353.9
E3R
1942 NO. 29
1
xd~c*-l
N NO. 408
DECEMBER. 1942
Montana Insect Pests, 1941 and 1942
TWENTY-NINTH REPORT OF THE STATE
ENTOMOLOGIST
BY
HARLOW B. MILLS. STATE ENTOMOLOGIST
SPINOSE EAR TICKS. SEE PAGE 15.
OCT 3 1 2007
MONTANA STATE COLLEGE
AGRICULTURAL EXPERIMENT |STATION^NASTATE LlBRARY
BOZEMAN. MONTANA 1515 E. 6th AVE.
™®*»_? HELENA, MONTANA 59620
Bozeman, Montana
December 1, 1942.
To His Excellency
Governor Sam C. Ford
Helena, Montana
My Dear Sir:
I am presenting herewith the 29th Report of the State Entomologist
of Montana.
The main work of this office deals with protection of crops from
injurious insects. In some respects we have been rather fortunate during
the past biennium. Mormon cricket infestations have dropped until these
pests are of only local interest in a few areas. No widespread grasshopper
infestations were present in 1941 and 1942, although some areas developed
critical populations. On the other hand, the east slope of the Rockies and
the Yellowstone Valley show a considerable increase in possibilities foi
grasshopper injury in 1943. Coupled with this will be difficulties in obtain-
ing adequate labor, transportation for materials, etc. which will make next
year's campaign more difficult than any in the recent past.
Bee inspection was reestablished, after a cessation of eight years, in
this office. The first summary of this work is submitted with this report,
and I should especially like to call it to your attention. Considering the fact
that it started in the spring of 1941 without implementation, personnel, or
established policy we are gratified with the large amount of work accom-
plished.
Respectfully submitted,
HARLOW B. MILLS
State Entomologist
Montana State Library
3 0864 1004 0548 2
MONTANA INSECT PESTS 1941 AND 1 942
Twenty-ninth Report of the State Entomologist
Harlow B. Mills
INTRODUCTION
The insect pests which plague the rancher and farmer in Mon-
tana present an ever-changing picture. This is true for at least two
reasons. First, the pests of importance are likely to change from
year to year, the dry years having their more or less typical com-
plex of injurious forms, and the wet years reducing some of them
and making conditions favorable for a new group; further, new
pests are appearing in the State bringing with them new problems.
Second, in the light of new research findings better control meth-
ods are being developed, both in Montana and outside of the State,
which necessitate the constant inspection and revision of the ap-
proved methods of control. The control of grasshoppers and Mor-
mon crickets is a good example of this. The last decade has seen
many advances in our methods of attacking these problems. Sur-
vey methods have been developed and refined, bait formulae have
been improved and reduced in cost, and the mechanics of mixing
and spreading baits have taken great strides forward, largely
through the efforts of the United States Bureau of Entomology and
Plant Quarantine.
The main efforts of this office have been directed toward the
control of the major pests, either through the administration of
field control campaigns, or through the preparation of circulars
describing approved methods of insect control. More than 300
inquiries on the control of a great variety of harmful animals are
received and answered annually.
During the past year 44 single-page pamphlets, many of them
illustrated, were prepared by this office and published by the
Montana Extension Service. These circulars, Series A, Nos. 1 to
44, are available from County Agents or from the Montana Ex-
tension Service, Bozeman, Montana.
Over a period of years the involved states in cooperation with
the Bureau of Entomology and Plant Quarantine have developed
a good organization for the large-scale control of regional insects
of migratory habits. Control operations in Montana, under the
joint direction of the State Entomologist's Office and this Bureau,
4 MONTANA EXPERIMENT STATION BULLETIN 408
have involved the suppression of grasshoppers, Mormon crickets,
and to a lesser extent the army cutworms. During the past two
years Mr. O. B. Hitchcock, Assistant State Entomologist, has taken
over most of the direct field supervision. These campaigns have met
with considerable success, but as pointed out later in this report,
losses actually may be greater during light infestations than during
heavy ones. This is primarily a problem of individual interest and
participation, and the success of any insect control campaign is the
result of the activity of each farmer involved.
The last session of the Legislature provided that the handling
of bee inspection problems be a part of the responsibilities of this
office. This work was organized and equipped during the spring
of 1941. Mr. J. F. Reinhardt of the University of Minnesota was
employed as the State Apiarist, and his time has been fully occu-
pied with this work. After a cessation of bee inspection work for
several years it was necessary to start almost from scratch, and
the large amount of work which has been accomplished during
the past two seasons is gratifying. The success and value of this
activity will become more apparent as time goes on. The first sum-
mary of Mr. Reinhardt's work is included in this report.
MAJOR INSECT CONTROL PROBLEMS
GRASSHOPPER CONTROL, 1941-42
O. B. Hitchcock, Assistant State Entomologist
The migration of the lesser migratory locust (Melanoplus raexi-
canus) has been of great importance and interest since the ex-
tremely heavy infestation of July, 1938. As reported in the
Twenty-seventh and Twenty-eighth Reports of the State Entomolo-
gist' the movements of these insects for 1938, 1939, and 1940 were as
follows: the flights which originated in North and South Dakota
first entered eastern Montana on July 1, 1938, and migration con-
tinued during much of the summer. The egg bed for 1939, laid down
by the migrants, covered most of the northeastern part of the State
including all of Garfield, Richland, McCone, Roosevelt, and parts
of Valley, Daniels, Dawson, Prairie, Custer, Rosebud, Treasure,
Musselshell, Petroleum, and Phillips counties (figure 1).
In 1939 the 'hoppers, after becoming adults, migrated into the
north-central part of the State and a smaller area in the south-
central part where they laid large numbers of eggs for the 1940
generation.
The 1940 migration was west until the 'hoppers reached the
Rocky Mountains and the heaviest egg depositions in 1941 were in
Cascade, Chouteau, Pondera, Teton, Toole, and Liberty counties.
JMont. Exp. Sta. Bui. 336, pp. 12-16, 1939.
384, pp. 1-5, 1941.
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST
This area was considerably smaller than that infested during the
two previous years and the intensity of infestation was not so
great.
There were no recorded migrations or flights of economic im-
portance during the 1941 season. Some small local movements
were observed in Pondera, Teton, and Cascade counties and some
light flights entered Judith Basin, Liberty, and Hill counties.
The only movement of M. mexicanus observed in the State in
1942 were small localized flights from northern Yellowstone and
eastern Stillwater counties into the Yellowstone Valley and local
dispersals in Big Horn County and other areas.
From 1938 to 1940 the grasshopper migration progressed mostly
in a northwest and westerly direction. Each year there was a de-
Figure 1. Grasshopper egg beds, 1939 to 1941.
crease in extent and degree of infestation until the Rocky Moun-
tains were reached in 1940. Since that time no comparable migra-
tions have been observed.
It has been interesting to note, especially since 1939, that there
has been a marked decrease in intensity of 'hopper populations,
apparently due to unfavorable weather conditions, other natural
factors, and intensified control work. Regardless of these adverse
factors the numbers of 'hoppers present each year have been great
enough to be a serious threat to crops. It seems that the tremen-
dous populations that were present in 1938 and 1939 have made it
possible for the 'hoppers to maintain a threatening condition due
largely to sheer weight in numbers.
MONTANA EXPERIMENT STATION BULLETIN 408
Grasshopper adult and egg surveys made in the fall of 1940
indicated that outbreaks were likely to occur in the south-central
and northern half of the State, east of the Divide, with the most
severe areas being in Sheridan, Daniels, Roosevelt, Valley, Phillips,
Blaine, Hill, Toole, Pondera, Teton, Cascade, Wheatland, Mussel-
shell, Yellowstone, Treasure, and Rosebud counties.
The first reports of eggs hatching were received on May 8 but
the general hatch in the south and central part of the State did not
occur until May 15. In the northeastern counties no large hatches
were observed until May 24.
TABLE 1.
CROP LOSSES FROM GRASSHOPPERS AND SAVINGS FROM
CONTROL WORK IN DOLLARS
1941 1942
County
Loss Savings Loss Savings
Beaverhead .. 1,200
Big Horn 5,650
Carbon
Cascade 165,850
Chouteau 64,000
Custer-Powder River
Daniels 900
Dawson 3,500
Fergus 200
Flathead 33
Garfield 10,350
Glacier 21,050
Golden Valley-Musselshell 127,350
Hill 25,000
Judith Basin 85,200
Lake 1,800
Lewis and Clark 3,434
Liberty 6,250
McCone
Meagher 2,450
Petroleum 9,500
Phillips
Pondera 495,825
Powell 8,250
Prairie 9,950
Richland 800
Roosevelt 9,600
Rosebud 3,250
Sanders 8,700
Stillwater 16,600
Sweet Grass 2,000
Teton 214,200
Toole 18,700
Valley 16,200
Wheatland 2,500
Yellowstone 26,500
TOTAL 1,420,292
5,000
51,900
416,750
31,310
69,350
21,700
125,000
5,300
200
650
75,500
500
44
2,950
67,750
7,320
6,150
239,500
226,000
177,500
2,900
23,300
2,450
300
18,000
108,000
1,850
250
2,515,700
8.700
1,585
3,500
107,000
300
22,100
10,000
395
65,200
24,000
2,750
67,500
10,000
7,350
614,700
76,000
63,850
1,950
23,165
6,500
1,000
254,800
256,635
4,231,409
1,599,695
285,425
22,800
29,800
9,500
3,175
5,700
250
8,950
76,000
75,350
25,450
6,500
50
22,600
18,005
8,700
61,000
4,350
1,275
155,441
817,671
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 7
A three-week period of cool, damp weather during May and
June over much of the State caused the hatch to be uneven and
somewhat delayed, especially in Sheridan, Daniels, Roosevelt, Val-
ley, Phillips, Blaine and Hill counties. It is thought that these
weather conditions may have caused many young 'hoppers to die
and may have damaged some eggs so that they did not hatch. It
is quite evident that some natural control took place because the
infestation in this area was not nearly so severe as indicated by
the survey.
