U.630.7
I (Be
no. 899
1978
cop. 5

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CIRCULATING COPY
AGRICULTURE LIBRARY

1978 Insect Pest Management Guide
FIELD and FORAGE CROPS

You must be certified as a pesticide applicator to use "restricted

use" pesticides. See your county extension adviser for information.

Federal and State Laws ehlor seed-treatment label was unaffected by the suspen-

The U.S. Environmental Protection Agency is classifying sion order> so heptachlor can continue to be used for this

pesticides as either "general" use or "restricted" use. purpose.

Anyone applying a restricted-use pesticide must be certi- . .. .. . -. ._ a.

_ ; _ , , . ., , , , -r j i- Insecticides and Classifications

fied. Only a few pesticides have been classified at this .... . .

.• At the time this publication was in preparation, only a

Commercial applicators who apply restricted-use pesti- f™ of „the insecticides listed below had been classified for

cides must be certified. Commercial applicators include either restricted or general use by the EPA. Addi-

not only persons applying a pesticide for hire but also tlo"al insecticides are expected to be classified before the

governmental personnel, chemical company represents- 1978 PlantinS season- Your county extension adviser will

tives, and others involved in demonstrational, regulatory, have additional information on insecticide restrictions. An

and public health pest control. Certification as a commer- astensk(*) is used throughout this circular to indicate

cial applicator requires passing a written examination insecticides classified for "restricted" use by the EPA.

administered by either the Illinois Department of Agricul- The chemical names used m this circular may be un-

ture or the Department of Public Health. famihar to ^ou- These names are the common coined

Private applicators who use restricted-use pesticides chemical names and as such are not capitalized (for ex-

"f or the purpose of producing any agricultural commodity amPle' terbuf os) ■ Trade names are capitalized ( for exam-

on property owned or rented by him or as exchange labor Ple' Counter). In the table of limitations, the trade names

(no compensation) on the property of another" must also are hsted first' and the common name is in parentheses

be certified, either by attending an educational training following the trade name. In the tables of suggestions,

program or by passing an examination. 0^ the trade name is used if there is one- In case of

Educational training programs for farmers (private questions, refer to the following list or to the table of

applicators) and commercial pesticide applicators are imi a 10ns-

conducted by the Cooperative Extension Service to pre- Trade name Common name Classification

pare persons for certification. For additional information, Counter terbufos unclassified

consult your county extension adviser. The actual certifi- ^ygon dimethoate unclassified

, , . . . . ,. 1 1, i Dasanit fensulfothion unclassified

cation and the issuing of permits or licenses are handled diazinon diazinon unclassified

by the Illinois Department of Agriculture or the Depart- Dibrom naled unclassified

ment of Public Health. Di-Syston disulfoton unclassified

The chlorinated hydrocarbons — aldrin, chlordane, Dyfonate fonofos unclassified

dieldrin, endrin, heptachlor, and lindane — cannot be used Wo* ""' trichlorfon unclassified

... , , , . . „,, . *ethyl parathion parathion restricted

on dairy farms except around the farm residence. This Furadan carbofuran unclassified

ruling was adopted by the Illinois Department of Public *Guthion azinphosmethyl restricted

Health. Imidan phosmet unclassified

In 1974 the U.S. Environmental Protection Agency *Lannate methomyl restricted1

(EPA) suspended the manufacture of aldrin and dieldrin Lo,:sban chlorpyrifos unclassified

: . ,/ , TT . , , , , ,, malathion malathion unclassified

for agricultural purposes. Uses of heptachlor and chlor- Meta-Systox R oxydemetonmethyl unclassified

dane on corn were suspended by the EPA on August 1, methoxychlor methoxychlor unclassified

1976. However, any product containing heptachlor or *methyl parathion . . . methyl parathion restricted

chlordane that was formulated before July 29, 1975, may Mocap ethoprop unclassified

be used for any use listed on the product label. The hepta- • All formulations except water-soluble packages are restricted.

UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN

In cooperation with ILLINOIS NATURAL HISTORY SURVEY

COLLEGE OF AGRICULTURE
CIRCULAR 899

COOPERATIVE EXTENSION SERVICE
Urbana, Illinois, December, 1977

Trade name Common name Classification

*Penncap-M methyl parathion restricted

(microencapsulated)

Sevin carbaryl unclassified

Supracide methadathion unclassified

*Systox demeton restricted

Thimet phorate unclassified

toxaphene toxaphene unclassified

Trithion carbophenothion unclassified

(Consider all grain fumigants as restricted-use insecticides.)

Pesticide Safety

Certain precautionary steps should be taken when
handling insecticides. Some of the insecticides suggested
in the publication can be poisonous to the applicator. The
farmer is expected to protect himself, his workers, and his
family from needless exposure.

When using insecticides, apply all the scientific knowl-
edge available to insure that there will be no illegal residue
on the marketed crop. Such knowledge is condensed on
the label. READ THE LABEL CAREFULLY AND
FOLLOW THE INSTRUCTIONS. But the label should
be recent and not from a container several years old. Do
not exceed maximum rates suggested ; observe the interval
between application and harvest ; and apply only to crops
for which use has been approved. Make a record of the
product used, the trade name, the percentage content of
the insecticide, dilution, rate of application per acre, and
the date or dates of application.

Always handle insecticides with respect. The persons
most likely to suffer ill effects from insecticides are the
applicator and his family. Accidents and careless, needless
overexposure can be avoided. Here are a few rules that if
followed will prevent most insecticide accidents:

1. Wear rubber gloves when handling insecticide con-
centrates.

2. Do not smoke while handling or using insecticides.

3. Keep your face turned to one side when opening,
pouring from, or emptying insecticide containers.

4. Leave unused insecticides in their original contain-
ers with the labels on them.

5. Store insecticides out of reach of children, irre-
sponsible persons, or animals ; store preferably in a locked
building. Do not store near livestock feeds. Better yet, buy
no more pesticide than you will use. This eliminates a
pesticide storage and disposal problem.

