A good spring for maggots – can a new lure help?
Posted: May 2, 2014
Seedcorn maggot is typically our most significant problem. They have a very wide host range, and sweet corn, beans, and muskmelons (from seed or transplant) have had significant damage in the past. Cabbage maggot and onion maggot have also caused problems to the crops that carry their name. Sometimes we get other species from the same genus (Delia) causing the damage. The biology of these species, reproduced from the Extension publication “Vegetable Gardening: Recommendations for Home Gardeners”, is a good overview:
Maggots pupate inside a dark brown, capsule-like puparium that resembles a grain of wheat. Seed corn maggot puparia can be found in soil throughout the year, and maggots overwinter in these puparia. The adult flies emerge from the puparia [in] late April and early May. The adults are brownish gray flies that closely resemble common houseflies, except that they are about half the size. Tiny, white, elongated eggs are deposited among debris and around plant stems near the soil surface. Eggs hatch in a few days and the maggots work their way into the soil in search of food. Maggots (the immature larval stage) are dirty white with a yellowish tinge, legless, cylindrical, and tapered; full-grown maggots reach 1/5 to 1/4 inch in length. Maggots feed in the seed or on the underground parts of seedlings. Damaged seed may germinate, but there may be too few food reserves left in the seed for the plant to survive. The time required to grow from egg to adult is between three and four weeks. There are three to five generations each year in Pennsylvania. Populations tend to decline during the dry months of summer.
Some experts can distinguish among maggot species with the larger larval stages, using the tubuercles on the rear of the larvae. Adults are better for determining which species is present.
Seed treatments (neonicotinoids, or chlorpyrifos), and pre- or at-plant soil treatments (organophosphates or pyrethoroids) are registered for sweet corn, and can provide effective control, and each crop will have different registered options. Neonicotinoids used at planting for other pests also provide some control of root maggots. Rescue treatments that occur after the maggots are feeding inside a developing seed, however, tend to not be effective.
- Can we monitor with traps?
- Could we increase the number of traps to provide control?
Research (Kuhar et al. 2006) suggests opportunities.
They combined the traditional white or yellow sticky traps (Great Lakes IPM, or Gemplers) with a slow-release attractants (“Adult Maggot lure”, from AgBio Inc., 9915 Raleigh St. Westminster, CO 80031; 303-469-9221; email@example.com). Trap catch was increased significantly, and sex ratio more resembled what we’d expect from a field population. Kuhar et al. 2006 suggested that a high enough density of these traps might actually control the population in smaller production areas, providing one option for organic growers, and anecdotal evidence suggest that this might be helpful. The concept makes sense: researchers have used olfactory attractants (blood meal, fish meal, onion pulp, yeasts, etc.) to increase infestation rates when running efficacy trials.
Tianna Dupont summarized how to use growing degree days (GDD) to estimate when flight begins and reaches a peak. The Northeast Network for Environment and Weather Applications (NEWA) has recently expanded to multiple sites in PA. Noe the onion maggot model. To calculate local growing degree days, select Jan 1 to current date and base 40 F for seed corn maggot (50 for cabbage and onion). You can also see a map of base 50 GDD in Pennsylvania. Compare your local GDD to projected flights (NEWA). Peak flight for seed corn maggot is 360 GDD (base 40 F)”, 450-540 for onion maggot, and 450 for cabbage maggot.
Nematodes for biological control.
Tianna Dupont also summarized using Steinernema feltiae [Chen et al. 2003, Schroeder et al 1996 ]. As stated in her earlier report: “Steinernema feltiae are “cruzer foragers” says UC Davis nematologist Amanda Hodson. They forage right at or below the surface, unlike other nematodes that will stay on the soil surface. Hodson recommends applying infective juveniles in the irrigation (drip or microsprinklers). “Apply them in the morning and evening when it is not too hot and irrigate to keep soil moist,” she says. Another common method is application to transplants before planting or in the water wheel transplanter. Carol Glenister at IPM Laboratories cautions that “the nematodes die in sunlight within 30 minutes, so need to be trenched or washed down into the soil.” They have hand over a a decade of satisfaction using Steinernema feltiae on cabbage maggot. Due to similar biology corn seed maggot may also be controlled. But her customers have not had success on onion maggot. They recommend 25 million infective juveniles for a transplant dip (@200 trays) with perhaps another 25 million in the water wheel transplanter. Rates of 100,000 to 125,000 infective juveniles per transplant have been shown to be needed to achieve reduction in damage.”
Chen, S.L., X.Y. Han, and M. Moens, 2003. Biological control of Delia ra