Pondera was by far the most severely infested county in the
State. The estimated crop savings realized from the control pro-
gram was over 2xk million dollars compared with slightly less
than Yi million dollars damage. Seven hundred sixty-four farmers
spread 1441 tons of mixed bait over 177,500 acres of land in the
county.
Other counties which had heavy infestations of grasshoppers
and put out large quantities of bait were Teton, Toole, Chouteau,
Cascade, Hill, and Yellowstone (see table 1) .
The control program over the State was, in most cases, quite
successful. The estimated savings as a result of the work done was
nearly 4V2 million dollars compared with less than V/2 million
dollars' damage. Three thousand three hundred twenty-five farm-
ers spread 3,668 tons of bait over 671,420 acres of land. The total
county expense in putting on the program was $20,007 — the farmers
contributed $50,978, and the Federal Government spent $108,525
for 'hopper control in the State, making a total cost of $179,511.
The dominant species in most parts of the State was Melanoplus
mexicanus with M. bivittatus ranking second in importance. In
the north-central part of the State M. packardi was second to M.
mexicanus as the dominant species. It also occurred in large num-
bers in Stillwater County. Heavy populations of M. differentialis
were found in small areas in Wheatland, Prairie, and Big Horn
counties. In spots in Yellowstone and Big Horn counties M. femur-
rubrum was observed in large numbers. Heavy concentrations of
Disosteira Carolina were found in Golden Valley County.
The vegetation along the margin of fields and on idle and
abandoned land was quite heavy and remained green most of the
summer. Because of the abundance of feed there was little mi-
gration of grasshoppers into crop land until almost time for harvest
so that little damage was done to winter wheat.
In the eastern part of the State large numbers of M. bivittatus
and M. differentialis were recorded dying from what appeared
be a fungus or bacterial disease. It was observed that blister
beetle larvae had destroyed many 'hopper egg pods in the south-
central counties. No other reports of parasites or predators reduc-
ing grasshopper populations were received.
A period of continued cool, wet weather during much of
August, September, and October was unfavorable for grasshopper
MONTANA EXPERIMENT STATION BULLETIN 408
egg deposition. There is little doubt that these conditions were
important in reducing the 'hopper problem the following year.
The grasshopper situation in 1942 was less severe over most
of the State than it has been for the last five years. This was
due largely to a smaller number of eggs in the soil, and to the
TABLE 2. SUMMARY OP BAIT USAGE
1941
1942
Tons
bait
County dry wt.
Beaverhead 1.4
Big Horn 75.0
Broadwater .25
Carbon ■
Cascade 173.0
Chouteau 308.0
Custer-Powder River
Daniels 1.0
Dawson 4.0
Fergus 5.0
Flathead 5
Gallatin 1.3
Garfield 2.0
Glacier 75
Golden Valley-
Musselshell 10.0
Hill 143.0
Judith Basin 12.0
Lake 13.25
Lewis and Clark 1.0
Liberty 140.0
McCone
Petroleum 2.0
Phillips 1.0
Pondera 1,441.8
Powell 1.24
Prairie 2.0
Richland 2.0
Roosevelt 4.0
Rosebud 3.5
Sanders 56.0
Stillwater 10.0
Sweet Grass 1.4
Teton 539.0
Toole 385.0
Treasure 45.0
Valley 84.0
Wheatland .. 6.0
Yellowstone L93.0
TOTAL 3.668.39
No.
farmers
using
Acres
bait
baited
5
250
149
14,800
2
50
445
27,500
190
37,000
2
100
8
325
32
270
5
60
5
250
3
340
5
130
94
2,000
125
40,000
49
1,940
12
1,400
6
134
100
20,000
8
266
5
80
764
177,500
9
119
8
730
15
10
28
10,765
20
17
35
7,200
16
2,650
8
285
525
130,300
175
45,000
25
8,500
34
10,499
L3
500
400
95,200
No.
Tons farmers
bait using Acres
dry wt. bait baited
184.0
13.0
27.3
5.2
5.9
4.25
5.5
13.1
107.3
3.0
100
17
46
17
33
10
75
34,000
30
2,933
72
11,600
50
1,200
21
1,368
820
30
1,200
7
520
532
2,500
4
10
20, MO
2,740
1,733
3,325
636,170
691.60
42
3,540
11
500
48
3,600
10
1,654
6
375
429
62,600
1,590
157,773
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 9
fact that cool, wet weather during the spring months delayed the
hatch and development of the 'hoppers to such a degree that their
presence was not especially apparent until most crops were har-
vested or so far advanced that the damage to them was not noticed.
As a result of this and the extreme shortage of labor comparatively
little control work was carried on.
A comparison of the 1941 program with 1942 in table 3 indicates
that as the grasshopper menace deceases there is a tendency for
farmers to neglect control work. In 1941 there were nearly twice
as many counties participating in the control program, over twice
as many farmers taking part and over five times as much bait
used as there was in 1942. The lack of interest and cooperation
in years of light infestations often causes them to be more costly
than years of heavy populations as is shown in table 3. In 1941, a
year of comparatively heavy infestation, the estimated damage
caused by 'hoppers was approximately $179,000 less than the esti-
mated damage in 1942, and the estimated savings from control
work in 1941 nearly 3]/£ million dollars more. Besides the losses
TABLE 3. SUMMARY OF GRASSHOPPER CONTROL PROGRAM
1941 1942
No. Mixing Stations 32 23
Counties actively engaged 32 19
Farmers using bait 3325 1590
Dry bait used 3668.39 691.6
Acres baited 671,420 157.773
Estimated loss $1,420,292. $1,599,695.
Estimated savings $4,231,409. $817,671.
sustained in years of lighter infestations the populations are allowed
to build up for more serious situations in following years. If the
light and incipient infestations were controlled greater savings
would be made with relatively small cost.
The areas in the State which were most heavily infested with
grasshoppers were northwestern Yellowstone, southern Mussel-
shell, southeastern Golden Valley, and northeastern Stillwater
counties in the vicinity of Broadview, Acton, and Rapelje; north-
eastern Rosebud, southeastern Garfield, southwestern Prairie, and
northwestern Custer in the vicinity of Rock Springs and Crow
Creek; and southern McCone County. The Camas Prairie and
Lonepine areas in Sanders County and most of Big Horn County
were also heavily infested.
Cool, wet weather during most of May and June caused the
hatch over most of the State to be quite late and uneven. The first
general hatch occurred about June 15. Nymphal development was
also delayed by the unfavorable weather conditions.
The dominant species over the State was M. mexicanus, with
M. bivittatus second in importance. Other species were not ob-
10 MONTANA EXPERIMENT STATION BULLETIN 408
served in numbers large enough to cause any great amount of in-
jury.
It is estimated that cool, wet weather during the spring months
reduced the grasshopper populations from 5 to 25 per cent. The
heaviest mortality was in the northeastern and northern parts of
the State. In the Gibson area of Sweet Grass County approxi-
mately 30 per cent of the M. bivittatus adults were killed by fungus.
Other areas where fungus or disease killed large numbers of 'hop-
pers were in Fallon, Valley, Custer, Roosevelt, Pondera, Cascade,
and Teton counties.
Sarcophagid flies were numerous over must of the State but
indications are that they did not parasitize a high per cent of the
'hoppers. In Roosevelt and McCone counties large numbers of
grasshopper egg pods were found parasitized by beefly and blister
beetle larvae.
GRASSHOPPER OUTLOOK FOR 1943
The 1942 grasshopper egg survey indicates that the 1943 in-
festation in most parts of the State will be spotted and not so severe
as in the past five years. The most severely infested area will
probably be in Big Horn, Yellowstone, Stillwater, Golden Valley,
and Musselshell counties. Other counties which may have smaller
local areas with heavy 'hopper populations are Dawson, Fergus,
Judith Basin, Teton, and Toole. In addition to the above it may
be necessary to carry on control work in Pondera, Cascade, Chou-
teau, Lewis and Clark, Wheatland, Sweet Grass, Sanders, Carbon,
Treasure, Rosebud, Garfield, Prairie, Custer, Fallon, Wibaux, Mc-
Cone, Richland, Roosevelt, Valley, and Phillips counties.
