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UNIVERSITY OF

ILLINOIS LIBRARY

AT UR3ANA-CHAMPAIGN

AGRICULTURE

1982 Insect Pest Management Guide

FIELD and FORAGE CROPS

_jj^CULAT!NG COPY__
-TURE LIBRARY

You must be certified as a pesticide applicator to use restricted-use pesticides.
See your county Extension adviser in agriculture for information.

FEDERAL AND STATE LAWS

The U.S. Environmental Protection Agency is classifying
pesticides for "general" or "restricted" use. Anyone ap-
plying a restricted-use pesticide must be certified. Only a
few pesticides have been classified.

Commercial applicators who apply restricted-use pesti-
cides must be certified. Commercial applicators include not
only persons applying a pesticide for hire but also govern-
mental personnel, chemical company representatives, and
others involved in demonstrational, regulatory, and public
health pest control. Certification as a commercial applicator
requires passing a written examination administered either
by the Illinois Department of Agriculture or the Depart-
iment of Public Health.

Private applicators who use restricted-use pesticides
"for the purpose of producing any agricultural commodity
on property owned or rented by him or as exchange labor
(no compensation) on the property of another" must also
be certified, either by attending an educational training
program or by passing an examination.

Educational training programs for farmers (private
applicators) and commercial pesticide applicators are con-
ducted by the Cooperative Extension Service to prepare
persons for certification. For additional information, con-
sult your county Extension adviser in agriculture. The
actual certification and the issuing of permits or licenses
are handled by the Illinois Department of Agriculture or
the Illinois Department of Public Health.

Special Local Need Registrations

Section 24(c) of the amendments to the Federal In-
secticide, Fungicide, and Rodenticide Act of 1972 allows
states the right to register pesticides for use within the
state to meet special local needs (SLN). The authority
for state registration of pesticides is the Illinois Depart-
ment of Agriculture. A special label, which lists the new
24(c) uses, is printed by the formulator. A copy of this
label must be in the possession of the operator during
application of the pesticides.

In the following pages, all SLN, or 24(c), registra-
tions are indicated by this sign: f.

Insecticides and Classifications

At the time this publication was in preparation, only a

few of the insecticides listed below had been classified for

either "restricted" or "general" use by the EPA. Addi-
tional insecticides are expected to be classified before the

Table 1. Insecticide Classifications

Common name Trade name Classification

acephate Orthene unclassified

azinphos-methyl *Guthion restricted"

Bacillus thuringiensis Dipel, Thuricide, unclassified

Bactur, SOK

carbaryl Sevin, Savit unclassified

carbofuran *Furadan restricted"

carbophenothion Trithion unclassified

chlorpyrifos Lorsban unclassified

diazinon Diazinon unclassified

dimethoate Cygon, De-Fend unclassified

disulfoton *Di-Syston restricted"

endosulfan Thiodan, Tiovel unclassified

ethion Ethion unclassified

ethoprop *Mocap restricted"

fenvalerate *Pydrin restricted"

fonofos *Dyfonate restricted*

isofenphos *Amaze restricted6

malathion Cythion, malathion unclassified

methidathion *Supracide restricted"

methomyl *Lannate, *Nudrin restricted'

methoxychlor methoxychlor unclassified

methyl parathion *Methyl parathion restricted"

methyl parathion *Penncap-M restricted"

(microencapsulated)

oxydemeton-methyl . . . Metasystox-R unclassified

phorate Thimet unclassified

phosmet Imidan unclassified

terbufos Counter unclassified

toxaphene Toxaphene unclassified

trichlorfon Dylox, Proxol unclassified

° Liquid formulations are restricted.

" All formulations are restricted.

0 All formulations except water-soluble packages, 25% wettable

powder, and granulars are restricted.

Asterisks (*) are used throughout this circular to in-
dicate insecticides classified for "restricted" use.

UNIVERSITY OF ILLINOIS AT URBANA-CHAMPAIGN COLLEGE OF AGRICULTURE COOPERATIVE EXTENSION SERVICE

In cooperation with ILLINOIS NATURAL HISTORY SURVEY CIRCULAR 899 (revised annually) November, 1981

1982 planting season. Your county Extension adviser will
have additional information on insecticide restrictions.

The chemical names used in this circular may be un-
familiar to you. These names are the common, coined
chemical names and as such are not capitalized (for ex-
ample, terbufos). Trade names are capitalized (for exam-
ple, Counter). In the table of limitations (Table 14), the
trade names are listed first, with the common name in
parentheses following the trade name. In the tables of sug-
gestions, the trade name is also listed first and the common
name is in parentheses. For questions, refer to Table 1 or
to Table 14.

POLICY STATEMENT

The Illinois Insect Pest Management Guide: Field and
Forage Crops (Circular 899) is revised annually and is
intended for use during the current calendar year only.
Not all registered insecticides for crop pests are included
in this circular. Insecticides that are effective and do not
present an undue hazard to the user are suggested when-
ever possible.

Trade names have been used for simplicity, but their
usage does not imply endorsement of one product over
another, nor is discrimination intended against any product.

This guide for insect control is based on research re-
sults from the Illinois Natural History Survey, the Uni-
versity of Illinois Agricultural Experiment Station, other
experiment stations, and the U.S. Department of Agri-
culture.

Requested label clearances for a few uses of some in-
secticides, carriers, and solvents are uncertain for 1982
because many requests have not yet been officially cleared.
Be sure to check with your county Extension adviser in
agriculture if you are in doubt about an insecticide you
plan to use. We will make announcements of label changes
through the news media to keep you up to date.

REFERENCES

This circular lists only suggested uses of insecticides
for the control of many pests in Illinois field crops and is
not designed to discuss other methods of control. Fact
sheets discussing nonchemical control methods, descrip-
tions of specific insects, and their life history and biology
(designated by NHE numbers) can be obtained from the
office of the county Extension adviser in agriculture or by
writing to Entomology Extension, 172 Natural Resources
Building, 607 East Peabody Drive, Champaign, IL 61820.

PEST-MANAGEMENT SCOUTING PROGRAMS

In recent years, "pest-scouting" programs have been
initiated by several pest-management consulting firms to
serve growers. Scouts monitor fields for outbreaks of pests
and keep a close watch on potential problems. Identifying
and controlling pest outbreaks through scouting programs
could save a farmer thousands of dollars. The scout's ob-

servations can also be used to determine the need for ap-
plying a rootworm soil insecticide the following year.

PESTICIDE SAFETY

Certain precautionary steps should be taken when han-
dling insecticides. Some of the insecticides suggested in
this 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 make sure that there will be no illegal
residue on the marketed crop. Such knowledge is con-
densed on the label. READ THE LABEL CAREFULLY
AND FOLLOW THE INSTRUCTIONS. The label
should be recent and not from a container several years
old. Do not exceed the maximum rates suggested. Observe
the interval between application and harvest. Apply only
to crops for which use has been approved. Keep records of
pesticide use for each field. Record the product used, the
trade name, the percentage content of the insecticide, the
dilution, the 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. Following these rules 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 the 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, thus eliminating a
pesticide storage and disposal problem.

6. Triple rinse, bury, or burn all empty insecticide
containers or take them to an appropriate sanitary landfill.

7. Do not put the water-supply hose directly into the
spray tank or blow out clogged nozzles or spray lines with
your mouth.

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

9. Do not apply to fish-bearing or other waters.

10. Do not leave puddles of spray on impervious sur-
faces or apply insecticides near dug wells or cisterns.

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

12. Do not spray or dust when weather favors drift.

13. 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 you are applying insecticides.

PREDICTING THE NEED FOR SOIL INSECTICIDES
ON CORN

The type of crop rotation greatly influences whether a
soil insect problem will occur and what kind it will be.
Some guidelines follow for predicting soil insect problems
in corn and for determining the need to use a soil insecti-
cide at planting time. Exceptions can be expected occasion-
ally because soil insect problems are influenced by a
variety of things unrelated to crop rotation, such as the
weather, soil type, planting date, hybrid, tillage, and nat-
ural enemies. Knowledge about soil insect damage in a
particular field during previous years is also helpful be-
cause infestations tend to occur in the same fields and in
the same area.

Corn After Soybeans. The potential for soil insect
problems in corn after soybeans is generally low, and the
use of soil insecticides rarely pays. In most fields, a diaz-
inon planter-box seed treatment will be adequate to protect
against attack by seedcorn beetles and seedcorn maggots.
Corn rootworms rarely cause damage to corn after soy-
beans. An exception may occur when corn rootworm
beetles are attracted to, and deposit their eggs in, soybean
fields that are weedy or contain volunteer corn. When such
fields are planted to corn the following year, economic
damage may occur. Good weed control will reduce the
attractiveness of soybean fields to rootworm beetles and
permit soybean-corn rotations with noneconomic damage
from corn rootworms.

White grubs are an occasional problem in east-central
Illinois in corn after soybeans.

Corn After Corn. The potential for rootworm dam-
age is moderate to severe in the northern two-thirds of
Illinois. A rootworm insecticide may be needed in most
fields of corn after corn. Wireworms are occasionally a
problem in the southern part of Illinois.

Corn After Grass Sod. Wireworms and white grubs
are potential problems. Apply a labeled soil insecticide at
planting time.

Corn After Legumes. Grape colaspis, grubs, wire-
worms, and cutworms are potential problems in corn after
clover and alfalfa. In northern Illinois, rootworms are
occasionally a problem 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, seedcorn beetles, and seedcorn
maggots in corn after small grain. In most instances, a
diazinon planter-box seed treatment will be adequate. If
wireworms are present, use a soil insecticide at planting
time.

CORN ROOTWORM SITUATION
Problem Area

The potential for rootworm damage to corn following
corn is greatest in the northern two-thirds of the state.
Although in most counties populations of northern and

Co^» ^western corn rootworm beetles were lower during 1981
than 1980, moderate to severe damage to corn roots by
rootworm larvae may occur in continuous corn anywhere
in Illinois.

Determining Potential

Corn growers should base the need for using a root-
worm soil insecticide in 1982 on the abundance of root-
worm beetles in cornfields during late summer of 1981.
If beetle numbers reached or exceeded one per plant at
any time during late July, August, or September, 1981,
plan to apply a rootworm soil insecticide if the field is to
be replanted to corn in 1982.

Fields of corn planted in late May or June, 1981, may
have extensive rootworm damage if replanted to corn in
1982. During August and September, rootworm beetles are
especially attracted to late planted or late maturing fields.
Seeking fresh pollen and silks to feed on, the beetles lay
millions of eggs in these fields. The heavy infestations may
overwhelm even the most effective soil insecticide. Planting
the fields to a crop other than corn in 1982 is suggested to
reduce the overall rootworm population.

SUGGESTIONS FOR ROOTWORM CONTROL, 1982
Crop Rotation

Crop rotation is an extremely effective way to prevent
damage by northern and western corn rootworm larvae. If
feasible, do not grow corn two years in succession in the
same field. First-year corn following soybeans will gen-
erally not require a soil insecticide for corn rootworm con-
trol. Researchers at the Illinois Natural History Survey
and University of Illinois have confirmed that a soybean-
corn-soybean-corn rotation is still effective in suppressing
corn rootworms in Illinois.

Although rootworm beetles can be found in "clean" or
weed- free soybean fields, and may even lay a few eggs
there, the number of eggs is not great enough to warrant
the use of a soil insecticide on corn the following season.
In a few instances, rootworm larval damage has occurred
to corn planted after soybeans when the bean field had
been heavily infested with volunteer corn or weeds during
August. Adult northern and western corn rootworms were
attracted to these weedy soybean fields to deposit eggs. As
a result, root damage by larvae occurred the following
season. Good weed control in soybeans will prevent root-
worm damage in corn following soybeans. Soybean fields
with 5,000 or more volunteer corn plants per acre will
usually warrant treatment for rootworm control the fol-
lowing year if planted to corn.

