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Ei Bee ARN

OF THE

U. S. Department of Agriculture &

Glass | STE de oe

Book EnS2e

CIRCULAR No. 64.

United States Department of Agriculture,

BUREAU OF ENTOMOLOGY,

L. O. HOWARD. Entomologist.

THE COTTONY MAPLE SCALE.
(Pulvinaria innumerabilis Rathvon.)

By J. G. SANDERS, Assistant.

The cottony maple scale (Pulvinaria innumerabilis Rathv.) at ma-
turity is the most conspicuous scale insect indigenous to the United
States, and has received much attention from entomologists and _ horti-
culturists on account of its occasional abundance. It was described in
1854 by Dr. S. S. Rath-
von, of Lancaster, Pa.,
who gave the pest a very
expressive and significant
specific name. Since
then over 60 articles and
references concerning this
species have appeared in
entomological literature, ; LEE | (Ce
besides hosts of others in B= eee atx. SS ees
newspapers and other | EN 7 =
periodicals. Of special
worth is a monograph of
the species, worked out in
elaborate form by J. D.
Putnam, which was pub-

lished in the Proceedings

of the Davenport (Lowa) Fig.1.—Pulvinariainnumerabilis: adult females in position
on twigs, with egg sacs—natural size (from Howard).

Academy of Natural
Sciences, p. 339 (1879).
More recently in Bulletin 22, new series, Division of Entomology, Dr.L.O.
Howard published a thorough treatise on ‘The Two Most Abundant
Pulvinarias on Maple,’ giving in detail the distribution, food plants,
and life history of the cottony maple scale and the nearly related maple-
leaf scale, illustrated by numerous figures of the various stages of each
species.

Sporadic outbreaks of this scale insect in various parts of the United
States have been reported from time to time for many years past, but
in each case natural enemies have subsequently increased with sufficient
rapidity to effectually check its progress. Recently many reports of its
extreme abundance have come to us from the city of Chicago and

Dy

vicinity, and from various sections of Illinois, Indiana, Wisconsin, and
Iowa. It is interesting to note that most of the reports of serious
injury by this insect come from those States or portions of States north
of the fortieth parallel, where it seems to be attacked by fewer parasites
than in the southern regions. A map of its distribution prepared by
the author from locality cards shows that it is distinctively an Upper
Austral zone species but occasionally reaches the Transition zone.

The cottony maple seale is classified in the soft, unarmored group
(Non-Diaspine) of the family Coccide, and does not differ superficially
from the Lecaniums, except in the formation of an ovisac by the female
of the Pulvinaria. The male insect is a very small and delicate two-
winged fly which develops its latter stage under a glassy test or covering
and emerges late in August or early in September.

FOOD PLANTS.

The various species of maples, particularly the soft maple (Acer
saccharinum), including the box-elder (Acer negundo), are the favorite
food plants of this species. The writer has, however, found it on 47
different species of trees, shrubs, and vines, including various species
of maple, oak, linden, elm, willow, poplar, beech, hawthorn, sycamore,
locust, hackberry, osage-orange, mulberry, grape, poison-ivy, apple,
pear, plum, peach, currant, gooseberry, rose, and Virginia creeper. It |
is possible that a very careful study will prove that all these infestations
are not referable to one species, but that other species may be separated
just as the maple-leaf Pulvinaria [ P. acericola (Walsh and Riley) ] and
the osage-orange Pulvinaria [P. maclure (“‘ Kenn.,”’ Fitch) ], once con-
sidered identical, were found to be distinct from the cottony maple scale.

HABITS AND LIFE HISTORY.

The large, white, flocculent masses, resembling popcorn fastened to the
twigs, which appear on infested trees during the month of June, are the
cottony (really waxy) ovisacs of the female, provided for the retention
of the eggs after oviposition (fig. 1). These may contain’as many as
1,500 minute, oval, pale reddish-yellow eggs.

