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Life cycle greenhouse gas emissions of ethanol produced via fermentation of sugars derived from shrub willow (Salix ssp.) hot water extraction in the Northeast United States

Obste Therasme, Timothy A. Volk, Mark H. Eisenbies, Thomas E. Amidon, Marie‐Odile P. Fortier

2021Biotechnology for Biofuels40 citationsDOIOpen Access PDF

Abstract

BACKGROUND: The amount of carbon dioxide in the atmosphere has been on the rise for more than a century. Bioenergy crops are seen by the Intergovernmental Panel on Climate Change as an essential part of the solution to addressing climate change. To understand the potential impact of shrub willow (Salix spp.) crop in the northeast United States, effective and transparent life cycle assessment of these systems needs to occur. RESULTS: for a supply system incorporating summer harvest and storage. Despite decreases in soil organic carbon when willow is instead grown on grassland, the produced fuel still can provide significant climate benefits compared to gasoline. CONCLUSIONS: Shrub willow converted to ethanol can be a carbon negative source of transportation fuel when the electricity and heat required for the conversion process are generated from renewable biomass. The sequestration of carbon in the belowground portion of the plants is essential for the negative GHG balance for cropland and low GHG emissions in grassland.

Topics & Concepts

WillowEnvironmental scienceGreenhouse gasBiomass (ecology)BioenergyLife-cycle assessmentClimate changeShrubBiofuelAgronomyRenewable energyAgroforestryEcologyBiologyProduction (economics)EconomicsMacroeconomicsBioenergy crop production and managementBiofuel production and bioconversionForest Biomass Utilization and Management
Life cycle greenhouse gas emissions of ethanol produced via fermentation of sugars derived from shrub willow (Salix ssp.) hot water extraction in the Northeast United States | Litcius