Corn rootworm beetles deposit the vast majority of
their eggs in cornfields. The larvae cannot survive on the
roots of broadleaf crops (soybeans or alfalfa) or broad-
leaf weeds. Consequently, when a crop other than corn,
soybeans for example, is planted in a field with soil con-
taining millions of rootworm eggs, the rootworm larvae die
before becoming egg-laying beetles.

Corn following alfalfa may benefit from a soil insecti-
cide treatment, because rootworm beetles may be attracted
into blooming alfalfa fields and lay eggs there during
August and September.

Soil Insecticides

During the past seven years, instances of erratic root-
worm control with soil insecticides have increased. Many
factors interacting with one another can affect the per-
formance of a soil insecticide. Heavy rains immedi-
ately following planting hasten the decomposition of soil
insecticides and reduce control. Lack of rainfall may pre-
vent the activation and movement of the insecticide from
the soil surface to the area where rootworm larvae are feed-
ing. Early planting is another problem, because soil insecti-
cides applied in early to mid-April may have lost much of
their potency by the time rootworm eggs hatch in late May
and June. Hence, late hatching larvae have a high survival
rate, and ultimately the number of beetles is large. These
factors, coupled with insecticide rates that are too low,
often cause poor or marginal rootworm control. In addi-
tion, some research indicates that the erratic performance
is due to microbial degradation of the soil insecticide and
to increasing tolerance of rootworm larvae.

Consequently, there is some uncertainty about how well
a soil insecticide will control corn rootworm larvae in a
particular field or area. The suggestions for rootworm con-
trol that follow are based on research conducted by ento-
mologists in Illinois and other states.

At Planting. Apply isofenphos (Amaze 20G, 6E),
terbufos (Counter 15G), fonofos (Dyfonate 20G, 4EC),
carbofuran (Furadan 10G, 15G, 4F), chlorpyrifos (Lors-
ban 15G), ethoprop (Mocap 10G, 6EC), or phorate
(Thimet 15G, 20G) in a 7-inch band ahead of the planter
press wheel at the suggested rate (see Table 2). IMPOR-
TANT: Note the suggestions in the sections on using
Furadan and on alternating insecticides.

Soil insecticides will give 50- to 70-percent control of
corn rootworm larvae. This degree of control is adequate
to prevent economic levels of larval damage in most fields.
But in some heavily infested fields, enough larvae may
survive to cause economic levels of root damage, and beetle
populations may be large enough to interfere with polli-
nation.

Planting-time treatments applied in early April may
provide only marginal control. Consider a cultivator appli-
cation in late May or early June in such fields, rather than
a treatment at planting time.

Liquid formulations: Isofenphos (Amaze 6E), fon-
ofos (Dyfonate 4E), or carbofuran (Furadan 4F) may
be mixed with water and applied as a spray in a 7-inch
band ahead of the press wheel. They may also be mixed
with liquid fertilizer and used with a split-boot applicator
at planting. Ethoprop (Mocap EC) is labeled only as a
band spray mixed with water.

Incompatibility or crop injury may be a problem in
treatments using a liquid insecticide with a liquid fertilizer
at planting. The insecticide must be compatible with the
fertilizer. Conduct a test before planting to make certain
that the two are physically compatible. Maintain agitation
in the tank after mixing and during application to prevent
separation. Use caution when handling liquid insecti-
cide formulations.

At Cultivation. Apply isofenphos (Amaze 20G, 6E),
terbufos (Counter 15G), chlorpyrifos (Lorsban), fonofos
(Dyfonate 20G), ethoprop (Mocap 10G), carbofuran
(Furadan 10G, 15G), or phorate (Thimet 20G) on both
sides of the row at the base of the plants just ahead of the
cultivator shovels. Cover the insecticides with soil. The
best time to apply a basal treatment of a soil insecticide by
cultivator is in late May or early June, near the beginning
of egg hatch. Such treatments may be more effective than
treatments at planting time in early April.

Table 2. Soil Insecticides Suggested For Rootworm Control, Illinois, 1982

Insecticide*

Time of
application

Ounces of

product per

1,000 ft. of row

Amount of product needed per acre

40" rows

38" rows

36" rows

30" rows

Amaze 20G
Amaze 6E
Counter 15G
Dyfonate 20G
Dyfonate 4E
Dyfonate 4E
Furadan 10G
Furadan 15G
Furadan 4F
Lorsban 15G
Mocap 10G
Mocap 6EC
Thimet 15G
Thimet 20G

At planting or
At planting or
At planting or
At planting or
At planting
Preplant
At planting or
At planting or
At planting
At planting or
At planting or
At planting
At planting or
At planting or

cultivation
cultivation
cultivation
cultivation

cultivation
cultivation

cultivation
cultivation

cultivation
cultivation

6

1.6 fl. oz.

8

6

2.4 fl. oz.

Broadcast

12

8

2.4 fl. oz.

8

12

1.6fl.oz.

8

6

5.0 lb.
U/3 pints
6.7 lb.
5.0 lb.

2 pints

3 quarts
10.0 lb.

6.7 lb.
2 pints
6.7 lb.
10.0 lb.
iy3 pints
6.7 lb.
5.01b.

5.3 lb.

\y% pints

7.0 lb.

5.31b.

2\i pints

3 quarts
10.5 lb.

7.0 lb.

2i/6 pints

7.0 lb.
10.5 lb.

l}i pints

7.0 lb.

5.3 lb.

5.6 lb.

\y2 pints

7.4 lb.

5.6 lb.

2i4 pints

3 quarts
11.11b.

7.4 lb.

2l4 pints

7.4 lb.
11.1 lb.

U/2 pints

7.41b.

5.6 lb.

6.7 lb.

1J4 pints

8.7 lb.

6.7 lb.

2Y\ pints

3 quarts
13.3 lb.

8.7 lb.

2^4 pints

8.7 lb.
13.3 lb.

1^4 pints

8.7 lb.

6.7 lb.

* Consult text for more information. LIQUID FORMULATIONS ARE HIGHLY TOXIC.

Table 3. Labeled Uses of Soil Insecticides on Corn

Field

Sweet

Harvest

Insecticide

corn

Popcorn

corn

silage

interval

Amaze

yes

yes

yes

yes

75

Counter

yes

yes

yes

yes

*

Dyfonate

yes

yes

yes

yes

45

Furadan

yes

yes

no

yes

*

Lorsban

yes

yes

yes

yes

*

Mocap

yes

no

yes

yes

*

Thimet

yes

no

yes

yes

30

* No restriction when used according to label.

Suggestions For Using Furadan. Rootworm con-
trol with carbofuran (Furadan) has been erratic in recent

years. Furadan has performed effectively at some research
locations and has been marginal or ineffective at others in
recent years, including 1981. Problems with Furadan in
Illinois were first reported in 1975, and have continued to
occur since then. Practically all instances of poor control
have occurred in fields or areas where Furadan has been
used intensively. Research indicates that poor control may
be caused by a combination of microbial degradation of the
insecticide and insect tolerance. Laboratory research indi-
cates an increase in the beetles' tolerance to Furadan, com-
pared with toxicity levels seven years ago. In addition, the
breakdown or disappearance of Furadan applied at plant-
ing time is generally more rapid in fields where the product
has been used previously. Preliminary research suggests
that soil microbes may be responsible for the degradation.
Consider the following suggestions for using Furadan
in rootworm control:

1. If Furadan was used in 1981, switch to an organo-
phosphate (Amaze, Counter, Dyfonate, Mocap, Lorsban,
or Thimet) in 1982.

2. Do not use Furadan if rootworm control with Fura-
dan was poor or marginal in recent years.

3. Rootworm control with Furadan should be satis-
factory in fields where it has never been used before.

Suggestions For Alternating Insecticides. The

suggestions that follow might help to improve rootworm
control.

1. Consider alternating an organophosphate with a
carbamate. Keep in mind, however, that growers generally
have had no advance warning of poor control where prob-
lems with Furadan (a carbamate) have occurred.

2. The advantages of switching from an organophos-
phate to a carbamate are not apparent from the research,
even where an organophosphate has been used for several
consecutive years. But switching from one organophos-
phate to another may have some merit. The continuous use
of any one insecticide may create problems with insect
resistance. To avoid this possibility, consider switching
rootworm insecticides occasionally rather than using one
product year after year. A word of caution, however, about

rotating soil insecticides: in some instances, rotation of soil
insecticides has not given good results. The performance
of an insecticide that gives only fair control of rootworms
will not be improved by rotation with other insecticides.

Rootworm Control Research

The relative effectiveness and consistency of rootworm
control with various soil insecticides is investigated each
year in approximately seven or eight replicated tests to
keep abreast of any changes that might be taking place.
The tests from 1977 to 1981 indicate that Amaze and
Counter have given the most consistently effective control
of corn rootworms. In general, rootworm control with
Mocap and Thimet was erratic in the 1981 research tests.
Although mediocre or poor control has been noted with
organophosphate insecticides in some fields each year, the
cause does not seem to be related to insect resistance or
microbial degradation.

Control of Rootworm Beetles

Use insecticides to control rootworm beetles where
pollination damage may occur because of silk clipping. Re-
search on spraying the beetles to prevent egg laying, there-
by eliminating the need for a soil insecticide the next
spring, has produced varying results. A single soil-insecti-
cide treatment has usually been as effective as treating to
control beetles in late July or early August and applying a
soil treatment the following spring.

Some growers may use the management concept of
spraying rootworm beetles to prevent egg laying. In this
case, the objective is to eliminate next year's larval infesta-
tion and the need for a soil insecticide. We encourage
growers who make this decision to use the scouting services
of a pest management consultant to monitor fields. A prop-
erly managed adult-suppression program will require
weekly scouting during July and August. Even proper
timing and application of an adult-suppression spray do
not guarantee success. Factors beyond the control of the
operator, such as weather and beetle migration, may mini-
mize the treatment's effectiveness.

Scouting to Determine Rootworm Potential

The abundance of rootworm beetles in a cornfield in
July and August is an excellent indicator of future root-
worm problems. Corn growers can determine the potential
for rootworm damage in 1983 by counting western and
northern corn rootworm beetles from mid-July through
August, 1982, in this way:

1. Make 3 or more counts for western and northern
corn rootworm beetles at 7- to 10-day intervals between
mid-July and late August in fields to be replanted to corn.

2. Examine 10 plants selected at random in each of 5
areas of the field. Count all of the western and northern
corn rootworm beetles on 50 plants each time. The counts
take about 45 minutes in a 40-acre field.

3. As you approach a plant, move quietly to avoid dis-
turbing the beetles. Count the beetles on the entire plant,
including the ear tip, tassel, leaf surface, and behind the
leaf axils.

4. Record the number of beetles you find per plant.
If the average is more than one beetle per plant for any
sampling date, plan to apply a rootworm soil insecticide
in 1983. If average populations range from 1/2 to 1 beetle
per plant, the probability of economic damage the follow-
ing year is low, and a soil insecticide is likely to be un-
necessary. If populations do not exceed an average of 1/2
beetle per plant for any sampling date, a soil insecticide
will not be needed the following season.

Rootworm Life Cycle

Western and northern corn rootworm beetles deposit
their eggs in the soil at the base of the corn plants or be-
tween rows during August and September. The eggs over-
winter in the soil and begin hatching in late May. Egg
hatch usually takes place over a period of 3 to 5 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 corn plants dur-
ing June, July, and August. When a larva is fully grown
[}/i inch), it builds a cavity in the soil and goes into the
pupal or resting stage. After 5 to 10 days, the beetle
emerges from the soil. The development from egg hatch to
adult emergence takes 27 to 40 days. After the females
emerge from the soil and mate, 14 days or more elapse be-
fore they begin laying eggs. Rootworm beetles may deposit
as many as 1,000 eggs; an average of 500 per female is
probably common. Most egg laying in Illinois occurs after
August 1.