6. Wash out and bury, burn, or haul to the refuse
dump all empty insecticide containers.

7. Do not put the water-supply hose directly into the
spray tank.

8. Do not blow out clogged nozzles or spray lines with
your mouth.

9. Wash with soap and water exposed parts of body
and clothes contaminated with insecticides.

10. Do not leave puddles of spray on impervious sur-
faces.

11. Do not apply to fish-bearing or other water sup-
plies.

12. Do not apply insecticides, except in an emergency,
to areas with abundant wildlife.

13. Do not apply insecticides near dug wells or cisterns.

14. Do not spray or dust when weather conditions
favor drift.

15. Observe all precautions listed on the label.

16. To avoid bee kill, apply insecticides after bee activ-
ity has been completed for the day; use the least toxic ma-
terials. Warn beekeepers that youare applying insecticides.

Policy Statement

Suggestions for the use of insecticides are based on
available data. Soil texture, soil pH, rainfall, slope of the
field, wind velocity at planting, and other unpredictable
factors affect the efficiency. Please report control failures
and the circumstances associated with such failures to us.

Requested label clearances for a few uses of some
insecticides, carriers, and solvents are uncertain for 1978,
since many requests have not yet been officially cleared.
Anticipating needed changes in labeling, we began modify-
ing these suggested uses a few years ago. We have at-
tempted to anticipate any further label changes in 1978,
but an occasional use may still be canceled. Be sure to
check with your county extension adviser if you are in
doubt about the insecticide you plan to use. We will make
announcements of label changes through the news media
to keep you up to date.

Suggestions for Insect Control in 1978

Predicting Need for Soil Insecticides on Corn

The type of crop rotation influences to a great extent
whether a soil-insect problem will occur and the kind.
Following are some guidelines for predicting soil-insect
problems in corn and determining the need for using a soil
insecticide at planting time. Exceptions can be expected
occasionally since soil-insect problems are influenced by a
variety of conditions unrelated to crop rotation — weather,
soil type, planting date, hybrid, tillage, natural enemies,
and others. Knowledge of soil-insect damage in a particu-
lar field in previous years is also helpful, since infestations
tend to occur in the same fields and in the same area.

Corn After Soybeans

The potential for soil-insect problems in corn follow-
ing soybeans is generally low. Soil insecticides are rarely
necessary. In most fields of corn after soybeans, a diazi-
non planter-box seed treatment will be adequate to protect
against attack by seed-corn beetles and seed-corn maggots.
There are a few exceptions. Corn rootworms may occa-

Co*? » ^>
sionally be a problem when beetles deposit their eggs in

soybean fields that contain volunteer corn, which when
planted to corn the following year may have economic
damage. Rootworm beetles will feed on the foliage of soy-
bean plants, and they are especially attracted into soybean
fields that are weedy or contain volunteer corn. Good weed
control will reduce the attractiveness of soybean fields to
rootworm beetles. Clean fields of soybeans will permit
soybean-corn rotations with noneconomic damage from
corn rootworms. Black cutworms may be a problem in
corn where excess soybean plant debris remains on the
soil surface. White grubs are an occasional problem in
east-central Illinois in corn after soybeans.

Corn After Corn

The potential for rootworm damage is moderate to se-
vere in the northern two-thirds of Illinois, and a rootworm
insecticide may be needed in fields of continuous corn.
Wireworms are occasionally a problem in southern areas.
See discussion under rootworms.

Corn After Grass Sod

Wireworms and white grubs are potential problems.
Apply a soil insecticide at planting time.

Corn After Clover and Alfalfa

Grape colaspis, grubs, wireworms, and cutworms are
potential problems. Rootworms may be a problem in
northern Illinois in corn following clover or alfalfa. Apply
a soil insecticide at planting time.

Corn After Small Grain

There is a slight potential for damage by wireworms,
seed-corn beetles, and seed-corn maggots. In most in-
stances, a diazinon planter-box seed treatment will be ade-
quate. If wireworms are present, use a soil insecticide at
planting.

Corn Rootworms

Rootworm Situation, 1978. Moderate to severe dam-
age by western and northern corn rootworm larvae is
expected in many fields of corn that follow corn in the
area north of a line from Belleville to Lawrenceville (see
map). The potential for rootworm damage south of this
line is low. These predictions are based on a survey of
rootworm beetle populations taken in late July, 1977.

Western and northern corn rootworm beetle popula-
tions were very high in the northern two-thirds of Illinois
in 1977. Corn growers in the potential problem areas
should base the need for using a soil insecticide on the
abundance of rootworm beetles last summer. If they aver-
aged one or more per corn plant during late July and
August, 1977, or if lodging or elbowing occurred during

F\kX

POTENTIAL, 1978

MODERATE
TO SEVERE

LIGHT
TO NONECONOMIC

that time, the need for using a rootworm soil insecticide is
high if the field is replanted to corn in 1978.

Rootworm Control by Cultural Practices. Here are
some suggestions to aid in control.

1. Crop Rotation. This is the most effective method of
preventing corn rootworm larval damage and should be
given serious consideration by growers in 1978. It greatly
reduces the number of egg-laying beetles on each farm.
If feasible, do not grow corn two years in succession in
the same field.

Farmers have been concerned about the number of
corn rootworm beetles observed in soybean fields during
1977. All research to date indicates that corn following
soybeans is unlikely to have a rootworm problem, and
consequently would not need to be treated with a soil
insecticide. An exception might be when corn is planted
after soybeans and there was an extensive infestation of
volunteer corn or weeds in the soybeans during August.
Corn following alfalfa may benefit from treatment since
rootworm beetles occasionally deposit their eggs in alfalfa
fields during the bloom stage in August.

3

Fields of corn planted in late May or June, 1977, may
have severe rootworm damage if planted to corn in 1978.
Late-planted fields of corn very likely attracted high num-
bers of rootworm beetles from adjacent fields during
August, 1977, seeking pollen and silks to feed upon. They
will lay millions of eggs in these late-planted fields of
corn. Planting these fields to a crop other than corn in
1978 will contribute toward reducing the overall rootworm
population. Any field with 5 or more beetles per plant
should be planted to another crop during 1978.