In addition to controlling severe infestations and preventing
heavy crop losses, the aim of the coming grasshopper campaign
should be to control all small incipient outbreaks to prevent serious
infestations from developing during the present period of emer-
gency.
The following are some of the unusual problems which will
face those involved in control campaigns in 1943. The acute labor
shortage will add to the difficulties of some counties in obtaining
workers for the mixing stations, in baiting large areas, and in
practicing proper cultural control methods. There will no doubt
be an increase of idle and abandoned land. There may be a short-
age of control materials and of transportation to the areas needing
them. Equipment for mixing and spreading bait will not be readily
available.
These problems make the situation serious especially at a time
when the production of food is so essential. All interested parties
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 11
should recognize these problems and help to reduce their impor-
tance as far as it is humanly possible to do so.
MORMON CRICKET CONTROL, 1941-42
O. B. Hitchcock, Assistant State Entomologist
During the last two years the Mormon cricket infestation
throughout the State has decreased to such an extent that it is no
longer the major insect problem that it was.
In 1941 there were five counties with cricket populations high
enough to make control measures necessary. These infestations
were in Beaverhead County west of Monida near the Montana-
Idaho line; Big Horn County east of Lodge Grass and Owl Creek
and Sioux Pass, and southwest of Hardin in the vicinity of Beau-
vais Creek; near Pry or; Chouteau County in a large area including
Highwood, Geraldine, Square Butte, and Montague; Sanders
County in Fairy Basin, McDonald Basin and in the hills east of
Camas Prairie; and in Yellowstone County along Pry or Creek, Hay
Creek, Blue Creek, Fly Creek and surrounding area.
The infested areas in Beaverhead and Sanders counties were
relatively small and after the control work was completed only a
few scattered crickets could be found, with exception of the high
areas in Beaverhead County, where heavy populations occurred.
The populations in other infested areas were not so heavy as in
previous years but were quite extensive and control work was
done on a crop-protection basis. Because of the control program
very little crop damage occurred.
Until 1939 the use of bait was not recommended as an effective
method of controlling Mormon crickets; however, the use of sodium
fluosilicate as the active agent instead of sodium arsenite was
proved successful, and since 1939 the amount of bait used has in-
creased steadily until this year when its use almost entirely re-
placed the use of sodium arsenite dust. The bait has many ad-
vantages over the dust in that it is more effective, easier and less
dangerous to handle, cheaper, and the hazard of livestock poisoning
is greatly decreased. The first hatching of Mormon cricket eggs in
1941 was reported in Big Horn County on March 31. The main
hatch over the State, however, did not occur until about the 15th of
April.
In Yellowstone County a few eggs were found to be parasitized
by Sparaison pilosum Ashm. The predatory wasp Palomedes laevi-
ventris Cress, was observed in most of the infested areas but was
not numerous enough to be important in reducing the population
of Mormon crickets.
No extensive migrations were observed. However, there was
some movement of small bands of crickets out of the Wolf Moun-
12 MONTANA EXPERIMENT STATION BULLETIN 408
tains into crops in the Owl Creek and Sioux Pass areas in Big
Horn County.
In 1942 it was necessary to carry on Mormon cricket control
work in only two counties in the State. These infestations were
located on Owl Creek and Sioux Pass east of Lodge Grass, on Beau-
vais Creek in Big Horn County and in the southeastern corner of
Yellowstone County east of Pryor Creek.
To prevent reinfestation of the lower lands it was thought that
a control program would be needed in Beaverhead County west of
Monida, in the vicinity of Beaver. Big Beaver, and Poison creeks,
near the Montana-Idaho State line. The 1941 campaign was suc-
cessful to the extent that the only crickets left in this area were on
the Continental Divide at about 7,800 feet elevation. In the fall
of 1941 this area was visited and large numbers of crickets were
observed. Again in the early summer of 1942 the area was scouted
and only an occasional cricket could be found so that control work
was not necessary. Since it seemed unusual that there were no
crickets where such large numbers of adults had been found the
previous fall, another investigation was made in September of
1942. It was found that there are large numbers of eggs in the
ground and that this is apparently a "hold-over" area where the
eggs hatch in two years.
TABLE 4. SUMMARY OF MORMON CRICKET CONTROL, 1941 and 1942
1941 1942
Crop savings $87,290 $38,750
Crop losses $2,680 $1,200
Crop acres protected 46,160 22,038
Acres injured 4,635 890
Crop acres infested 172,800 14,196
Range acres infested 1,007,340 569,758
Total infested 1,180,140 583,954
Acres dusted 3,757 912
Acres baited 24,419 6,873
Pounds mixed dust 17,396 5,945
Pounds mixed bait (dry weight) 197,043 110,706
In 1939 the first discovery of the hold-over phenomenon was
made in the Big Horn Mountains in Wyoming. At this time it was
found that Mormon cricket eggs laid at high altitudes often require
two years to hatch. Ordinarily Mormon cricket eggs laid in the
summer or fall hatch the next spring. In a "hold-over" area, how-
ever, they remain in the ground for two winters and a summer be-
fore hatching.
From the eggs that were collected in Beaverhead County in
the fall of 1942 it was found that 60 per cent were viable and con-
tained well developed embryos, 10 per cent were not viable, and
30 per cent had been parasitized by Sparaison pilosum.
On investigation of the eggs it was also found that parasites
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 13
which emerged from eggs that were attacked in the fall of 1941,
were apparently able to successfully parasitize eggs that had es-
caped the year before. This gave S. pilosum two chances at the
same set of eggs. Regardless of this high degree of parasitism there
appear to be enough viable eggs left to cause a serious infestation
for 1943.
The first hatching of Mormon cricket eggs was observed in
Big Horn County during the first week of April. The hatch was
irregular and continued over several weeks due to the long period
of cool, wet weather which prevailed over most of the State during
April and May. Adult crickets were observed about the middle
of June and egg deposition began early in July.
Except in the Beaverhead area the egg parasite, S. pilosum, did
not occur in large enough numbers to greatly reduce the infestation.
The predatory wasp Palmodes was not observed in sufficient num-
bers to be of importance in reducing the number of crickets. In Big
Horn and Yellowstone counties crows, hawks, blackbirds, and mag-
pies were observed feeding on crickets. Relatively few migrations
were observed during the season. In most cases the crickets
remained in the general area where hatching occurred.
Indications are that little control work will be necessary
in 1943. Possibly a small amount of baiting will be needed
again in Yellowstone and Big Horn counties. The Beaverhead
County infestation should be watched carefully to prevent rein-
festation of the lower lands. The Mormon cricket population in
northern Glacier County seems to be increasing and some work
may be necessary there.
STORED GRAIN INSECTS
Figure 2. Granary weevil,
greatly enlarged.
Two surveys of the State have been
made, one in 1941, and the other in 1942,
to obtain information on the species of
grain pests present in the State, their dis-
tribution, and the factors affecting their
abundance. These pests are much more
widely distributed and much more com-
mon in grain storage than was suspected.
They are a real problem under certain
conditions, and may at times become limit-
ing factors in the marketing of stored
materials of this sort. Harvesting during
both the 1941 and 1942 seasons was carried
out under difficult conditions and in both
years a great deal of grain went into the
granaries with a greater moisture content
14 MONTANA EXPERIMENT STATION BULLETIN 408
than desirable. As the amount of grain
going into storage and as the length of
time it is kept in storage increases, we can
expect continued increase in the impor-
tance of stored grain pests of all kinds.
The more common of these pests are
discussed in the Twenty-eighth Report of
the State Entomologist, Montana Agricul-
tural Experiment Station Bulletin 384 on
pages 12 to 16. Single sheet leaflets deal-
ing with these insects are also available
from the Montana Extension Service, and
may be obtained by asking for Circular figure's, sawtooth
Series A— 18, 21, 24, 32 and 43. grain beetle. Greatly
enlarged.
OTHER IMPORTANT IXSECT PESTS, 1941-42
NEW INTRODUCED LIVESTOCK PESTS
primary screw worm. - The adult primary screw worm
(Cochliomyia americana C. and P.) is a bluish-green fly with a
striped thorax. It is a little larger than a housefly, and when at
rest the wings are held a little more directly over the back than
in the house fly or the larger blue bottle flies.
Montana is far out of the normal range of this pest, and its ap-
pearance in this State in the summer of 1941 came as a surprise.
Apparently it gained entrance to Montana in the early spring of
that year through the introduction of cattle imported from Mexico.
No reports of this pest were received during 1942, and it is most
unlikely that it would
be able to stand the rig-
ors of the winter in this
latitude. Trouble, then,
would be expected only
from southern cattle
_, . _. . . brought into the State
Figure 4. Primary screw worm taken , <? . ,
from a calf near Custer, Montana. Enlarged. ana rrom native cattle
running with or near
them, and this difficulty would end with the advent of win-
ter. Some loss was experienced throughout the summer of 1941,
and possibly it may be years before it again appears in our region.
The adult females lay their eggs in the wounds of many do-
mesticated animals, injuries such as those caused by barbed 'wire,
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 15
tick feeding, needle grass, dehorning, castration, branding, etc.,
and they may also attack the navel of newborn calves. Humans
are occasionally attacked and there are a number of records of
nose or ear infestations in man.
