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Modeling carbon sequestration under zero-tillage at the regional scale. II. The influence of crop rotation and soil type

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  • Gaiser, Thomas
  • Abdel-Razek, Mohammad
  • Bakara, Heike

Abstract

For policy decisions with respect to CO2-mitigation measures in the agricultural sector, national and regional estimations of the efficiency of such measures are required. The conversion of ploughed cropland to zero-tillage is discussed as an option to reduce CO2 emissions and promises at the same time effective soil and water conservation. Based on the upscaling of simulation results with the soil and land resources information system SLISYS-BW, estimations of CO2-mitigation rates in relation to crop rotations and soil type have been made for the state of Baden-Württemberg (Germany). The results indicate considerable differences in the CO2-mitigation rates between crop rotations ranging from 0.48 to 0.03MgCha−1a−1 for winter cereals–spring cereals–rape rotations and winter cereals–spring cereals–corn silage rotations, respectively. The efficiency of the crop rotations is strongly related to the total carbon input and in particular the amount of crop residues. Among the considered soil types, highest CO2-mitigation rates are associated with Cumulic Anthrosols (0.62MgCha−1a−1) and the lowest with Gleysols (−0.01MgCha−1a−1). An agricultural extensification scenario with conventional plowing but conversion of the presently applied intensive crop rotations to a clover–clover–winter cereals rotation indicated a CO2-mitigation potential of 466GgCa−1. However, the present high market prices for cereals and increasing demand for energy production from biomass encourages an intensification of the agricultural production and an excessive removal of biomass which in future will seriously reduce the potential for carbon sequestration on cropland.

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  • Gaiser, Thomas & Abdel-Razek, Mohammad & Bakara, Heike, 2009. "Modeling carbon sequestration under zero-tillage at the regional scale. II. The influence of crop rotation and soil type," Ecological Modelling, Elsevier, vol. 220(23), pages 3372-3379.
    • Handle: RePEc:eee:ecomod:v:220:y:2009:i:23:p:3372-3379
    DOI: 10.1016/j.ecolmodel.2009.08.001
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    References listed on IDEAS

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    1. Billen, Norbert & Röder, Clara & Gaiser, Thomas & Stahr, Karl, 2009. "Carbon sequestration in soils of SW-Germany as affected by agricultural management—Calibration of the EPIC model for regional simulations," Ecological Modelling, Elsevier, vol. 220(1), pages 71-80.
    2. Gaiser, Thomas & Stahr, Karl & Billen, Norbert & Mohammad, Mohammad Abdel-Razek, 2008. "Modeling carbon sequestration under zero tillage at the regional scale. I. The effect of soil erosion," Ecological Modelling, Elsevier, vol. 218(1), pages 110-120.
    3. Gassman, Philip W. & Campbell, Todd D. & Izaurralde, R. Cesar & Thomson, Allison M. & Atwood, Jay D., 2003. "Regional Estimation Of Soil Carbon And Other Environmental Indicators Using Epic And I_epic," CARD Technical Report Series 18647, Iowa State University, Center for Agricultural and Rural Development.
    4. Philip W. Gassman & Todd Campbell & R. César Izaurralde & Allison M. Thomson & Jay D. Atwood, 2003. "Regional Estimation of Soil Carbon and Other Environmental Indicators Using EPIC and i_EPIC," Center for Agricultural and Rural Development (CARD) Publications 03-tr46, Center for Agricultural and Rural Development (CARD) at Iowa State University.
    5. Meyer-Aurich, Andreas & Weersink, Alfons & Janovicek, Ken & Deen, Bill, 2006. "Cost Efficient Tillage and Rotation Options for Mitigating GHG Emissions from Agriculture in Eastern Canada," 2006 Annual Meeting, August 12-18, 2006, Queensland, Australia 25485, International Association of Agricultural Economists.
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    1. Schönhart, Martin & Schauppenlehner, Thomas & Schmid, Erwin & Muhar, Andreas, 2011. "Integration of bio-physical and economic models to analyze management intensity and landscape structure effects at farm and landscape level," Agricultural Systems, Elsevier, vol. 104(2), pages 122-134, February.

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