from Basswood, which yielded well.
July 25 the season for white honey closed. A little surplus of late
honey was gathered during August, and the bees filled up the hives
well for winter. A yield of about 25 pounds of surplus per colony was
obtained, and there are now in the apiary ae five colonies in excellent
eindition for winter.
BREEDING.
During the year 1891 the apiary was entirely requeened, only a few
old queens being reserved for breeding. This season the opportunity
was taken to replace all those of the former year’s rearing that had
proven themselves inferior. A number of Carniolan queens were intro-
duced, and queens bred from them. Added familiarity with the cross
of the Carniolan bee with the yellow race increases my satisfaction
with their valuable traits. They have proven themselves equally as
desirable as either race in its purity, and they have some points of
superiority.
A test was made of the claims advanced for the Tunisian or so-called
“Punic” bees. During the early part of the season they exhibited no
traits that would distinguish them from the native black bee, showing
the same nervousness under manipulation. They build large numbers
of queen cells, and do not cap their honey with that peculiar whiteness
characteristic of the common black bee. After the close of the honey
Whenever attempts were made to handle them they became exceedingly
angry. This trait of excessive irritability seems to be their most
distinctive mark. As no point of superiority was discovered, their sev-
eral manifest defects make them a race not to be recommended as de-
sirable for introduction among our American bee-keepers.
REMOVING THE QUEEN TO PREVENT SWARMING.
As the bee-keeping industry develops and new methods and devices
come into use, each tending to lower the price of the product, an increased
tension is placed upon the apiarist in an effort to manage large num-
59
bers of colonies to increase his annual yield. The natural tendency of
bees to increase by swarming and the care and attention occasioned
thereby have given rise to various plans for its prevention or control.
One of the best of these plans, yet one little used, is outlined in the
following, the value of which, at the suggestion of Mr. Aikin, of Love-
land, Colo., I undertook to test: Karly in spring two colonies were
selected, as nearly alike in strength as it was possible to get them.
These were kept at the same strength, the amount of brood in the hives
having been equalized several times. The harvest did not open until
about July 6, and upon the 8th supers were given them. July 12,
queen cells were found partly constructed in colony No.1. The queen
was removed, and four days and also eight days afterward all queen
cells were destroyed. On July 25 (thirteen days after her removal) the
queen was returned. This colony did not swarm atall. The other
colony (No. 2) was allowed to work without interference, and it was not
until July 21 that they swarmed. As the harvest from Linden was
about closing, the swarm was returned and all queen cells destroyed in
the hope that they would not attempt to swarm again before the close
of the season. They did not swarm, yet it may be supposed that this
interference with their instincts tended slightly to decrease their
energy. The results in total amount of honey gathered are as follows:
No. 1 gained in weight 37 pounds between July 6 and 25, and No. 2
gained 46 pounds during the same time.
If from the total gain of No. 2 we substract 5 pounds as the weight
of brood it contained in excess of the brood in No. 1 on July 25, westill
have 4 pounds as the amount of honey gathered by No. 2 greater than
the amount gathered by No.1. These colonies were both worked for
comb honey with like treatment of supers.
This experiment is valuable testimony to prove that the removal of
the queen to prevent swarming does somewhat affect the amount of
honey gathered by the bees. The supers showed even a larger difter-
ence in the amount of honey stored in the sections for the reason that
where the queen is absent the bees fill the brood chamber with honey.
When the queen is returned this will to a greater or less extent be
removed to the sections. Although the interference in this manner
with the economy of the hive probably always reduces the amount of
honey stored, yet because of the lessening in the labor and watching
necessary during the swarming season, I deem it advisable to follow
this method when any similar plan seems necessary.
WAX SECRETION.