These flies have a great ability to reproduce. A female may
lay approximately 3.000 eggs in batches of from 10 to 400. Three
hundred may be laid in from four to six minutes. The eggs hatch
in less than a day under usual conditions, and the larvae complete
their growth in from three and one-half to four and one-half days.
Fully developed larvae (figure 4) drop to the ground where the
transformation to the adult takes place. Under the best of condi-
tions a complete generation may develop in about 11 days. It
is, then, possible for many generations to appear even under Mon-
tana conditions, and for very heavy infestations to occur in the
host animals.
The primary screw worm is found throughout the southern
states and far into South America. The 1941 Montana records were
from Yellowstone and Treasure counties where in August the
maggots were taken from the navel of a three weeks-old calf. Ac-
cording to information received from the rancher another calf had
a severe infestation in a fresh brand and seven out of eight cas-
trated calves in one group became infested. The area involved
Meyers, Custer, and Big Horn, and included stock belonging to
thirteen different ranchers. Forty-four animals were known to
have been attacked and several of the ranchers merely listed their
stock as being infested, with no numbers of animals given. Cattle,
horses, pigs, and dogs suffered injury.
While this is the first record of the primary screw worm in
the State it is entirely possible that this pest has been brought into
Montana at other times. As has been previously pointed out, the
chances are that it cannot survive the winter here, and our prob-
lem is one of continuous introduction. Most of the cases in 1941
occurred from the last of July to September 15th. indicating that
it took some time for the infestation to develop to a size which was
readily noticeable, for the suspected introduction of the maggots
dated back to April 18. with the arrival of the Mexican cattle.
It is important that future shipments of southern cattle into
Montana should be thoroughly examined for wounds which might
possibly be infested with this insect. Any maggots which may be
recovered from such situations should be sent, preferably alive.
to the Department of Zoology and Entomology, Montana Agricul-
tural Experiment Station. Bozeman.
spixose ear tick.- This tick (Otiobius megnini Dugesj is pri-
marily a southern pest. In the United States it is most common in
the southwest, but it has been reported from as far north as Iowa,
Alberta, and Oregon. Concerning these ticks in Canada, Hearle
says that they "probably were introduced on imported animals
and fortunately they do not appear to have become established."
16 MONTANA EXPERIMENT STATION BULLETIN 408
South of the United States the species is known from Mexico, Cen-
tral and South America, as well as other parts of the world.
The first Montana record of the spinose ear tick was based on
specimens collected near Park City in February, 1916, under con-
ditions which indicated that it had been present for several years.
This was reported in the Fourteenth Report of the State Entomol-
ogist, Montana Agricultural Experiment Station Bulletin 112, page
67 (1916). As many as 109 ticks were taken from the ears of one
calf at that time. Apparently the infestation disappeared, for this
pest was not again reported until the spring of 1941, when speci-
mens were submitted by Dr. W. J. Butler, State Veterinarian, which
were collected from the ears of Mexican cattle that had been
shipped into the upper Yellowstone Valley. Since then several
lots of specimens have been examined.
The spinose ear tick is known to attack cattle, horses, sheep,
cats, and occasionally man. Its life history, as it is known, is as
follows: the newly-hatched, tiny, six-legged seed ticks enter the
ears of the animals attacked and attach themselves well below the
hair line. In a week or two they become engorged and shed their
skins, becoming eight-legged nymphs which bear little resemblance
to the first stage. These nymphs are covered with small spines, and
are constricted somewhat across the middle (see cover illustration).
Ticks in this stage remain in the ears for from one to seven months
when they drop to the ground, crawl into dry, protected places, and
shed their skins a second time. This moult produces the adults,
which are spineless and somewhat flattened. It is not believed
that the adults attach to any animal or take food of any kind.
Mating and egg laying then take place and under favorable condi-
tions the eggs may hatch in 10 days. Soon after, the little ticks
are ready to attach to any of their hosts, settle down in the ears,
and continue the life cycle. They may live for three months if
no host is found.
The factors which limit the spread or continued development
of this pest are unknown, but judging from previous experience,
and in spite of the lack of specimens received in 1942, it might
remain for some time before it disappears.
A few ticks in the ears of an animal probably do little dam-
age. However, when gross infestations exist considerable injury
may occur. The ticks and ear secretions may completely plug the
opening and some of them may move as far in as the ear drum.
The infested animal usually snakes its head and moves it from
side to side. There is a tendency to rub or scratch the ears when
the irritation is intense, and young animals often run as if at-
tempting to relieve the nervous tension. Infested animals do not
do well. Some of them lose flesh and, rarely, the calves may die.
Because of the point of attachment of the ticks, ordinary dip-
ping will not remove them. A mixture of 2 parts of pine tar to
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 17
1 part of cottonseed oil injected at the rate of about Vi ounce per
ear, with a warm syringe, is recommended by Imes This mixture
kills the parasites present and protects against reinfestation for
about a month. In cases where an infestation is suspected, the
animals should be examined, and if no ticks are visible the ear
should be probed with a piece of bailing wire. A loop should be
formed in the end of the wire to prevent injury to the ear.
Montana records are all from the southeastern part of the
State, Park City, Biddle, Custer, and Mission.
MISCELLANEOUS RECORDS AND OBSERVATIONS
SAY'S sttnkbug. — This large, green stink bug, (Chlorochroa
sayi Stal) has been locally abundant in the State for the last ten
years, and has caused considerable local and sporadic damage to
wheat. In 1940 it was seen in numbers as far east as the North
Dakota line, but in 1941 and 1942 it was conspicuously rare over
much of the previously infested territory. During the past year
but one specimen was seen on the study plots at the North Mon-
tana Branch Station near Havre.
In June, 1941, some terminal growth of potato vines in Yellow-
stone County suffered from the attack of Say's stinkbugs. As
many as ten specimens per plant were noted. No similar infesta-
tions were found in the same area during 1942.
corn leaf aphid.— During the late summer of 1941 the corn
leaf aphid (Aphis maidis Fitch) was sent in from Glasgow and
Hardin, and was seen in other areas in the eastern part of the State.
In the infested fields this bluish-green plant louse was very abun-
dant on leaves, causing considerable curling. Apparently it was
not a problem during the 1942 season.
This pest attacks corn, millet, broom corn, sorghum, and Sudan
grass. In the southern part of the United States it winters on bar-
ley, but it is not known where the winter is spent in our area, nor
has its life history been worked out completely. It is usually not
an important pest, and adequate control measures are not known.
THE POTATO AND TOMATO psyllid.— The 1941 adult popula-
tions of this pest (Paratrioza cockerelli Sulc.) were alarmingly high
in early potatoes until checked by very high temperatures from
July 16-19. Slight reductions in yield resulted in some areas.
Growers have gradually become less 'psyllid-conscious' since the
outbreak of 1938 and reduced yields are commonly attributed to
other causes.
Early season populations of psyllids were low in 1942. In the
Yellowstone Valley potato fields planted during April and the first
half of May showed symptoms of psyllid yellows by early July, and
some reductions in yield resulted. A general outbreak was ap-
parentlv checked by high temperatures in July, when half the
IN
MONTANA EXPERIMENT STATION BULLETIN 408
days showed temperature maxima above 90° F. Fields planted
after June 1 remained rather uniformly free from psyllids and the
psyllid yellows disease.
Vines infected by psyllid yellows were seen in potato plantings
in Jefferson, Gallatin, Carbon, and Big Horn counties, in addition
to the Yellowstone Valley plantings from Laurel to Glendive.
red humped apple caterpillar. During the past few years
requests for information on the control of the red humped apple
caterpillar {Schizura concinna S. and A.) have been received in
increasing numbers. Although these caterpillars are striking and
conspicuous, they are of but minor importance and only locally
are of sufficient abundance to warrant control measures.
When fully developed, the larvae have a reddish-yellow ap-
pearance due to the alternating stripes of these colors on the body.
These stripes are more conspicuous on the sides. Slender, dark,
pointed processes occur along the back, and are most conspicuous
on the segments just behind the head. One of the segments toward
the head is enlarged and red, and from this structure the insect
gets its common name. When irritated the rear end of the body is
raised considerably above the surface upon which the larvae is
standing. Because they are voracious eaters, feeding openly on
leaf tissue, they can be controlled without difficulty by the usual
lead arsenate sprays.
All of our Montana records are from the western third of
the State, Big Fork, Deer Lodge, Dixon, Heron, Kalispell, Ronan.
and Troy, and all observations were for the month of August but
one, in September.
diamond back moth.— The larva of this little moth (Plutella
maculipennis (Curt.) attacks cabbages, mustard, and related plants.
While it is widespread in Montana, its attack on garden crops is
usually so slight as to be
hardly noticeable, and only
occasionally does it become
so abundant as to require
control.
Recently, however, it be-
came abundant in large
plantings of commercial
mustard in the north-cen-
tral part of the State, and
during the summer of 1941
it damaged acreages of this
crop by boring into the
pods and destroying the
seeds. It was very abun-
dant that season also on
several species of wild
mustard, notably tumbling mustard (Sisymbrium altissimum)
Figure 5. Diamond-back moth, larva
above, cocoon below. Greatly enlarged.
