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Integrated Pest Management (IPM)

What Is Integrated Pest Management (IPM)?

Pesticides are powerful tools for controlling pests. However, there are also other tools
available for use in pest control, many of which pose greatly reduced risk to human health
and the environment than do pesticides.

Integrated Pest Management (IPM) is an effective and environmentally sensitive approach
that makes use of a variety of tools. The concept of knowing what a problem is before you
apply pesticides is fundamental to planning a successful IPM program. IPM relies on a
combination of common-sense practices and science-based strategies, rather than solely on
pesticide spraying.

IPM programs use current, comprehensive information regarding the life cycles of pests—
which may include insects, weeds, rodents, other small mammals or wildlife, birds, or other
living organisms—and their interaction with the environment.

IPM strategies make use of this information in combination with available pest control
technologies to manage pests economically, and with the least possible hazards to people,
property, and the environment. IPM programs take advantage of all appropriate pest
strategies, including the judicious and careful use of pesticides, when necessary.

Who Can Use IPM?

Anyone with a pest control problem can implement an IPM program. This includes farmers,
homeowners, landscape professionals, school administrators, etc. IPM principles can be
applied to agricultural settings (farms and orchards) and non-agricultural settings (homes,
landscapes, schools, indoor workplaces and wilderness areas).

How Do IPM Programs Work?

IPM is not a single pest control method. It is an approach that involves a series of pest
management evaluations, decisions and controls. Consequently, every IPM program is
different. Each program is designed around individual pest prevention goals and eradication
needs, considered in the context of the environment or setting. Regardless of their
differences, successful IPM programs use the same four-tiered approach:

1. Set Action Thresholds

Before taking any pest control actions, IPM users first set an action threshold—a point at
which pest populations or environmental conditions indicate that pest control action must be
taken. This threshold is often the level at which pests will become a health hazard or an
economic threat. Finding a single pest does not always mean pest control is needed—a
predetermined threshold is critical to guiding pest control decisions.

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2.	Monitor and Identify Pests

Not all pests require control. Many pests are not harmful, and some are even beneficial. IPM
programs work to monitor for and accurately identify pests so appropriate suppression
decisions can be made in conjunction with action thresholds. Information gathered from pest
monitoring and identification can help users take appropriate preventative measures and
reduce the possibility that pesticides will be used unnecessarily or incorrectly.

3.	Prevent

Prevention—removing conditions that attract pests—is an IPM program's first line of
defense. Prevention includes taking steps to ensure that pest populations cannot increase to
unacceptable levels. To prevent pests from becoming a threat, IPM programs work to
manage crops, landscapes, or indoor spaces—creating unfavorable environment for pests
to colonize, grow, and reproduce.

•	For an agricultural crop, prevention might include using cultural methods, such as

rotating between different crops, selecting pest-resistant varieties, and planting
pest-free rootstock. It also can include mechanical methods, such as cultivating
weeds and regularly aerating soils.

•	In a non-agricultural setting, prevention might include reducing clutter, sealing areas

where pests enter the building, keeping premises free of trash and overgrown
vegetation, and diverting water away from a building or field to avoid standing water.

4.	Control

If monitoring, identification, and action thresholds indicate that pest control is required, and
preventive methods are no longer effective or available, control methods can be employed.
Control methods are evaluated on effectiveness and relative risk. Those methods found to be
both most effective and pose the lowest risk are selected first. In addition to preventative
measures, IPM combines two central methods for reduced-risk pest control:

•	Biologically-Based Pest Control - These methods usually do not have toxic effects on

animals or people and do not leave toxic or persistent chemical residues in the
environment. These pesticides are derived from plants, animals, fungi, bacteria,
some minerals, or other non-man-made synthesis. In addition, certain
microorganisms—bacteria, fungi, viruses, and protozoa—can effectively control
target pests. Examples of biological pesticides (also known as "biopesticides")
include:

¦	Using targeted, biological pesticides (e.g., insect pheromones) to disrupt
a pest's mating cycle, and

¦	Using naturally-occurring insects and competitors to help control pest
populations; an example of a beneficial insect is the ladybug.

•	Chemically-Based Pest Control - These are reduced-risk chemically-based pesticides

such as herbicides, insecticides, and fungicides. They are often synthetic materials
that directly kill or inactivate the pest. This pest control method is often used
simultaneously with other lower-risk methods. When using chemically-based
treatments, it is important to use a pesticide that only affects the targeted pest.

If further monitoring and identification indicate that reduced-risk pest controls are
ineffective, then use additional controls such as the targeted spraying of a pesticide.

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Where Can I Use IPM?

IPM can be used in a wide variety of situations. The following are just a few examples of
situations where the use of IPM is a practical option:

•	If a garden is infested by flies, use biological controls. Introduce the pest's natural

enemy, such as parasitic wasps, to reduce and control the population.

•	If ants and cockroaches enter a school through a hole in rotting wood, replace the

rotting wood and seal any other openings into the building.

•	If the major crop on a farm is being destroyed by wilt virus, use seasonal climate to

determine the best time to harvest the crop. Maintain soil and seedlings well by using

netting to cover seedlings as they grow and aerating the soil between plantings.

IPM takes advantage of all appropriate pest management options, including, but not limited
to, the judicious use of pesticides. In contrast, organic food production applies many of the
same concepts as IPM, but limits the use of pesticides to those that are produced from
natural sources, as opposed to those produced from synthetic chemicals. In most cases,
food grown using IPM is not identified in the marketplace as is organic food. Many individual
commodity growers are working to define what IPM means for their crop and region, and
IPM-labeled foods are available in some stores. With definitions, growers could begin to
market more of their products as "IPM-Grown," giving consumers another choice in their
food purchases.

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