To determine the amount of honey consumed by the bees in secreting
one pound of wax, this experiment, first undertaken in 1891, was repeated
this year. As the conditions were much more favorable, the results
were very gratifying. There was entire absence of a natural honey
flow, the weather was favorable, the colonies were of the same strength,
60 i
and in prosperous condition, they took the food rapidly and built comb
readily. The result gives a less amount of honey as necessary to be
fed the bees in order to have 1 pound of wax secreted than was obtained
in this experiment last year. This was to be expected because of the
more favorable and exact conditions. Two colonies were taken which
I have designated as Nos.1 and 2. No.1 was given a virgin queen
and no comb or honey. No.2 was given a virgin queen and empty
combs. It was noticed that the bees did not fly from either of these
hives as vigorously as from the others of the apiary, and that No. 1
was the more quiet of the two. Twenty-four and a half pounds of food
were given, and almost exactly 1 pound of wax was secreted by No. 1.
By weighing the combs both before and after being melted and taking
the difference, the amount of pollen was ascertained. In both colonies
the young queens had begun to lay, having been fertilized during the
ten days the experiment was in progress. I now feel confident that
more careful work on the part of others who have undertaken to solve
this question will give practically the same results as are summarized
below:
Wax Secretion.
Colony No.1. Colony No. 2.
Lbs Oz.| Lbs. Oz.| Lbs. Oz. | Lbs. Oz.
VGH GE IGS Seem ag oe sesosnsosorospacsonsssoouooueS sHnoSsose Ue 3), jiaesbestoos W734 secant
Gross-weieht, Aug. 2, with bees). 0.nicr.< oases neni es mensenleasmie ccna es PY eta ee Pee ees oe: Bb
(ross: Welsh, Aus. Le, With DEES) ce cee wen oeeccic esac seer Selamat Bi OOM erase 56. 8
Gross gain in weight 10 days ......-..----.-.------0+--+-----|---------- 1 ey eee. « 22 4
Lagi DING N= 64 scasueobepHonpOsdn posactondnssésode danooucesase PN bein (lio toupssct Berea aaseria =
MannsTHONeYOXtVaACled 22 Joeca 2 rans caise eeee eee cont tene OF) ABST veces eaes DO UAB ler See
heaves! honey Consumed = 22. 22s sce oe oo eee eee eee ces DT elt eed Bs Teese Se
Honey consumed by No. 1 in excess'of No. 2: 12—4—8 pounds... «.. 25.25 26 os scn ces |a som ac senescent
Mowemectoted by ING 2.20220 San ec ee eee eee 158 | oosesse co ee acer eee
Pollenvineambs at Close rn3 5.5 29 aoe anos see eee ose ee Te She cinectesae 2. wa Beer eeae
Honey, wax, and pollen removed (8 pounds honey consumed
Win SeCrebiny LosOUunNGeS OL Wako -eeee =o seen eee 14 PAGS |oeceesee ae De iG stops eer ete
PLANTING FOR HONEY.
There were in bloom at the station this season three acres of Sweet
Clover (Meiilotus alba) sown in June, 1891. It was sown upon rather
poor clay soil, yet it made a fair growth last fall and came through the
winter in good condition. It began to bloom July 8, and continued in
bloom until the 20th of September. The period of greatest bloom and _
honey secretion was from July 20 to September 1. It grew rapidly and
was very rank, reaching a height of about six feet. The amount of
bloom was great and the bees were continually busy uponit, yet during
the period from July 24 to August 10, while it was in full bloom and
while all other natural sources were absent, no honey of any apprecia-
ble extent was gathered and the hive upon scale lostin weight. Prob-
ably some honey was obtained during the season from this sweet clover,
but in such limited quantities as to make any estimate of the value of
the plant as a honey producer impossible. At the present time the
61
ground is covered with brush, so that labor will be necessary in
clearing the land before plowing can be done. °
With the idea of obtaining an opinion-of the value of Sweet Clover as
a Silage plant an alcohol barrel was filled with the cut stalks, solidly
packed, and sealed air-tight. This was done on July 14, just as the
clover was getting fairly into bloom and while the stalks were yet
tender and nutritious. On September 25 the barrel was opened and
the ensilage was fed. A horse that had previously eaten corn silage
ate it very readily, but another horse and a cow that had never eaten
silage would not touch it. Several experts upon the subject pro-
nounced it excellent. There is no doubt but that it would be a very
desirable plant for the purpose if the feeding value per acre could be
made equal to that of corn. An estimate made from the amount cut
for silage gave between 6 and 7 tons per acre. Although its feeding
value may be much higher than that of corn, it is still doubtful if it will
pay to use it for this purpose alone, from the above estimate.