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 19
SUGAR beet webworm.- The occurrence of this insect (Lox-
ostege sticticalis (L.) ) was quite general throughout the State in
1941. Heavy infestations were reported from localized districts
which were fairly well distributed throughout the sugar beet grow-
ing areas. Control measures were necessary in these areas. In Yel-
lowstone and Carbon counties practically the entire sugar beet area
was sprayed at least once. The damage was limited almost entire-
ly to defoliation of the plants, the infestation not being severe
enough to injure the crown. Heavy infestations were recorded
in flax fields. Their feeding activities were confined to stripping
of the leaves so it was difficult to estimate the damage. This ap-
pears to be the first time that this insect has been reported in large
numbers in flax in Montana. The severity of the infestation in
a flax field in Pondera County was judged from the fact that 50
to 70 pupal cases could be obtained from sifting a square foot of
soil in the field.
A heavy flight of second generation moths appeared but over
90 per cent of these proved to be sterile.
A moderate to heavy flight of moths was observed during June
of 1942. Owing to the high incidence of sterility among them, very
few eggs were laid. Some spraying was done in Yellowstone,
Carbon, and Big Horn counties. The infestation was very light and
no damage was reported. Some second generation moths appeared
in the northern part of the State but all of these were sterile.
spruce budworm.— An outbreak of the spruce budworm
(Arehips fumiferana (Clem.) ) occurred on the Gallatin Forest dur-
ing the summer of 1942. It was noted in large numbers on the east
slope of the Bridger Range, and considerable damage was done to
douglas fir (Pseudotsuga taxifolia) , engleman spruce (Picea engel-
manni), and alpine fir (Abies lasiocarpa) . A trip was made into the
area in the company of Mr. A. H. Abbott, Forest Supervisor, on July
10th, at which time the larvae were abundant. On August 9 no
larvae were found in the same area but injury to douglas fir, es-
pecially to some of the young trees, was very evident.
The larvae collected in July were moderately heavily parasit-
ized. Two species of parasites were reared from this collection,
Glypta fumiferana Vier., and a species of Microgaster which is ap-
parently undescribed according to Mr. C. F. W. Muesebeck, to whom
the specimens were transmitted for determination.
army cutworm.— During the spring of 1942 parts of the
State experienced the worst infestation of the army cutworm
(Chorizagrotis auxiliaris Grote) in several years. A large area in
eastern Montana was involved, and there was considerable local
crop injury. Some grasshopper bait was spread in the control of
these pests.
pale western cutworm. — This pest (Agrotis othogonia
Morr.) has been extremely injurious in the State in years past.
20 MONTANA EXPERIMENT STATION BULLETIN 408
During 1941 and 1942, however, no reports were received and nv
damage was seen. The moist spring of 1942 would indicate that it is
not likely to be a problem during the 1943 growing season.
CORN earworm.— The heaviest infestation of sweet corn by
the corn earworm (Heliothis armigera (Hbn.) ) in many years was
experienced during the spring of 1941. Although it was general
throughout the State, the greatest damage was done in the Bitter-
root Valley where many early plantings were a complete loss. Ap-
pearance of adults and egg laying occurred before the silks ap-
peared and by the time they were well out the larvae were found
in the tips of the ears. The abundance of adults early, together with
the mild winter preceeding, indicate a possibility of overwintering
in this region. In 1942 there were fewer of these pests than usual
over much of the State and no great abundance was reported any-
where in Montana. Control is discussed in Montana Extension
Circular Series A — 11.
raspberry ROOT OR CROWN borer. - Raspberry plants
which appear to be stunted and with little vigor, or on which the
lateral spring growth wilts suddenly causing the death of the cane,
should be examined for the attack of the raspberry root or crown
borer {Bembecia marginata Harris) . This injury is most apparent
in old plantings and in some parts of the country is said to be a
rather important pest. The only specimens in the Montana Agri-
cultural Experiment Station collection were taken in Bozeman in
August of 1938 and 1942, although reports of the occurrence of
borers in raspberries on the east shore of Flathead Lake have been
received.
The adult of this species is a slender, wasp-like, clear winged
moth. It is rather sluggish, and may be found sitting on the leaves
of raspberries or flying about the plantings late in the summer. It
lays its eggs on the leaves and canes, and the larvae which hatch
from these eggs bore into the canes close to the crown. They feed
on the canes in the fall and pass the winter in this situation. In the
spring they work their way down into the crown where they feed
and pass the second winter. The larvae at this time are yellowish-
white, fleshy, with the body segments showing up strongly
because of the narrow constrictions between them. Pupation
occurs the following spring and the new adults appear about the
first of August. It thus takes two years for a generation to develop.
Besides raspberries, loganberries and occasionally blackberries
are known to be attacked. Canes which are not vigorous or which
shown signs of rapid wilting should be removed by cutting as close
to the crown as possible. The application of a summer oil during
the first ten days in August and at two-week intervals after that
has been recommended to kill the eggs.
raspberry fruitworm (Byturis unicilor Say) . — At the time
of raspberry picking it is not uncommon to find the core of the-
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 21
berry mined and grooved by the feeding of a small, brown beetle
larva. This larva may stay in or on the core or it may remain in the
harvested fruit. In cases of heavy infestation it is necessary to cull
a large percentage of the fruit, and the loss may be considerable.
At certain times in western Montana populations of this insect may
be very high and the loss of fruit in proportion. The larvae, which
cause this damage, are about one-fourth of an inch long when fully
grown. They hatch from minute eggs which are laid on the buds,
flowers, or stems. When they have completed their development
they drop to the ground, burrow into the soil, and pupate. The
adults emerge from the soil early in the spring, feed on the un-
folding leaves and flowers, depositing their eggs in or near the latter
for the next generation. These adults are elliptical, yellowish-
brown beetles, less than a quarter of an inch long.
Control involves the destruction of the adult beetles before they
have had an opportunity to lay eggs, and their long period of feed-
ing before egg laying gives time for this. In our experience, an ap-
plication of a standard lead arsenate spray as the buds are forming,
or a thorough dusting with a one-half per cent rotenone dust at the
same time, and followed two weeks later with another application,
will reduce the damage to a negligible amount.
sweet clover weevil.— This European weevil (Sitona cylin-
dricollis Fahr.) has proved itself to be highly destructive to sweet
clover in the eastern part of the United States and Canada. Its in-
jury seems to be greatest to new seedings, which sometimes have
to be replanted, but it is not limited at all to these small plants. The
obvious damage is caused by feeding on the leaves and stems and,
according to observations which have been made in Ontario, this
injury is primarily suffered by sweet clover although alsike and
black medic are attacked. Although this pest is found on alfalfa
and red clover, these two crops seem to be little injured.
Since the first observation of the sweet clover weevil in the
United States in 1933, it has travelled rather rapidly toward the
west. It was first discovered in this country at Middlebury, Ver-
mont, and further surveys carried on during that season disclosed
its presence in New York, Connecticut, and Massachusetts. In
August and September of 1935 it was noted injuring sweet clover
plantings in Ontario. It was reported from Manitoba in 1939, Il-
linois in 1940, Minnesota, eastern North Dakota, and eastern Sas-
katchewan in 1941, and on September 11, 1942, a good series of spec-
imens was received in this office from Wibaux, Montana. Besides
the above states it has been taken in Wisconsin, Missouri, and Iowa.
It is probably more widely distributed in eastern Montana than the
single record indicates.
From the first reports on this new pest it appears that its in-
jury is quite severe to sweet clover. How injurious it will be in
Montana remains to be seen. If it greatly damages this crop it will
22
MONTANA EXPERIMENT STATION BULLETIN 408
be of considerable importance not only to the farmer but to the
beekeeping industry as well.
The sweet clover weevil is a grayish snout beetle, from one-
eighth to three-sixteenths of an inch long. It may occur in large
numbers, from 25 to 100 per square yard having been reported.
Injury to this crop should be watched for, and if beetles answering
the above description are found they should be sent to the State
Entomologist's Office at Bozeman.
Some insecticidal tests were tried in Ontario, but as yet no
satisfactory method of control has been developed.
pea weevil.— During the past few years this pest (Laria pi-
sorum (Linn.) ) has increased in importance in some parts of Mon-
tana. The two areas most heavily infested at the present time in-
clude a region from the vicinity of Missoula to the north and west
to the State line, and the Valley of the Clark's Fork of the Yellow-
stone from Bridger and Roberts north to the Yellowstone and in-
cluding some areas near Billings. These areas were surveyed dur-
ing the latter part of June, 1942, and although the pea weevil is
widespread in them, there were but isolated spots where it was
at all abundant.
Figure 6. Pea weevil. Right, adult beetle ready to emerge from dried
pea; left, injury to green pea caused by entrance of newly hatched larva.
Greatly enlarged.
The apparent increase in numbers of pea weevils recently may
be the result of at least two things. In the first place peas contain-
ing up to 10 per cent weevils were used for seed in some parts of the
State during the spring of 1942. This certainly had an effect in the
local increase of the species in areas where such seed was planted.
