July 25, 2011
Corn Yields With Perennial Cover Crop Are Equal To Traditional Farming
Soil quality, water quality, and possibly even farm profits will all benefit by using a perennial cover crop on corn fields that allows for similar yields to traditional farming methods, according to Iowa State University research.
Using standard agronomic practices and managing a perennial cover crop between rows of corn can keep soil, nutrients and carbon in the fields, a three-year study says. Plus, farmers will still be able to yield 200 bushels per acre, the study showed.For the study, researchers looked at 36 potential ground cover species, different corn hybrids and various tillage practices and found that strip till planting using Kentucky bluegrass as the perennial cover crop is the combination the researchers will recommend to offer environmental benefits while maintaining yield.
Ken Moore, professor in ISU's Department of Agronomy, says that the system using Kentucky bluegrass with strip till yielded more than 200 bushels per acre, which was equal to the control plot, and might also be the easiest for farmers to accept.
"We evaluated all these ground covers and decided to work with Kentucky bluegrass, because it's as good as anything else," said Moore. "And Kentucky bluegrass is out in every lawn in Iowa. Every farmer grows it already. Every farmer knows how to kill it. We think farmers will be more likely to accept it as a ground cover."
Using ground cover to sustain and improve soil has become a focus of research because the need for biomass is increasing for use in producing biofuels.
Corn residue, or stover, usually remains on the ground after corn is harvested and helps reduce soil erosion and replenishes nutrients and organic matter.
The prospect of removing that stover to make biofuels causes many agronomists to fear that soil erosion will increase, while the remaining soil will suffer nutrient loss, says Moore.
Researchers received a Sun Grant for biobased research to identify ground covers that are compatible with corn, find corn that is competitive with the ground cover, and develop management systems that minimize competition between the corn and the ground cover. The Sun Grant Initiative is a national network of land-grant universities and federally funded laboratories working together to further establish a biobased economy.
Moore is pleased the results were so encouraging, but additional work is required before he and others recommend farmers try it.
"Yes, we can do it," Moore said of using perennial cover crops. "We don't know all the potential pitfalls of doing it. Under the circumstances that we tested, it does work."
Jeremy Singer, collaborator and assistant professor at the National Laboratory for Agriculture and the Environment, says that he also sees a lot of potential.
"The bottom line is that with our best treatment, all three years we found yields in the control and yields in the Kentucky bluegrass with herbicide suppression and fall strip till were not different, which is very exciting," he said.
One focus of the research was to measure if cover crops help replace carbon in the soil that would be lost as stover is removed.
Using his own findings and examining previous research, Singer estimates that the Kentucky bluegrass treatment likely replaces as much carbon in the soil as stover would have, although he concedes that it is difficult to measure precisely.
And, the cover crops also provide at least 85 percent ground cover, meaning only 15 percent of the soil is exposed and susceptible to erosion, he said.
The cover crops also provide weed and insect suppression during the corn growing season, according to researchers.
To reduce competition between corn and Kentucky bluegrass, Moore said bluegrass needs to be chemically treated in the spring to force it into dormancy while the corn gets started.
Generally the two species co-exist well, said Moore.
"Growing two (or more) plants in one field is not a new idea. Ecosystems have been doing it for millennia," he said.
Prior to the Midwest becoming an agricultural powerhouse, the land supported many different species of plant -- each performing different functions for the soil and water quality. Now, we have just a few plant species dominating the landscape, each performing just one function, said Moore.
"In this study," Moore said, "we are trying to put those functions into a simple, easy-to-manage system that can have positive environmental impacts."
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