2011 Annual Report
1a.Objectives (from AD-416)
Objective 1: Improve and develop new monitoring strategies for stored-product insects, and improve methods for interpretation of monitoring information to aid in pest management decision making.
Sub-objective 1.1: Determine relationships between outside trap captures and
movement into and out of storage structures.
Sub-objective 1.2: Develop and improve pheromone-based monitoring programs
for stored-product insects.
Objective 2: Improve and develop decision-making tools for management of stored-product insect pests.
Sub-objective 2.1: Develop simulation models for insect pests of stored
Sub-objective 2.2: Develop models to estimate risk of grain damage based on
sampling data for insects.
Objective 3: Characterize the biology of and develop management strategies for new insect pests of stored products.
Sub-objective 3.1: Evaluate and develop potential attractants for stored-
Sub-objective 3.2: Evaluate response of psocid pests of stored products to
temperature, moisture, and dockage gradients.
Sub-objective 3.3: Determine optimal conditions for rearing hide beetles.
Objective 4: Improve control strategies for insect pests of conventional and organic stored commodities, including insecticides, microbial agents, natural enemies, and physical control such as aeration and heat.
Sub-objective 4.1: Assess new insecticides, microbial agents and natural
enemies to control insects in stored products.
Sub-objective 4.2: Develop physical methods to control insect pests of stored
Objective 5: Identify potential genomic and proteomic targets in stored-product insect pests that can be exploited for control.
Sub-objective 5.1: Obtain genetic information from stored-product insects and
perform insect- and tissue-specific functional genomics and proteomics
profiling to identify new potential control targets.
Sub-objective 5.2: Exploit the Tribolium genome sequence to identify new
control strategies for coleopteran stored-product pests.
1b.Approach (from AD-416)
This project is one of two projects within the ARS that focuses on stored product insect pests of raw grain, milling and processing facilities, and grain-based finished food products. The overall goal of the project is to refine and improve management of these pests and mitigate product loss through an approach that emphasizes cooperative research among several sub-disciplines of stored-product entomology. Research will focus on improving insect detection and monitoring, increasing efficiency of pest management strategies, improving our knowledge of pest biology, and using genomics to discover totally new ways to control these pests. Much of the research is applicable to organic, as well as conventional, commodities, and some of the research deals with new pests of stored products (often referred to as emerging pests). Specific knowledge gaps being addressed are a need: to determine how resident insect populations impact pest management; for better insect attractants for monitoring pest populations; for computer models to aid in decision making for pest management; to determine environmental conditions that attract insects to commodities; to assess new insecticides for insect control; to optimize grain cooling and commodity freezing for insect control; and to identify vital genes that can be targeted for insect control. This project builds upon the results from three previous projects, and the expected benefits of this new project will enhance management of stored-product insects and ensure the quality and safety of the U.S. grain supply and grain-based finished food products.
This report documents progress for the parent Project 5430-43000-32-00D Ecology, Genomics, and Management of Stored Product Insects which started May 2011. A new study has been initiated to monitor insect movement to and from grain bins. Additional studies are underway to examine movement patterns of insects in and around flour mills and food warehouses, including effects of pheromone traps on insect population patterns. Background data are being collected to evaluate new neo-nicotenoid insecticides and fungal pathogens to control stored product beetles. Susceptibility of psocids to aerosol insecticides has also been evaluated. We are beginning testing of new methods for high throughput screening of biological compounds in stored product pests. An insecticide-susceptible lab strain of the lesser grain borer, a major insect pest of stored products, has been intensively inbred by virgin, single-pair, full-sib mating for 13 consecutive generations (target=20 generations) in preparation for genome sequencing.
This Project 5430-43000-032-00D, Ecology, Genomics, and Management of Stored Product Insects, replaces 5430-43000-029, Integrated Management of Insect Pests in Stored Grain and in Processed Grain Products, which expired Apr 2011; 5430-43000-030-00D, Genomics and Proteomics of Stored-Product Insects for Development of New Biopesticides, which expired Apr 2011; and 5430-43000-031-00D, Ecology, Sampling, and Modeling of Insect Pests of Stored Grain, Processing Facilities, and Warehouses, which expired in Apr 2011.