In the second place, most of the State has experienced a series of
mild winters with considerable snowfall which would allow more
of the pests to live through the winter out-of-doors. The survey
indicated clearly that this was taking place.
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 23
Whether the presence of this beetle in the State indicates a
future of higher populations and increased difficulty, similar to
other areas in the Northwest, is problematical. It has appeared in
the State many times in the past and would seem to have ample
opportunity to have established itself and reached maximum popula-
tions long ago. Our first records go back to March, 1912, and it has
appeared periodically since then. Further, a seed company reports
its presence in the Bitterroot Valley twenty-five years ago. How-
ever, this does not minimize the importance of obtaining weevil-
free or adequately fumigated peas for seed, or of watching fields
planted either for seed or for canning purposes, and taking adequate
protective steps in case economic infestations are found.
Control of the pea weevil is discussed in Montana Extension
Circular Series A-30.
bean weevil. — The bean weevil (Acanthoscelides obtectus
(Say) ) is a beetle closely related to the pea weevil, but differing
in its hosts and habits. The pea weevil will overwinter in stored
peas, but will not reproduce in them. On the other hand, the
bean weevil continues to breed in stored beans through the period
of storage if temperatures are sufficient. While our records are
doubtless incomplete, this pest seems to be much less common in
Montana than the species attacking peas. We have two records, one
from Bozeman, and one from Billings. It can be controlled by the
usual fumigation procedures.
plum GOUGER.-The plum gouger (Anthonomus scutellaris Lee.)
is the primary pest of plum fruits in the State. It apparently is
present throughout the State, for it has been reported all the way
from Broadus in the southeast to Poison in the northwest. It is a
medium-sized weevil, bluish-brown to brown in color, with the head
and thorax lighter, and with a rather conspicuous slender snout.
The characteristic injury to the plums is more conspicuous than is
the weevil itself. The skin is punctured, and the pulp beneath
fed upon. The eggs are laid in holes somewhat similar to the feed-
ing punctures, and upon hatching the young larvae bore directly
into the pit, feeding there until they are fully grown. Pupation
takes place in the pit and the adults emerge in late August or in
September. They feed very little that season, and soon find shelter-
ed quarters for winter hibernation. In the spring they emerge
and feed on the buds and leaves.
To control these pests the trees should be sprayed with the
usual lead arsenate sprays before the blooms have opened, and at
ten-day intervals until the fruit is well developed.
plum curculio.^ In the First and Second Reports of the State
Entomoligist, Cooley reported that the plum curculio (Conotrachel-
us nenuphar Herbst) was possibly present in the Bitterroot Valley
in western Montana. In 1922 apples at Hamilton bore typical scar
injury of this pest. Not until June 1942, though, were specimens
24 MONTANA EXPERIMENT STATION BULLETIN 408
actually taken in Montana, when a mixed collection of this species
and the plum gouger was received from Miles City.
The plum curculio is a "broad-shouldered" snout beetle about a
sixth of an inch long, brown or black in color with lighter mark-
ings and with rough-looking wing covers. It is primarily a pest of
stone fruits, but may cause considerable injury to apples. Feed-
ing punctures are quite similar to those of the plum gouger. The
egg punctures are characteristic of the species. After the egg has
been placed beneath the skin, the female turns around and makes
a crescent-shaped slit partially around and beneath the egg cavity.
This type of wound is not made by the plum gouger and will serve
to indicate whether or not the plum curculio is present.
The larvae burrow into the fruit and lie next to the pit, and the
fruit often drops prematurely. Pupation is in the soil and in about
a month the new generation of beetles appears above the ground.
They may feed for some time in the fall, after which they hibernate
in protected places.
Injury caused by this pest can be greatly reduced by spraying
the trees with lead arsenate. The first application should be made
just after the petals have fallen and a second, ten days later.
seed-corn maggot.— This pest (Hylemia cilicrura Rond.) was
especially abundant in the Yellowstone Valley during the spring
of 1942, more so than in many years. The spring was very wet and
cool, and the growth of crops retarded, a combination of factors
which would be expected to bring on an infestation of these insects.
As a usual thing this injury is limited to crops in soils rather rich
in humus, but during the last spring conditions were such that
bean plantings on light sandy soils showed from 10 to 30 per cent
loss by the middle of June. Injury reported or observed included an
area from Bozeman east and north to Froid, and seemed to center
in the Yellowstone Valley near Billings, and up the Clark's Fork of
the Yellowstone to a point well beyond Bridger.
Corn and peas were attacked to some extent, but by far the
greatest damage was suffered by beans (figure 7) . It was neces-
sary to replant many of these fields. Usually eggs are laid in moist
soil where there is plenty of decaying vegetation. The larvae may
feed as scavengers on this material, but when succulent sprouting
plants or large soft seeds are present they make their way into
these. The larvae are typical fly maggots, cylindrical, pointed at
the front end, and dirty white in color. When the infested area
around Billings was visited on June 18, 1942, the adult flies were
emerging from the soil in large numbers. These flies are smaller
and more fragile looking than a house fly, and more grayish-brown
in color.
Thorough mixing of the vegetable matter in the soil, and any
cultural procedure which will tend to dry out the surface of the
ground will assist in reducing the damage caused by this pest.
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 25
Figure 7. Injury to bean seedlings caused by the seed corn maggot.
mink maggots.— On June 16, 1941, live maggots were re-
covered from mink pups in Helena by the Livestock Sanitary Board,
and transmitted to this office for examination. On the 18th two
of them were placed in moist sand. These pupated and emerged on
July 1 and 2, and were identified as flesh flies belonging to the
species Wohlfahrtia meigeni (Schin.). This and the related eastern
species (W. vigil) not uncommonly attack living animals such as
foxes, rabbits, dogs, and mink, and there are a good many records
of vigil attacking humans, especially small children. In the case
at hand the maggots were apparently the cause of the death of the
mink pups.
Wohlfahrtia meigeni was first obtained for the Montana Agri-
cultural Experiment Station when specimens were collected on
May 29th, 1907, in Bozeman. Since then other specimens have been
taken at Helena and Rapelje, and it probably enjoys a state-wide
distribution.
cabbage maggot (Hylemia brassicae (Bouche) ) on turnips.
Early turnips grown in the Billings area for table use were dis-
figured in the spring of 1942 by larval tunnels of the cabbage
maggot. Adult flies emerged June 25-30 from mature larvae and
26 MONTANA EXPERIMENT STATION BULLETIN 408
pupae collected June 20 in soil along the turnip rows. Attack on
nearby cabbage plants was noticeable, but not severe.
Damage from this maggot is most severe in cool, moist seasons.
Adult flies appear in May and lay eggs in soil crevices on or near
the roots of cabbages, radishes, and turnips. The larvae are de-
structive by riddling or disfiguring the plants below the soil sur-
face. Young plants may be protected by soaking the soil around
the roots with calomel (mercurous chloride) % ounces and 1 ounce
of gum arabic to 10 gallons of water. The material may be applied
to the soil along the row by sprinkling can, coarse sprayer, or a
cup. Ten gallons of the liquid will treat about 400-500 plants.
wheat stem sawfly.— This broad-waisted wasp (Cephas
cinctus Nort.j is a native Great Plains insect. Originally it lived
on native grasses, and when large acreages of this vegetative cover
were plowed up and replaced with cultivated small grains it trans-
ferred to these crops. In Montana it is most abundant and in-
jurious in the eastern plains area north of the Missouri River, and
during the last few years it has destroyed a great deal of wheat
in this region.
The larva of the wheat stem sawfly weakens the wheat straw
an inch or two above the ground level, and as the stems dry and
the grain matures they break over and lodge. At the beginning
the injury is of a marginal nature, being the worst around the
edges of the field. Because of this, strip cropping, in infested areas,
is likely to suffer greater injury than large, solidly blocked fields.
The life history and control of this insect can be obtained from
Montana Extension Bulletin 176, or from Montana Extension Cir-
cular Series A-37.
earwigs. — The European earwig (Forficula auricularia h.) was
first reported from the State in the last State Entomologist's Report.
During the past two years two new infestations have been located.
Besides previous records we now know of their occurrence in Mis-
soula and at Bozeman Hot Springs, just west of Bozeman. The
third specimen of the little earwig Labia minor L. to be collected
in Montana was obtained in August, two miles south of Bozeman.
Both of these species seem to be well established in the State at
the present time.
BIENNIAL REPORT OF THE MONTANA STATE
APIARIST, 1942
J. F. Reinhardt, State Apiarist
THE BEEKEEPING INDUSTRY IN MONTANA
Approximately 36,000 colonies of bees are operated in Montana.
They produced about 4,600,000 pounds of honey and 150,000 pounds
of beeswax for a gross income in 1942 of slightly over one-half
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST
27
million dollars. A unique fact is that Montana reports the largest
average crops of honey per colony in the United States, almost
three times that of the national average for the past three years.