The larve hatch at various dates from June 1 to August 15, depend-
ing on the latitude and exposure to the sun’s rays. After remaining in
the ovisac for a day or two, they swarm over the twigs, instinctively
migrating toward the light, and settle on the leaves along the midribs
and veins, always preferring the under surface (fig. 2, e). The larve
on box-elder become active somewhat in advance of those on maple.
This difference may be due to the food, but it must be remembered that
the shade of the box-elder is less dense than that of the maple, and
consequently the greater amount of heat and lght may be the con-
trolling factor. The male larve, when fully grown, assume a propupal
stage from which they pass to the true pupal stage having a pinkish

o

hue. In a few days the winged males appear, but remain beneath the
scale for two or three days before emerging. The females at this time
have a few dorsal brownish markings and have undergone two molts.
The males and females copulate in September, and soon afterward a
small proportion of the females migrate to the twigs, where they insert
their probosces and become fixed for the remainder of their existence,
meanwhile changing from a greenish color to buff and finally brown,
with a slightly tessellated waxy covering. In this condition the winter
is passed (fig. 3).

When the sap begins to flow in the early spring the female grows
rapidly, mainly because of the rapid development of great numbers of

Fra. 2.—Pulvinaria innumerabilis: a, newly-hatched young; b, female, third stage, from above;
¢, same, from side; d, male, third stage; e, same, natural size, on leaf and petiole; f, same, en-
larged, on leaf petiole showing two specimens parasitized—all greatly enlarged except e (from
Howard).

eggs within the body. In May or early June the ovisac begins to form
from the fine waxy threads exuded from the posterior spinnerets, push-
ing backward and upward until the body of the female is almost vertical
to the twig. Meanwhile the ovisac is gradually being filled with eggs,
which hatch and undergo all the changes mentioned above. .Thus,
fortunately, there is but a single brood each year.

PARASITES AND PREDACEOUS ENEMIES.

Notwithstanding the extreme prolificacy of this insect, it is usually
held in check by its many natural enemies. Doctor Howard has
observed the English sparrow apparently feeding upon the full-grown
scales. The twice-stabbed ladybird (Chilocorus bivulnerus Muls.) is a
common enemy of this as of other scale insects, particularly in its
early stages. The smaller similarly marked Hyperaspis binotata Say
(fig. 4) and H. signata Melsh. are also valuable enemies of this
species. The writer found in the severely infested parks and cemeteries

4

in Chicago that the egg-contents of 80 to 85 per cent of the cottony
ovisacs had been destroyed by the white mealy larve of Hyperaspis.
These larvee enter and devour the entire contents of one ovisac after
another without destroying its form, so that only an examination will
reveal the empty ones.

The predaceous caterpillar of Letilia coccidivora Comst. has been an
efficient ally in controlling the pest in the vicinity of Washington, D.C.
It is particularly effective where the cottony masses are in close prox-
imity, because of its habit of eating its way through the masses, spin-
ning a strong web about itself, and forming a gallery as it progresses.
The caterpillar is very active and moves about freely within its web.

Several specimens of Leucopis nigricornis Egger, acommon dipterous
parasite of aphides, were reared from cottony maple scale collected in
Chicago, Ill., on July 21, 1905, by the writer, and
from other specimens sent to the Bureau from
Crystal Lake, Ill. This parasite is considered to
be a European species, and although aphides seem
to be its favorite host, it is occasionally reared from
nondiaspine Coccide.

Several species of chalcid flies (Chalcidoidea)
are truly parasitic upon the cottony maple scale
as well as upon others of the Lecaniinze. There -
is no doubt that many more Pulvinarias are killed
by these interesting little fellows than by all other
enemies. Coccophagus lecanii Fitch, C. flavoseu-
tellum Ashm., Atropates collinsi How., Aphycus
pulvinarice How., Comys fusca How., and Hunotus
lividus Ashm. have been reared from the cottony

Fig. 3.—Pulvinaria innu- maple seale.
merabilis: gravid fe-

male, greatly enlarged, REMEDIES.
before commencing to
secrete egg sac in the In dealing with an infestation by the cottony

spring (from Howard). :
maple scale, the most important matter to be

considered in each case is the advisability of artificial means of control
under the existing conditions. The natural enemies of this pest have
done and are still doing such effective work in its control, that it is a
question whether remedies should be applied when the infestation is
not serious. Nature always maintains a balance, and this pest can not
be in the ascendency for any great length of time. On the contrary its
parasites will eventually multiply so rapidly as to completely check its
progress, and it may even narrowly escape extermination.

