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Drainage N Loads Under Climate Change with Winter Rye Cover Crop in a Northern Mississippi River Basin Corn-Soybean Rotation

Author

Listed:
  • Robert Malone

    (USDA-ARS, National Laboratory for Agriculture and the Environment, Ames, IA 50011, USA)

  • Jurgen Garbrecht

    (USDA-ARS, Grazing lands Research Laboratory, El Reno, OK 73036, USA)

  • Phillip Busteed

    (USDA-ARS, Grazing lands Research Laboratory, El Reno, OK 73036, USA)

  • Jerry Hatfield

    (USDA-ARS, National Laboratory for Agriculture and the Environment, Ames, IA 50011, USA)

  • Dennis Todey

    (USDA-ARS, National Laboratory for Agriculture and the Environment, Ames, IA 50011, USA)

  • Jade Gerlitz

    (Department of Ag & Biosystems Engineering, Iowa State University, Ames, IA 50011, USA)

  • Quanxiao Fang

    (Institute of Soil and Water Conservation, Chinese Academy of Sciences, Yangling 712100, China)

  • Matthew Sima

    (Department of Civil and Environmental Engineering, Princeton University, Princeton, NJ 08544, USA)

  • Anna Radke

    (USDA-ARS, National Laboratory for Agriculture and the Environment, Ames, IA 50011, USA)

  • Liwang Ma

    (USDA-ARS, Rangeland Resources and Systems Research Unit, Fort Collins, CO 80526, USA)

  • Zhiming Qi

    (Department of Bioresource Engineering, McGill University, Sainte-Anne-de-Bellevue, QC H9X 3V9, Canada)

  • Huaiqing Wu

    (Department of Statistics, Iowa State University, Ames, IA 50011, USA)

  • Dan Jaynes

    (USDA-ARS, National Laboratory for Agriculture and the Environment, Ames, IA 50011, USA)

  • Thomas Kaspar

    (USDA-ARS, National Laboratory for Agriculture and the Environment, Ames, IA 50011, USA)

Abstract

To help reduce future N loads entering the Gulf of Mexico from the Mississippi River 45%, Iowa set the goal of reducing non-point source N loads 41%. Studies show that implementing winter rye cover crops into agricultural systems reduces N loads from subsurface drainage, but its effectiveness in the Mississippi River Basin under expected climate change is uncertain. We used the field-tested Root Zone Water Quality Model (RZWQM) to estimate drainage N loads, crop yield, and rye growth in central Iowa corn-soybean rotations. RZWQM scenarios included baseline (BL) observed weather (1991–2011) and ambient CO 2 with cover crop and no cover crop treatments (BL_CC and BL_NCC). Scenarios also included projected future temperature and precipitation change (2065–2085) from six general circulation models (GCMs) and elevated CO 2 with cover crop and no cover crop treatments (CC and NCC). Average annual drainage N loads under NCC, BL_NCC, CC and BL_CC were 63.6, 47.5, 17.0, and 18.9 kg N ha −1 . Winter rye cover crop was more effective at reducing drainage N losses under climate change than under baseline conditions (73 and 60% for future and baseline climate), mostly because the projected temperatures and atmospheric CO 2 resulted in greater rye growth and crop N uptake. Annual CC drainage N loads were reduced compared with BL_NCC more than the targeted 41% for 18 to 20 years of the 21-year simulation, depending on the GCM. Under projected climate change, average annual simulated crop yield differences between scenarios with and without winter rye were approximately 0.1 Mg ha −1 . These results suggest that implementing winter rye cover crop in a corn-soybean rotation effectively addresses the goal of drainage N load reduction under climate change in a northern Mississippi River Basin agricultural system without affecting cash crop production.

Suggested Citation

  • Robert Malone & Jurgen Garbrecht & Phillip Busteed & Jerry Hatfield & Dennis Todey & Jade Gerlitz & Quanxiao Fang & Matthew Sima & Anna Radke & Liwang Ma & Zhiming Qi & Huaiqing Wu & Dan Jaynes & Thom, 2020. "Drainage N Loads Under Climate Change with Winter Rye Cover Crop in a Northern Mississippi River Basin Corn-Soybean Rotation," Sustainability, MDPI, vol. 12(18), pages 1-18, September.
    • Handle: RePEc:gam:jsusta:v:12:y:2020:i:18:p:7630-:d:414263
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    References listed on IDEAS

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