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Empirical Test of an Agricultural Landscape Model

Author

Listed:
  • Ira R. Cooke
  • Elizabeth H. A. Mattison
  • Eric Audsley
  • Alison P. Bailey
  • Robert P. Freckleton
  • Anil R. Graves
  • Joe Morris
  • Simon A. Queenborough
  • Daniel L. Sandars
  • Gavin M. Siriwardena
  • Paul Trawick
  • Andrew R. Watkinson
  • William J. Sutherland

Abstract

Developing models to predict the effects of social and economic change on agricultural landscapes is an important challenge. Model development often involves making decisions about which aspects of the system require detailed description and which are reasonably insensitive to the assumptions. However, important components of the system are often left out because parameter estimates are unavailable. In particular, measurements of the relative influence of different objectives, such as risk, environmental management, on farmer decision making, have proven difficult to quantify. We describe a model that can make predictions of land use on the basis of profit alone or with the inclusion of explicit additional objectives. Importantly, our model is specifically designed to use parameter estimates for additional objectives obtained via farmer interviews. By statistically comparing the outputs of this model with a large farm-level land-use data set, we show that cropping patterns in the United Kingdom contain a significant contribution from farmer’s preference for objectives other than profit. In particular, we found that risk aversion had an effect on the accuracy of model predictions, whereas preference for a particular number of crops grown was less important. While nonprofit objectives have frequently been identified as factors in farmers’ decision making, our results take this analysis further by demonstrating the relationship between these preferences and actual cropping patterns.

Suggested Citation

  • Ira R. Cooke & Elizabeth H. A. Mattison & Eric Audsley & Alison P. Bailey & Robert P. Freckleton & Anil R. Graves & Joe Morris & Simon A. Queenborough & Daniel L. Sandars & Gavin M. Siriwardena & Paul, 2013. "Empirical Test of an Agricultural Landscape Model," SAGE Open, , vol. 3(2), pages 21582440134, April.
    • Handle: RePEc:sae:sagope:v:3:y:2013:i:2:p:2158244013486491
    DOI: 10.1177/2158244013486491
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    References listed on IDEAS

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    2. Bailey, Alison & Perrier, Thomas, 2017. "What really drives dairy production systems: economic rationale or social and environmental responsibility?," 2017 Conference, October 19-20, Rotorua, New Zealand 269527, New Zealand Agricultural and Resource Economics Society.
    3. Hejazi, Mina & Grant, Jason H. & Peterson, Everett, 2022. "Trade impact of maximum residue limits in fresh fruits and vegetables," Food Policy, Elsevier, vol. 106(C).
    4. Lynn V. Dicks & Richard D. Bardgett & Jenny Bell & Tim G. Benton & Angela Booth & Jan Bouwman & Chris Brown & Ann Bruce & Paul J. Burgess & Simon J. Butler & Ian Crute & Frances Dixon & Caroline Drumm, 2013. "What Do We Need to Know to Enhance the Environmental Sustainability of Agricultural Production? A Prioritisation of Knowledge Needs for the UK Food System," Sustainability, MDPI, vol. 5(7), pages 1-21, July.
    5. Akram Khan & Md. Abdus Salam & Mohd. Farhan, 2013. "India and Genetically Modified Crops," South Asian Survey, , vol. 20(1), pages 94-113, March.
    6. Ahodo, Kwadjo & Freckleton, Robert P. & Oglethorpe, David, 2015. "Investigation of factors affecting arable farming profit, crop complexity and risk under the single farm payment policy," 89th Annual Conference, April 13-15, 2015, Warwick University, Coventry, UK 204231, Agricultural Economics Society.

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