CORN CUTWORMS

The occurrence and extent of cutworm infestations are
difficult to predict each year. Sandhill, dingy, and clay-
backed cutworms all overwinter in Illinois as partially
grown larvae, but their populations are seldom widespread.
As a result, they cause damage early in the growing season
in scattered areas. Sandhill cutworms are a problem in
sandy areas almost every year. Dingy and claybacked
cutworms occur more frequently in corn planted after sod
or forage legumes than in other crop rotations.

Black cutworms do not overwinter in Illinois, so out-
breaks are difficult to forecast. Infestations of black cut-
worm larvae arise from eggs laid by moths that are blown
into Illinois in the early spring. A statewide program of
monitoring black cutworm pheromone traps provides in-
formation about the time and intensity of spring moth
flights. But this program is still in the preliminary stage,
and predicting infestations from moth catches is risky.

Certain factors favor black cutworm outbreaks, how-
ever. These factors include late planting, infestations of
broadleaf weeds before planting, excess crop residue, and

corn following soybeans. The most important factors may
be late planting and preplant weed infestations. Fields that
are planted late are more likely to develop a preplant weed
infestation than fields that are planted early. These late
planted fields with weeds are more attractive to cutworm
moths as a site on which to deposit their eggs.

As a result of the mild winter, many fields in northern
Illinois had broadleaf weed infestations before spring
tillage in 1981. These ideal egg-laying conditions, coupled
with an early spring moth flight, gave rise to widespread
larval infestations. Many fields required replanting, and
many more were treated with postemergence insecticides.

Currently, three options are available for cutworm con-
trol: preplant or planting-time applications of soil insec-
ticides to prevent damage and rescue treatments after the
infestation appears. All have limitations.

Because of the uncertainty in predicting which fields
will have light, moderate, or heavy infestations of cut-
worms, it may be more feasible to use rescue treatments
for cutworm outbreaks rather than to use a preplant or
planting-time treatment unnecessarily.

Based on the relatively low incidence of cutworm prob-
lems over the past 25 years, a grower may find an eco-
nomic advantage to the wait-and-see system, which in-
volves field scouting, rather than a costly always-apply
program in which the soil insecticide is routinely applied
at or before planting for a problem that may not exist.

Rescue (or emergency) treatments to control outbreaks
of cutworms include sprays of chlorpyrifos (Lorsban),
carbaryl (Sevin), microencapsulated methyl parathion
(Penncap-M), or trichlorfon (Dylox), or carbaryl pel-
letized bait. Broadcast the pelletized bait on the surface,
but do not incorporate. Chlorpyrifos and Penncap-M
sprays should also be broadcast. Sprays of carbaryl may
be banded over the row or broadcast, but the rates per acre
need to be increased if the sprays are broadcast. Trichlor-
fon sprays should be banded.

The keys to effective cutworm control with the rescue
treatments are the amount of surface moisture and the
movement of the worms. Control may be poor, regardless
of the insecticide used, if the topsoil is dry and crusted
and the worms are working below the soil surface. Cut-
worm control under hot, dry soil conditions may be en-
hanced by cultivating or running a rotary hoe over the field
soon after spraying. This disruption may cause the worms
to move around and come into contact with the insecticide.
When the soil is dry, the high rate of chlorpyrifos is rec-
ommended.

To determine the need for rescue treatments, scout the
fields during plant emergence, particularly those fields con-
sidered to be high-risk. Early detection of leaf-feeding
or of cutting by cutworms is vital. When the corn plants
are beginning to emerge, check the fields for leaf-feeding,
cutting, 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.

A control measure is needed on corn in the 2-leaf stage
if 3 percent or more of the plants are cut and if there are
2 or more cutworms per 100 plants. At the 4-leaf stage,
control is justified if 3 percent or more of the plants are
cut and if there are 4 or more worms per 100 plants. A
single cutworm will cut fewer of the 4-leaf plants than
those in the 2-leaf stage.

Planting-time treatments of chlorpyrifos (Lorsban
15G), ethoprop (Mocap 10G), and fonofos (Dyfonate
20G) are registered for the control of cutworms in corn.
The Mocap label states that Mocap will "control light to
moderate infestations of cutworms"; Dyfonate is labeled
for "suppression of black cutworms." Some growers may
want to use one of these products in fields with a history
of cutworm problems or in high-risk fields. Lorsban has
provided the best cutworm control in research trials dur-
ing the past few years. Research also indicates that plant-
ing-time treatments are relatively effective in controlling
light to moderate infestations, but control may be un-
satisfactory for heavy infestations.

Pre plant broadcast treatments of chlorpyrifos (Lors-
ban 4E) and fonofos (Dyfonate 4E) are also registered
for corn cutworm control. Lorsban is labeled at rates of
1 to 2 quarts per acre; the higher rate is suggested. Dyfo-
nate is labeled for "suppression of black cutworms" at 4
quarts per acre. Both insecticides should be incorporated
into the top 2 to 4 inches of soil immediately after applica-
tion.

Replanting may be required if cutworm damage is
extremely severe. Before replanting apply chlorpyrifos
(Lorsban 4E) as a broadcast spray at 3 to 4 pints per acre,
and incorporate the insecticide into the top 2 to 4 inches of
soil. Or you can apply a granular insecticide (Lorsban
15G, Mocap 10G, Dyfonate 20G). If the cutworm infesta-
tion is heavy, the Lorsban spray will be more effective.

WIREWORMS

Wireworms may attack the seed or drill into the base
of the stem below ground level, damaging or killing the
growing point. Damage will show up as wilted, dead, or
weakened plants and spotty stands. Wireworm larvae are
yellowish-brown and wirelike; several species are known
to attack corn. They live for two to five years in a field in
the larval stage, feeding on the roots of grasses and crops.
There is often a relationship between crops that were in
the field two to four years before damage to the corn.
Most reports of damage to corn have been in fields where
corn follows soybeans or where there has been a corn-
soybean-small-grain rotation.

Presumably the adult (a click beetle) prefers to de-
posit its eggs in small-grain stubble or in grassy fields of
soybeans. Attempts to control wireworms with an insecti-
cide rescue treatment after the damage appears are usually
not very successful. Therefore, if an infestation is known
to be present, insecticides must be applied at planting.

Wireworms are usually most damaging in bottomlands
or in poorly drained areas on upland soils. Low spots in
the field often have the heaviest populations.

The proportion of fields of corn affected by wireworms
in Illinois is small (less than 1 percent) and does not jus-
tify the widespread use of a soil insecticide on first-year
corn after soybeans. A diazinon planter-box seed treat-
ment at planting may help deter the wireworms from
attacking the seed, but this treatment will not protect the
seedling.

Checking for Wireworms

A technique using baits has been developed for evalu-
ating wireworm potential before planting. The bait stations
should be established 2 to 3 weeks before the anticipated
planting date. Fields where small grain or grasses have
been grown the preceding 2 or 3 years are the best candi-
dates for bait stations.

Since wireworm infestations are often localized within
a field, it will be necessary to place the bait stations ran-
domly throughout the field. One bait station per acre is
desirable. As a minimum, place 2 bait stations at the
highest elevation in a field, 2 on a slope, and 2 in the lowest
area.

Follow this procedure for baiting:

1. Use a mixture of 1 cup of untreated wheat and 1
cup of untreated shelled corn at each station.

2. Bury the bait about 4 inches deep. It is also desir-
able to cover the ground over each bait station with an
18-inch square of black plastic. The plastic collects solar
heat and speeds germination of the corn and wheat, which
entices overwintering wireworms.

3. Mark each station with a flag or stake.

4. Dig up the bait stations in 10 to 14 days and count
the number of wireworms.

Need for Treatment

If you find an average of one wireworm per bait sta-
tion, use a labeled soil insecticide. In some instances,
several wireworms may be found in one bait station and
none in others. Wireworm infestations tend to concen-
trate in some locations. It may be possible to limit treat-
ment to areas of the field where the concentration is
heaviest.

WHITE GRUBS

Three species of economically important white grubs
have 3-year life cycles. Peak years of damage usually
occur during the year following large flights of Max-
beetles, the adult stage of white grubs. The beetles prefer
to lay their eggs in ground covered with vegetation, such
as weedy soybean fields and sod.

The C-shaped white grub larvae chew on the roots and
root hairs of corn seedlings. During peak years of damage,
the grubs feed all season long. Damage to a cornfield is

most apparent in the spring. Symptoms of white grub in-
jury visible aboveground are irregular emergence, reduced
stands, and stunted or wilted plants. The damage is usually
spotty throughout the field.

There are no established thresholds for white grub
damage and no effective rescue treatments after the dam-
age appears. However, if plants show symptoms of injury,
dig around the root system of several corn plants. If white
grubs are causing the problem and replanting is warranted,
a soil insecticide should be applied. Terbufos (Counter
15G) is registered for the reduction of white grubs at the
rate of 2 pounds of active ingredient per acre. Isofenphos
(Amaze) is labeled for control of light to moderate in-
festations at 1 pound of active ingredient per acre. In high-
risk fields, such as corn following sod, a soil insecticide is
justified.

PLANTER-BOX SEED TREATMENTS

Corn. A planter-box seed treatment with diazinon will
protect germinating corn against attack by seedcorn beetles
and maggots. Chlorpyrifos (Lorsban 50-SL) is labeled
as a slurry treatment on seed before planting to protect
germinating seed against injury by seedcorn maggots. Use
a seed treatment in fields that do not receive a soil insecti-
cide at planting time, or when carbofuran (Furadan) is
applied at planting time. The diazinon planter-box seed
treatment is not needed if terbufos (Counter), fonofos
(Dyfonate), chlorpyrifos (Lorsban), ethoprop (Mocap),
isofenphos (Amaze), or phorate (Thimet) is applied at
planting. NOTE: Excess dust from the seed treater may
interfere with the electronic monitor in air planters.

Soybeans. Use a diazinon seed protectant to prevent
damage to germinating soybeans from seedcorn maggots.
Follow the label directions for application. The potential
for damage is greatest during cool, wet springs when
germination is slow.

EUROPEAN CORN BORERS

Corn borer moths begin to emerge in late May in
southern Illinois and mid- to late June in the central and
northern regions. The females lay most of their eggs in
the evening. They spend the daylight hours in fencerows
and other protected areas.

First-generation borers reduce yields by stalk-tunnel-
ing, which weakens the plant and destroys the tissue used
to transport food within the plant.

Corn that is planted early (the fields with the tallest
corn) should be monitored closely for signs of whorl-
feeding by corn borer larvae from mid- June to early July.
The fields with the tallest corn are the most attractive for
egg laying by first-brood moths. Control is warranted if
50 percent or more of the plants have fresh whorl-feeding,
if live borers are present, and if plants are 24 or more
inches tall (with the leaves extended).

Corn hybrids have varying degrees of tolerance or

resistance to leaf-feeding by first-generation borers. Con-
sider this trait when selecting varieties for 1982.

Corn planted late is most attractive to moths laying
eggs for. the second generation. Yield losses caused by
second-generation borers are a result of stalk breakage and
ear drop, as well as physiological damage. Corn-borer en-
trance holes also provide avenues for stalk rot organisms.
Monitor fields from mid- July to mid-August for egg
masses or newly hatched larvae of the second brood.

