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Data for: Multi-year productivity and nitrate-nitrogen loss from corn and prairie bioenergy cropping systems

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posted on 2024-10-02, 15:24 authored by Matthew LiebmanMatthew Liebman, Matthew J. Helmers

Though corn and soybean are widely grown and readily accepted into commodity markets and biofuel facilities, heavy reliance on seeds of those two crops for bioenergy production has been linked to environmental degradation, including nutrient discharge to water, and to constraints on food production. Alternative biofuel feedstock systems might better address this ‘food-energy-environment trilemma.’ Using data from a 9-ha field experiment in Iowa, we evaluated yields from a 14-yr period for four bioenergy feedstock systems: stover harvested from corn grown with and without an unharvested rye cover crop, and prairie vegetation grown with and without fertilizer. We also assessed sub-surface drainage flows and NO3-N concentrations and discharges in leachate from those cropping systems. The continuous corn systems produced mean grain yields of 11.0 to 11.5 Mg ha-1 yr-1, while also yielding about 4 Mg ha-1 yr-1 of stover. Mean harvested biomass from the fertilized prairie was 83% greater than from the unfertilized prairie and was superior to stover production in the two corn treatments in 11 out of 14 years. Nitrate-N losses in drainage water from the corn systems averaged 12 to 14 kg NO3-N ha-1 yr-1, whereas both the fertilized and unfertilized prairie systems almost eliminated NO3-N loss. Cover cropping with rye reduced NO3-N loss in only one out of 13 years and had variable effects on corn yield. Adoption of prairie-based biofuel systems might be driven by placing perennial feedstocks on environmentally sensitive sub-field areas, and by government policies that favor perennial feedstocks over annual crops like corn.

Funding

Leopold Center for Sustainable Agriculture

United States Department of Agriculture

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U.S. Carbon Cycle Science Program

U.S. Department of Agriculture’s National Institute of Food and Agriculture

U.S. Environmental Protection Agency’s National Center for Environmental Research STAR Program

ConocoPhillips

Iowa State University’s Department of Agronomy, Plant Sciences Institute, and College of Agriculture and Life Sciences

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