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House and Garden Series
F@stSheet Ent-1046
Pesticides include any substances
used to kill, control or repel pests. We use pesticides almost
every day, from ant and roach sprays for the kitchen, to weed
killers for the lawn, mildew cleaners for the bathroom and
mosquito repellents outdoors. Pesticides have become a widely
accepted way to keep our homes and gardens relatively pest-free.
About 85% of all American households keep at least one pesticide
in storage.
Despite our willingness to use them, most consumers associate
pesticides with pollution, health risks and toxic chemicals.
Surveys show that about 75% of consumers are wary of using
pesticides in the home. Many people today are avoiding certain
synthetic (man-made) pesticides in favor of natural or "organic"
products. But regardless of whether a substance comes from
natural or artificial sources, if it controls pests, it's
a pesticide. And as long as pests are around, chances are
that we will use pesticides.
There are many types of pesticides. Insecticides are pesticides
designed to control insects. Herbicides are pesticides designed
to kill weeds. There are dozens of others. In this factsheet
we will learn about the different kinds of insecticides and
how to choose the right one for the job.
CHOOSING THE RIGHT FORMULATION
The first decision to make when selecting a pesticide is
what formulation to use. A formulation is the way the pesticide
active ingredient is mixed with inert ingredients to make
it convenient and effective to use. Factors that influence
the choice of formulation include cost, convenience in mixing
and use, effectiveness against your target pest and safety.
The following table describes the most important types of
insecticide formulations and how they should be used.
Table 1. Various types and uses
of insecticide formulations.
| Type |
Description |
Where
and how to use |
Relative
Safety |
Cost
|
| Dust |
An
insecticide active ingredient is sprayed onto a finely
ground dust. |
Dusts
are best used to deliver an insecticide to difficult-to-reach
areas. Common uses include treatment of ants in a wall,
or wasps in the ground. Ants and other social insects
will track the applied dust deeper into a nest. Dusts
are often sold for garden use, but application there
is inefficient and much of the insecticide is likely
to be blownor washed off the intended target. Best to
apply with a crank duster or squeeze bottle designed
for applying dusts. |
Low
to moderate. Easy to inhale, may drift from the intended
target site. |
Low |
| Granular |
Insecticide
is sprayed onto an inert, absorptive granule; usually
consisting of clay, ground corn cob, or nut husks. |
Granular
insecticides are designed to provide control of soil
dwelling insects. They are less effective against surface
crawling pests, unless these also spend much time underground
in the treatment zone. Commonly used for control of
ants, grubs, millipedes, etc. Easy to apply with a rotary,
drop, or hand-held seed spreader. |
High.
Because insecticide is impregnated inside an inert carrier,
spills are easily contained and little exposure risk
to exposed skin. |
Low |
| Aerosol |
Insecticide
mixed with gas in a metal can. Can be designed to produce
a various particle sizes from fine aerosol to liquid
stream. |
Easy
to use and apply, designed for application of residual
sprays for crawling insects as well as for aerosol fogs
for flying insects, depending on product. Commonly sold
for ant and roach control, or flying insect control.
Despite the impression given by advertisements, aerosol
fogs do not penetrate well into cracks and crevices
where pests hide. |
Low
to moderate. Some formulations are flammable. Solvents
may add to toxicity, and exposure risk to skin is higher.
Empty cans should be wrapped in newspaper for disposal
to prevent accidental punctures. |
High |
| Baits |
Consist
of an insecticide mixed with a food or attractant to
entice the insect to ingest. Come in various forms including
pellets, dusts, gels, liquids and granules. |
One
of the most effective control methods for controlling
social insects, like ants and termites. Also very effective
on cockroaches and crickets. Various ways to apply. |
High
safety due to the low percentage active ingredient needed
to produce control. Containerized baits are exceptionally
safe. Broadcast treatments of low rates is generally
the safest application method. |
Low
to moderate |
| Spray
- Ready to Use (RTU) |
Premixed
liquid, usually in a pump spray bottle or as a hose-end
attachment. |
Designed
for convenience, RTU sprays require the user to just
point and pump or attach to a garden hose. No mixing
required. Usually designed for tree, lawn and garden
sprays, flea sprays. |
Moderate.
