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Why large-scale bioenergy production on marginal land is unfeasible: A conceptual partial equilibrium analysis

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  • Bryngelsson, David K.
  • Lindgren, Kristian

Abstract

A transparent and conceptual partial equilibrium model of global land use is used to explore long-term effects of large-scale introduction of bioenergy, under different policy cases. The transparency of the model, and the consideration of clear-cut policies, provides a clear picture of how main mechanisms of land-use competition work, and how they influence the food and bioenergy systems. The model is subjected to a detailed characterization, in which parameters critical to the results and conclusions are detected and their impacts depicted. A large-scale introduction of bioenergy would raise food prices in all cases/scenarios investigated, and relative price increases of extensively produced crops would be at least twice as high as compared to intensively produced crops. Banning production of bioenergy from the most productive land (limiting production to “marginal land”) would reduce this price impact. However, we show that bioenergy is unlikely to ever be produced on any commercial scale only on land of low productivity. The economic incentives would be strong for owners of more productive land to grow bioenergy anyway and out-compete the more costly production on low yielding land. Large-scale deforestation would become attractive in response to increased bioenergy demand, especially for extensive production systems such as grazing.

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  • Bryngelsson, David K. & Lindgren, Kristian, 2013. "Why large-scale bioenergy production on marginal land is unfeasible: A conceptual partial equilibrium analysis," Energy Policy, Elsevier, vol. 55(C), pages 454-466.
    • Handle: RePEc:eee:enepol:v:55:y:2013:i:c:p:454-466
    DOI: 10.1016/j.enpol.2012.12.036
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    17. De Laporte, Aaron V. & Ripplinger, David G., 2019. "The effects of site selection, opportunity costs and transportation costs on bioethanol production," Renewable Energy, Elsevier, vol. 131(C), pages 73-82.
    18. Yuan Chang & Guijun Li & Yuan Yao & Lixiao Zhang & Chang Yu, 2016. "Quantifying the Water-Energy-Food Nexus: Current Status and Trends," Energies, MDPI, vol. 9(2), pages 1-17, January.
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    21. Graham, Neal T. & Gakkhar, Nikhil & Singh, Akash Deep & Evans, Meredydd & Stelmach, Tanner & Durga, Siddarth & Godara, Rakesh & Gajera, Bhautik & Wise, Marshall & Sarma, Anil K., 2022. "Integrated analysis of increased bioenergy futures in India," Energy Policy, Elsevier, vol. 168(C).
    22. Destek, Mehmet Akif & Sarkodie, Samuel Asumadu & Asamoah, Ernest Frimpong, 2020. "Does biomass energy drive environmental sustainability? An SDG perspective for top five biomass consuming countries," MPRA Paper 114218, University Library of Munich, Germany, revised 29 Mar 2021.
    23. Yan, Dan & Liu, Litao & Li, Jinkai & Wu, Jiaqian & Qin, Wei & Werners, Saskia E., 2021. "Are the planning targets of liquid biofuel development achievable in China under climate change?," Agricultural Systems, Elsevier, vol. 186(C).

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