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Bioenergy Development Policy and Practice Must Recognize Potential Hydrologic Impacts: Lessons from the Americas

Author

Listed:
  • David W. Watkins Jr.

    (Michigan Technological University, Department of Civil and Environmental Engineering)

  • Márcia M. G. Alcoforado de Moraes

    (Universidade Federal de Pernambuco, Department of Economics)

  • Heidi Asbjornsen

    (University of New Hampshire, Department of Natural Resources and Environment)

  • Alex S. Mayer

    (Michigan Technological University, Department of Civil and Environmental Engineering)

  • Julian Licata

    (Instituto Nacional de Tecnología Agropecuraria)

  • Jose Gutierrez Lopez

    (University of New Hampshire, Department of Natural Resources and Environment)

  • Thomas G. Pypker

    (Thompson Rivers University, Department of Natural Resource Science)

  • Vivianna Gamez Molina

    (Arizona State University, Department of Civil, Environmental, and Sustainable Engineering)

  • Guilherme Fernandes Marques

    (Instituto de Pesquisas Hidráulicas (IPH), Universidade Federal Do Rio Grande do Sul, Department of Civil Engineering)

  • Ana Cristina Guimaraes Carneiro

    (Universidade Federal de Pernambuco, Department of Economics)

  • Hector M. Nuñez

    (Centro de Investigación y Docencia Económicas (CIDE), Department of Economics)

  • Hayri Önal

    (University of Illinois at Urbana-Champaign, Department of Agricultural and Consumer Economics)

  • Bruna da Nobrega Germano

    (Universidade Federal de Pernambuco, Department of Economics)

Abstract

Large-scale bioenergy production will affect the hydrologic cycle in multiple ways, including changes in canopy interception, evapotranspiration, infiltration, and the quantity and quality of surface runoff and groundwater recharge. As such, the water footprints of bioenergy sources vary significantly by type of feedstock, soil characteristics, cultivation practices, and hydro-climatic regime. Furthermore, water management implications of bioenergy production depend on existing land use, relative water availability, and competing water uses at a watershed scale. This paper reviews previous research on the water resource impacts of bioenergy production—from plot-scale hydrologic and nutrient cycling impacts to watershed and regional scale hydro-economic systems relationships. Primary gaps in knowledge that hinder policy development for integrated management of water–bioenergy systems are highlighted. Four case studies in the Americas are analyzed to illustrate relevant spatial and temporal scales for impact assessment, along with unique aspects of biofuel production compared to other agroforestry systems, such as energy-related conflicts and tradeoffs. Based on the case studies, the potential benefits of integrated resource management are assessed, as is the need for further case-specific research.

Suggested Citation

  • David W. Watkins Jr. & Márcia M. G. Alcoforado de Moraes & Heidi Asbjornsen & Alex S. Mayer & Julian Licata & Jose Gutierrez Lopez & Thomas G. Pypker & Vivianna Gamez Molina & Guilherme Fernandes Marq, 2015. "Bioenergy Development Policy and Practice Must Recognize Potential Hydrologic Impacts: Lessons from the Americas," Environmental Management, Springer, vol. 56(6), pages 1295-1314, December.
    • Handle: RePEc:spr:envman:v:56:y:2015:i:6:d:10.1007_s00267-015-0460-x
    DOI: 10.1007/s00267-015-0460-x
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