The larvae hatching from rootworm eggs cannot sur-
vive on the roots of broadleaf weeds or broadleaf crops
(soybeans, small grains, alfalfa, or sorghum). Thus when
a crop other than corn is planted in a field whose soil
contains millions of rootworm eggs, literally millions of
larvae will perish and not emerge as egg-laying beetles.

2. Planting Date and Variety. Plant last those fields
that had high populations of rootworm beetles last July
and August. Since egg-hatch commences in late May and
June, soil insecticides applied in May will be more effec-
tive than those applied earlier because they won't have as
much time to break down. Plant fields of corn after soy-
beans before planting fields of corn after corn.

Select a variety that has good standability and root-
regeneration capability. No varieties are resistant to corn
rootworm larvae, but some have more potential for root
regeneration than others.

Rootworm Control With Insecticides. The soil in-
secticides suggested will give 50 to 70 percent control of
corn rootworm larvae. This is adequate to prevent eco-
nomic larval damage in most fields. In some heavily in-
fested fields, there may be enough surviving larvae to
cause economic root damage.

Larvae that are not controlled by the insecticides will
emerge as beetles. High beetle numbers in fields last sum-
mer may leave the impression that rootworm control was
poor, but if plants were standing and well rooted, control
was probably acceptable even if populations were high.

Following are suggestions for rootworm control using
insecticides:

1. Planting-Time Treatments. Apply Counter, Dyfon-
ate, Furadan, Lorsban, Mocap, or Thimet in a 7-inch band

ahead of the press wheel at the recommended rate (see
table). Planting-time treatments applied in early April
may give marginal control. Consider a late-May cultivator
application in these fields, rather than a planting-time
treatment.

If a soil insecticide gave good results in 1977, it will
probably give adequate control in 1978. Exceptions
have occurred when a particular insecticide has been
used for several consecutive years in the same field. If
an insecticide gave poor control last year, switch to
another in 1978.

Research conducted in 1976-77 indicates that switching
from a carbamate (Furadan) to an organic phosphate
(Counter, Dyfonate, Lorsban, Mocap, or Thimet) may be
desirable, particularly if Furadan has been used for sev-
eral consecutive years in the problem field. In fields with
a history of Furadan use, rootworm control with Furadan
was marginal in 5 of 17 tests in 1976-77. In fields with a
history of two or more years of organic phosphate soil
insecticide use, rootworm control with a carbamate (Fura-
dan) was equal to or slightly better than control with the
organic phosphates in 11 of 11 tests.

Consequently, if control with Furadan was marginal
or poor in 1977, switch to an organic phosphate (Counter,
Dyfonate, Lorsban, Mocap, or Thimet) in 1978. In fields
where Furadan failures have occurred, it may be advis-
able to wait longer than one year before using it again. If
control with an organic phosphate was poor last year,
switch to a carbamate (Furadan).

A word of caution about rotating classes of soil insec-
ticides. In a few instances last year rotation of soil insec-
ticides did not give good results. The performance of an
insecticide that gives only fair control of rootworms will
not be improved by rotation with other insecticides. Per-
formance might be enhanced under favorable weather
conditions or with light infestations.

The theory of rotating classes of rootworm soil insecti-
cides, while basically sound, may be only a short-term
solution to a long-term problem. Whenever insecticides,
regardless of type, are used continuously and extensively
over a large area, insect resistance to insecticides is likely
to occur.

Soil Insecticides Suggested for Corn Rootworm Control at Planting, 1978

Class

Ounces of

product per

1,000 ft. of row

Pounds of product

needed per acre

Insecticide

40" rows

38" rows

36" rows

30" rows

Counter 15G

organic phosphate

8

6.7

7.0

7.4

8.7

Dyfonate 20G

organic phosphate

6

5.0

5.3

5.6

6.7

Furadan 10G

carbamate

12

10.0

10.5

11.1

13.3

Lorsban 15G

organic phosphate

8

6.7

7.0

7.4

8.7

Mocap 10G

organic phosphate

12

10.0

10.5

11.1

13.3

Thimet 15G

organic phosphate

8

6.7

7.0

7.4

8.7

During 1977, rootworm control research was con-
ducted at 16 sites with economic infestations. Counter was
satisfactory in 15 of 16 tests; Furadan in 14 of 16; Mo-
cap in 14 of 16; Dyfonate in 13 of 16; Thimet in 13 of 16;
and Lorsban in 10 of 16. Control in these tests was con-
sidered marginal for a treatment if enough brace roots'
were damaged by larvae to cause yield losses. These tests
do not necessarily indicate similar results in 1978, but
they are the best guide available.

Liquid formulations of Furadan 4F or Dyfonate 4E
may be mixed with water and applied as a spray in a 7-
inch band ahead of the press wheel or mixed with liquid
fertilizer and applied with a split-boot applicator. Some
farmers experienced compatibility or crop injury prob-
lems when using liquid insecticide-fertilizer planting-time
treatments in 1977. The liquid insecticide must be com-
patible with the liquid fertilizer. A test should be con-
ducted to make certain the mixture is physically compatible
before planting. Maintain agitation in the tank after mix-
ing and during application. Use caution when handling
liquid formulations. They are more toxic than granular
formulations. Broadcast applications of liquid and gran-
ular insecticides are not cleared for rootworm control.

2. Cultivator Treatments. The best time to apply a
basal treatment of a soil insecticide by cultivator is in
late May, near the time of egg-hatch. Such a treatment
may be more effective than planting-time treatments in
early April. Apply granular Dyfonate, Furadan, Mocap,
or Thimet in a band at base of plants just ahead of the
cultivator shovels and cover the granules with soil.

Cultivator applications of rootworm soil insecticides
have some limitations. If rainfall is low for 3 or 4 weeks
following the cultivator treatment, the insecticide granules
will remain on the soil surface rather than moving down
to where the larvae are feeding and control will be mar-
ginal. In the case of excess rainfall, it may not be possible
to apply the cultivator application at the desired time.