In concluding these experiments in planting for honey carried on by
Prof. Cook and now concluded for the present, I desire to say that no
results have been obtained with any plant sown or planted for honey
alone that will warrant the bee-keeper in expending money and labor
in this direction. Bee-keepers have in the past spent much time and
money in the effort to cultivate some plant for the honey the bees may
obtain from its flowers. In no case coming under my observation have
these efforts been a success and the practice has never been continued
at a profit. Therefore let me caution all apiarists against spending
money in the attempt to cultivate at a profit any flower for honey
alone. Bee-keepers should cease these useless efforts and turn their
attention more persistently to extending the area of all wild honey-
producing plants and urging upon all the superiority of Alsike Clover
and Japanese Buckwheat as farm crops and the Linden asa shade tree.
EVAPORATION OF HONEY.
Nectar of flowers taken into the stomach of the bee undergoes certain
chemical changes before it is finally deposited as honey in the cells of
the honeycomb. Therecent analyses, by direction of the United States
Government chemist and those instituted at the Michigan State Exper-
iment Station, prove that there is no chemical change made in the
honey by the bee after it is deposited in the comb. There, however,
remains much water in this honey that must be evaporated by the heat
of the hive and the current of air through the hive caused by the fan-
ning of the bees. It is well known that this labor of evaporation and
the room occupied by this thin honey interferes greatly with the rapid
gathering of nectar. In this opinion I am confirmed by a study of many
records of colonies placed upon scales during the honey flow. It is
often desirable to extract all of the honey gathered from one species of
honey plant before the flow from other sources begins and before the
6
-
=
62
‘former has ripened to the usual consistency of good honey. The oun
erty of granulation in honey is so troublesome that its prevention would
be very desirable. The experiments in this line have plainly indicated
that the “‘ water of crystallization” can be easily expelled by a proper
artificial heat and the product sealed, so as to preserve it in a liquid
state for an indefinite time. For these reasons it was thought best to
experiment in this direction with various forms of artificial heat in the
effort to devise some cheap and sure method to assist the bees in this
work. For this purpose there were constructed a series of six shallow
pans 19 by 28 inches in size, with partitions 2 inches in height, open:on
alternate ends, similar to the partitions in a maple-sirup evaporator.
These were arranged in a cabinet, one above the other,-so that honey
entering at the top was obliged to flow some 75 feet before passing out
at the bottom. An oil stove was placed beneath the whole, and a pipe
at the top caused a current of heated air to pass upward over the
honey. The fumes of the stove were carried off by means of a second
pipe, in order to avoid all danger of their injuring the flavor of the
honey. Honey of average body with 10 per cent by weight of water
added was reduced again to the normal condition by passing twice
through the pans at a temperature of 120°, and about 100 pounds per
day was evaporated at that temperature. Thin nectar, extracted from
the hives very soon after being gathered, was evaporated to the thick-
ness of good honey at about the same rate. This apparatus was kept
in operation about ten days upon honey of various thickness and upon
clear water with the above definite results. The flavor of the first
honey was injured—probably by the first acid action of the honey upon
the outer coating of the tin. Afterwards this was not as apparent.
The color was also somewhat affected.