This report has created some illusions about Montana beekeeping
territory. However, two main factors contribute to any honey
crop record, the operator and the territory, and credit for this record
is due, really, to a small group of 75 professional beekeepers who
own and operate 93 per cent of the bees in the State. Another
avocational group of 60 operates 4.6 per cent and an amateur group,
70 per cent of the beekeepers in the State, operate 2.4 per cent of
the bees.
Distribution of bees by registration group is illustrated by
figure 8. These data seem to indicate that Montana's production is
due to a combination of efficient commercial management plus
good territory. In other states commercial management has pro-
7<m
II
51
ZOl
301 401
l„
II
51 ZOl
to
to
to
to
to l/p
400 r
to
to
to to
10
50
ZOO
iOO
10
50
200 ZOO
* 401
t» uo
400 "
MunBE-COrCoLOniE-5 BYBE-6I5TRATION GROUP5
Figure 8. Distribution of bee colonies and beekeepers by registration groups.
28 MONTANA EXPERIMENT STATION BULLETIN 408
duced better records though they are not reflected in statistics
because the proportion of commercially operated bees is much
smaller in those states.
DISEASE CONTROL
Paramount among the problems of all classes of beekeepers
in the State is the disease, American foulbrood. Montana had no
State-supported disease control program during the period 1933 to
1941. This relaxing of control permitted a marked rise in the inci-
dence and spread of the disease. Many amateur and several profes-
sional beekeeping operations died out with the bees. Some apiaries
of 40 to 50 colonies were simply abandoned with the hives left on
the stands, bees dead and honey robbed out. Commercial beekeep-
ers strove to keep territory free of disease by buying out small api-
aries to burn them and salvage what was profitable. To render some
inspection service of value to the State as a whole with extremely
limited funds it was necessary to form an inspection policy around
certain facts. The commercial beekeeper in infected territory knows
American foulbrood and how to fight it in his own apiaries. He
has to fight the disease to stay in business, whereas the amateur
and avocational beekeeper knows little about the disease, is often
indifferent, and it is not essential to his livelihood to practice
disease control. Hence, the most urgent inspection appeared to
be among the beekeepers of the amateur and avocational classes.
Conditions further indicated the necessity of carrying out the
control measures by the inspector. If control is left to individual
owners only about 50 per cent of them will carry out the control,
and the entire purpose of inspection is defeated. Hence, diseased
bees are usually burned on the spot as promptly as possible.
It must be kept in mind that the inspection record includes
mostly amateur and non-professional beekeepers, and represents
conditions only among those classes. Since there is no prospect in
the immediate future for the inspection of all commercial bees, the
State Apiarist is impelled to exercise a policy of depending on com-
mercial beekeepers to control disease in their own apiaries. In
exceptional cases the inspection of commercial apiaries has been
definitely warranted. However, in general, the profit motive is an
incentive for the commercial man to clean up and salvage diseased
bees as efficiently as possible.
Montana has about 500 box hives without modern movable
combs (generally regarded as impossible to inspect) . The State
Apiarist has found it not only possible, but in numerous cases
effective to inspect these hives. The procedure is simple in most
cases. The hive is tipped over and the bottom pried off with a
large hive tool made from an automobile spring. The combs can
then be folded back and forth like leaves of a book to inspect the
brood for sunken and perforated cappings. If that is not satis-
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST
2<>
factory, a comb of emerging brood can be jerked out for more
thorough examination. The comb is replaced in the slot, the bot-
tom nailed back and the hive set up. The box hive is either dis-
TABLE
County
5. INCIDENCE AND DISTRIBUTION OF AMERICAN FOULBROOD IN
APIARIES INSPECTED IN 1941 AND 1942
Colonies
inspected
Colonies
A. F. B.
Apiaries
inspected
Apiaries
infected
1941
Big Horn 608
Cascade 77
Flathead 47
Gallatin 143
Lake 602
Madison 64
Pondera 47
Ravalli 486
Sanders 150
Teton 18
Yellowstone 136
Other 150
Totals 2528
Blaine 288
Carbon 80
Cascade 41
Chouteau 2
Dawson 28
Fergus 130
Flathead 150
Gallatin 91
Jefferson 4
Lake 280
McCone 7
Park 24
Phillips 23
Pondera - 71
Ravalli 489
Richland 28
Sanders 123
Stillwater 46
Sweet Grass — - 22
Teton 19
Valley 68
Yellowstone ■ 329
Totals 2343
286
10
9
13
16
2
23
16
7
24
19
7
211
99
33
0
5
0
23
16
7
53
45
20
27
25
6
0
5
0
16
18
7
5
4
2
681
278
100
26.9%
36%
1942
57
10
5
39
5
5
22
5
2
0
1
0
0
3
0
30
28
6
17
38
8
6
13
3
2
3
1
46
78
21
0
3
0
0
5
0
5
7
2
24
15
2
69
51
15
0
7
0
3
20
1
19
3
3
8
4
2
0
4
0
23
11
4
62
12!)
1 1
432
343
91
18.4%
26.5%
30 MONTANA EXPERIMENT STATION BULLETIN 408
eased or it is not. The inspector seldom arrives at the moment
the first diseased cell appears. This method in no way excuses
box hives and the human lethargy and indifference that go with
them. It has simply proved expedient where it takes two minutes
to inspect a hive but two hours to burn it if orders to transfer are
not heeded. Needless to say the above technique is not effective on
bees in wash boilers, barrels, chicken brooders, dog houses, and
ice cream freezers though all are on record in the State.
In those counties where inspection is reported for both 1941
and 1942 we have a partial measure of how effective the disease
control program has been. A review of the number of infected
apiaries (foci of infection) indicates that in most counties the num-
ber is being reduced. Noteworthy is the case of Sanders County
where in 1942 the disease was found in only three hives in one
apiary. It is possible that two years' inspection will achieve com-
plete eradication in this county. Other counties with larger areas
of beekeeping territory do not show such marked reductions. Of
the 608 inspections in Big Horn in 1941 all but three were in
commercial apiaries. In Yellowstone County the inspection of
new territory and of certain commercial apiaries together with
an unfortunate outbreak of disease from one focus of infection
combine to cover up what progress has been made. In Flathead,
Lake, Pondera, and Ravalli counties considerable territory not pre-
viously inspected was covered in 1942, yet definite decreases in
the incidence of disease and the number of foci are indicated.
The disease conditions among the 33,500 commercially op-
erated bee colonies is another story since very few were inspected
by the State Apiarist. The annual loss is estimated at 5 per cent,
occurring as would be expected according to a contagious distri-
bution. Some operators have been absolutely free of disease for
years, most operators are sufficiently hampered to require several
regular inspections annually and about 5 per cent loss of profits.
Occasionally the incidence of disease rises to the loss of entire
commercial losses have been distinctly cut down and avoided. But
In the counties where there are numerous amateur beekeepers
commercial losses have been distinctly cut down and avoided. But
in several other areas inspection has shown little progress in ward-
ing off these financial losses. The answer is that disease in a
neighboring beehive is only one of a number of factors involved;
others are the present labor shortage (making adequate inspection
and disease control difficult) , lack of equipment, vandalism, and
most important, the failure to practice positive swarm control
measures in years past. It is usually assumed the "wild" bees in
trees, rimrocks, and buildings very seldom have disease. Explana-
tions may vary, but high among them is that involving the presence
of the greater wax moth which quickly destroys the combs in a
dead hive. Montana has practically no wax moth. Coincident with
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 31
the absence of the wax moth, territory in Montana may be very
easily infected with American foulbrood. Swarms in trees and rock
ledges become infected and die out. In turn the combs are robbed,
another swarm takes possession, stores a little honey and the story
is repeated. How permanent these reservoirs of infection are is
only a conjecture. But the adage is well illustrated that swarm
control is disease control.
Various measures have been tried by beekeepers to avoid in-
fection from the territory — package bees, winter locations, crop
locations and bee-tree hunting. The most promising solution
appears to be the use of disease-resistant bees in locations where
disease is frequently picked up.
UTILIZATION OF MONTANA'S BEEKEEPING RESOURCES
The Montana apiculture laws vest the State Entomologist
with an unusual authority:
"Before a permit for the movement of bees into the State
may be granted, it shall be determined by the State Entomologist
that the territory to which movement is requested shall not be
over-crowded and such movement shall not be detrimental to
the best interests of the beekeeping industry. Beekeepers shall
be notified of any request for the movement of additional bees
and equipment into their established territory and shall have
thirty days in which to enter any protest or reason why this
permit shall not granted.
"The State Entomologist may in his discretion authorize
permits for the shipment of bees on combs into Montana."
This is a historic clause because, though only indirect, it
grants legal authority to recognize a commercial beekeeper's ethic-
al right to keep bees in a certain place to the exclusion of certain
other commercial beekeepers. It is the beekeeper's effort to sac-
rifice some liberty and thereby gain some security.
Overstocking of western territory has frequently resulted
in a demoralizing influence on the industry. In few businesses
are the operators in more direct and complete competition with
each other. When beekeepers have to compete for territory fric-
tion often develops which may lead to criminal malpractices.
