Me. O'Neal et al., Population characteristics of a western corn rootworm (Coleoptera : Chrysomelidae) strain in east-central Illinois corn and soybean fields, J ECON ENT, 92(6), 1999, pp. 1301-1310
The recent failure of crop rotation to protect corn, Zea mays L., from root
worm, Diabrotica spp., larval injury has been extensive throughout east-cen
tral Illinois and northern Indiana. The widespread and long-term use of a c
orn and soybean, Glycine max L., crop rotation has been implicated in the s
election of a new strain of western corn rootworm, Diabrotica virgifera vir
gifera LeConte, that has expanded its oviposition sites to include soybean
fields. To understand better how western corn rootworm densities fluctuate
in corn and soybean fields, we deployed Pherocon AM and vial traps in both
crops. Also, sweep-net samples were taken in soybean fields and an alfalfa
field. Twenty sites in 7 counties were monitored from late July to early Se
ptember in 1996 and 1997. In soybeans across all trapping methods, >90% of
the rootworm species collected were western corn rootworm. Counts of wester
n corn rootworns and the percentage of females were greater on Pherocon AM
and vial traps deployed in soybean than in cornfields, Although a greater (
P < 0.05) percentage of females was collected on Pherocon AM traps deployed
in a soybean held (73.5 +/- 1.6%) (mean +/- SE) than in a cornfield (42.3
+/- 3.4%), very few were gravid in either field. We suggest that yellow sti
cky traps may not be attractive to females searching for egg-laying sites.
We discuss explanations of crop rotation failure by comparing our data with
historical records of western corn rootworms trapped in both corn and soyb
ean fields. Overall trapping data indicate that soybean fields are acceptab
le oviposition sites for western corn rootworms in east-central Illinois.