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High-resolution techno–ecological modelling of a bioenergy landscape to identify climate mitigation opportunities in cellulosic ethanol production

Author

Listed:
  • John L. Field

    (Colorado State University
    Colorado State University)

  • Samuel G. Evans

    (University of California-Berkeley)

  • Ernie Marx

    (Colorado State University)

  • Mark Easter

    (Colorado State University)

  • Paul R. Adler

    (Department of Agriculture-Agricultural Research Service)

  • Thai Dinh

    (University of Oklahoma)

  • Bryan Willson

    (Colorado State University)

  • Keith Paustian

    (Colorado State University
    Colorado State University)

Abstract

Although dedicated energy crops will probably be an important feedstock for future cellulosic bioenergy production, it is unknown how they can best be integrated into existing agricultural systems. Here we use the DayCent ecosystem model to simulate various scenarios for growing switchgrass in the heterogeneous landscape that surrounds a commercial-scale cellulosic ethanol biorefinery in southwestern Kansas, and quantify the associated fuel production costs and lifecycle greenhouse gas (GHG) emissions. We show that the GHG footprint of ethanol production can be reduced by up to 22 g of CO2 equivalent per megajoule (CO2e MJ–1) through careful optimization of the soils cultivated and corresponding fertilizer application rates (the US Renewable Fuel Standard requires a 56 gCO2e MJ−1 lifecycle emissions reduction for ‘cellulosic’ biofuels compared with conventional gasoline). This improved climate performance is realizable at modest additional costs, less than the current value of low-carbon fuel incentives. We also demonstrate that existing subsidized switchgrass plantings within this landscape probably achieve suboptimal GHG mitigation, as would landscape designs that strictly minimize the biomass collection radius or target certain marginal lands.

Suggested Citation

  • John L. Field & Samuel G. Evans & Ernie Marx & Mark Easter & Paul R. Adler & Thai Dinh & Bryan Willson & Keith Paustian, 2018. "High-resolution techno–ecological modelling of a bioenergy landscape to identify climate mitigation opportunities in cellulosic ethanol production," Nature Energy, Nature, vol. 3(3), pages 211-219, March.
    • Handle: RePEc:nat:natene:v:3:y:2018:i:3:d:10.1038_s41560-018-0088-1
    DOI: 10.1038/s41560-018-0088-1
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    Cited by:

    1. Larnaudie, Valeria & Ferrari, Mario Daniel & Lareo, Claudia, 2022. "Switchgrass as an alternative biomass for ethanol production in a biorefinery: Perspectives on technology, economics and environmental sustainability," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).
    2. Eric G. O’Neill & Caleb H. Geissler & Christos T. Maravelias, 2024. "Large-scale spatially explicit analysis of carbon capture at cellulosic biorefineries," Nature Energy, Nature, vol. 9(7), pages 828-838, July.
    3. Baral, Nawa Raj & Mishra, Shruti K. & George, Anthe & Gautam, Sagar & Mishra, Umakant & Scown, Corinne D., 2022. "Multifunctional landscapes for dedicated bioenergy crops lead to low-carbon market-competitive biofuels," Renewable and Sustainable Energy Reviews, Elsevier, vol. 169(C).
    4. Yang, Pan & Cai, Ximing & Hu, Xinchen & Zhao, Qiankun & Lee, Yuanyao & Khanna, Madhu & Cortés-Peña, Yoel R. & Guest, Jeremy S. & Kent, Jeffrey & Hudiburg, Tara W. & Du, Erhu & John, Steve & Iutzi, Fre, 2022. "An agent-based modeling tool supporting bioenergy and bio-product community communication regarding cellulosic bioeconomy development," Renewable and Sustainable Energy Reviews, Elsevier, vol. 167(C).

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