The heat of the sun was also tried for purposes of evaporation. A
shallow pan 28 by 54 inches in size was filled 3 inches deep with
thin honey. This was covered with glass 6 inches above the honey and
left in the sun for four days, when about 5 per cent of moisture was
evaporated. As the honey lies at rest the water rises to the top, some-
what aiding evaporation. The flavor and color are not affected as much
as by the method of running through pans. In this way honey with
30 per cent, and even 40 per cent, of water added was evaporated to the
consistency of very thick honey in three weeks’ time, so thick that it
has not at this date showed any signs of granulation. During favor-
able periods of sunshine a temperature of 165° was reached. ° By this
method a tank 4 by 6 feet, with 6 inches of honey and weighing 1,300
pounds, should be evaporated 10 per cent, or from the consistency of
freshly gathered honey to that of average body, during about two weeks
in July or August.
The common method of exposing to tbe air in open vessels in the
warm upper story of a building was also tested with honey to which
10, 20, 30, and 40 per cent of water had been added. That having 40
as
63
per cent added became strongly fermented in a week’s time, while only
a slight change had taken place in the 30 per cent dilution, and at the
end of a month it tasted like a very poor quality of commercial ex-
tracted honey or like honey dew. The 20 per cent dilution was not
nearly as bad, and the honey, with only 10 per cent of water added,
was during the month returned to the consistency of very fair honey.
Nectar extracted two or three days after the combs were placed in
the hives contained, during the dry weather of July and August, from
10 to 15 per cent of water above the amount always found in honey that
has been sealed in the comb by the bees, This was determined by
- evaporating in test tubes in hot water.
Summary.—(1) The method at present promising best results for
artificial evaporation is that by solar heat under glass well ventilated.
A small portion of a greenhouse or forcing-house arranged for consery-
ing the heat of the sun, and so located that honey could be run into the
shallow vats directly from the mouth of the extractor and drawn off
from the bottom of the vats into marketing receptacles, should give good
practical results.
(2) Very thin honey or nectar will not sour as quickly as supposed
by many, and may be safely kept during any period of cloudy weather
we may have during the hot summer months.
(3) The method of exposing to air in a warm room can not be
depended upon to ripen very thin honey, although it may be service-
able for evaporating a very small percentage of water.
(4) The method of evaporating by artificial heat of stove or furnace
is expensive and troublesome, requiring constant watching and care
and not giving as good results as had been hoped for.
(5) The possibilities in the line of evaporating honey for the purpose
of increasing the yield and preventing granulation are very great. A
series of experiments to determine the increase in production by ex-
tracting freshly gathered honey would be next in order and value.
When the utility of this method is fully demonstrated supers with
fixed frames and extractors holding whole cases will be used and other
apparatus conformable to the needs of the new system.
FEEDING BACK,
Feeding back extracted honey tosecure the completion of unfinished
sections at the close of the harvest is practiced by some apiarisis, but
with varying financial success. Extracted honey can be transported
long distances with much greater safety than can comb honey. For
this reason it has been thought it might be profitable to feed bees ex-
tracted honey costing 7 or 8 cents per pound to produce comb honey
selling at 13 to 15 cents, locating the apiary designed for this purpose
near 4 large city or other favorable market. With the idea of adding
light upon this subject, extracted honey was fed to a number of colonies
under the following conditions: The hives were contracted and the
64
queens kept in the brood apartment by means of excluding zine. Five
colonies were given two crates each of unfinished sections, the sections
of the whole weighing 113 pounds. Three hundred and thirty-eight
pounds of honey were fed these five colonies during twelve days. The
honey was thinned with 12 per centof water and warmed before feeding.
The amount of finished honey obtained was 367 pounds, or a gain of
254 pounds by feeding 338 pounds of honey. The hives were weighed
both before and after the honey was fed, and a gain of 36 pounds dur-
ing the feeding recorded for the five hives. The following gives the re-
sults from a financial view:
254 pounds comb honey by feeding, at 14 cents ...--. .-. cobb. ee tee eee $35.56
ao pounds suored im Hives, ab Scents 22.2225 22 o-- scene. ee eee 2. 88
38. 44
Minus value-of 358 pounds fed, at cents <.' 5.0.2.2. >. 2 eo eee ee 27. 04.
