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United States Department of Agriculture

Agricultural Research Service

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Location: European Biological Control Laboratory

2013 Annual Report

1a. Objectives (from AD-416):
Objective 1: Characterize the basic biology of target weeds, such as hoary cress, swallow-worts, medusahead, and guineagrass, and their natural enemies. Sub-objective 1.A. Characterize the genetic diversity and basic biology of target weeds and determine their regions of origin. Sub-objective 1.B. Conduct foreign exploration in Europe, Asia, and Africa for natural enemies of U.S. target weeds. Objective 2: Elucidate plant-natural enemy interactions and identify potential candidates for U.S. introduction. Sub-objective 2.A. Conduct preliminary host-specificity and effectiveness testing and facilitate U.S. introduction through prioritization and rearing of agents for target weeds, including, but not limited to giant reed, and swallow-worts. Sub-objective 2.B. Evaluate plant-insect interactions in evolutionary and ecological contexts – the role of visual ecology in host plant finding, selection and acceptance by candidate agents; evolution of differential host specificity in a biological control agent; efficacy of multiple vs. single weed biological control agents.

1b. Approach (from AD-416):
We have adopted a “weed management pipeline” approach to our research that answers essential questions for successful classical biological control. A significant focus of this research is aimed at understanding the basic biology of target weeds, especially characterization of the genetic diversity of targets in their native and adventive ranges. This work will help identify the target’s region of origin, as well as the region(s) from which populations of the target have been introduced into the U.S. Foreign exploration for natural enemies will be conducted concurrently with these studies on target biology; this exploration will provide candidate biological control agents for the following studies. These investigations address target weed-natural enemy interactions, which will include host-specificity and effectiveness testing to facilitate introduction to the U.S., as well as experiments aimed at developing a mechanistic understanding of the evolutionary, ecological, and physiological factors of plant-insect interactions relevant to weed biological control. Successful control of a target weed usually requires decades of research effort, and the research proposed here will be an important step towards ecologically-rational management of some of the most important invasive weeds in the U.S.

3. Progress Report:
In the Rio Grande Valley, Arundo donax (giant reed) causes a security problem for Border Patrol, hides loose cattle that carry disease, and favors the larvae of cattle fever ticks. DHS provided ARS with significant funding to solve this problem through biological control. An introduced gall-forming wasp and an armored scale have thinned stands of the plant. EBCL is working with ARS at Mission, TX, to introduce a third agent (Lasioptera donacis, Cecidomyiidae, gall-forming flies). Swallow wort is an aggressive invasive weed in northern climates. A noctuid moth is a promising biological control agent, but attempts to collect and rear it in 2013 failed to produce enough material for specificity testing. It remains an important candidate for control of this weed and work will continue with ARS Ithaca. Medusa head rye is an invasive weed in the western United States. EBCL received BLM funding to look for both insect and microbial biological control agents. A chloropid grass fly, Dicraeus sabroskyi is being tested in central Turkey. A laboratory test in Thessaloniki showed that a smut (Ustilago phrygica) also attacked wheat, eliminating it from consideration. Microbial biological control agents against Canada thistle and Russian thistle are being developed in cooperation with the ARS laboratory at Fort Detrick. The agents are being tested against field populations of the plants in Greece, collaborating with Aristotle University. Results to date indicate that the pathogens will be specific and effective. EBCL is working with the French SupAgro Agricultural University to organize the 4th International Symposium on Weeds and Invasive Plants, to be held in Montpellier 18-23 May, 2014. This conference will be an occasion to compare many aspects of weed science from all over the world, as well as a chance to showcase ARS weed science. One of the scientists from EBCL is funded by OECD to perform a research project in New Zealand on food web interactions between biological control agents of Vincetoxicum (swallow wort), their parasitoids, and the plant itself. The hypothesis is that such complicated interactions might be manipulated to improve the effectiveness of biological control. `The EBCL is host to a Ph.D. candidate from SupAgro studying integrated management of leafy spurge in France. His research has shown that a mixture of methods can effectively suppress this weed. This project represents some significant achievements for the laboratory: its first French-funded Ph.D. student and a project that benefits the laboratory’s host country. The Biotechnology and Biological Control Agency (BBCA) is a private foundation based in Rome, whose funding comes from EBCL, BLM, and special projects. BBCA collaborates with other entities concerned with biological control of weeds, including CABI (Delémont, Switzerland), Plovdiv (Bulgaria) University, and the National Institute for Food and Agriculture (the W-3185 regional project). During 2013, BBCA did significant work on biological control of yellow star thistle, Scotch thistle, perennial pepperweed, Russian olive, giant reed, and Russian knapweed. Tests were conducted in Bulgaria, Turkey, and Serbia.

4. Accomplishments

Last Modified: 10/18/2017
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