3. Control of Rootworm Beetles. We do not suggest
the use of insecticides to control rootworm beetles as a
means of reducing or eliminating next year's larval infes-
tations. Research thus far indicates this method of control
to be variable. In general, the soil insecticide alone has
been as effective as beetle control in late July or early
August plus a soil treatment the following spring. At
present, we suggest the use of aerial applications of insec-
ticides only to control rootworm beetles where pollination
damage may occur due to silk clipping.

Reasons for High Rootworm Beetle Populations in
1977. For the past three years, rootworm beetle numbers
have been increasing in Illinois and are now at an all-time
high. Climatic conditions favorable to the rootworm are
probably the major factors responsible for the increase.
Heavy rains immediately following planting hasten the

decomposition of the soil insecticides and reduce control.
Lack of rainfall may prevent the activation and movement
of the soil insecticide from the soil surface to the area
where rootworm larvae are feeding.

An increase in acreage of continuous corn, early plant-
ing, and low insecticide rates also contribute to increasing
rootworm populations. Soil insecticides applied at plant-
ing in early to mid-April lose some of their potency by
the time rootworm eggs are hatching in late May and
June. Late-hatching larvae are not controlled, resulting
in high survival and ultimately high beetle numbers. In-
secticides applied at less than the labeled rate will result
in poor or marginal control.

Use Scouting To Determine Rootworm Potential.
The presence or absence of rootworm beetles in a corn-
field is an excellent indicator of future rootworm prob-
lems. Corn growers can determine the potential for root-
worm damage in 1979 by counting western and northern
corn rootworm beetles between July 25 and August 25,

1978 in this way:

1. Count beetles in only those fields to be replanted to
corn in 1979.

2. Make two and preferably three counts for western
and northern corn rootworm beetles at 7- to 10-day inter-
vals between July 25 and August 25 in each field.

3. If you enter a field and discover a "fog" of beetles,
do not bother with the detailed counts.

4. Count the total number of western and northern
corn rootworm beetles on 50 plants each time. Examine 10
plants selected at random in five areas of the field. It will
take about 45 minutes to make your counts in a 40-acre
field.

5. Move quietly as you approach a plant in order not
to disturb the beetles. Count the beetles on the entire plant.
This includes the ear tip, tassel, leaf surface, and behind
the leaf axils. Pull the leaves away from the stalk and
look in the leaf axils.

6. For the ear-tip count, grasp the ear tip so the silks
are enclosed in the palm of the hand, and squeeze before
any of the beetles escape. Cut off the ear tip with a knife,
cutting only the silks. Open your hand slowly and count
the beetles that come out of the silks for each of the 50
plants.

7. Record in a small notebook the number of beetles
you find per plant.

If the average is more than one-half beetle per plant
for any sampling date, plan to apply a rootworm insecti-
cide in 1979. If a field averages less than one-half beetle
per plant for all the counts, it can be planted to corn in

1979 without a soil insecticide treatment.

Rootworm Life Cycle. Western and northern corn
rootworm beetles deposit their eggs in the soil at the base

of the corn plants or between the rows during August and
September. The eggs overwinter in the soil and commence
hatching in late May. Egg-hatch usually takes place over
a period of three to five weeks. Consequently, in July and
August all stages of the corn rootworm — egg, larva, pupa,
and adult — may be found. The rootworm larvae feed on
the roots of the corn plants during June, July, and August.
When a larva is fully grown (1/2 inch), it will build a
cavity in the soil and go into the pupal, or resting, stage.
After 5 to 10 days, the beetle will emerge from the soil.
The development from egg hatch to adult emergence will
take 27 to 40 days. Under field conditions and after mat-
ing, 14 days or more will elapse before the females com-
mence egg laying. Rootworm beetles may deposit up to
1,000 eggs ; an average of 500 per female is probably com-
mon. Most egg laying in Illinois occurs after August 1,
and a high percentage of the eggs are deposited after
August 10.

Black Cutworm Control

Early detection of leaf feeding or cutting by cutworms
is vital for effective control. When corn plants are begin-
ning to emerge, check fields for signs of leaf feeding, cut-
ting, wilting, or missing plants. Small cutworm larvae
(less than 1/2 inch) feed on the leaves and do not begin
cutting plants until they are about half grown. If you find
3 percent or more of the plants being cut and 2 or more
half -grown cutworms per 100 plants, a control measure is
needed. Apply a Sevin pelletized bait or sprays of Sevin
or Dylox at the first sign of cutworm damage. The pellet-
ized bait should be broadcast on the surface of the soil and
not incorporated. The sprays should be banded over the
row.

Planting-time treatments of Mocap 10G and Lorsban
15G have received label registration by the Environmental
Protection Agency. The label for Lorsban 15G states that
it "will control moderate to low infestations of cutworms."
The label for Mocap 10G states that it will "aid in the
control" of black cutworms.

Research indicates that a planting-time treatment of
Mocap or Lorsban is relatively effective in controlling light
to moderate infestations of cutworms, but control may be
unsatisfactory with heavy infestations. Because of the un-
certainty in predicting which fields will have light or mod-
erate outbreaks of cutworms, we do not suggest Mocap or
Lorsban as planting-time treatments in 1978. It is more
feasible to apply control measures when cutworm out-
breaks appear.

Planter-Box Seed Treatments

A diazinon planter-box seed treatment will protect
against attack by seed-corn beetles and maggots during
germination. Use a seed treatment in fields that don't re-
ceive a soil insecticide at planting or when Furadan, hep-
tachlor, or chlordane is applied at planting. The diazinon
planter-box seed treatment is not needed if Counter, Dy-

fonate, Lorsban, Mocap, or Thimet is applied at planting.
NOTE: Some loss of the seed treater will occur in air
planters. Excess dust from the seed treater may also inter-
fere with the monitor in air planters.

No-Till Corn

Soil insecticides can be profitably applied to corn fol-
lowing grass sod, or in any rotation in which grasses and
weeds are prevalent. In no-till corn research trials, Fura-
dan has controlled armyworms, billbugs, and flea beetles
and has suppressed common stalk borers, first-generation
European corn borers, wireworms, and white grubs when
applied at 2 pounds active ingredient per acre at planting
time in the furrow or as a 7-inch band ahead of fhe press
wheel. Lower rates of Furadan are less effective against
this insect complex, but may give better results than other
soil insecticides. Based on these data, growers with a no-
till corn program may wish to apply Furadan at planting
time.