Profit as pay for labor, ete. .2.2.)).252.. ----- sce een ee eee eee 11. 40
Two colonies were given crates of sections with full sheets of foun-
dation and were fed extracted honey, under the same conditions as the
five colonies above: ;
Pounds
Amount of honey fed each colony si 2o-95 2. .----22- sche. 0250. bee 664
Colony No. 1, finished comb honey 2<--. 6.622 to. be eee 3 se ee eee 414
Colony No. 1, gain in weleht of hive. io. fo. .2 eo el ee ee 9
Gorony No: 2, finished. comb honey... - 22... 222.222. sel eee eee oe
Golony No.2, gain in weight’of hive... -2..0).vi22. tise. Ce eee 74
Taking these two colonies as a basis, the following financial state-
ment is made:
74; pounds comb honey, av 14 cents ..2 222. -.- tees oe ee $11.13
164 pounds honey stored in Rives, at $ cents. -...-...-. 21-2... ole ee eee 1.32
12. 45
Minus ‘value of 133 pounds honey fed, at'8 cents. -... 2...) 7522223223 eee 10. 64
$1.81
Deducting from this profit the value of the sections and foundation
used, the actual profit, as pay for labor, etc., is, at most, nominal.
When this whole experiment was kegun, and during the time it was
in progress, no honey was gathered from the fields, but before the seal-
ing was all accomplished the fall honey flow began, and for this reason
the experiment was ended and the honey removed sooner than would
otherwise have been advisable.
The results obtained in this work or in any experimental work of a
similar character might vary under more favorable or unfavorable con-
ditions of environment, and a continuation in various seasons, and under
other conditions, would alone give really reliable results. The above
trials are, however, very encouraging, and longer and varied work in
this line is desirable.
roe 3
INDEX.
Actias luna, common in Towa, 44.
Alesia fromata, feeding on cabbage aphis, 13.
imported from Australia, 13.
probably established in California, 26.
Amarantus, web-worm on, 38.
Ammonia, no improvement to Paris green, 32.
Authomyia sp., possibly a beet enemy, 40.
Apanteles glomeratus, parasitic on Pieris rape, 43.
Aphis brassicz, on rape in Iowa, 46.
Apiculture, desirability of continuing experi-
ments in, 64.
report on experiments in, 7, 57.
Army worm, appearance in Iowa, 44.
Ash-tree Sphinx, in Nebraska, 41.
Aspidiotus aurantii, fed upon by Seymnus loph-
anthe, 15.
perniciosus, eaten by Scymnus lophanthe, 15.
Bees, breeding of, 58.
removing queen to prevent swarming, 58.
Beet insects, in Nebraska, 36.
web-worm, injury by, 37.
life history of, 39.
Beets, attacked by white grubs, 37,
Bill-bugs, scarcity of, in Missouri, 49.
plentiful in Iowa, 42.
Blister-beetle, spotted, on beets, 36,
Blister-beetles attacking beets, 36.
_remedies tried against, 36.
Blue-grass worm in Missouri, 53.
Botrytis tenella vs. Lachnosterna, 47.
Box-elder Gracilaria, in Missouri, 51.
Bracon juglandis, parasite of Loxostege ma-
clure, 53.
Bruner, Lawrence, report by, 7, 34.
Cabbage butterfly, imported, rare in Iowa, 43.
Curculio, in Missouri, 50.
Plusia, plentiful in Iowa, 43.
Camnula pellucida, in Nebraska, 35.
Canker-worms, outbreak of, in California, 9.
Carpocapsa pomonella, in California, 30.
Cecidomyiid, on sugar maples in Missouri, 56.
Cecropia moth, in Nebraska, 41.
Ceutorhynchus rap, in Missouri, 50.
