Tip Top Bio-Control Pediobius foveolatus

Tip Top Bio-Control Technical Bulletin

Pediobius foveolatus
Parasitic Wasp

Target Pest:
Pediobius foveolatus has been used for biological control of Mexican bean beetles in soybeans.

Description:
Pediobius foveolatus is a tiny wasp, 3 mm. or about 1/9 of an inch in length. They are a parasitoid of Mexican bean beetle larvae and squash beetle larvae. (A parasitoid is a parasite that kills its host.) An adult female wasp lays about 20 of her eggs per Mexican bean beetle larva (2nd to 4th molt). The wasp eggs hatch inside the Mexican bean beetle larva and feed on it, eventually killing it. About ten days after the eggs are laid, the body of the Mexican bean beetle larva becomes a "mummy", with the outer skin darkened, but intact, while the wasp larvae inside develop and form pupae. When the wasps emerge as adults (about seven days after formation of the mummy), they break a small hole in the skin of the mummy and climb out. They mate, and fly off to feed at flowers and find more hosts. The females gradually lose their egg-laying capacity after 3-4 weeks. They can travel several miles over one growing season.

Release Rates:
Adult Mexican bean beetles start to appear in mid-June. Biological control will not work well if the average density of adults is greater than 1 adult per meter (about 1 yard) of row. To determine this, take 20 samples per week (1 yard of row each, scattered around bean plantings) in late June to early July. Count and keep records of the number of adults and egg masses you find. Whenever you find Mexican bean beetle egg masses (yellow eggs on the underside of leaves), mark the plant with a piece of rag or ribbon. Return every two days and look at the egg masses to see if the tiny yellow larvae have hatched out. As soon as you see hatching, it is time to order your first shipment of Pediobius wasps.

Pediobius wasps should be released in two phases. The phases should be one week apart, putting out 3 wasps per sq. m. At this rate, 1000 wasps (or 50 mummies, assuming an average of 20 wasps per mummy) would treat 3600 sq. ft. or 1200 ft. of row. Area is based on the beans that are large enough to be infested with Mexican bean beetles at the time of release. (Generally beyond the cotyledon stage). The first release should go out within a week after the first hatching is observed. If you are releasing mummies, they come in packets of screening that you tie onto bean plants. If you are releasing adult wasps, take the carton into the field, set it at the base of a bean plant, open the lid and watch the adults come out. Don't release adults in the rain.

If the weather is very wet during the release period, as it was in the summer of 2000, a third release may be needed. In wet weather, many of the parasitized larvae die before the new wasps can emerge.

Before turning under an old bean planting, give the wasps enough time to emerge from the mummies. An empty mummy (from which the wasps have emerged) should have one small hole, and it will be light and fragile compared to mummies with the wasps still inside. You can also clip leaves with full mummies and move them to new bean plantings.

Lifespan:
The wasps will live for over 1 week in a cooler with ice packs changed regularly. (Refrigerators do not work. They keep the temperature too cold.)

Strategic Considerations:
These instructions are for an "inoculative release" introduced early in the season in relatively low numbers, and expected to multiply over the season in the field. This strategy works best for farms with multiple, overlapping plantings of beans during the season. On an organic farm with beans growing continuously all summer, biological control with Pediobius allowed the farmer to harvest snap beans all summer until the first heavy frost for the first time in several years.

Don't expect immediate control. The wasp population takes time to multiply in the field. The higher your initial density of Mexican bean beetles, the more damage the beetle larvae will do in the mean-time while the wasp population is building up. You should see hard brown mummies on the plants from 2-4 weeks after making the first release. The biological control should reduce the numbers of bean beetle larvae making it to the pupal and adult stages in the first generation, and then should kill off the beetle larvae in the next generation before they get large and do heavy damage.

What to do if the initial Mexican bean beetle population is too high: There is no simple organic solution. Releasing Pediobius at higher rates in heavily infested fields doesn't work rapidly enough to prevent heavy defoliation of the bean plants. Spraying once with rotenone to bring down the Mexican bean beetle density a few days before the first Pediobius release doesn't work well either. One strategy to keep the Mexican bean beetles from spreading from one planting to another is to till under the beans as soon as the larvae begin to pupate, so that no adult beetles emerge. (Often, in heavy infestations, the beans are so damaged at this point that they aren't producing much anyway.) If the initial population is not excessively high, releasing Pediobius may help control bean beetle late in the season, and may bring down the Mexican bean beetle population in the next year.