On no-till corn following corn (except in the rootworm
area), soybeans, or a small grain, it does not generally pay
to apply a soil insecticide. However, a diazinon seed treat-
ment should be used.

Thimet, Dyfonate, Counter, Mocap, and Furadan will
give some control of wireworms and white grubs in no-till
corn planted in grass sod.

Alfalfa Weevil

In 1978 we expect alfalfa weevils to cause moderate to
severe damage to the first cutting of alfalfa in all areas of
Illinois. Growers should inspect alfalfa fields closely
during April and May for signs of weevil damage.

Pest Management

Insects and related pests play a major role in field crop
production in Illinois. Although agronomic practices de-
veloped during the past century have reduced the impor-
tance of some insect pests, they have increased the impor-
tance of others. Agronomic practices such as certain tillage
operations, destruction of crop residues, selection of re-
sistant hybrids, adjustment of planting dates, rotation of
crops, and so on, if used properly, still serve to help sup-
press insect populations. Where possible, these practices
continue to be used to provide more balanced insect con-
trol.

Practical applications of many insect-control tech-
niques continue to be thoroughly investigated. Such con-
trol methods as insect sterilization, insect growth regula-
tors, release of insect parasites and predators, attractants
for insect baits and traps, propagation and dissemination
of insect disease organisms, as well as the use of insecti-
cides, are being pursued. Despite the most optimistic re-
ports, however, it is readily apparent that insecticides will
be an important part of pest management for many years
to come.

FIELD CORN

Insect

Time of
attack

Insecticide1

Lb. active
ingredient per acre

Placement

Timing of application
(See table of limitations, page 11)

Corn root worm June- August

Counter

Dyfonate

Furadan

Lorsban

Mocap

Thimet

l2
l2
l2
l2
l2
l2

7-inch band Apply ahead of planter press wheel. See dis-

cussion on page 4. Basal treatments during
cultivation with Furadan, Dyfonate, Thimet,
or Mocap are effective in late May or early
June.

Seed-corn beetle At germination diazinon

1H oz. per On seed Or as a band treatment, use Dyfonate or

bu. of seed Thimet.

Seed-corn maggot At germination diazinon

1J^ oz. per On seed Or apply Counter in the furrow or band treat-

bu. of seed mentsof Dyfonate.

Wireworm

May-June

Counter

Dyfonate

Furadan

Mocap

Thimet

l2

Furrow

4

Broadcast

22

Furrow

l2

7-inch band

l2

7-inch band

Counter and Furadan should be applied in the
seed furrow. Except for Dyfonate, apply all
others as a 7-inch band ahead of the press
wheel. If infestations are severe, control may
not be satisfactory. Counter and Thimet are
labeled for the reduction of wireworms.

White grub
Grape colaspis

Sod webworm

May-October
May-June

May-June

The soil insecticides suggested for wireworms will give partial control of white grubs and grape colaspis.
Furadan and Counter should be applied in the seed furrow and the other insecticides in a 7-inch band
ahead of the press wheel. However, they are not labeled for these pests.

toxaphene

At base of
plant

At time of initial attack.

Cutworms

May-June

Sevin bait

1-2

Broadcast

Sevin plus
molasses or Tractum

2

Direct at
base of plant

Dylox spray

1

At base of
plant

When feeding starts. Repeat if needed.
Same as above. Use 1 quart of molasses per
acre. Apply in the spray mix.
When feeding starts.

Billbug May-June

toxaphene

2

At base of
plant

Apply sprays as needed.

Garden symphylan May- July

Dyfonate

2

Broadcast

Before planting, lightly incorporate.

Grasshopper

June-September

Sevin
toxaphene
diazinon
malathion

1
2

Vi

Over row As needed. For ensilage corn use Sevin, di-

as spray azinon, or malathion.

Flea beetle

May-June

Sevin

diazinon

toxaphene

1
2

Over row When damage becomes apparent on small

as spray corn.

Armyworm

May-August

Sevin
malathion
toxaphene
Dylox
'Lannate3

IK
1

1

V2

Over row At first migration or when leaves below ear

as spray level are consumed and worms are eating

leaves above ear level.

Fall armyworm July-September

Sevin

diazinon

Dylox

*Lannate3

\}/2 In whorls Granules preferred when worms deep in whorl.

1 If worms are small and out on leaves, sprays

1 are effective. When silking, see suggestions for

]/2 corn earworm.

Chinch bug

June-August

toxaphene

2

Spray at base
of plant

At start of migration.

Thrips

June

malathion

1

On foliage
as spray

When severe wilting and discoloration are
noticed.

Japanese beetle

July-August

Sevin

1

Over plant

During the silking period to protect pollination.

Mites

July-August

Di-Syston granules

1

Into whorl

Thimet granules

1

Over plant

Meta-Systox R

y*

Trithion

i

When leaves below ear are being killed and
infestation is increasing.

Corn leaf aphid July-August

Thimet granules

In whorl Just before tasseling when aphids are appear-

ing on individual plants. Not after tassel
emerges. For seed fields only and not if field is
to be detasseled by hand.

malathion
diazinon

Foliage spray Apply during late whorl to early tassel when
50% of the plants have light to moderate in-
festations.

* Use restricted to certified applicators only.

1 See page 1 1 for insecticide restrictions.

2 Based on 40-inch row spacing. Increase rates for narrow rows.

1 To be applied only by experienced operators or those wearing protective clothing.

FIELD CORN (continued)

Insect

Time of
attack

Insecticide1

Lb. active
ingredient per acre

Placement

Timing of application
(See table of limitations, page 11)

Corn rootworm
adults

Late July,

early August

Sevin

malathion

diazinon

H

Overall spray
or directed
towards silk

Before 50% of plants have silked, if there are
more than 5 beetles per ear and if silk clipping
is observed. Only to protect pollination.

