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Posted 31 August 2015. PMN Crop News.

Corn Rootworm Management Update

Source: Iowa State University Press Release.

Ames, Iowa (August 12, 2015)--For a second year in a row, corn rootworm abundance is lower than expected in Iowa. This is due, in part, to exceptionally wet spring conditions in 2014.


However, scouts and farmers have noticed rebounding populations of adult corn rootworm in the landscape now, especially noting root injury to first-year corn by northern corn rootworm. It is not too early to make management decisions for next year, with the following considerations.

Assess larval injury to roots

Corn rootworm larvae feed on corn roots and can potentially cause severe economic loss. For every node of roots pruned by larvae, expect a 15% yield loss on average (Tinsley et al. 2013). Evaluate root injury in every cornfield to better understand the efficacy of your management strategy. Monitoring over several years will help establish a historical record of how larvae respond to management tactics (e.g., crop rotation, Bt corn, soil-applied insecticides, etc.). The Iowa State node-injury scale ranges from 0-3 and is directly related to yield loss. Learn more about the scale here. Root injury that exceeds 0.25 can experience economic loss.

Monitor for adults

Corn rootworm adults generally emerge aboveground in early July and can be found in cornfields throughout August in Iowa depending on summer temperatures. Farmers and crop consultants can measure adult rootworm abundance in fields to anticipate larval injury the next growing season. Place at least four unbaited Pherocon AM sticky cards throughout a field during the period of peak adult abundance (late July through the middle of August). Replace cards weekly and count the number of adults collected per card. Based on a recent economic analysis, a field should be managed for larval corn rootworm next season if the average number of adult corn rootworm captured (either northern, western or a combination of the two species) exceeds two per card per day (Dunbar and Gassmann 2012).

Corn rootworm variants

The typical life cycle for northern corn rootworm and western corn rootworm consists of one generation per year, with females laying eggs in cornfields to overwinter and hatch the following year. However, these highly adaptable pests have developed population variants to overcome crop rotation. To confirm variants of either species, check for larval root injury in first-year corn and whether adult western corn rootworm or northern corn rootworm are present in the field.

The northern corn rootworm has resistance to crop rotation through extended diapause. Instead of overwintering eggs hatching the following spring, it may be two or three years before larvae hatch. Female northern corn rootworms only lay eggs in corn, regardless if it is from a variant or normal population. Extended diapause is more common in western Iowa, but it is possible to find variants in central and eastern Iowa. Larval injury is possible to first-year corn if a significant extended diapause population is in the field. Although northern corn rootworm often leave cornfields to feed on pollen and leaf tissue of weeds and soybeans, this species does not lay eggs outside of cornfields.

By contrast, western corn rootworm variants are resistant to crop rotation because they can lay eggs outside of cornfields, particularly in soybean fields. Those eggs will hatch the following year and can cause injury to first-year corn. The soybean variant is very rare in Iowa but may be present in southeastern and east-central counties.

Sustainable corn rootworm management

Rotating fields out of corn production breaks up the life cycle of corn rootworm. This remains an extremely effective way to manage corn rootworm in Iowa. Western corn rootworm in Iowa remains susceptible to crop rotation, however, resistance to crop rotation by northern corn rootworm does occur in Iowa through extended diapause. In cornfields where large populations of northern corn rootworm are observed, and where the presence of rotation resistance is suspected, farmers should protect first-year corn against northern corn rootworm larvae.

A pyramided Bt hybrid has multiple Bt toxins that target the same pest. In Iowa, we have observed good performance of Bt hybrids that contain the Cry34/35Ab1 trait alone or pyramided with either Cry3Bb1 or mCry3A. However, some cases of heavy feeding injury to corn with Cry34/35Ab1 Bt toxin have been observed in Iowa. Because western corn rootworm in Iowa has developed resistance to both mCry3A and Cry3Bb1 (Gassmann et al. 2011, 2014), good stewardship of pyramided Bt corn is very important. Additionally, soil-applied insecticides may be used at planting to protect from larval corn rootworm injury. Evaluations of various Bt traits and soil-applied insecticides for management of corn rootworm larvae can be found here.

In order to successfully manage corn rootworm, develop a long-term strategy that rotates among a variety of management approaches over multiple seasons. This is the best way to guard against the build-up of large populations and the development of resistance.

1. Rotate fields out of corn production at least every 4 to 5 years.

2. Plant Bt hybrids pyramided with multiple traits targeting larval rootworm.

3. Rotate between Bt hybrids without soil-applied insecticide and non-rootworm Bt hybrids with a soil-applied insecticide.


Dunbar, M.W. and A.J. Gassmann. 2013. Abundance and distribution of western and northern corn rootworm (Diabrotica spp.) and prevalence of rotation resistance in eastern Iowa. Journal of Economic Entomology.

Gassmann, A.J., J.L. Petzold-Maxwell, R.S. Keweshan, and M.W. Dunbar. 2011. Field-evolved resistance to Bt maize by western corn rootworm. PLoS ONE. DOI: 10.1371/journal.pone.0022629.

Gassmann, A.J., J.L. Petzold-Maxwell, E.C. Clifton, M.W. Dunbar, A.M. Hoffmann, D.A. Ingber, and R.W. Keweshan. 2014. Field-evolved resistance by western corn rootworm to multiple Bacillus thuringiensis toxins in transgenic maize. Proceedings of the National Academy of Sciences of the United States of America. DOI: 10.1073/pnas.1317179111.

Tinsley, N.A., R.E. Estes, and M.E. Gray. 2013. Validation of a nested error component model to estimate damage caused by corn rootworm larvae. Journal of Applied Entomology. DOI: 10.1111/j.1439-0418.2012.01736.x.