Chenopodium album, Anthomyia sp. on, 40.
Epicauta maculata on, 36.
web-worm on, 38, 29.
Chinch bug, checked bv rains, 41,
notes on, in Nebraska, 41.
Chinch bugs, absence of, in Missouri, 49.
Chrysanthemum, twelve-spotted Diabrotica on,
50.
Cladius pectinicornis, on roses in Missouri, 50.
Clover-xeed caterpillar, plentiful in Iowa, 44.
19866—No. 30-——5
Coccinella sanguinea, parasitised by Euphorus
sculptus, 16.
Coccinellid, an undetermined, 23.
Coccinellide, received from Australia, 11.
Codling moth, benefits of spraying for, 33.
in California, 30.
parasites of, 30, 56.
Paris green for, 32.
three-brooded in California, 30.
Ceelodasys unicornis in Nebraska, 41.
Cooper, Ellwood, letter of, 26.
Coquillett, D. W., report by, 7, 9.
Corn ear-worm, on corn in Missouri, 50.
Cosmos, twelve-spotted Diabrotica damaging, 50.
Cottony-cushion scale, Novius kebelei an enemy
of, 26.
still controlled by Vedalia, 9, 26.
Crambus exsiccatus, injuricus in Lowa, 44.
teterrellus, description of egg and larva, 54.
hymenopterous parasites of, 54.
in Missouri, 53.
Cruciferous plants, enemies of, in Iowa, 43.
Ctenochiton depressum, feeds sparingly on scale-
insects, 11.
received from New Zealand, 10.
Dahlia, twelve-spotted Diabrotica damaging, 50.
Datana angusii, abundant in Iowa, 44.
Deltocephalus debilis, life history of, 45.
inimicus, life history of, 45.
Diabrotica, twelve-spotted, injuries of, 50.
Diamond-back moth, in Iowa, 43.
Diedrocephala mollipes, winter conditions of,
45,
Dissosteira carolina, in coitu with D. longipen-
nis, 35.
longipennis, in Nebraska, 35.
Diplosis sp., on soft maple, 55.
Disonycha collaris, a spinach pest, 50.
Edema albifrons, injurious to oak in Iowa, 44.
Empusa grylli, fungous disease of locusts, 34.
Entomological notes for 1892, Missouri, 49.
Entomophthora, prevalent among locusts, 35.
Epicauta maculata, on beets, 36.
pennsylvanica, on beets, 36.
Eriocampa cerasi, checked by spraying, 32.
Euphorus sculptus, hosts of, 15, 16.
parasitic in America and Australia, 16.
Experiments in apiculture, 1892, 57.
Fall web-worm, in Nebraska, 41.
Field agents, work of, 7.
Flea-beetles, not numerous in Missouri, 50.
Fluted scale, destroyed by Novius keebelei, 26
still controlled by Vedalia, 9.
65
aie ks
Yumigating outfit for scale-insects, purchased by
city of Riverside, 9.
Fumigation for scale-insects in California, 9.
Fungous disease of locusts, 34.
Gracilaria negundell2, in Missouri, 51.
Grape Phylloxera, absence of, in Missouri, 49.
Grapholitha interstinctana, plentiful in lowa, 44.
Grapta interrogationis, conspicuous in Iowa, 44.
Grasses, Nomophila noctuella swarming in, 44.
Grasshoppers, in Kansas, 47.
Green-striped maple-worm, in Nebraska, 41.
Hadronema militaris, attacking beets, 36.
Helianthus annuus, Pedisca strenuana on, 30.
Heliothis armiger, on corn in Missouri, 50.
Heteropus ventricosus, attacking Leis confor-
inis, 23.
Hippodamia convergens, parasitised by Euphorus
sculptus, 16.
Honey, amount gathered influenced by removal
of queen, 59. ©
consumed in secreting wax, 59.
evaporation, by artificial heat, 62.
by sun heat, 62.
experiments in, 61.
summary of experiments, 63.
feeding back, 63.
planting for, 60, 61.
results of experiments in feeding back, 64.