To assess the potential for second-generation corn
borer, start checking for egg masses when moth flight is
underway. Examine a minimum of 25 plants, selected at
random throughout the entire field, and count the number
of egg masses that are found on each plant. Although
the moths usually lay their eggs on the two or three leaves
above or below the developing ear, you should check all
the leaves. One technique is to remove the leaves one by
one, starting at the bottom of the plant, and carefully scan
them for egg masses.

The eggs, which are deposited in masses of 15 to 30,
overlap like the scales of a fish. Calm nights favor egg
deposition by the moths. The absence of hard, beating rains
during moth emergence also increases the potential for
infestations.

Egg masses are flat and about half the size of your lit-
tle fingernail. Newly deposited eggs are white, then turn
pale yellow, and become darker just before hatching. Eggs
that are about to hatch have distinct black centers. These
are the black heads of the larvae that are visible through
the translucent eggshell. The eggs hatch in 3 to 7 days,
depending on the temperature. The female moth hides in
grass and weeds during the day. Noncrop areas that border
cornfields may harbor large numbers of corn borer moths
during the day. Check these areas for moths as you enter
the field to determine the amount of corn borer infestation.

Treatment is warranted when you find an average of
1 or more egg masses per plant. Because peak egg-laying
generally occurs over a period of 2 to 4 weeks, it will be
necessary to resample fields if egg counts do not reach
or exceed 1 egg mass per plant during the initial survey.
If cumulative counts (taken 1 week apart) exceed 1 egg
mass per plant, apply a treatment.

For best results, treatment should be applied soon
after egg hatch to kill the young larvae before they bore
into the plant. The larvae begin tunneling into the stalks
about 10 days after hatching. Because egglaying for the
second generation extends over a 3- to 4-week period, tim-
ing of insecticide application should be precise. Occa-
sionally, two treatments may be necessary for satisfactory
control.

CORN LEAF APHIDS

Corn leaf aphids are small, soft-bodied, greenish-blue
plant lice about the size of a pinhead. They do not over-
winter in Illinois, and it is impossible to predict what the
situation will be in 1982. Winged corn leaf aphids, blown

into Illinois on southwesterly winds during mid- to late
June, become established within the whorl leaves of the
corn plant. These aphids give birth to living young. In the
absence of predators, parasites, diseases, and hard beating
rains, aphid populations may increase very rapidly.

Corn leaf aphids have sucking mouthparts and cause
damage by sucking moisture from the corn plant. Soil
moisture stress and heavy infestations on the upper leaves
and tassel may result in barren plants or reduced ear size.
The critical period for damage is during tassel emergence
through pollination. If aphids are allowed to cover the
tassel and upper two or three leaves, yield losses are likely
to occur.

Fields should be scouted for aphids beginning about
one week before tassel emergence. Pull and unroll the
whorl leaves of plants selected at random to check for
aphids. Treatment is suggested if 50 percent of the plants
have 100 or more corn leaf aphids per plant during tassel
emergence and if plants are under drouth stress. Aphid
populations usually decline after pollination is complete.
However, treatment may be warranted following pollina-
tion if aphid populations continue to cover the tassel and
one or two of the upper leaves.

REDUCED TILLAGE AND NO-TILL INSECT PESTS

Concern about insect problems should not keep growers
from adopting conservation tillage practices. The soil-in-
sect complex in corn, which is similar in many ways for
conventional and reduced-tillage systems, can be readily
controlled by applying soil insecticides at planting time.
With a few exceptions, outbreaks of insects feeding on
foliage can be controlled with properly timed treatments
of insecticides. Close monitoring of fields to detect in-
sect outbreaks is very important, regardless of the till-
age system.

Weather conditions and the type of crop rotations de-
termine to a great extent whether a soil insect problem will
occur and what kind it will be. In some instances, tillage
may also influence the kind and abundance of an insect
pest. Some tillage operations favor specific pests. Others
tend to reduce pest problems. The general expectation is
that insect infestations will be more pronounced where no-
tillage is used in corn than where conventional or reduced-
tillage systems are used.

No-Till Pests

Insect problems occur more frequently in no-till corn
than in any other conservation tillage system and are often
more serious. Crop residue left by the use of no-till prac-
tices provides a stable environment for pest survival and
development. Pest problems occurring under these condi-
tions include European corn borer, cutworms, armyvvorm,
common stalk borer, wireworms, seedcorn maggots, bill-
bugs, slugs, and mice. Soil insecticides may be needed on
no-till corn following corn (in rootworm area), grass sod,

legumes, or following any crop in which grasses and broad-
leaf weeds are prevalent.

Soil Insect Control

Select a soil insecticide that will control the anticipated
soil insect pest. Consult Table 4 for suggestions. If a soil
insecticide is not applied at planting, a diazinon planter-
box seed protectant will give protection against seedcorn
maggots and seedcorn beetles.

Surface residues from no-till and reduced-tillage sys-
tems may present some problems with the placement and
incorporation of granular soil insecticides applied at plant-
ing. To be most effective, the soil insecticide should be in-
corporated into the upper i/z inch of soil, and not just
broadcast on the surface. Granules remaining on the soil
surface are degraded by sunlight, resulting in erratic or
poor control.

NOTE: Before using Mocap, Dyfonate, or Thimet on
no-till corn, be sure that soil moisture is low enough to
ensure closing of the seed furrow to prevent the insecti-
cide granules from contacting the seed. Crop injury may
occur with these products.

Aboveground Insect Pests

Aboveground insects will be more of a problem in no-
till corn than under reduced or conventional tillage. Corn
planted in grass sod or fall-seeded rye is vulnerable to
attack by armyworms. The moths lay eggs on the grasses
during April or early May. After vegetation is killed by a
herbicide, the larvae move to the young corn seedlings and
feed on them. Control is justified when 25 percent of the
plants are being damaged. Rescue treatments are effective,
but a spray volume of 15 to 20 gallons per acre will im-
prove coverage and control.

Instances of damage to corn by the common stalk borer
have been greater in no-till corn than with other tillage
systems. Moths of this insect deposit their eggs on weeds
in late August and September. When a herbicide is applied
in the spring to no-till corn in fields previously infested
with host weeds, the newly hatched stalk borer larvae move
from the dead vegetation and attack newly emerging corn
plants. Control of common stalk borer with insecticides is
generally poor because the worms do not have access to
the chemical.

Noninsect pests in no-till corn include slugs and mice.
There are no effective control measures for slugs. Mouse
damage may be a severe problem, particularly in corn fol-
lowing sod. To reduce or prevent mouse damage to corn,
use a hopper-box seed treatment of methiocarb (Mesurol
50% bird repellent) at the rate of 1 pound per 100 pounds
of seed corn. This product has a state label.

FORAGE INSECTS

In 1982, we expect alfalfa weevils to cause moderate to
severe damage to the first cutting of alfalfa in most areas

of Illinois. In the southern counties, where a lot of egg
laying takes place in the fall, alfalfa- weevil larval damage
occurs early in the spring. Damage to the first cutting in
northern Illinois is more likely to occur if hay harvest is
delayed. Otherwise, the injury to alfalfa in the northern
counties will occur on the stubble and new growth of the
second cutting.

Numbers of alfalfa weevils are regulated to a large ex-
tent by winter weather. During a cold, open winter the
mortality rate is high in overwintering weevil populations;
during mild winters the mortality rate is low.

A parasitic wasp and a fungal disease organism that
attacks alfalfa weevil larvae sometimes regulate weevil
numbers in the spring. The fungal disease, which was first
found in Illinois in 1979, was not a significant factor in
1981, so weevil larvae were not held in check. The effect
that natural enemies and diseases have on alfalfa weevil
populations is still unknown. Although the wasp and the
fungus will be present in alfalfa fields in 1982, we cannot
yet predict their effect on weevil numbers.

Alfalfa growers in southern and central Illinois should
inspect their fields closely in April, May, and June. Early
larval damage appears as pinholes in the growing terminals.
As the larvae grow, they skeletonize the leaves, and dam-
aged fields appear tattered. Growers in northern Illinois
should look carefully for larval damage in late May and
June. All growers should examine the stubble after the
first cutting, because larval and adult feeding can slow or
halt new growth. Follow the suggestions in Circular 1136,
"Alfalfa Weevil Pest Management Program," to deter-
mine the need and proper timing of a treatment. If this
circular is unavailable, a rule of thumb is to treat when 25
percent of the tips are being skeletonized. This threshold
may be as high as 40 percent in northern Illinois, where
damage occurs later in the season.

Potato leaf hoppers may cause moderate to severe dam-
age to the second and third cuttings of alfalfa in all areas
of Illinois in 1982. Populations of leafhoppers were large
in 1981, and many acres of alfalfa were injured severely.
Damaged alfalfa was stunted and turned yellow or brown.
Many people confused the damage with diseases or nu-
trient deficiency.

Damage first appears as a yellow, wedge-shaped area
at the tip of the leaf and is more evident during dry
weather. However, population levels are difficult to predict
because the leafhoppers do not survive the winter in Illi-
nois. They migrate from southern states into Illinois dur-
ing May and June.

Potato-leafhopper damage may begin on the new
growth as soon as the first hay crop is removed. (Stunting
and yellowing are signs of leafhopper injury.) A swarm of
leafhoppers at the time of the first cutting indicates that
there may be a problem in the new growth. If you use a
sweep net to monitor fields, apply treatments when there
are one or more leafhoppers per sweep.

BEAN LEAF BEETLES

Bean leaf beetles overwinter as adults under debris in
fencerows, wooded areas, and other protected sites. The
survival of the overwintering beetles depends on the winter
weather. A mild winter increases the chances for a large
population in the spring. In addition, if soybeans are
planted early in 1982, the beetles will establish themselves
early. The availability of soybeans during the early part of
the season is essential for the survival of bean leaf beetles.
The survival of large numbers early in the season generally
means an even larger population in August. On the other
hand, a severe winter and later planted soybeans will re-
duce the number of bean leaf beetles in the spring.

The beetles may cause considerable leaf- feeding injury
to double-cropped soybeans and late maturing soybean
varieties. Insecticide treatments are recommended during
the critical pod-set and pod-fill stages, when defoliation ex-
ceeds 15 to 20 percent. The greatest concern, however, is
caused by the beetles' pod- feeding damage, which leaves
scars on many pods. These scars predispose the pods to
fungal infections. We are still uncertain how much pod-
feeding affects yields.

CHEMICAL INJURY TO SOYBEANS

There have been instances of phytotoxicity to soybeans
when organic phosphate soil insecticides were used. The
problems have occurred where growers started planting
soybeans without first emptying the insecticide boxes. Or-
ganic phosphate soil insecticides applied in soybean fields
treated with metribuzin (Sencor or Lexone) may result in
injury to a soybean crop, according to information on the
labels.

CALIBRATION FOR GRANULAR SOIL INSECTICIDES

Calibrate the applicators for granular soil insecticides
before the planting season begins. In some instances, poor
control is caused by applying rates that are too low. Proper
calibration will help avoid this problem. Most soil insecti-
cide bags have a list of suggested settings for the partic-
ular model of applicator. The settings are based on plant-
ing speed. The beginning settings are helpful, but be sure
to check your actual application rate under your own oper-
ating conditions.

Follow these steps for calibrating the applicator:

1. Calibration of granular applicators for soil insecti-
cides is usually based on determining how many ounces of
product are needed per 1,000 feet of row. Consult the in-
secticide label or Table 2 for labeled rates for rootworm
control. These rates are expressed in ounces per 1,000 feet
of row and pounds of product per acre.

2. Consult the label or manufacturer's recommendation
for an approximate application setting. Adjust the setting
on each hopper.

10

3. Select an area for a test run, preferably in the field,
so that speed and traction conditions are constant. Measure
off 1,000 feet.