Corn earworm

July-August

Sevin
*Lannate3

Spray ear
zone

Two applications at 3- to 5-day intervals,
starting at 30-50% silk.

Corn borer,
first generation

June-July

Sevin granules
diazinon granules

m

On upper J^
of plant and
into whorl

When tassel ratio is 30 to 50, and 50% or
more plants show recent borer feeding in
whorl.

Corn borer,
second generation

Mid- August

Sevin granules
diazinon granules
Furadan granules

m

Over row

Apply at first hatch when there are 1 or more
egg masses per plant.

Southwestern
corn borer

August

Furadan granules

From ear
upward

Direct granules into whorls. Apply when 25%
of plants have egg masses or larvae on leaves.
Early-planted corn usually escapes damage.

* Use restricted to certified applicators only.

1 See page 11 for insecticide restrictions.

' To be applied by experienced operators or those wearing protective clothing.

STORED GRAIN (Corn, Wheat, and Oats)1

Insect

Time of
attack

Insecticide
and dilution

Dosage

Placement

Suggestions
(See table of limitations, page 11)

Angoumois grain
moth (earcorn)

April-October
(southern \4 of
Illinois only)

malathion 57%
E.C., 3 oz. per
gal. water

Apply to runoff

Spray surface
and sides
May 1 and
August 1

Plant tight husk varieties. Store as shelled
corn to avoid all but surface damage by
angoumois moth.

Meal moths and April-October

surface infestations

only*

dichlorvos 20% 1 per 1,000 cu.
(DDVP, Vapona) ft. space above
plastic resin strip' grain mass

Attach to
ceiling or
side wall

Clean and spray bin with 1.5% malathion to
runoff before storage. Store only clean dry
grain. Install June 1 or at storage. Replace in
mid-August.

pyrethrin 6%

+
piperonyl
butoxide 60%
E.C., 4V£ oz. per
gal. water

2 gal. per 1,000
sq. ft.

Spray
grain
surface,
bin walls,
and ceiling

ion to

1 1 I I v I " i lUgUOl.

Clean and spray bin with 1.5% malathi
runoff before storage. Store only clean dry
grain. Apply June 1 or at storage and monthly
thereafter during summer months

General

Internal and ex
ternal feeders

Rice and granary
weevils

Flat grain beetle
Saw-toothed
grain beetle
Rusty grain beetle
Foreign grain beetle
Cadelle beetle
Flour beetle

April-October

malathion 57%
E.C., 1 pt. per
3-5 gal. water4

3-5 gal. per 1,000
bu.

Spray

uniformly as
grain is
binned

Clean and spray bin with 1.5% malathion to
runoff before storage. Store only clean dry
grain. Protect surface with dichlorvos resin
strips or pyrethrin spray as recommended for
meal moths.

"liquid fumigant8,8 3-5 gal. per 1,000
bu.

On surface;
repeat if nec-
essary

*methyl

bromide +
*ethylene

dibromide6-7

As directed

On surface

Clean and spray bin with 1.5
runoff before storage. Store
grain. Apply in late July an
the southern half of Illinois;
August in the northern half of
surface with dichlorvos resin
thrin spray as recommended

% malathion to
only clean dry
d September in

apply in mid-
Illinois. Protect

strips or pyre-
for meal moths.

*aluminum
phosphide'-8

180 tablets per
1,000 bu.

Tablets 2
feet apart

* Use restricted to certified applicators only.

1 Corn need not be treated if harvested after October 1 unless it is to be carried over the following summer. Wheat and oats should
be treated if they are to be held for one month or more in storage after harvest.

' Remove webbing before treatment.

' Effective only in enclosed bins. Kills adult moths but not the eggs or larvae. Several weeks required to effectively control an existing
infestation. Also cleared for use in bins of stored soybeans.

4 Use only the grade of malathion labeled for use on stored grain. Apply after drying, as malathion vaporizes and is lost rapidly
when grain is heat-dried.

6 Some common liquid f umigants are : *carbon bisulfide + *carbon tetrachloride, *ethylene dichloride + *carbon tetrachloride, ♦ethy-
lene dichloride + *ethylene dibromide + *carbon tetrachloride, etc.

" Use with extreme caution. Apply only under calm conditions and when grain temperature is 70° F. or above. Grain should be 8
inches below the lip of the bin and should be leveled before fumigating.

T Called the 73 mixture.

8 Called *Phostoxin. Slow vaporization with a 3-day exposure period.

ALFALFA AND CLOVER

Insect

Time of
attack

Insecticide1

Lb. active
ingredient per acre

Placement

Timing of application2
(See table of limitations, page 11)

Alfalfa weevil March-June

(Spring treatment)

Furadan3,4

M

*Guthion3

M

*methyl parathion3

V*

Supracide3

y*

*Lannate3

0.9

malathion plus
methoxychlor

3A

diazinon plus %

methoxychlor (Alfatox) 1

On foliage Refer to Circular 1136. Or, when 25% of the

tips are being skeletonized and there are 3 or
more larvae per stem, treat immediately; two
treatments may be necessary on first cutting;
regrowth following first cutting may need pro-
tection. By ground, use a minimum of 20 gal.
of finished spray per acre (10 gal. on stubble)
or 4 gal. by air. Do not apply during bloom.
Instead cut and remove hav.

Imidan
*Penncap-M

1

V2

Clover leaf weevil

March-April

malathion

1

On foliage

When larvae are numerous and damage is
noticeable, usually early to mid-April.

Spittlebug

Late April,
early May

*Guthion3
malathion

V2
1

On foliage

When bugs begin to hatch and tiny spittle
masses are found in crowns of plants.

Aphid

April-May

Cygon or De-Fend

diazinon

malathion

V2

l

On foliage

When aphids are becoming abundant and lady
beetle larvae and adults, parasites, and
disease are slight.

Leafhopper

Early July

Sevin

1

diazinon

M

Cygon or De-Fend

y*

Dylox

*A

Supracide3

M

On foliage When second-growth alfalfa is 4 to 6 inches

high, or as needed.

