Changing row-crop management practices in U.S. farms could contribute to improved water quality, biological diversity, and soil fertility while helping to stabilize the climate.
April 21, 2014
By changing row-crop management practices in economically and environmentally stable ways, U.S. farms could contribute to improved water quality, biological diversity, and soil fertility while helping to stabilize the climate, according to an article in the May issue of BioScience.
The article, based on research conducted over 25 years at Michigan State University and the university’s Kellogg Biological Station in southwest Michigan, further reports that Midwest farmers, especially those with large farms, appear willing to change their farming practices to provide these ecosystem services in exchange for payments. And a previously published survey showed that citizens are willing to make such payments for environmental services such as cleaner lakes.
The article is by G. Philip Robertson, MSU AgBioResearch scientist, and six co-authors associated with the MSU Kellogg Biological Station, which is part of the Long Term Ecological Research Network. The research analyzed by Robertson and colleagues investigated the yields and the environmental benefits achievable by growing corn, soybean, and winter wheat under regimes that use one third of the usual amount of fertilizer—or none at all—with “cover crops” fertilizing the fields in winter.
The research also examined “no-till” techniques. The regime that used fewer chemicals resulted in more than 50 percent reductions in the amount of nitrogen that escaped into groundwater and rivers, with crop yields close to those of standard management. Nitrogen pollution is a major problem in inland waterways and coastal regions, where it contributes to the formation of “dead zones.”
The reduced chemical regime also mitigated greenhouse warming by taking up greenhouse gases from the atmosphere, in contrast to standard management, which produces significant greenhouse warming by emitting nitrous oxide. The zero-chemical regime mitigated greenhouse warming enough to compensate for the emissions produced under standard management. The low- and zero-chemical and the no-till regimes also led to more fertile soil.
The environmentally improved farming practices that Robertson and his colleagues studied are more complex than conventional practices. But the authors found that although sustained profitability is generally farmers’ overriding concern, substantial proportions would accept payments to adopt environmentally beneficial practices. And a 2009 survey in Michigan found that members of the public indicated they would pay increased taxes so land managers would participate in stewardship programs to benefit lakes; a smaller number were willing to pay for a reduction in greenhouse gas emissions.
Robertson and colleagues note that in coming decades, human population and income growth will drive agriculture to ever-higher intensities. The danger is that it will become more vulnerable to climate extremes and pest outbreaks. “Now is the time to guide this intensification in a way that enhances the delivery of ecosystems services that are not currently marketed,” they conclude.
The research of Robertson is funded in part by MSU AgBioResearch.