4. Fill the hoppers and attach a plastic bag or con-
tainer to each delivery tube to catch the granules from each
hopper.

5. Drive the premeasured distance (1,000 feet) at the
same speed to be used during the planting operation.

6. Weigh the material collected from each hopper. Use
a scale that weighs in ounces (e.g., a postal scale or a diet
scale).

7. Compare the quantity (ounces) per bag against
those given in Table 2. To obtain one pound of active in-
gredient per acre the following amounts of material should
be collected :

Formulation,

percent

10

15

20

Oz. collected

per 1,000 ft.

12

8

6

8. Recalibrate if the difference in quantity applied dur-
ing the calibration process is more than 10 percent over or
under the rate suggested on the label.

MANAGING INSECT PESTS IN STORED GRAIN

This section describes a program for preventing insect
problems in stored grain. For more details on insecticide
formulations and dilution of them, see Table 10.

Store only clean, dry grain. Its moisture content should
be 13 percent or less; it should be cooled to 40°F as soon
as possible; and foreign material should be kept to a mini-
mum. If grain is to be stored one month or more between
May and October, follow the procedures listed below.

Wheat

1. Thoroughly clean in, around, and under the bin and
clean grain-handling equipment before harvest. Collect the
first few bushels coming through the combine and feed to
livestock.

2. Spray the walls, ceiling, and floor of the bin to run-
off with 1.5 percent malathion; use 3 ounces of the 50 to
57 percent EC per gallon of water.

3. Treat the wheat with malathion. Mix 1 pint of mala-
thion 50 to 57 percent EC in 2 to 5 gallons of water and
spray the mixture as uniformly as possible over each 1,000
bushels. Treat the wheat as it is being augered or elevated
into the bin. An alternative is to apply 10 pounds of 6
percent malathion dust (wheat flour) per 1,000 bushels.
Do not treat the grain until after it is heat dried.

4. Hang one dichlorvos resin strip per 1,000 cubic feet
of overspace in enclosed bins and replace the strips every
6 weeks. In open bins use the dichlorvos resin strips under
a raised tarp. An alternative to the dichlorvos strip is
Bacillus thuringiensis (Dipel, Topside, SOK-BT). Apply

it as a wettable powder (1 pound per 10 gallons of water)
or liquid concentrate (4 pints per 10 gallons of water) at
0.6 pints per bushel to the top 4 inches of wheat as it is
augered into the bin. A dust formulation of Bacillus
thuringiensis is available and should be applied at J/2
ounce per bushel on the top 4 inches of wheat as it is
binned. Level the surface of the wheat after treatment.

5. Spray the surface of the grain with malathion. Add
3 ounces of malathion 50 to 57 percent EC to 1 gallon of
water. Apply at a rate of 2 gallons of finished spray per
1,000 square feet. An alternative is to apply 6 percent
malathion dust at 5 pounds per 1,000 square feet. The
surface treatment will help prevent infestation by insects
entering bins through the top vent.

6. Cool the grain to 40 °F as soon as possible. Insect
reproduction ceases below 60 °F, and feeding stops below
50 °F.

7. Reinspect the grain at regular monthly intervals.
Insert metal rods or a temperature probe down through
the center of the grain to check for "hot spots."

Corn

Follow the same steps as for wheat if the corn is har-
vested before October 1 or carried over beyond May 15 of
the following year. Otherwise, no treatment is needed other
than cleanup and bin spraying.

Soybeans

Clean the bin and grain-handling equipment before
harvest, and spray the walls, ceiling, and floor of the bin
as suggested for wheat. If soybeans are harvested before
October 1 or carried over beyond May 15 of the following
year, use the same treatment as suggested in step 4 under
wheat. No insecticide is labeled for direct application to
stored soybeans.

Infested Carry-Over Grain

Apply a fumigant to corn or wheat that becomes in-
fested between May and October, following the procedure
described below. After fumigating, follow steps 4 through
7 under wheat.

NOTE: Bins with a capacity of more than 3,000
bushels should probably be treated by a licensed, profes-
sional fumigator. See your county Extension adviser in
agriculture for a list of licensed f umigators.

1. On a calm, warm day when the grain temperature
is above 65°F (preferably above 70°F), seal cracks and
holes in the bin, paying particular attention to the base area
around the doors and ventilating fan.

2. Level the surface of the grain, break up any caked
or crusted areas, and remove webbing. The surface level
of the grain should be at least 8 inches below the lip of
the bin.

3. Apply a liquid fumigant at 3 to 5 gallons per 1,000
bushels. Use the higher rate on wooden bins and in flat
storages. Place the containers on the surface, spacing them

11

evenly. Loosen the caps slightly, then remove them, and
invert the containers on the surface. Get out of the bin
within 30 seconds to one minute. It is better to apply the
liquid fumigant uniformly over the surface as a course
spray if you can do so from outside the bin. Have someone
standing outside the bin as a safeguard. Some common
liquid fumigants are carbon bisulfide + carbon tetra-
chloride (80:20 mixture), and ethylene dichloride + car-
bon tetrachloride (75:25 mixture). Other liquid fumigants
may contain additional materials such as ethylene dibro-
mide and sulfur dioxide and are also effective. The alumi-
num phosphide (Phostoxin, Detia) tablet or pellet can be
used, but a special application device is needed to place
the tablets in the grain mass. When handling the tablets,
do not allow water to come in contact with them. Wear
neoprene rubber gloves to prevent perspiration from com-
ing in contact with the tablets.

4. Put a tarp over wooden bins if you can do so safely.
Close for 72 hours and then air out. The empty containers
should be removed from the bin after airing and disposed
of properly.

5. Place signs at all entrances warning that the bin is
being fumigated and list the fumigant used and the name,
address, and telephone number of a responsible person
to contact in case of emergency.

6. As an alternative to fumigation, it may be possible

to use a malathion protectant treatment. If the grain can
be moved to a clean and sprayed bin, apply a spray of
malathion to the grain as it is augered or elevated to the
new bin. The spray is commonly applied from a 3-gallon
tank sprayer. Mix 1 pint of 50 to 57 percent malathion in
2 to 5 gallons of water and spray the mixture on each
1 ,000 bushels. Although the malathion will not immediately
kill insects that are inside the kernels, it will eventually
provide effective control.

NOTE: Anhydrous ammonia is not suggested for
fumigation of stored grains. It is generally ineffective
against insects in stored grain at dosages below the point
at which grain is blackened from exposure.

Uninfested Carry-Over Grain

Beginning about May 15 in the southern half of Illinois
and June 1 in the northern half of the state, follow these
suggestions. Grain not treated with an overall malathion
protectant spray will need to be fumigated in the summer.
Normally, in the southern half of Illinois, two fumigations
per season will be needed. Apply the first treatment in mid-
July and the second about September 1. In the northern
half of the state, one fumigation per season is usually
sufficient. Apply this treatment in mid-August. Follow
steps 4 through 7 under wheat. Follow the same procedure
for each succeeding year of storage.

Table 4. Field Corn

Pounds of

active

ingredient

Insect

Time of attack

Insecticide"

per acre

Placement

Timing of application, comments

Corn rootworm

June-August

*Amaze (isofenphos)

lb

Band

For John Deere 7000 series planters, place

larvae

Counter (terbufos)

lb

Band

Dyfonate, Mocap, and Thimet behind the

**Dyfonate (fonofos)

lb

Band

firming wheels. Do not place Dyfonate, Mo-

** Dyfonate (fonofos)

3

Broadcast-PPP

cap, or Thimet in direct contact with the

**Furadan (carbofuran

) lb

Band

seed. (See text on soil insecticides at plant-

Lorsban (chlorpyrifos)

lb

Band

ing time.) Basal treatments during cultivation

**Mocap (ethoprop)

lb

Band

with Amaze, Counter, Dyfonate, Furadan,

Thimet (phorate)

lb

Band

Lorsban, Mocap, or Thimet are effective in
late May or early June.

Seedcorn

At germination

**Amaze (isofenphos)

lb

Band

At planting.

maggot

Counter (terbufos)

lb

Furrow

**Dyfonate (fonofos)

lb

Band

Lorsban (chlorpyrifos)

lb

Furrow

diazinon

1V4 oz. a.i.

On seed

per bu.

Lorsban (chlorpyrifos)

1 oz. a.i.

per 100 lb.
of seed

On seed

Slurry formulation used to treat seed before
planting.

Seedcorn

At germination

** Amaze (isofenphos)

lb

Band

At planting.

beetles

**Dyfonate (fonofos)

lb

Band

Thimet (phorate)

lb

Band

diazinon

\i/z oz. a.i.

On seed

per bu.

Wireworms

May-June

**Amaze (isofenphos)

lb

Band

Amaze is labeled for control of low to

Counter (terbufos)

lb

Band, furrow

moderate infestations. Thimet and Dyfonate

(Wirewortns continued

**Dyfonate (fonofos)

lb

Band

applied in a 7-inch band are labeled for sup-

on the next page.)

**Dyfonate (fonofos)

4

Broadcast-PPP

pression of wireworms.

12

Table 4. Field Corn (continued)

Insect

Time of attack Insecticide8

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Wireworms
(continued)

**Furadan (carbofuran)
Lorsban (chlorpyrifos)
Lorsban (chlorpyrifos)
**Mocap (ethoprop)
Thimet (phorate)

2b

2b
2
lb
lb

Band, furrow

Band, furrow

Broadcast-PPr

Band

Band

Cutworms

May- June

Lorsban granules
(chlorpyrifos)

Lorsban spray
(chlorpyrifos)

lb
1-2

Band At planting.

Broadcast-PPF

**Dyfonate (fonofos)
**Dyfonate (fonofos)

lb

4

Band
Broadcast-PPIc

Suppresses cutworms.

**Mocap (ethoprop)

Band

At planting. Controls light to moderate in-
festations.

Lorsban spray

(chlorpyrifos)
Sevin spray (carbaryl)
Sevin bait (carbaryl)
Dylox, Proxol spray

(trichlorfon)

*Penncap-M (micro-
encapsulated methyl
parathion)

1-1*4

2b

1-2

lb

Broadcast

Plant base
Broadcast
Plant base

Broadcast

Apply as a postemergence rescue treatment
when 3 percent or more of the plants are
cut in the 2-leaf stage and there are 2 or
more cutworms per 100 plants. At the 4-leaf
stage, control is justified if 3 percent or more
of the plants are cut and there are 4 or more
worms per 100 plants.
Apply Penncap-M only by ground.

White grubs

May-October

** Amaze (isofenphos)
Counter (terbufos)

lb
2b

Band
Band

Amaze is labeled for control of low to
moderate infestations, and Counter is la-
beled for reduction of white grubs at plant-
ing.

Garden May-July Counter (terbufos)

symphylan **Dyfonate (fonofos)

Lorsban (chlorpyrifos)

l-2b

2

M*4b

Band

Broadcast-PPIc

Band

At planting.

Billbug

May-June

Lorsban granules
(chlorpyrifos)

Lorsban spray
(chlorpyrifos)

2b
1-1*4

Band, furrow Apply Lorsban spray or toxaphene spray as
a postemergence rescue treatment when dam-
Broadcast age appears.

toxaphene

2"

At plant base

Flea beetles

May-June

Sevin, Savit (carbaryl)
diazinon

lb

y2b

Over row
as spray

When leaves on seedling plants are severely
damaged and some plants are being killed.

Sod webworm

May-June

toxaphene

2b

At base of
plant

At time of initial attack.

Common stalk
borer

May-June

Furadan (carbofuran)

2-3b Furrow Application of Furadan at planting time may

provide early season suppression of common
stalk borers. Postemergence sprays of
carbaryl (Sevin), methomyl (Nudrin, Lan-
nate), or chlorpyrifos (Lorsban) may give
some control if applied when damage first
appears.