Webworm

July-August

Sevin
Dylox

1
1

On foliage

When first damage appears.

Variegated
cutworm

April-June

Sevin bait
Dylox
*methyl para

thion3

iy2

i

y2

On foliage

Cut, remove hay, and spray immediately.

Armyworm

May-June,
September

Sevin

malathion

Dylox

i

On foliage

Only when grasses are abundant.

Grasshopper

June-September

Cygon or De-Fend

y%

Sevin

i

diazinon

y*

malathion

1M

Furadan3-4

lA

On foliage When grasshoppers are small and before dam-

age is severe. When plants are blooming, do
not apply Sevin or Cygon. Apply others only
late in dav.

* Use restricted to certified applicators only.

1 See page 11 for insecticide restrictions.

2 Before applying insecticides, be certain to clean all herbicides out of equipment. During pollination, apply very late in day or,
if possible, avoid application during bloom.

8 To be applied only by experienced operators or those wearing protective clothing.

* Only for pure stands of alfalfa. When using no more than 14 pound per acre, allow 7 days between application and harvest. If you
use 1/4 to 1/2 pound per acre, allow 14 days to elapse between application and harvest.

SMALL GRAINS (Barley,

Oats, Rye, Wheat)

Insect

Time of
attack

Insecticide1

Lb. active
ingredient per acre

Placement

Timing of application
(See table of limitations, page 1 1)

Grasshopper

June-August

malathion
toxaphene2

1
1M

On entire
plant

Apply early while grasshoppers are small.

Armyworm

May-June

malathion

toxaphene2

Dylox

\y*

On foliage

When worms are still small and before damage
is done. Do not use Dylox on rye.

Greenbug May-June

English grain aphid

Cygon
"Systox3
* parathion3
*Penncap-M

malathion

A
XA
H
1

On foliage When needed. Penncap-M is cleared for green-

bug only. Use Cygon and Penncap-M on wheat
only.

Hessian fly

Sept. -October;

April-May

Di-Syston granules 1

Thimet granules 1

In drill row Use granules in a grass-seeder for susceptible

varieties planted before fly-free date.

* Use restricted to certified applicators only.
1 See page 1 1 for insecticide restrictions.

1 For use on dairy farms only when alternate material is not available and when insect emergency exists. Do not apply as foliage sprays
or dusts to or adjacent to dairy pasture, hay, or forage crops.

* To be applied only by experienced operators or those wearing protective clothing.

SOYBEANS

Insect

Time of
attack

Insecticide1

Lb. active
ingredient per acre

Placement

Timing of application
(See table of limitations, page 11)

Bean leaf beetle

May-June,
August

Sevin*
*Guthion4

1

On foliage

When leaf feeding becomes severe, but before
plants killed or pods eaten.

Grasshopper

June-
September

Sevin2

malathion ULV
toxaphene3

1

0.6
IV*

On foliage

When migration from adjacent crops begins.

Green clover
worm

August

Sevin2
malathion
*Lannate4
Dipel

1 On foliage When damage occurs between blooming and

1 pod fill. Usually requires 12 or more half-

}/i grown worms per foot of row and 15% de-

(see label) foliation to justify treatment.

Webworm

June-August

Sevin2

1

Usually requires 15% or more defoliation be-
tween blooming and pod-fill to justify treat-
ment.

Mites

June-August

Trithion4
Cygon

On foliage

As needed on field margins and entire field.

Stink bugs

July and
August

Sevin2
*Guthion4

l

V2

On foliage

As needed when bugs are numerous; 1 per
yard of row may cause damage.

Thrips

June-August

Sevin2

%

On foliage

As needed.

Mexican
bean beetle

May-August

Sevin2
malathion
*Penncap-M

1

On foliage

If stand is being reduced on seedling beans or
when defoliation exceeds 40% before bloom.

* Use restricted to certified applicators only.
1 See page 1 1 for insecticide restrictions on soybeans.

J Sevin should not be used at more than 1 lb. per acre. Higher rates may damage plants.

* For use on dairy farms only when alternate material is not available and when insect emergency exists. Do not apply as foliage
sprays or dusts to or adjacent to dairy pasture, hay, or forage crops.

4 To be applied only by experienced operators or those wearing protective clothing.

GRAIN SORGHUM

Insect

Time of
attack

Insecticide1

Lb. active
ingredient per acre

Placement

Timing of application
(See table of limitations, page 11)

Webworm

After heads
form

Sevin

m

On grain
head

When 10 to 25 percent of the heads are infested
with 5 or more larvae per head. Pest usually
bad in wet seasons on late planted grain.

Corn earworm

After heads
form

Sevin

im

Direct at
head or
broadcast

When there is an average of 2 worms per head.

Midge

August-
September

Cygon

diazinon

Sevin

y*

Direct
at head

When 50% of heads have begun to bloom and
there are 1 or more midge adults per head.

Corn leaf aphids

All season

Cygon
malathion

0.9

Broadcast

Under drouth conditions when populations are
heavy and damage is apparent.

Greenbug

June- July

*parathion2
Cygon or De-Fend
malathion

y*

y*

0.9

Broadcast

When greenbug damage is sufficient to cause
death of more than 2 normal-sized leaves be-
fore the hard-dough stage.

Fall armyworm

July-August

Sevin

\Vi

Over row

When there is an average of 2 worms per head.
Whorl feeding is seldom economic.

* Use restricted to certified applicators only.
1 See page 11 for insecticide restrictions.
1 To be applied only by experienced operators or those wearing protective clothing.

Insect

Time of
attack

GRASS PASTURES AND NONCROP AREAS

Lb. active
Insecticide1 ingredient per acre Placement

Timing of application

Grasshoppers

June-July

Sevin 4-Oil

malathion

Sevin

On foliage When nymphs are abundant and before mi-

gration into row crops. Treat while hoppers
are small.