There are some signs of actual overstocking of territory in certain
parts of the State. If Montana is the best beekeeping territory in
America (as the U. S. Bureau of Agricultural Economics reports) it
is only natural that Montana beekeepers are jealous of their terri-
tory. All of the beekeeping industry is located in the narrow irri-
gated valleys which embrace 1.5 per cent of Montana's total area, or
an area approximately equivalent to the State of Delaware. Hence
her beekeeping resources are not unlimited. That limit may not
be known until it is exceeded.
32 MONTANA EXPERIMENT STATION BULLETIN 408
Permission to enter bee colonies from out of State to territory
now well occupied by commercial beekeepers has been refused.
These actions have had a surprising effect. When newcomers are
given to understand they cannot crowd their way in they are all
the more desirous of coming in. They seek this new protection,
slight as it is. The actual result has been that beekeepers wishing
to move outfits into Montana have sought out unused territory of
value and are putting it into production. Far from being a State
trade barrier, an unprecedented number of bees have entered and
are entering the State. For the period July 1, 1941 to June 30,
1943, the total entries granted or pending are 6,700 colonies, over
one-fifth of Montana's bees in 1941. Small as this regulation may
seem it has increased Montana's beekeeping industry and avoided
the abuses of overstocking. What the policy will be when the
frontier disappears we cannot predict though that time is not far
away. Nor do we know whether the Montana regulation is a step
in the ultimate control of beekeeping territory on a priority basis.
Though it has achieved a result which we believe to be highly
satisfactory, it has not been easy to administer.
Another opportunity to utilize Montana's honey resources
receives little attention. There are many spots where it is not
practicable for commercial beekeepers to operate because of the
distances to be traveled and the small productivity of the areas.
Some avocational and amateur beekeepers have been remarkably
successful in these small geographically isolated localities where
they live. The ranks of the avocational one-apiary beekeeper could
be swelled many-fold. There is no transportation problem, the
territory supports small apiaries well, and if the crop should fail
the operator is not dependent on it for a livelihood.
At the same time it should be noted that practically no line of
agricultural endeavor has more people who dabble at it more or less
unsuccessfully. The success of the amateur beekeeper is directly
proportioned to his knowledge and skill in managing bees, and the
average amateur beekeeper is not a successful one. Indeed, the
actual experience of many an amateur is in shaking a swarm off
a bush so it may enter a box. Sometimes the entire knowledge of
apiary management is included in shaking a bush. The crop may
not be harvested at all and the hive never opened from the time
the inspector visits one year until he visits again the next year.
The answer to this problem is an active extension program.
Perhaps the most potent extension tool is the actual inspection
of apiaries. When the owner is indifferent nothing is achieved
beyond actual inspection. But personal contact arouses interest
and leads to the solution of problems. Hundreds of bulletins, lists
of literature, and supply catalogues have been circulated by per-
sonal contact and by mail.
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 33
The last spring short course in Flathead County, called by Mr.
Leonard Eliason, County Agent, seemed to be quite successful. An
average number of ten persons attended four three-hour meetings
on consecutive days. Small attendance was compensated for by the
interest and enthusiasm of the group. Nowhere else in the State
is amateur beekeeping conducted on such a high level of success
as in the vicinity of Whitefish. Here amateur beekeeping reflects
the results of the short course and the friendly personal influence
of one skillful beekeeper. Short courses may show good results in
areas where the population is of sufficient density to yield an
interested group. But in many sparsely settled isolated areas
distance is a controlling factor. When funds and organization
permit a more active extension program a correspondence course
or radio lecture series would serve a useful purpose where short
courses would prove impractical. Present policy has been to
focus as much time and attention as possible on the problem of
disease control.
BEEKEEPING AND THE WAR EFFORT
Beekeeping occupies a rather significant though somewhat ob-
scure place in Montana's agriculture. In the products, honey and
beeswax, we find an essential food and an extremely critical war
material. Honey exists as a luxury in minds of many individuals.
But honey is sugar, or more exactly, a water solution of natural
sugars. It displaces an equivalent amount of granulated sugar in
the diet. It behaves as a sugar supplement in the market. Sugar
shortages created a honey boom during World War I and the story
has been repeated in 1942. Limited shipping has cut off our im-
ports of beeswax as well as sugar. During normal times we import
half of the beeswax we consume. Domestic production must now
supply the entire load. The demands for beeswax for ammunition
jjreage^ finishes, waxes, polishes, leather dressings, machine pat-
ternsTpharmaceuticals, dental impressions, must and will be met;
demands for modeling, cosmetics, candles and other industrial uses
probably will not be met
Still the most important contribution of bees is not that of
honey and wax. The production of fruits, certain vegetables,
leguminous forage crop seed is largely dependent on the services
of honey bees in the pollination of blossoms. For example, studies
by the Montana Agricultural Experiment Station on sweet cherries
in Lake County showed that orchards where bees were provided
had a blossom set two and one-half times that of orchards farthest
distant from bees. By flower visitation bees have entered the
production lines of fruits, vegetables, dairy products, meats, leath-
er, and wool, and thus have taken an essential place in a balanced
agriculture.
34 MONTANA EXPERIMENT STATION BULLETIN 408
In view of the war effort the U. S. Department of Agriculture
called for as large an increase as possible in the production of
honey and wax in 1942, and increased cooperation with other
agricultural producers who need the pollination services of bees.
With this recommendation came the warning that beekeeping is
a skilled profession; and, though now is as good a time as any to
learn it, amateurs without experience cannot expect to jump in
with borrowed capital and make a commercial success of it. This
recommendation together with higher prices and War Production
Board quotas and priority ratings has resulted in increasing com-
mercial operations by about 20 per cent in 1942, with a proportion-
ate increase in production. Due to irregularities of the weather
over the country as a whole, Montana is one of the few states that
showed an actual increase in production in 1942. This was achieved
by the expansion of existing outfits and also the movement
of approximately 2500 colonies into the State. The policy of per-
mitting movement of bee colonies from other states to unused bee-
keeping territory is increasing the pollination service to legume
crops in those areas.
The repercussions of the war on the beekeeping industry have
been and will be increasingly felt. Existing machinery and equip-
ment in honey plants have been on the whole adequate. One
exception is that higher prices and increased demand make it prof-
itable to pay much more attention to wax production. Many out-
fits are inadequately equipped for wax handling and wax presses
are no longer available. Rubber truck tires will be increasingly
critical material. Modern commercial bee culture is based on
motor truck transportation from out-apiaries to warehouse and
back. Constant use during the season and the margin of profit
makes it very impractical to attempt to satisfy this need with com-
mercial vehicles and common carriers. The real shortage will be
felt in 1943 and 1944 as present rolling stock wears out. Tires will
be absolutely essential to maintain production. The labor shortage
has become critical to the point where labor is the controlling
factor in maintenance of production. Many outfits were expanded
this year without increasing the number of hired helpers. Some
of those workers were deferred from the Armed Forces only for
the current season. In several cases the owners have planned
killing their bees and liquidating their assets in preparation to in-
duction in the Armed Forces. Women and 'teen-age boys are being
used with considerable success in extracting plants and shops. But
the work in the apiary requires strong backs. Operators are in
a quandary over what proportion of their bees should be killed off
this fall. If more bees are wintered than they will have labor to
handle next year, those bees plus the honey they consume over
winter may represent considerable loss. The recent Selective
TWENTY-NINTH REPORT OF THE STATE ENTOMOLOGIST 35
Service System ruling that the profession of beekeeper be class-
ed as one of the critical agricultural occupations may alleviate the
situation and allow the maintenance of present production levels.
The picture is not entirely black. Price control of extracted
honey and wax has been a source of confusion, but beekeepers have
willingly accepted the principle of price control. Present ceilings
allow them to show a reasonable profit on the books for the first
time in many years. With this salvation from financial uncertain-
ty and the abundant recognition of the place of bees in our common
way of life, the beekeeper deserves and now has a portion of his
reward for persistence and service during the lean years of the last
depression.
36 MONTANA EXPERIMENT STATION BULLETIN 408
KNDEX
Page
Introduction 3
Major Insect Control Problems 4
Grasshopper Control, 1941-42 4
Outlook for 1943 10
Mormon Cricket Control, 1941-42 11
Stored Grain Insects 13
Other Important Insect Pests, 1941-42 -14
New Introducted Livestock Pests 14
Primary Screw worm 14
Spinose ear tick 15
Miscellaneous Records and Observations 17
Say's stinkbug 17
Corn leaf aphid 17
Potato and tomato psyllid 17
Red-humped apple caterpillar 13
Diamond back moth 13
Sugar beet webworm 19
Spruce budworm 19
Army cutworm 19
Pale western cutworm „ 19
Corn earworm _ 20
Raspbery root or crown borer 20
Raspberry fruitworms ..— - 20
Sweet clover weevil 21
Pea weevil 22
Bean weevil -- 23
Plum gouger 23
Plum curculio -23
Seed-corn maggot 24
Mink maggots — - 25
Cabbage maggot 25
Wheat stem sawfly 26
Earwigs .26
Biennial Report Of The Montana State Apiarist, 1942 26
Beekeeping Industry in Montana 26
Disease Control _ 28
Utilization of Resources 31
Beekeeping and the War Effort 33