Hop vine borer May-June

None labeled

Postemergence sprays of carbaryl (Sevin),
methomyl (Nudrin, Lannate), or chlorpyrifos
(Lorsban) may give some control if applied
when damage first appears.

Thrips

May-June malathion

Metasystox-R

(oxydemeton-methyl)

lb
*4b

On foliage When severe wilting and yellowing of leaves

as spray are noticed.

Armyworms May-August

Sevin (carbaryl)

1*4

Over row as

Dylox, Proxol

1

spray

(trichlorfon)

♦Lannate, *Nudrin

*4

(methomyl)d

malathion

1

Lorsban (chlorpyri

fos)

l

At first migration, or when worms are eat-
ing leaves above ear level.

13

Table 4. Field Corn (continued)

Insect

Time of attack Insecticide"

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Chinch bug

June-August

Sevin (carbaryl)f

Spray at At start of migration from small grains,

base of Use only ground equipment and apply 25 to

plant 40 gallons per acre.

European corn
borer, first
generation

June-July

diazinon granules 1

Furadan granules 1

(carbofuran)
Dyfonate granules 1

(fonofos)
*Penncap-M (micro- 1

encapsulated methyl

parathion)

On upper When 50% or more of the plants have fresh

Vz of plant whorl feeding, live borers present, and ex-

and into whorl tended leaf height is 24 inches or greater.

Thuricide granules see

(Bacillus thuringiensis) label

For suppression. A second application may
be needed.

European corn
borer, second
generation

Late July,
mid- August

diazinon granules 1

Furadan granules 1

(carbofuran)
Dyfonate granules 1

(fonofos)
*Penncap-M (microencap- 1

sulated methyl

parathion)

On foliage Apply at first hatch when there are one or

more egg masses per plant, or when cumu-
lative counts, made one week apart, exceed
one egg mass per plant.

Thuricide granules see

(Bacillus thuringiensis) label

For suppression. A second application may
be needed.

Woollybear
caterpillars

July

None labeled

Silk clipping caused by caterpillars does not
generally warrant control.

Grasshoppers June-September

Sevin (carbaryl) 1-lVz

diazinon y£

Cygon (dimethoate) Vz

malathion 1

Lorsban (chlorpyrifos) Vi
*Penncap-M (microencap- 1/2

sulated methyl

parathion)

Over row
as spray

As needed.

Spider mites July-August Di-Syston 15G 1

(disulfoton)

Meta-Systox-R Vz

(oxydemetonmethyl)

Thimet 15G (phorate) 1

Trithion 1

(carbophenothion)

ethion 1

diazinon Vz

On foliage Begin control if the majority of plants are

infested with mites severe enough to cause
some yellowing or browning of the lower
leaves before dent stage.

Japanese beetle July-August

Sevin, Savit (carbaryl)

Over plant During the silking period to protect pollina-

tion if less than 75% of plants are silked
and three or more beetles are present per
ear.

Corn leaf aphid July-August

malathion
diazinon

1 On foliage Apply during late whorl to early tassel

1 when 50% of plants have light to moderate

infestations and plants are under drouth

stress.

Corn rootworm July-August Sevin, Savit (carbaryl) 1 Overall spray

beetles malathion 1 or directed

diazinon Vz toward ear

Imidan (phosmet) V4 zone

*Penncap-M (microencap- V2
sulated methyl
parathion)

Before 75% of plants have silked, if there
are 5 or more beetles per plant and if silk
clipping is observed. Only to protect pollina-
tion. Imidan is labeled for suppression of
corn rootworm beetles.

14

Table 4. Field Corn (continued)

Insect

Time of attack Insecticide"

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Southwestern
corn borer

August

Furadan granules
(carbofuran)

diazinon granules

Dyfonate granules
(fonofos)

*Penncap-M (microencap-
sulated methyl
parathion)

1 On foliage Direct granules over row. Apply when 25%

of the plants have egg masses or larvae on
1-2 leaves. Early-planted corn usually escapes

1 damage.

Corn earworm August

Sevin (carbaryl) 2

*Lannate, *Nudrin y$

(methomyl)d

Directed toward Insecticide applications are rarely effective
ears for the control of earworms in commercial

field corn after worms enter ear tips.

Fall armyworm July-September

Sevin, Savit sprays 2

(carbaryl)
diazinon granules 1

Dylox. Proxol spray 1

(trichlorfon)
*Lannate, *Nudrin Vi

(methomyl)d

On foliage Granules are more effective if worms are

deep in whorl. If worms are small and out
on leaves, sprays are effective. Treat when
35% of plants have whorl damage and if
worms are present. Treatments to control
worms in ear tips are not generally effective.

* Use restricted to certified applicators only.

** Liquid formulations of Dyfonate, Furadan, Mocap, and Amaze are restricted. Amaze 20G is also restricted.
t State labeled insecticide. Applicator must have Illinois label in possession when applying.
a See Table 14 for insecticide restrictions.

b Based on 40-inch row spacing. Increase rates for narrow rows.
c PPI Pre-plant incorporated.
d To be applied only by experienced operators or those wearing protective clothing.

Table 5. Soybeans

Insect

Time of attack Insecticide8

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Seedcorn maggot Germination

diazinon

Y\ oz. a.i.
per bu.

On seed

At planting time.

Bean leaf beetle May-June,
August

Sevin, Savit (carbaryl)

1

Orthene (acephate)

VH

*Penncap-M (microen-

1

capsulated methyl

parathion) b

♦Lannate, *Nudrin

1/2

(methomyl)c

*Pydrin (fenvalerate)

0.1

On foliage When defoliation reaches 30% before bloom

or 15% during blooming and pod fill and if
beetles are present in the field. If 10% of
pods are damaged and leaves are green.

Cutworms May- June Sevin bait, Sevin XLR lVi Broadcast

(carbaryl)
diazinon 2-4 Broadcast PPI

During plant emergence if stand has gaps
of one foot or more.

Thistle
caterpillar

June

Sevin (carbaryl)

On foliage When defoliation reaches 30% before bloom

and 15% between bloom and pod fill.

Mexican bean
beetle

May-July

*Penncap-M (microen-

Vz-V4

On foliage

capsulated methyl

parathion)"

Orthene (acephate)

Vi-\

*Nudrin, *Lannate

Vi

(methomyl)0

Sevin (carbaryl)

1

malathion

Wi

Cygon (dimethoate)

Vi

*Pydrin (fenvalerate)

0.1

See bean leaf beetle (above) for defoliation
threshold.

15

Table 5. Soybeans (continued)

Pounds of

active
ingredient

Insect

Time of attack

Insecticide*

per acre

Placement

Timing of application, comments

Grasshoppers

June-September

Cygon (dimethoate)
Sevin, Savit (carbaryl)
Orthene (acephate)

1

On foliage

When migration into fields begins and de-
foliation or pod feeding reaches economic
levels. See bean leaf beetle (above).

Japanese beetle

June-July

Sevin (carbaryl)

1

On foliage

When defoliation reaches 15% during bloom
and pod fill.

Green cloverworm July-August

Stink bugs

Loopers

Sevin (carbaryl)

*Lannate, *Nudrin (meth-
omyl)c

Orthene (acephate)

malathion

Dipel, Thuricide, Bactur, (See label)
SOK (Bacillus
thuringiensis)

*Penncap-M (microen-
capsulated methyl
parathion)b

1

1/2

**-i

Vz-n

On foliage When defoliation occurs during blooming,

pod set, and pod fill. Usually requires 12 or
more half-grown worms per foot of row
and 15% defoliation to justify treatment.

*Pydrin (fenvalerate)

0.1

Webworms

June-August

Sevin, Savit (carbaryl)

1

On foliage

Requires 15% or more defoliation between
bloom and pod fill to justify treatment.

Spider mite

June-August

Trithion (carbophenothion)
Cygon (dimethoate)

l/2-3/4
V2

On foliage

As needed on field margins or entire field.

July-August

Orthene (acephate)
*Penncap-M (microen-
capsulated methyl
parathion)b
Sevin (carbaryl)
*Pydrin (fenvalerate)

34-1

Vi-Ya

1
0.1-0.2

On foliage When adult bugs or large nymphs reach 1

per foot of row during pod-fill.

Thrips

June-August

Sevin, Savit (carbaryl)
*Lannate, *Nudrin
(methomyl)0

1

Va

On foliage

If seedlings are being seriously damaged
and some plants are being killed.

Blister beetles

July-August

Sevin (carbaryl)

1

On foliage

See bean leaf beetle (above) for defoliation
threshold.

Saltmarsh
caterpillar

August

Sevin (carbaryl)
*Lannate, *Nudrin
(methomyl)0

2

1/2

On foliage

See bean leaf beetle (above) for defoliation
threshold.

August

Orthene (acephate) 1/-1

Thuricide, Dipel, Bactur, (See label)

SOK (Bacillus

thuringiensis)
*Lannate, *Nudrin (meth- Vi"l

omyl)e
*Pydrin (fenvalerate) 0.1-0.2

On foliage See bean leaf beetle (above) for defoliation

threshold.

Woollybear
caterpillar

August

None labeled

Infestations are rarely economic.

Whitefly

August-
September

None labeled

High infestations are occasionally present
on double-crop soybeans, but are rarely eco-
nomic.

Corn earworm August- Orthene (acephate) 1

September Sevin (carbaryl) 1

*Lannate, *Nudrin (meth- 1/2

omyl)c

*Penncap-M (microencap- 1

sulated methyl parathion)b

*Pydrin (fenvalerate) 0.1-0.2

On foliage Damage occurs when larvae feed on pods.

Apply control if populations exceed 1 per
foot of row.

* Use restricted to certified applicators only.

" See Table 14 for insecticide restrictions.

b This product is highly toxic to bees.

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

16

Table 6. Alfalfa and Clover

Insect

Time of attack Insecticide8' b

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Clover leaf weevil March- April

malathion

1

On foliage When larvae are numerous and leaf feed-

ing is noticeable, usually in early to mid-
April. Usually requires 5 or more healthy
larvae per crown to justify treatment.

Alfalfa weevil March-June
(spring treatment
for larvae)

*Furadan (carbofuran)c,d Va
*Supracide (methidathion)c Vz

malathion plus
methoxychlor

Imidan (phosmet)

*Penncap-M (microen-
capsulated methyl
parathion)8

*Lannate, *Nudrin
(methomyl)0

2 qt. per
acre
1

Vz

0.9

On foliage Refer to circular 1136. Or when 25% of

tips are being skeletonized and if there are
3 or more larvae per stem, treat immedi-
ately. Do not apply sprays during bloom.
Instead, cut and remove the hay. Two treat-
ments may be necessary on first cutting.
Watch regrowth of second crop for signs
of damage, and apply a treatment if feeding
damage is apparent.

Do not spray alfalfa with Penncap-M
during bloom to avoid injury to bees.

Alfalfa weevil
adults

June

*Furadan (carbofuran)0' d \/i-\
*methyl parathion Vz

On foliage As a stubble spray. Technically, Supracide

and Penncap-M could be used, since the la-
bels do not distinguish between alfalfa
weevil larvae and adults.

Spittlebug Late April, malathion plus methoxy- 2 qt. per

May chlor acre

malathion 1

On foliage When spittle masses are found and nymphs

average more than 1 per stem.

Cutworms May-June Sevin (carbaryl) \Vz

Dylox, Proxol (trichlor- 1

fon)
*Lannate, *Nudrin Vz

(methomyl)0

On foliage As needed on regrowth of second cutting.

