© 2015, Springer Science+Business Media New York. 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 ...
Recent reports and publications such as that of Perlack et al, 2005 and Burton et al, 2006 indicatin...
There are major expectations that bioenergy will supply large amounts of CO2 neutral energy for the ...
<div><p>Likely changes in precipitation (P) and potential evapotranspiration (PET) resulting from po...
Biofuels policies induce land use changes (LUC), including cropland expansion and crop switching, an...
Biofuels policies induce land use changes (LUC), including cropland expansion and crop switching, an...
Impact of climate change on the water resources of the United States exposes the vulnerability of fe...
Energy systems and water resources are inextricably linked, especially in the case of bioenergy, whi...
Biofuel expansion efforts and climate mitigation policy could fundamentally alter land management tr...
Growing demand for biomass-derived fuels has resulted in an increase in bioenergy projects in recent...
A recent U.S. Department of Energy study estimated that more than one billion tons of biofuel feedst...
Abstract Bioenergy is expected to play an important role in the future energy mix as it can substitu...
Abstract Water consumption and water quality continue to be key factors affecting environmental sust...
Land use change for bioenergy feedstocks is likely to intensify as energy demand rises simultaneousl...
A letter report issued by the Government Accountability Office with an abstract that begins "In resp...
Biofuels account for 1–2% of global transportation fuel and their share is projected to continue ris...
Recent reports and publications such as that of Perlack et al, 2005 and Burton et al, 2006 indicatin...
There are major expectations that bioenergy will supply large amounts of CO2 neutral energy for the ...
<div><p>Likely changes in precipitation (P) and potential evapotranspiration (PET) resulting from po...
Biofuels policies induce land use changes (LUC), including cropland expansion and crop switching, an...
Biofuels policies induce land use changes (LUC), including cropland expansion and crop switching, an...
Impact of climate change on the water resources of the United States exposes the vulnerability of fe...
Energy systems and water resources are inextricably linked, especially in the case of bioenergy, whi...
Biofuel expansion efforts and climate mitigation policy could fundamentally alter land management tr...
Growing demand for biomass-derived fuels has resulted in an increase in bioenergy projects in recent...
A recent U.S. Department of Energy study estimated that more than one billion tons of biofuel feedst...
Abstract Bioenergy is expected to play an important role in the future energy mix as it can substitu...
Abstract Water consumption and water quality continue to be key factors affecting environmental sust...
Land use change for bioenergy feedstocks is likely to intensify as energy demand rises simultaneousl...
A letter report issued by the Government Accountability Office with an abstract that begins "In resp...
Biofuels account for 1–2% of global transportation fuel and their share is projected to continue ris...
Recent reports and publications such as that of Perlack et al, 2005 and Burton et al, 2006 indicatin...
There are major expectations that bioenergy will supply large amounts of CO2 neutral energy for the ...
<div><p>Likely changes in precipitation (P) and potential evapotranspiration (PET) resulting from po...