1 See page 1 1 for insecticide restrictions.

10

LIMITATIONS IN DAYS BETWEEN APPLICATION OF THE INSECTICIDE AND HARVEST OF THE CROP
AND OTHER RESTRICTIONS ON THE USE OF INSECTICIDES FOR FIELD CROP INSECT CONTROL
(Blanks in the table denote that the material is not suggested for that specific use in Illinois)

Worker

re-entry

times*

(hours)

Field corn

Seed Ensilage

and soil Grain and stover

Sorghum

Forage crops

Alfalfa

Clover

Pasture

Seed

Counter (terbufos)

Cygon (dimethoate)

De-Fend (dimethoate)

diazinon

Di-Syston (disulfoton)

A

A

40

0

40

28
28

7

10,B
10,B

7

7

Dyfonate (fonofos)b

Dylox (trichlorfon)
*parathionb

Furadan (carbofuran)b
*Guthion (azinphosmethyl)b

48
24

A
A

45
C

45
C

D

12

0

' 7,B

16,B

0
16,B

0

Imidan (phosmet)
*Lannate (methomyl)b
Lorsban (chlorpyrifos)
malathion
Meta-Systox R (oxydemetonmethyl)

A

3

5

7

3

5
7

"l

7,B

7

0

0

0

0

*methyl parathionb
Mocap (ethoprop)

*Penncap-M°
Sevin (carbaryl)

48

A

0

0

21

15

15
0

15
0

15
0

15

Supracideb

Thimet (phorate)

toxaphene

Trithion (carbophenothion)b

48

A

30,H
A
21,E

30,H

I
21,E

10,G

Barley

Oats

Rye

Wheat

Soybeans

Grain Straw Grain Stra\

Grain Straw Grain Straw Grain Forage

Cygon (dimethoate)
Dipel {Bacillus thuringiensis)
Di-Syston (disulfoton)
Dylox (trichlorfon)
*Guthion (azinphosmethyl)b

24

21

21

21

21

60

21

60

K

21

21
0

45

5
0

F

*Lannate (methomyl)b

malathion
*parathionb
*Penncap-Mc

Sevin (carbaryl)

48

7
15

7
15

7
15

7 "l

15

7 7

15
15

7

15
15

14
3

20N
0

7
3

20N
0

*Systox (demeton)b
Thimet (phorate)

48

45,L

45,L

45,L

M

toxaphene

Trithion (carbophenothion)b

48

21

J

7

J

* Use restricted to certified applicators only.

a Workers should be warned in advance of treatments. Workers

may not enter fields treated with the insecticides without wearing

protective clothing for the intervals indicated. They may not enter

a field treated with other insecticides until the spray has dried or

the dust has settled without wearing protective clothing. Protective

clothing includes a hat, long-sleeved shirt, long-legged pants, and

shoes and socks.

" Sprays to be applied only by experienced operators wearing proper

protective clothing.

c Microencapsulated.

A. No specific restriction when used as recommended.

B. Apply only once per cutting, and do not apply during bloom.

C. Three applications may be made per season. Can be applied up

to harvest.

D. Do not make a foliar application if Furadan 10 granules were

applied at more than 10 pounds per acre at planting. Do not
make more than two foliar applications per season.

E. Make no more than one application per season.

F. Do not graze or feed treated vines to livestock.

G. Make no more than one foliage and one stubble application per

cutting.

H. Besides treatment at planting, one more application can be made
at cultivation or over the corn later in the season.

I. Do not feed treated forage to dairy animals. Do not feed sprayed
forage or granular-treated corn silage to livestock fattening
for slaughter. Do not graze meat animals on granular-treated
stover within 28 days of slaughter.

J. Do not graze or feed treated forage to dairy animals or animals
being finished for slaughter.

K. Do not graze treated wheat within 30 days of treatment.

L. Apply no more than twice per season with at least 14 days be-
tween applications. Do not graze treated fields.

M. Do not graze treated wheat within 45 days of treatment.

N. Make no more than two applications per season.

11

References

This circular lists only suggested uses of insecticides
for the control of many Illinois field crop pests, and is not
designed to discuss other methods of control. Fact sheets
discussing nonchemical control methods, descriptions of
specific insects, and their life history and biology (desig-
nated by NHE numbers) can be obtained from offices
of county extension advisers or by writing to Entomology
Extension, 169 Natural Resources Building, Urbana, Illi-
nois 61801. The following fact sheets about the insects
mentioned in the circular are available:

The following circulars can be obtained from county
extension advisers or by writing to the Office of Publica-
tions, College of Agriculture, Urbana, Illinois 61801 :

Circular 898, Insect Pest Management Guide — Live-
stock and Livestock Barns

Circular 900, Insect Pest Management Guide — Home,
Yard, and Garden

These suggestions are revised annually by entomol-
ogists of the College of Agriculture and the Illinois
Natural History Survey.

Alfalfa Weevil — NHE-89
Angoumois Grain Moth —

NHE-62
Aphid — NHE-14 and 19
Armyworm — NHE-21
Bean Leaf Beetle — NHE-67
Billbug — NHE-37
Chinch Bug — NHE-35
Clover Leaf Weevil —

NHE-12
Clover Root Curculio —

NHE-71
Corn Earworm — NHE-33
Corn Leaf Aphid — NHE-29
Corn Rootworm — NHE-26
Cutworm — NHE-38
Fall Armyworm — NHE-34
Flea Beetle — NHE-36

Garden Webworm —

NHE-42
Grape Colaspis — NHE-25
Grasshopper — NHE-74
Green Clover Worm —

NHE-75
Internal and External

Feeders — NHE-64 and 65
Leafhopper — NHE-22
Meal Moths — NHE-63
Sod Webworms — NHE-42
Spittlebug — NHE-13
Sweet Clover Weevil —

NHE-15
Thrips — NHE-39
White Grub — NHE-23
Wireworm — NHE-43

Issued in furtherance of Cooperative Extension Work, Acts of May 8 and June 30, 1914, in cooperation with the U.S. Department of Agriculture. JOHN B.
CLAAR, Director, Cooperative Extension Service, University of Illinois at Urbana-Champaign. The Illinois Cooperative Extension Service provides equal op-
portunities in programs and employment.

16M— 12-77— 39215— oj

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