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Water use implications of bioenergy cropping systems in Eastern England

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  • Glithero, N. J.
  • Wilson, P.
  • Ramsden, S. J.

Abstract

Food and fuel security in the face of population growth and climate change represent key societal challenges. Extending an arable farm-level bio-economic optimisation model ‘MEETA’ to include dedicated energy crops (DECs) and water metrics, we quantify water use implications and trade-offs between greenhouse gas emissions, net energy and farm profitability. Drawing upon the limited available water use data for arable and energy crops applicable for East Anglia in the UK, six different farm scenarios were investigated. Profit maximisation produces a conventional crop mix, while maximising net energy and minimising greenhouse gas emissions result in crop mixes which impose financial penalties and lower water use in comparison to conventional cropping; average financial impacts of the associated reduced water use under these respective scenarios range from £0.12 to £0.28 per m3 of water. Confidence in these results and work on water use and management more generally would be improved through better data on inter-annual crop-water needs, temporal water availability relationships and water response functions. Water availability for UK crop production is largely perceived to be a non-limiting resource; however climate change predictions demonstrate that availability of water for UK crop production is of increasing concern for both farmers and society as a whole.

Suggested Citation

  • Glithero, N. J. & Wilson, P. & Ramsden, S. J., 2014. "Water use implications of bioenergy cropping systems in Eastern England," 88th Annual Conference, April 9-11, 2014, AgroParisTech, Paris, France 170557, Agricultural Economics Society.
    • Handle: RePEc:ags:aesc14:170557
    DOI: 10.22004/ag.econ.170557
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    References listed on IDEAS

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    1. Glithero, N.J. & Ramsden, S.J. & Wilson, P., 2012. "Farm systems assessment of bioenergy feedstock production: Integrating bio-economic models and life cycle analysis approaches," Agricultural Systems, Elsevier, vol. 109(C), pages 53-64.
    2. Gerbens-Leenes, P.W. & Hoekstra, A.Y. & van der Meer, Th., 2009. "The water footprint of energy from biomass: A quantitative assessment and consequences of an increasing share of bio-energy in energy supply," Ecological Economics, Elsevier, vol. 68(4), pages 1052-1060, February.
    3. Foxon, T.J. & Pearson, P.J.G., 2007. "Towards improved policy processes for promoting innovation in renewable electricity technologies in the UK," Energy Policy, Elsevier, vol. 35(3), pages 1539-1550, March.
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    Keywords

    Environmental Economics and Policy; International Relations/Trade; Resource/Energy Economics and Policy;
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