Developed through a cooperative research and development agreement
with a Canadian grain-management company called OPI Systems, Inc., StorMax
Insector is now commercially available. The easy-to-use system allows
companies to avoid or reduce use of insecticides by using them or nontoxic
alternatives only when indicated by monitoring, rather than scheduling
Catch Them As They Fall
Depending on their geographical location, grain managers may only be
concerned with about a dozen insect species. A previous EGPIC revision
identified insects by size and shape. As an insect fell into the system's
trap and interrupted the infrared beam, EGPIC registered its body before
it plunged through a funnel and into a receptacle. The amount of light
blocked from the beam determined how large a signal was generated. The
system interpreted this signal to identify the insect's species. But
the accuracy of this feature depended on the insect's position, so Shuman
got the idea to put in a second beamat a right angle to the first.
This additional beam provides a second viewing perspective. A microcontroller
chip built directly into the new system's probe analyzes the two infrared
beams' signals to determine the insect's species. It also reports the
time of activity and the current temperature. These details give valuable
insight into the nature and extent of an infestation.
"Insect behavior is affected by many factors," Shuman says.
"For example, if it's cooler, insects don't move as much. We want
to estimate the size of a given population in the grain bin by the number
of electronic counts caused by insects entering the probes. Knowing
the temperature and identifying the species is essential to making this
You Found Bugs. Now What?
There are several control options available to storage managers to
keep insect populations at acceptable levels. These methods are sometimes
combined, a strategy known as integrated pest management. One common
method used by managers is called aeration. Aerating grain with fans
reduces grain temperature, which slows insect activity. Another control
is phosphine, the main fumigant used in the United States to treat bulk-stored
grains. But there are concerns about phosphine's toxicity, and some
evidence suggests that insects are acquiring resistance to the fumigant.
Shuman says the purpose of the Insector is to monitor insect infestations,
not to eliminate them. For managers to apply the right treatment, they
first have to know where and when they have a problem.
"Knowing the species helps managers use incoming insect countscombined
with knowledge of the individual species' behavior and damage potentialto
make control decisions," Shuman says.
An Insector probe is vertically inserted into bulk-stored grain. Insects
find their way to the probe and climb one of many slanted, ramplike
openings that were designed to keep grains from inadvertently entering
and interfering with the count. Hundreds of probes can be used in the
system, sending data from different sites to a handheld monitor or to
the manager's office-based desktop computer. The recommended number
of probes in each bin depends on its diameter as well as other factors.
The system comes with two receptacle options. One receptacle holds
the insects until a manager collects them; the other has holes near
the bottom where the insects are released. The percentage of insects
collected is only a representation of the larger population present
in a bin. Shuman says managers might prefer to use the collection receptacle
initially to verify that the system is accurate. After that, they might
choose to use the receptacle with the holes, which requires less maintenance
and fewer trips to the bin to collect trapped insects.
Shuman established the EGPIC Working Group to further validate the
performance of his invention. ARS entomologist James Throne at the Grain
Marketing and Production Research Center in Manhattan, Kansas, is working
with Shuman to coordinate large-scale EGPIC/Insector field tests with
researchers from around the world to gauge its performance in different
commodities and different environmental conditions.
Scientists at Montana and Oklahoma State Universities and Purdue University
are validating the Insector's performance in commercial facilities that
store wheat and corn. Shuman is also collaborating with ARS entomologist
Paul Flinn at the Grain Marketing and Production Research Center to
integrate the Insector system with ARS' Stored Grain Advisor (SGA).
That system interprets information from standard sampling procedures
to aid the storage manager in making pest management decisions in stored
wheat. (See "Computer Figures Stored-Grain Insect Risk," Agricultural
Research, June 1995, p. 22.)
Flinn is modifying the SGA software so it can automatically read Insector
insect count data, interpret it, and then make recommendations about
pest management to the storage manager.
Shuman envisions that commercial Insector systems will be installed
in grain bins and elevators, data will be sent from the probes to computers
in storage managers' offices, and the SGA program will automatically
notify the storage manager when action is required.
This technology will benefit the U.S. grain industry and improve the
quality of U.S. grain by lowering pest numbers, pest control costs,
and pesticide residues. It will also improve safety at grain storage
facilities by reducing the need for workers to enter the bins.By
Agricultural Research Service Information Staff.
This research is part of Crop Protection and Quarantine, an ARS
National Program (#304) described on the World Wide Web at www.nps.ars.usda.gov.
is at the Postharvest and Bioregulation Research Unit, Center
for Medical, Agricultural, and Veterinary Entomology, P.O. Box 14565,
Gainesville, FL 32604; phone (352) 374-5737, fax (352) 374-5781.
"Monitoring System Counts Insects, Identifies Species"
was published in the July
2003 issue of Agricultural Research magazine.