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Greenhouse Gas Impacts of Ethanol from Iowa Corn: Life Cycle Analysis Versus System-Wide Accounting

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  • Feng, Hongli
  • Rubin, Ofir
  • Babcock, Bruce A.

Abstract

Life cycle analysis (LCA) is the standard approach used to evaluate the greenhouse gas (GHG) benefits of biofuels. However, it is increasingly recognized that LCA results do not account for some impacts-including land use changes-that have important implications on GHGs. Thus, an alternative accounting system that goes beyond LCA is needed. In this paper, we contribute to the literature by laying out the basics of a system-wide accounting (SWA) method that takes into account all potential changes in GHGs resulting from biofuel expansion. We applied both LCA and SWA to assess the GHG impacts of ethanol based on Iowa corn. Growing corn in rotation with soybeans generated 35% less GHG emissions than growing corn after corn. Based on average corn production, ethanol's GHG benefits were lower in 2007 than in 2006 because of an increase in continuous corn in 2007. When only additional corn was considered, ethanol emitted about 22% less GHGs than gasoline. Results from SWA varied with the choice of baseline and the definition of geographical boundaries. Using 2006 as a baseline and 2007 as a scenario, corn ethanol's benefits were about 20% of the emissions of gasoline. If we expand geographical limits beyond Iowa, but assume the same emission rates for soybean production and land use changes as those in Iowa, then corn ethanol generated more GHG emissions than gasoline. These results highlight the importance of boundary definition for both LCA and SWA.

Suggested Citation

  • Feng, Hongli & Rubin, Ofir & Babcock, Bruce A., 2008. "Greenhouse Gas Impacts of Ethanol from Iowa Corn: Life Cycle Analysis Versus System-Wide Accounting," Staff General Research Papers Archive 12871, Iowa State University, Department of Economics.
  • Handle: RePEc:isu:genres:12871
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    References listed on IDEAS

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    1. Baker, Mindy L. & Babcock, Bruce A., 2008. "Value maximization from corn fractionation: feed, greenhouse gas reductions, and cointegration of ethanol and livestock," Integration of Agricultural and Energy Systems Conference, February 12-13, 2008, Atlanta, Georgia 48714, Farm Foundation.
    2. David A. Hennessy, 2006. "On Monoculture and the Structure of Crop Rotations," American Journal of Agricultural Economics, Agricultural and Applied Economics Association, vol. 88(4), pages 900-914.
    3. Delucchi, Mark, 2004. "Conceptual and Methodological Issues in Lifecycle Analyses of Transportation Fuels," Institute of Transportation Studies, Working Paper Series qt8n77n6z7, Institute of Transportation Studies, UC Davis.
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    1. Hongli Feng & Bruce A. Babcock, 2010. "Impacts of Ethanol on Planted Acreage in Market Equilibrium," American Journal of Agricultural Economics, Agricultural and Applied Economics Association, vol. 92(3), pages 789-802.
    2. Alamia, Alberto & Magnusson, Ingemar & Johnsson, Filip & Thunman, Henrik, 2016. "Well-to-wheel analysis of bio-methane via gasification, in heavy duty engines within the transport sector of the European Union," Applied Energy, Elsevier, vol. 170(C), pages 445-454.
    3. Andrade de Sá, Saraly & Palmer, Charles & di Falco, Salvatore, 2013. "Dynamics of indirect land-use change: Empirical evidence from Brazil," Journal of Environmental Economics and Management, Elsevier, vol. 65(3), pages 377-393.
    4. Menten, Fabio & Tchung-Ming, Stéphane & Lorne, Daphné & Bouvart, Frédérique, 2015. "Lessons from the use of a long-term energy model for consequential life cycle assessment: The BTL case," Renewable and Sustainable Energy Reviews, Elsevier, vol. 43(C), pages 942-960.

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    Keywords

    biofuels; corn ethanol; greenhouse gas; life cycle analysis; system-wide accounting;
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