NORTH AMERICA — A tiny wasp may be the solution for managing an agricultural pest that has caused major economic damage to fruit, vegetable and field crops in North America and Europe.
Agricultural Research Service (ARS) scientists are currently studying the samurai wasp to see if this parasitoid wasp is the right biological control agent for reducing brown marmorated stink bug (BMSB) populations outside of Asia.
Biological control is the process of reducing or mitigating pests or pathogens by using the pest’s or pathogen’s natural enemies. The samurai wasp is a known natural enemy for the BMSB in Asia, and researchers are learning how it behaves in non-native environments. The wasp is tiny, approximately 1.5 millimeters, or the size of a sesame seed.
At the ARS Beneficial Insects Introduction Research Unit (BIIRU) in Newark, DE, researchers are observing the behaviors of both quarantined samurai wasps from Beijing and local wild populations. They found these wasps have a strong preference for parasitizing BMSB’s eggs.
“Parasitic wasps have the amazing ability to detect kairomones [chemical substances emitted by one organism and detected by another organism] that are left on surfaces or in the air of their hosts,” said Dr. Kim Hoelmer, research entomologist and research leader at the BIIRU.
“In the field, when a female samurai wasp looks for evidence of her host in the environment, she can detect her host’s kairomones left on a leaf’s surface. The wasp increases her search when she detects the kairomones and that increases her probability of finding the host.”
The research shows promise in that samurai wasps prefer their natural hosts’ eggs over those of other species.
This finding does not surprise researchers, since it is common for parasitoid wasps to have close relationships with their hosts.
“The more intimate the relationship is, the better parasitoid wasps are as biocontrol agents,” said Dr. Matt Buffington, research entomologist with the ARS Systematic Entomology Laboratory, located in the Smithsonian National Museum of Natural History in Washington, D.C.
“Parasitoid wasps play major roles in population regulation [of pests]. With this one species, we can explain how biological control works in our environment,” said Buffington.
But do samurai wasps exhibit the same behaviors in the wild?
In addition to laboratory studies, researchers are observing samurai wasps in natural environments, such as orchards and crop fields where the BMSB is present. These wasps are adventive in North America, meaning they arrived accidentally without any human aid.
At the ARS Appalachian Fruit Research Station in Kearneysille, WV, researchers are studying how samurai wasps reduce BMSB populations across a landscape. The research aims to determine if samurai wasps can survive in areas with other agricultural factors such as pesticides.
According to research entomologist Dr. Tracy Leskey, BMSB populations can disperse and develop in areas outside of orchards and crop fields. The stink bugs constantly reinvade new areas, called wild-host habitats, for survival.
“We hope that samurai wasps can reduce those populations in wild-host habitats, so we have less pressure in our agricultural areas,” said Leskey.
Even though the samurai wasp shows promise as a biological control agent, researchers must follow a rigorous process to ensure that the samurai wasp’s impact is limited to its host and is not a threat to animals, humans, and crops.
ARS researchers are in the process of requesting a permit for quarantined samurai wasps from Beijing to be approved for field release. Currently, wild populations of the samurai wasp are in 14 states. The permit would allow states without wild populations to use the wasp as a biocontrol agent for managing their BMSB populations. In addition, the permit would allow states with existing wild populations to introduce new samurai wasps in their management efforts.
The BMSB has been detected in 47 states and four Canadian provinces. The stink bugs are responsible for crop damage that costs millions of dollars each year, according to the USDA. This pest is also causing agricultural damage abroad after its infestation in European countries.
Source: ARS Office of Communications.
No comments on this item Please log in to comment by clicking here