Honey-locust, Lasioptera sp. (/) in twigs of, 54.
Hydrocyanie acid gas treatment, extension of, 9.
Hyperchiria io, numerous in Iowa, 44.
Icerya purchasi, destroyed by Novius kebelei,
26.
still controlled by Vedalia, 9, 26.
Imported cabbage butterfly, rare in Iowa, 43.
Insect injuries in Nebraska, 34.
Insects, beneficial, $5,009 appropriated by Califor-
nia for importing, 10.
from Australia and New Zealand, 10.
excessive rainfall adverse to, 49.
injurious, scarcity of, in Missouri, 49.
miscellaneous, in Nebraska, 41.
of California, report on, 9.
of Iowa, report on, 42.
Isaria sp., probably attacking Coccinellid, 20.
Jassidz, destructive in Lowa, 44.
Kerosene emulsion, not effectual against walnut
span-worm, 29.
Koebele, Albert, letters of, 11, 12, 13, 14.
second mission to Australia, 7, 10.
Lachnosterna, attacking beets, 37.
not affected by Botrytis tenella, 47.
Ladybirds, Australian, importation of, 10.
possibly established, 26.
Larrabee, J. H., report by, 7,57.
Lasioptera sp., on honey-locust, 54.
Leis antipodum, fails to attack scale-insects, 11.
received from New Zealand, 10.
conformis, descriptions of egg and larva, 22.
parasitised by Heteropus ventricosus, 23.
probably established in California, 26.
received. from Australia, 12.
Lepidinm virginicum, Ceutorlynchus rape on,
50.
Leucania unipuncta, appearance in Iowa, 44.
Lime an improvement to Paris green spray, 33.
Locust mite, Trombidium locustarum, 35.
Locusts, causes of decrease. 35.
destructive, in Nebraska, 34.
parasites and diseases of, 34.
fungous disease of, 34.
Loxostege maclure, description, 51.
on Osage orange, 51.
’ similalis, in Nebraska, 38.
sticticalis, attacking beets, 37.
life-history of, 39.
Lyda? sp.,on plums in Nebraska, 41.
Macrocentrus delicatus, and Codling moth, 30.
hosts of, 30.
Mamestra picta, frequent in Iowa, 44.
sp., on beets, 40. >
Maple, soft, Diplosis sp. (?) on, 55.
worm, green-striped, in Nebraska, 41.
Megilla maculata, parasitised by Euphorus seulp-
tus, 16.
Melanoplus atlanis, in Nebraska, 35.
killed by fungus, ete., 35.
bivittatus, killed by Entomophthora, ete., 35.
differentialis killed by Entomophthora, ete.,35.
femur-rubrum, killed by Entomophthora, etc.,
a0.
spretus in Nebraska, 35.
Microcera coccophila, probable fungus attacking
Coccinellia, 20.
Murtfeldt, Mary E., report by, 8, 49.
; Myzus persice on plum, in Iowa, 46.
Nebraska, insect injuries in, 34.
Nomophila noctuella, plentiful in Lowa, 44.
Novius keebelei closely resembles Vedalia, 21.
descriptions of early stages of, 20.
established at Los Angeles, 25.
not so efficient as Vedalia, 25.
received from Australia, 13.
Oak, Edema albifrons on, 44.
walnut span-worm on, 27.
Orange, beneficial insects imported for, 10.
Orcus australasiz, description of early stages
of, 16.
established at Los Angeles, 25.
probably more beneficial than other impor-
tations, 9.
received from Australia, 12.
chalybeus, descriptions of early stages of, 19.
established at Los Angeles, 25.
from Australia, 12. e
fungus on, 20.
pbilunulatus from Australia, 14.
Osage Orange Pyralid, description, 51.
destructiveness in Missouri, 51.
parasites of, 98.