Insecticides applied for a pest always kill its parasites and often-
times predaceous enemies are also destroyed. Hundreds of larve of
Hyperaspis binotata were found to have been destroyed by a summer
treatment with kerosene emulsion for the cottony maple scale in parks

5

of Chicago, and no doubt thousands of the minute chalcids were killed,
as they were found quite plentifully on unsprayed trees.

If it is necessary to resort to artificial means of control, as seems to
be the case in some sections, the spraying should be delayed until fall
or winter, when the Hyperaspis is hibernating at the bases of the trees
among lichens, moss or dried grass. Care should be exercised in the
use of spray, and the bases of trees should be covered with canvas or
other suitable material to prevent the spray from running down the tree-
trunks and collecting at their bases. |

WINTER TREATMENT.

When the trees have become dormant, after the falling of the leaves,
they can be trimmed and thoroughly
sprayed with a strong kerosene emul-
sion, which will kill every scale reached
by the spray, without injury to the trees.
Searcely one-fourth the quantity of
emulsion is required to spray a tree in
winter condition that is necessary when
a tree is covered with dense foliage and
both sides of the leaves must be reached
with the spray. Some excellent results
hayenbeen obtained ly. Mri. CArthur sina 4 Sr ynerspie Benntatee aimcale sD:
Johnson! in experiments against this antenna; ¢, palpus; d, larva—enlarged
pest in Denver, Colo. He found that eae
kerosene emulsion 25 per cent or more in strength or whale-oil soap at
the rate of 1 pound to 1 gallon of water was very effective, apparently
killing all scales which received the spray.

SUMMER TREATMENT.

Kerosene emulsion of not more than 10 to 12 per cent of oil can be
thoroughly applied with safety to maple trees, but the tips and margins
of the leaves may be injured even at this strength. Box-elder will be
almost defolhated with a 12 to 15 per cent solution. Less than a 10 per
cent emulsion will be of little value against the young unless they have
recently hatched. Since the hatching period may extend over six or
eight weeks, it will be seen that more than one spraying will be neces-
sary to insure success, and, coupled with the fact that it is a very difhi-
cult and disagreeable task to thoroughly spray a tree in foliage, the
winter treatment will be found more satisfactory in every way. And at
that season the larve of predaceous beetles would not be destroyed.

11905: Bul. 52, U. S. Dept. Agr., Bureau of Entomology, pp. 85-88.

6

KEROSENE EMULSION.

Stock solution (66 per cent oil).

Kerosenes (Coal-Oll lama p)- oil)) fees ee ne ee oe gallons__ 2
Wihale-oilor laundry soap! (or lquart sottysoap) io ee ee pound__ 4
\YAY/P2 0 FCS ol Ne a i I es Neh OURS Sas a © 2 ee Ser ee Ee gallon__

i

Dissolve the soap in boiling water, then remove from the fire, add the
kerosene immediately and thoroughly agitate the mixture until a creamy
solution is obtained. This can be done by pouring the mixture into
the tank of a spray-pump and pumping the hquid through the nozzle
back into the tank. This is a stock solution, which must be diluted
before using. In order to make a 10 per cent emulsion, add to each
gallon of the stock solution about 6 gallons of water and agitate thor-
oughly before using. For a 80 per cent solution add to each gallon of
the stock solution 14 gallons of water and agitate thoroughly. This
strength will kill a large percentage of the hibernating females, without
injury to the trees. :

If a good naphtha soap can be obtained, the preparation of the emul-
sion will be simplified. It will be unnecessary to heat the solution,
since the kerosene will combine readily with the naphtha and soap and
form a perfect, cold, milky-white emulsion when the mixture is thor-
oughly agitated. If naphtha soap is used, double the amount called
for by the formula, and emulsify in soft (rain) water.

Approved:
JAMES WILSON,
Secretary of Agriculture.

WASHINGTON, D. C., September 7, 1905.

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