Because there is no mixing, risk of your exposure to
the concentrate is eliminated. User should avoid exposure
to spray drift by using gloves and long-sleeves. |
Moderate
to high |
| Spray
- Concentrate |
Concentrated
active ingredient in an emulsion or solution. Designed
to be mixed with water before application. |
Wide
range of uses include both indoor and outdoor sprays,
lawn and garden sprays and soil drenches. |
Higher
risk because of need to mix concentrated product and
potential for exposure to spillage, drift or splashing. |
Low |
COMMON TYPES OF PESTICIDES
It is helpful to realize that insecticides can generally
beclassified as either low-impact or as conventional.
Low impact products include those that generally are low in
toxicity to people and pets and have minimal impact on the
environment, including beneficial insects. Some, but not all,
low-impact pesticides may be classified as “organic.”
Some organic products may not be considered low-impact if
they are highly toxic. Here are a few examples of common low-impact
insecticides that are widely available in hardware stores
and garden centers.
Table 2. Classification of low impact insecticides,
with examples.
| Type |
Common
Name |
Examples
(Trade names) |
Pests |
| Insect
Growth Regulators |
halofenozide |
Scott's
Grub-Ex, Ortho Grub-B-Gone, Mach 2 |
white
grubs |
| methoprene |
Precor,
vIGRen, Extinguish, others |
fleas,
fire ants |
| pyriproxifen |
Nylar,
Spectracide fire ant bait, others |
fleas,
fire ants |
| Microbially-derived |
Bacillus
thuringiensis |
Dipel,
Thuricide, Mosquito Dunks, others |
caterpillars,
mosquitoes |
| spinosad |
Fertilome
Bagworm and Tent Caterpillar spray, others |
caterpillars,
thrips, fire ants |
| Contact
insecticides (kill only when sprayed directly on the pest) |
soap |
Safer's
Soap, others |
small,
soft-bodied pests (aphids, mites, caterpillars, mealybugs) |
| horticultural
oil |
GreenLight
Dormant Oil, Sunspray, Neem oil, Rose Defense, others
|
small,
soft-bodied pests (aphids, mites, caterpillars, mealybugs,
scale insects) |
| Botanical
(plant derived products) |
pyrethrum,
synergized pyrethrins |
Raid
Flying Insect Killer, Schulz's Plant Spray, many others
|
quick
acting killer for many garden and house plant pests, flying
and crawling insects |
| d-limonene |
Citrus
oil spray, Citrex, others |
fire
ants, others |
| azadirachtin |
Neem
concentrate, others |
aphids,
whiteflies, spider mites, scale insects, others |
| Baits |
hydramethylnon |
Amdro,
MaxForce, others |
fire
ants, cockroaches, other ants |
| sulfluramid |
Combat
Roach Killing Gel, Raid Ant Bait |
ants,
cockroaches |
| Low toxicity
inorganics |
sulfur |
dusting
sulfur, various brands |
mites,
chiggers |
| boric
acid and derivatives |
Roach
Pruf, Boracare, various baits |
roaches,
ants, termites, other crawling indoor pests |
| diatomaceous
earth |
DE,
various brands of diatomaceous earth |
crawling
insects, fleas, indoor pests only |
Conventional insecticides include pesticides that
are not considered low-impact because they may be hazardous
to humans or pets (without careful attention to safety), or
because they may impact beneficial insects or the environment
even when used with reasonable care. Most of the products
listed below have the potential to harm at least some beneficial
insects and for this reason should be used when cost-effective,
low-impact products will not adequately control the pest.
Just because a product carries the potential for harm, does
not mean it cannot be used safely. Conventional pesticides
include many useful and effective products that can be used
safely by most gardeners. It is especially important to follow
label safety directions when using conventional pesticides.
Here are some of the common types of conventional insecticides.