Aphids

April-August Cygon, De-Fend (dimeth- Vz

oate)
diazinon
malathion

*Furadan (carbofuran)c,d
*Penncap-M (microen-
capsulated methyl
parathion)8
*Supracide (methidathion)'
*Lannate, *Nudrin
(methomyl)0

Vi
1

Va-Vz
Vz

Vz-\

V?

On foliage When aphids are abundant and lady beetle

larvae and adults, parasites, and diseases
are low.

Leafhoppers

June-August

Sevin, Savit (carbaryl)

1

diazinon

Vz

*Penncap-M (microen-

Vl

capsulated methyl

parathion)8

Cygon, De-Fend (dimeth-

Vz

oate)

Dylox, Proxol (trichlor-

Vz-\

fon)

*Supracide (methida-

Vz-\

thion)8

Imidan (phosmet)

1

*Furadan (carbofuran)0' d

1

Grasshoppers

June- September

Cygon, De-Fend (dimeth-
oate)

Vz

Sevin, Savit (carbaryl)

1

*Furadan (carbofuran) od

Va

diazinon

Vz

On foliage When second-growth alfalfa is 4 to 5 inches

tall, apply a treatment where there are one
or more leafhoppers per sweep.

On foliage When grasshoppers are small and before

damage is severe. Avoid treatments wben
plants are blooming. Cut the hay and re-
move the crop.

17

Table 6. Alfalfa and Clover (continued)

Insect

Time of attack Insecticide"' b

Pounds of
active

ingredient
per acre

Placement

Timing of application, comments

Webworms July- August Sevin, Savit (carbaryl) 1

Dylox, Proxol (trichlor- 1

fon)

malathion plus methoxy- 2 qt. per

chlor acre

On foliage If damage appears.

Fall armyworm August- Sevin (carbaryl) 1

September Dylox (trichlorfon) 1

♦Lannate, *Nudrin (meth- Vz
omyl)c

On foliage Usually in late summer or early fall on

new seedings or established stands.

* Use restricted to certified applicators only.
1 See Table 14 for insecticide restrictions.

b 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.

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

d Only for pure stands of alfalfa. When using no more than V4 pound per acre, allow 7 days between application and harvest. If you use

Va to V4 pound per acre, allow 14 days to elapse between application and harvest.

• This product is highly toxic to bees exposed to direct treatment or residues on crops.

Table 7. Grain Sorghum

Pounds of

active
ingredient

Insect

Time of attack

Insecticide*

per acre

Placement

Timing of application, comments

Cutworms

May-June

Sevin (carbaryl)

2

Over row

When seedling plants are being cut.

Yellow sugarcane
aphid

May-June

Metasystox-R

(oxydemeton-methyl)

U-Vi

Over row

Treatment should be applied at first sign of
damage to seedling sorghum ; 5 to 10 aphids
per leaf.

Greenbug

June-July

Cygon, De-Fend (dimetho-

U-1/2

ate)

malathion

1

diazinon

Vz

Metasystox-R

Va-Vz

(oxydemetonmethyl )

Over

When greenbug damage is sufficient to cause
death of more than 2 normal-sized leaves
before the hard-dough stage. Caution : Some
sorghum varieties are sensitive to organo-
phosphate insecticides.

Grasshoppers

June- August

Cygon (dimethoate)

1/2

Over row

As needed.

Fall armyworm

July-August

Sevin (carbaryl)
*Lannate, *Nudrin
(methomyl)b

11/2
1/4-1/2

Over row

When there is an average of 2 worms per
head. Leaf feeding or whorl damage is
seldom economic.

Webworms

After heads
form

Sevin, Savit (carbaryl)
♦Lannate, *Nudrin
(methomyl)"

1-2
Vz

Over row

When 5 or more larvae per head are found.

Corn earworm

After heads
form

Sevin, Savit (carbaryl)
*Lannate, *Nudrin
(methomyl)b

1-2

1/4-1/2

Over row

When there is an average of 2 worms per
head.

Sorghum midge August-
September

Cygon (dimethoate) 1,4

diazinon Va-Vz

Sevin (carbaryl) 11/4

*Lannate, *Nudrin Va~Vz
(methomyl)b

Over row Apply during bloom when 50% of heads

have begun to bloom and there are 1 or
more midge adults (flies) per head.

Lorsban (chlorpyrifos)

Va

Corn leaf aphid

July-
September

Cygon (dimethoate)
malathion

l

Over row

Corn leaf aphids rarely cause economic
damage unless populations are heavy and
drouth conditions exist.

Chinch bug

Tune-August

Sevin (carbaryl)

2

At plant base

* Liquid formulations are restricted to certified applicators only.

" See Table 14 for insecticide restrictions.

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

18

Table 8. Small Grains (Barley, Oats, Rye, Wheat)

Insect

Time of attack Insecticide"

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Armyworm

May-June

toxapheneb
Dylox, Proxol
(trichlorfon)

*Lannate, *Nudrin

(methomyl)0
Sevin (carbaryl)

1V$

VH

1/2

1

On foliage When there are 6 or more armyworm s

per linear foot of row and before extensive
head cutting occurs. Do not use trichlorfon
on rye.

Greenbug, May-June

English grain

aphid

Cygon (dimethoate) V£

malathion 1

*Penncap-M (microen- V4

capsulated methyl

parathion)d

On foliage Aphids damage plants indirectly by trans-

mitting disease. Once yellowing is notice-
able, it is usually too late to treat. Use di-
methoate on wheat only. Do not apply Penn-
cap-M to rye.

Fall armyworm October-
November

Grasshoppers

Fall

toxaphene"

Dylox, Proxol (trichlor-
fon)

2 On foliage During fall when damage to new growth is

V£-l apparent. Do not use trichlorfon on corn.

Sevin (carbaryl)

1

Variegated
cutworm

May-June

Dylox, Proxol (trichlor-
fon)

1/2-I

As needed. Do not use trichlorfon on corn.

Wheat stem
maggot

May-June

None

••

No chemical control. Damage shows as
white heads when field is still green.

malathion

1

On foliage

toxapheneb

2

Cygon (dimethoate)

Vi

*Penncap-M (microen-

1/2

capsulated methyl

parathion)d

Sevin (carbaryl)

1

During fall when damage is apparent, treat
field borders and noncrop areas to stop mi-
gration.

* Use restricted to certified applicators only.

a See Table 14 for insecticide restrictions.

b 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.

c To be applied only by an experienced operator or one wearing protective clothing.

d This product is highly toxic to bees.

Table 9. Grass Pasture

Insect

Time of attack Insecticide*

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Grasshoppers June-July

*Penncap-M (microen- Vz

capsulated methyl

parathion)b
diazinon V£

malathion
Sevin (carbaryl)

Armyworms June- July Dylox, Proxol (trichlorfon)

malathion
Sevin (carbaryl)

* Use restricted to certified applicators only.
" See Table 14 for insecticide restrictions.
" This product is highly toxic to bees.

On foliage As needed.

On foliage As needed. Sevin and Dylox may be applied

without removal of grazing livestock.

19

Table 10. Stored Grain (Corn, Wheat, Oats)

a,b

Insect

Time of attack

Insecticide
and dilution

Dosage

Placement

Suggestions
(See Table 14)

Angoumois grain
moth (earcorn)

May-October
(southern Vi of
Illinois only)

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

Apply to runoff

Spray surface
and sides about
May 1 and
August 1

Plant tight husk vari-
eties. Store as shelled
corn to avoid all but
surface damage by an-
goumois moth.

Indian meal mothc May-October

dichlorvos 20%
(DDVP, Vapona)
plastic resin
strip"

Bacillus

thuringiensis*

dust 4,000 units per mg.

Bacillus

thuringiensis*

WP 16,000 units per mg.

1 lb. in 10 gal. water

Bacillus thuringiensis"
LC 4,000 units per mg.
4 pt. in 10 gal. water

1 strip per 1,000 cubic
feet of space above
grain mass

V$ oz. per bu.
(See Table 11.)

0.6 pt. per bu.
(See Table 11.)

0.6 pt. per bu.
(See Table 11.)

Attach to
ceiling or
side wall

Apply to top
4 inches of grain

Apply to top
4 inches of grain

Apply to top 4
inches of grain

Qean and spray bin
with 1.5% malathion to
runoff before storage.
Store only clean, dry
grain. Install strips on
May 15 or at storage.
Replace strips every 6
weeks between May and
October. As an alterna-
tive to the strips, ap-
ply Bacillus thuringien-
sis (B.t.) at the auger as
the grain is binned/
Note: Level the grain
after treatment. For
emergency treatment use
B.t. raked in and the
dichlorvos resin strip.

GENERAL

Internal and ex-
ternal feeders

Rice and granary
weevils

Flat grain beetle

Saw-toothed
grain beetle

Rusty grain beetle

Foreign grain beetle

Caddie beetle

Flour beetles

May-October

malathion 57% E.C.
1 pt. per 3-5 gal. water15

2-5 gal. per
1,000 bu.

malathion 6%
wheat flour dust

10 lb. per
1,000 bu.

Spray uni-
formly as grain
is binned. After
binning apply 2
gallons per 1,000
square feet over
the surface.

Apply over wheat
in combine hop-
per or uniformly
as wheat is
binned. After bin-
ning, apply 5
pounds per 1,000
square feet over
the surface.

Qean and spray bin
with 1.5% malathion to
runoff before storage.
Store only clean, dry
grain. Protect surface
with dichlorvos resin
strips or B.t. as recom-
mended for meal moths.

liquid fumigant

3-5 gal. per
1,000 bu.

On surface;
repeat if
necessary

*methyl bromide + As directed

♦ethylene dibromide '■ J

On surface

Clean and spray bin
with 1.5% malathion to
runoff before storage.
' Store only clean, dry
grain. Apply in late July
and September in the
southern half of Illi-
nois; apply in mid-
August in the northern
half of Illinois. Protect
surface with dichlorvos
resin strips or B.t. as
recommended for meal
moths.

♦aluminum phosphide*

180 tablets or 300
pellets per 1,000 bu.

Uniformly Fumigants are best used

throughout for emergency control

of existing infestations.

20

Table 10. Stored Grain (Corn, Wheat, Oats)' ' (continued)

*Use restricted to certified applicators only.

1 Corn need not be treated if harvested after October 1 unless it is to be carried over after May 15 the following year. Wheat and oats

should be treated if they are to be held for one month or more in storage after harvest. Soybeans stored at safe moisture levels are attacked

only by Indian meal moth.

b Grain carried over after May IS of the following year should receive a surface spray of 1.5% malathion at 2 gal. per 1,000 sq. ft. or a dust

treatment of 6 percent malathion dust at 5 pounds per 1,000 sq. ft. for general feeders and either a B.t. or dichlorvos resin strip application

for Indian meal moth control.

* Remove webbing before treatment.

d Effective only in enclosed bins. Kills adult moths but not the eggs or larvae. A week or two is required to control effectively an existing
infestation. Fumigate the grain if immediate control is desired. Also cleared for use in bins of stored soybeans.

•Kills larvae only. A week or two is required to control an existing infestation. Fumigate the grain if immediate control is desired.
Cleared for use on soybeans. Called Dipel, Topside, and SOK-BT.

* We do not recommend the raked-in method of application for B.t. on grain just going into storage.

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

h Two common liquid fumigants are *carbon bisulfide + *carbon tetrachloride and *ethylene dichloride + *carbon tetrachloride.
1 Use with extreme caution. Apply only under calm conditions and when grain temperature is 70° F or above. Grain should be 8 inches be-
low the lip of the bin and should be leveled before fumigating. Cover the surface with a plastic tarp for 24 hours, then air out.
J Called the 73 mixture.

k Called *Phostoxin or *Detia. Slow vaporization with a 3-day exposure period. Can be used at grain temperature of 60°F or above. Grain
should be 8 inches below the lip of the bin and should be leveled before fumigating. Cover the surface with a plastic tarp for 3 days,
then air out.

