Multi-State Research Reveals Integrated Pest Management (IPM) Best Option For Treatment Of Soybean Aphids

May 17, 2017
By Shari Finnell
 
Extension specialists recently released a two-year, multi-state study to measure the effectiveness of insecticide treatments in providing protection against soybean aphids. 
 
About 89.5 million acres of soybeans will be planted across the United States in 2017 — a record high, according to the USDA. Research published in the April 2017 issue of Pest Management Science indicates that many of these soybean growers will invest in neonicotinoid insecticide seed treatments. The two-year, multi-state study revealed that, even during periods of infestation by the key pest across the region, the soybean aphid, the neonicotinoid treatment produced the same yields as using no insecticide at all. 
 
The study was a joint effort of Purdue University, Iowa State University, Kansas State University, North Dakota State University, the University of Minnesota, South Dakota State University, and the University of Wisconsin. The research was grower-funded, using soybean checkoff funds provided by the North Central Soybean Research Program (NCSRP). 
 
The neonicotinoid insecticide thiamethoxam, which is applied as a coating to soybean seeds, provides a maximum of two weeks of protection against insect feeding. Aphids typically don’t reach damaging numbers until much later in the season, said Christian Krupke, an entomology professor and extension specialist at Purdue University and one of the researchers and authors of the study. As a result, when soybean aphid populations reached threshold levels, from late July to August, the insecticide levels in tissues of neonicotinoid-treated soybean foliage were similar to plants grown from seeds without the insecticide.
 
Bruce Potter, Insect Pest Management (IPM) specialist for the University of Minnesota Extension, said one of the most important aspects of the study was providing soybean growers information about how to invest their funds.   
 
Potter said soybean growers in northern regions, including Minnesota, don’t have chronic and consistent economic infestations of early season insect pests.  “Farmers wouldn’t get an advantage from putting insecticide on soybean seeds,” he said. The exception to this conclusion would be fields at a higher risk for infrequent pests like seed corn maggot and white grub or for seed production fields where bean leaf beetle and bean pod mottle virus occur. 
 
As part of a two-year study covering seven states, extension specialists measured the effectiveness of commonly used insecticides against soybean aphids. 
 
The research study concluded soybean farmers in all the regions in the study should employ the IPM approach, combining scouting and foliage-applied insecticide where necessary. “In terms of long-term sustainability and the bottom line for your yearly balance sheet, the IPM approach is the most effective approach for pest management in the growing season,” Krupke said. 
 
A study examining neonicotinoid seed treatments of corn had a similar result. This study, published in the journal PLOS ONE in March 2017, was conducted by Krupke’s doctoral student, Adam Alford. It revealed that concentrations of the insecticide most commonly applied to corn seeds, clothianidin, declined rapidly and approached zero in plant tissues within 20 days after planting. Less than 5 percent of what was applied to the seed was recovered from corn plants in the field. 
 
Currently, at least one of two neonicotinoids, clothianidin or thiamethoxam, are routinely applied to more than 80 percent of the corn and over half of the soybeans grown in North America. 
 
Study designed to provide farmers information 
 
Previous studies, although smaller in size, had shown similar results with neonicotinoid seed treatments, which were introduced in the 1990s, said Kelley J. Tilmon, state extension specialist for the Ohio Agricultural Research and Development Center and an associate professor of entomology at Ohio State University. She performed the research in South Dakota when she was on the faculty of South Dakota State University. 
 
The recent study was launched to provide more definitive scientific answers across a large geographic area, Tilmon said. 
 
Janet J. Knodel, extension entomologist and associate professor at North Dakota State University, said the results were similar in North Dakota. “As part of our research, we saw the soybean aphids coming into the field in late July and early August in North Dakota,” she said. “By then, the residual of the insecticide seed treatment is gone.”