Table 3. Classification of conventional insecticides,
with examples.
| Type |
Common
Name |
Examples
(Trade names) |
Pests |
| Systemics
(water-soluble insecticides that can be taken up by plants) |
acephate |
Orthene,
others |
chewing
and sucking insects, mites and lacebugs |
| imidacloprid |
Bayer
Advanced Garden products |
sucking
insects, beetle larvae, white grubs |
| dinotefuran |
Spectracide
Systemic Tree and Shrub Insect Control + Fertilizer |
sucking
insects including armored scale, beetle larvae, some borers |
| disyston |
Bayer
Advanced Garden Rose Insect Killer Granules |
sucking
and chewing insects (moderate-high toxicity) |
| Pyrethroids |
permethrin |
Conquest,
Spectracide, others |
sprays
and granules for chewing and crawling insects, borers
|
| resmethrin,
allethrin |
Wasp
and Hornet spray, others |
short
residual sprays for flying insects, spiders, household
insects, mosquitoes |
| esfenvalerate,
cyfluthrin, bifenthrin, deltamethrin, lambda-cyhalothrin,
tralomethrin, cypermethrin, others |
Ortho
Home Defense, Bayer Advanced Garden, Zep, others... |
these
newer pyrethroids generally provide longer residual and
higher activity on chewing and crawling insects |
| Other
residual insecticides (leave a killing residue on surfaces)
|
carbaryl |
Garden
Tech Sevin, others |
chewing
and crawling insects, slugs, snails |
| malathion |
Malathion,
others |
short-lived
residual treatment for a variety of chewing, crawling
insects, mosquitoes |
| fipronil |
Over
N Out, MaxForce ant baits, others |
long-residual
granular product for fire ant control, termites, general
treatment for crawling insects, especially ants |
ORGANIC vs SYNTHETIC PESTICIDES
In recent years a growing number of pesticide products advertised
as "organic" have become available to consumers.
To be considered organic a pesticide must be composed of only
naturally occurring substances. Advertizers and others commonly
imply that organic pesticides are safer and more environmentally
desireable than synthetic products. While this may be true
in some cases, there is no guarantee that natural substances
are inherently safer than synthetic pesticides.
Organic pesticides usually consist of plant extracts with
insect-killing or repelling properties. Plants produce many
chemical compounds to protect themselves from diseases, insects
and other threats. From a toxicology perspective, there is
no difference between plant-derived pest control compounds
and man-made pesticides. Both are chemicals. Both have some
effect on the physical structure, development or metabolism
of insects. And both organic and synthetic pesticides can
be toxic to humans.
Most commonly sold "organic" insecticides,
however, are reasonably low in toxicity and break
down quickly upon exposure to water and sunlight. Their ability
to degrade quickly and their relatively low toxicity is why
botanical insecticides are usually classified as low-impact.
However, there are exceptions. Rotenone, for example, is a
popular insecticide with many gardeners because it is organic,
effective in controlling many chewing pests and does not leave
long-lasting residues on plants. In its undiluted form rotenone
is more toxic than many conventional insecticide active ingredients,
such as chlorpyrifos or carbaryl.
Don't be misled by sales claims for many so-called "natural"
products. Advertising which claims that any insecticide is
"safe", "pure", "all-natural",
"EPA-approved", "pesticide-free" and "chemical
free" are at best misleading; and at worst, false and/or
illegal. Many people get great satisfaction from using only
substances found in nature in their garden. This is generally
a good thing. However, use of synthetic pesticides can also
be a safe and environmentally sound practice if practiced
with care and discretion.
FOR
MORE INFORMATION
For more information about insects and insecticides, visit
the Texas A&M University Entomology Department website
at insects.tamu.edu, or the
Insects in the City website at citybugs.tamu.edu.
Author:
Michael Merchant, Ph.D., Urban Entomologist, Texas Cooperative
Extension
Publication information:
This publication is part of the Insect F@stSheets Series produced
by the Department of Entomology, Texas A&M University,
College Station, TX 77843-2475.
Series Editor: M. Merchant. For more information
about arthropods, check out the Texas A&M Entomology Website
at http://insects.tamu.edu
Last revision: 09/18/2007
The information given herein is for educational purposes
only. Reference to commercial products or trade names is made
with the understanding that no discrimination is intended
and no endorsement by the Texas AgriLife Extension Service is
implied. Additional, or updated copies of this fact sheet
may be obtained by contacting the author(s) at the Texas Agricultural
Extension Svc., 17360 Coit Road, Dallas, Texas 75252-6599.
Extension programs serve people of all ages regardless of
socioeconomic level, race, color, sex, religion, disability
or national origin. The Texas A&M University System, U.S.
Department of Agriculture, and the County Commissioners Courts
of Texas Cooperating.
All content and images Copyright © 2003, Texas
Texas AgriLife Extension, unless otherwise noted. All rights
reserved.
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