The most recent annual results from a four-year Iowa State University study on using cover crops between rows of corn reveals that higher yields, by as much as 10%, are possible using the soil-saving approach to farming.
The results are the best yet in the ongoing research, says Ken Moore, agronomy professor and primary investigator on the project, who plans to carry on the trials for at least one more growing season. Planting living mulch--or ground cover--between rows of corn is intended to perform several functions--maintain soil moisture, slow soil erosion and sequester carbon.
There were factors in last year's weather that made the higher yields possible, notes Moore. "This is really promising," says Moore of the results. "Last summer was hot, and the cover crop systems performed better because living mulch held the water in the soil better. It was the first year those ground covers went completely dormant. They weren't transpiring any water at all and they were serving as a barrier to moisture moving out of the soil, and that's good."
Last summer was hot and the living mulch held water in the soil better
The study began with the 2008 growing season through support from a grant designed to look at the effect on soil of removing corn stalks, cobs and leaves (stover) to use as biomass for producing cellulosic ethanol. After the 2010 planting season, funding for the project was exhausted, but Moore was able to carry on the tests on a limited basis, focusing only on those systems that showed the most promise.
Moore is working with Kendall Lamkey, chair of ISU's Department of Agronomy, and Jeremy Singer, collaborator and assistant professor at the USDA's National Laboratory for Agriculture and the Environment at Ames, on the study.
Removing stover to make biofuel, it is feared, will reduce carbon in the soil and also speed erosion. Moore says that the cover crop system helps solve both problems. Moore and his group of researchers tested several different agronomic systems and cover crops to find which ones produce the best results.
Cover crop system can maintain carbon and control soil erosion
In 2011, the three cropping systems tested included one that used normal farming practices, a second system that used bluegrass as a cover crop and strip till practices, and a third that used red fescue as the cover crop and strip tilling. When the results were tallied, Moore found the control plots averaged 220 bushels per acre, the bluegrass plots netted 230 bu./ac. and the fescue plots yielded 240 bu./ac.
In 2010 and 2009, the bluegrass and fescue plots averaged about the same yield as the control plot. The rainy spring of 2008 caused yields for the control to be much better, as the no-till plots were planted late in the year.
"This experiment wasn't designed to develop management practices for the farm, it was designed to test the feasibility of using these perennial ground covers for producing corn," says Moore.
"We would conclude these systems are feasible, but we recognize that it could be a somewhat brittle system. We've only tried it in one location, with one corn hybrid for four years. We don't know how it is going to perform in the entire state with different soils and different growing conditions."
This cropping system might be appealing to farmers in long-run
Moore says one goal of the study is to get corn breeders involved in a cover crop system so hybrids can be developed to work in concert with cover crops. The cover crops themselves can also be improved for better results.
This cropping system might be appealing for farmers in the long term. "Farmers make tough economic choices every year when they plant and harvest their crops," says Moore. "If changes need to be made to ensure future generations have the same great farm land and life that we do, we need to offer farmers choices that are not just to our benefit, but to their benefit as well."Growing corn with a perennial cover crop promises to address many of the environmental concerns being expressed about corn production and will enable farmers to harvest stover for bioenergy as that market develops. It appears to be a win-win opportunity. These cover crop systems may eventually offer the farmer a profitable alternative that can ensure long term success, at least that's my hope."