Osborn, Herbert, report by, 8, 42.
Peedisca strenuana, host of Macrocentrus deli-
catus, 30.
Papilio asterias, abundant in Iowa, 44.
cresphontes, abundant in Iowa, 44.
turnus, abundant in Iowa, 44.
Parasites of Codling moth, 30.
scarce in Missouri, 56.
of Plum curculio, scarce in Missouri, 56.
Paris green, against walnut span-worm, 29.
for codling moth, 32.
spray improved by lime, 33.
not improved by ammonia, 32.
proportions for, 32.
Ree 67
Pear slug checked by spraying, 32. Span-worm, walnut—Continued.
_ -tree saw-fly in Nebraska, 41. in California, 26, 27.
Pepver- grass, wild, cabbage curculio on, 50. remedies for, 29.
Perimegatoma variegatum vs. codling moth, 30. Span-worms, injurious in California, 9.
Pieris rap, parasites of, in Lowa, 43. Sphenophorus parvulus, threatening corn, 42.
rare in Iowa, 43. ; ochreus, in Iowa, 42.
Pimpla annulipes and codling moth, 30. Spinach, Disonycha collaris on, 50.
Phyllotreta sinuata, not numerous in Missouri, 50. | Spraying for Codling moth, 32.
Plant-lice, plentiful in Iowa, 46. benefits of, 33.
Plum curculio, scarcity of parasites of, 56, Sunflower, Pedisca strenuana on, 30.
wild, Myzus persicze on, 46. Sweet clover as silage plant, 61.
?lusia brassice, plentiful in Iowa, 43. Tent-caterpillars, injurious in Nebraska, 41.
Plutella cruciferarum, in Iowa, 43. Thalpochares cocciphaga, descriptious of carly
Podisus spinosus, enemy of Loxostege maclure, 53. stages of, 24.
imported trom Australia, 12.
parasitised by Bracou sp., 15.
Trichobaris trinotata, in Iowa, 43.
Trogoderma tarsale, not an enemy of codling
moth, 30.
Trombidium locustarum, locust mite, 35.
Tunisian or Punic bees, characteristics of, 58.
Tussock moth, in Nebraska, 41.
Twelve-spotted Diabrotica in tlower-gardens, 50,
Vanessa antiopa, plentiful in Iowa, 44.
Vedalia cardinalis, sent to Egypt, 9.
Potato stalk weevil in Iowa, 43.
Prickly ash, Papilio cresphontes on, 44.
Pteromalus puparum, parasite on Pieris rape, 43.
Punic bees, characteristics of, 58.
Quercus agrifolia, walnut span-worm on, 27.
Rape, Aphis brassice on, 46.
Red seale, fed upon by Scymius lophanthee, 15.
Roses, attacked by Cladius pectinicormis, 50.
San José scale, fed upon by Scymnus lophantha, 15.
Scale-insects, hydrocyanic acid gas for, 9.
Schizoneura lanigera, fed upon by Scymnus lo-
phanthe, 15. sent to New Zealand, 9.
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Scymnids, black, from Australia, 13, 14. sent to South Africa, 9.
Scymnus flavibirtus, feeds sparingly on scale-in- | Walnut Datana in Nebraska, 41.
sects, 11. |! Walnut, English, insects on, 26.
received from New Zealand, 10. Walnut span-worm. See Span-worm. ©
lophanthz, feeding on scales, 15. Wax secretion, experiment in, 59.
from Australia, 14. Webster, F. M., field work of, 7.
Silpha opaca, a possible beet enemy, 40. Web-worm, garden, in Nebraska, 38.
Soldier-bug, spined, enemy of Loxostegemaclure, | Web-worms attacking beets, 37, 38.
53, White grubs attacking beets, 37.
Span-worm, walnut, description of 28, Woolly aphis, eaten by Seymnus lophantha, 15.
enemies and parasites, 29. Zinias, damaged by twelve-spotted Diabrotica, 50.
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