Table 11. Amount of Bacillus thuringiensis (B.t.) to Apply

Bin

Bushels in

Amount of B.t.

Amount of B.t. liquid

diameter

top 4 inches

wettable powder (lb.)

concentrate (oz.)

Amount of B.t.

(feet)

of grain

and water (gal.) needed

and water (gal.) needed

dust (oz.) needed

8

13

0.1/1

6/2/I

6/2

12

30

0.25/21/2

141/2/21/2

15

16

53

0.4/4

26/4

27

20

84

0.6/6

39/6

42

24

120

0.9/9

58/9

60

28

163

1.25/121/2

8O/I21/2

82

32

214

1.6/16

103/16

107

Table 12. Non-Crop Areas

Insect

Time of attack Insecticide"

Pounds of

active

ingredient

per acre

Placement

Timing of application, comments

Grasshoppers June- July Sevin (carbaryl)

Cygon (dimethoate)b,t

diazinon

malathion

1

1/2

Vi
1

On foliage When grasshopper nymphs average 15 to 20

per square yard along roadsides and fence-
rows. Do not spray areas adjacent to water.
Apply treatments while hoppers are small
and before they migrate into row crops.

* See Table 14 for insecticide restrictions.

b To be applied only by an experienced operator or one wearing protective clothing.

t State labeled insecticide. Applicator must have Illinois label in possession at time of application.

21

Table 13. Sunflowers

Pounds of

active
ingredient

Insect

Time of attack

Insecticide"

per acre

Placement

Timing of application, comments

Cutworms

May-June

toxaphene

Sevin (carbaryl)

m-2

11/2

Over row

When 10% of the seedlings are damaged.

Sunflower beetle

May-June

toxaphene
Sevin (carbaryl)

H/2-2

1-2

Over row

When defoliation reaches 25%. Do not ap-
ply toxaphene after yellow ray petals have
formed.

Thistle
caterpillar

June

toxaphene

lVi-2

Over row

When defoliation reaches 25%.

Grasshoppers

June-August

toxaphene
Sevin (carbaryl)

2

1

Over row

When defoliation reaches 25%.

Sunflower moth
larvae

July

Thiodan, Tiovel 1

(endosulfan)
*Supracide (methidathion)b i/2

Over row

Apply first treatment when a field has
reached 20 to 25% bloom and moths are
present.

Stem weevil

June

Sevin (carbaryl)
*Supracide (me-
thidathion)

1-2

1/2

Over row

When there are 2 or more beetles per plant.

Armyworm

May-August

Sevin (carbaryl)

H/2-2

Over row

When defoliation reaches 25%.

Fall armyworm

July-August

Sevin (carbaryl)

H/2-2

Over row

When defoliation reaches 25%.

* Use restricted to certified applicators only.

• See Table 14 for insecticide restrictions.

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

Spraying blossoming sunflowers can be extremely hazardous to bees.
Coordinate with local beekeepers before applying sprays.

Table 14. Limitations in Days Between Application of the Insecticide and Harvest of Crop and Restrictions on Use

of Insecticides for Field Crop Insect Control

(Blanks denote that the product may not be labeled or suggested for that specific use in Illinois)

Worker

re-entry

time (hours)"

Field corn

Grain

Ensilage
and stover

Forage crops

Sorghum

Alfalfa

Clover

Pasture

♦Amaze (isofenfos)b
Counter (terbufos)
Cygon, De-Fend (dimethoate)
Diazinon
**Di-Syston (disulfoton)»,b

75,A
B
14
B
40

75.A

B

14

10

40

28
7

10,C
7

**Dyfonate (fonofos)b

Dylox, Proxol (trichlorfon)

Ethion 24

**Furadan (carbofuran)b
*Guthion (azinphos-methyl)a,b 24

45
D

50.E
B,F

45
D

50,E
F,G

7.H
16.C

0
16.C

Imidan (phosmet)
**Lannate (methomyl)*,b
Lorsban (chlorpyrifos)
Malathion
Metasystox-R

(oxydemeton-methyl)

48

14
B
50,1

5

7,K

14

3

50,1
5
7,K

4

4J
7
45.L

7,C
7

Methoxychlor
♦Methyl parathion*,b
**Mocap (ethoprop)6
**Nudrin (methomyl),,b
*Penncap-M (microencapsulated
methyl parathion),,b

48

B

B

B

3

12

12

14

7
IS

"7
15

7
15

15

22

Table 14. Limitations (continued)

Field

corn

W^orker

re-entry

Ensilage

time (hours)a

Grain

and stover

Sevin, Savit (carbaryl)

B

B

*Supracide (methidathion)b

Thimet (phorate)

30,N

30,N

Thuricide (Bacillus

B

B

thuringiensis)

Toxaphene

B

P

Trithion (carbophenothion)

48

21

21

Forage crops

Sorghum

Alfalfa

Clover

Pasture

21

0

10,M

Barley

Oats

Rye

Wheat

Soybeans

Sun-
flowers

Cygon (dimethoate)

Dipel, Thuricide, Bactur, SOK

(Bacillus thuringiensis)
Diazinon

Dylox (trichlorfon)
*Guthion (azinphos-methyl)a,b 24

**Lannate (methomyl)"' "

Malathion
**Nudrin (methomyl)a,b
Orthene (acephate)
*Penncap-M (microencapsulated

methyl parathion)a,b
*Pydrin (fenvalerate)

Sevin (carbaryl)
*Supracide (methidathion)"
Thiodan, Tiovel (endosulfan)
Toxaphene
Trithion (carbophenothion)"' b 48

21

10

7

10

'is

21

io

7
10

is

10

7

10

60

21

io

7

10

'is

21.U
"p

21
0

Q

*45,R

14

3

14

14.R
20,S

21,T
0

7,R

60.R
50,R
0,V
W

A. Do not use for forage, fodder, or ensilage or harvest fresh
corn (including sweet corn) or corn grain within 75 days of last
application. Make only one application per season either at planting
or cultivation. Soybeans may be planted one year after application.
Other crops not listed on the label may be planted 10 months after
application.

B. No specific restriction when used as recommended.

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

D. Three applications may be made per season. Can be applied up
to harvest.

E. Do not make more than 1 application after ear formation. Do
not feed treated forage to livestock.

F. Do not plant crops other than alfalfa, corn, peanuts, peppers,
potatoes, rice, sorghum, strawberries, sugar beets, sugarcane, and
tobacco within 18 months of last application. Soybeans and oats
may be planted the following season. Sweet corn, tomatoes, cab-
bage, peas, succulent beans, and dry beans may be planted the
following season if the previous season's application did not exceed
8.7 pounds per acre of Furadan 15 Granules, 13 pounds per acre
of Furadan 10 Granules, or 2 pints 10 fluid ounces per acre of
Furadan 4 Flowable. Any other crop may be planted, if it is not
harvested or grazed.

G. 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.

H. Make no more than two applications per season. Do not apply
more than once per cutting. Do not use more than 1 pint per acre
in the second application. Apply only to fields planted to pure
stands of alfalfa.

I. Do not apply more than 3 pints of Lorsban 4E by postemergence
application per season. Do not allow livestock to graze in treated
areas or feed treated corn silage, fodder, or grain to meat or dairy
animals within 50 days after treatment. Do not make more than
one application of the granular formulation per season.

J. Do not make more than 3 applications. The treated crop is not
to be used for forage, fodder, hay, or silage within 14 days after
the last treatment. Do not treat sweet varieties of sorghum.

K. Do not apply more than once per season.

L. Do not apply more than 3 times per season. Do not use on
sweet sorghum.

M. Make no more than one foliage and one stubble application per
cutting.

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

P. Do not feed treated forage to dairy animals or animals being
finished for slaughter. Do not graze meat animals on granular-
treated stover within 28 days of slaughter.

Q. Diazinon is labeled only as a preplant broadcast treatment.

R. Do not graze or feed treated crop to livestock.

S. Do not make more than 2 applications per season.

T. Do not feed or graze livestock on treated plants. Do not make
more than 4 spray applications per season. Pydrin is highly toxic to
fish and bees.

U. Do not make more than 2 applications after grain heads emerge
from boot. Do not apply within 21 days of grain harvest. There
is no time limitation on green wheat used as pasture or forage.

V. Do not feed treated forage to livestock. Do not exceed 3 appli-
cations.

W. Do not apply after the yellow petals have formed on the
flower heads. Do not feed forage to livestock. Do not apply more
than 2 times per season.

* Use restricted to certified applicators only.
** Liquid formulations are restricted.

" 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 without protective
clothing until the spray has dried or the dust has settled. Protec-
tive clothing includes a hat, long-sleeved shirt, long-legged pants,
and shoes and socks.

b Sprays to be applied only by experienced operators wearing
proper protective clothing.

23

Table 15. Relative Toxicities of Commonly Used Agricultural Insecticides

Chemical
name

Toxicity to

mammals"

Toxicity to

Trade

Acute
oral

Acute
dermal

name

Birds

Fish

Bees

*Amaze

isofenphos

high

high

high

high

Counter

terbufos

high

high

high

very high

. . .

Cygon, De-Fend

dimethoate

moderate

moderate

moderate

very low

high

Diazinon

diazinon

moderate

moderate

high

high

high

Dipel, Bactur, Topside,

Bacillus thuringiensis

very low

very low

very low

very low

very low

Thuricide, SOK

**Di-Syston

disulfoton

high

high

moderate

...

moderate

**Dyfonate

fonofos

high

moderate

moderate

. . .

...

Dylox, Proxol

trichlorfon

low

low

low

very low

low

Ethion

ethion

high

high

low

■ • •

very low

**Furadan

carbofuran

high

moderate

moderate

moderate

high

*Guthion

azinphosmethyl

high

moderate

moderate

very high

high

Imidan

phosmet

moderate

low

low

. . .

high

**Lannate, **Nudrin

methomyl

high

moderate

low

. . •

high

Lorsban

chlorpyrifos

moderate

moderate

moderate

very high

high

Malathion

malathion

low

low

low

moderate

high

Metasystox-R

oxydemetonmethyl

moderate

moderate

moderate

—

moderate

Methoxychlor

methoxychlor

low

low

very low

very high

low

*Methyl parathion

methyl parathion

high

high

moderate

very low

high

**Mocap

ethoprop

moderate

high

moderate

. . .

moderate

Orthene

acephate

moderate

moderate

moderate

low

high

*Penncap-M

microencapsulated
methyl parathion

moderate

low

moderate

very low

high

*Pydrin

fenvalerate

moderate

low

low

very high

very high

Sevin

carbaryl

low

low

very low

very low

high

*Supracide

methidathion

high

moderate

moderate

high

high

Thimet

phorate

high

high

moderate

very high

moderate

Thiodan

endosulfan

high

high

low

. . •

moderate

Toxaphene

toxaphene

moderate

moderate

low

very high

low

Trithion

carbophenothion

high

high

...

...

moderate

*Use restricted to certified applicators only.

** Liquid formulations are restricted. Amaze 20G is also restricted.

* Relative toxicities based on acute oral and acute dermal LD50 values of technical insecticide.

Always read the label
before applying insecticides.

The suggestions given in this circular are revised annually by entomologists of the College of Agriculture and the Illinois
Natural History Survey.

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

18M— 10-81— 52379— nr

UNIVERSITY OF ILLINOIS-URBANA

Q 630 7IL6C C005

CIRCULAR URBANA. ILL
899 REV. 1982

3 0112 019541173