期刊
BIOSCIENCE
卷 63, 期 2, 页码 102-117出版社
OXFORD UNIV PRESS
DOI: 10.1525/bio.2013.63.2.6
关键词
climate change; lignocellulosic bioenergy; water availability; drought; sustainability
类别
资金
- Commission for Educational Exchange Fulbright program
- US Department of Agriculture (USDA) National Institute of Food and Agriculture [2011-67009-20089]
- USDA Cooperative State Research, Education, and Extension Service [2009-10001-05113]
- US Forest Service Eastern Forest Environmental Threat Assessment Center [08-JV-11330147-038]
- US Department of Energy Biological and Environmental Research Terrestrial Ecosystem Science program [11-DE-SC-0006700, ER65189]
- Weyerhaeuser
- Catch light Energy RC
- European Research Council (ERC) under the European Commission from Flemish Hercules Foundation [233366, ZW09-06]
- Flemish Methusalem Programme
- European Commission [244031]
- Czech Globe Centre [CZ.1.05/1.1.00/02.0073]
- Direct For Biological Sciences
- Division Of Environmental Biology [1027253] Funding Source: National Science Foundation
It is hoped that lignocellulosic sources will provide energy security, offset carbon dioxide enrichment of the atmosphere, and stimulate the development of new economic sectors. However, little is known about the productivity and sustainability of plant cell-wall energy industries. In this study, we used 16 global circulation models to project the global distribution of relative water availability in the coming decades and summarized the available data on the water-use efficiency of tree- and grass-based bioenergy systems. The data on bioenergy water use were extremely limited. Productivity was strongly correlated with water-use efficiency, with C-4 grasses having a distinct advantage in this regard. Our analysis of agro-climatic drivers of bioenergy productivity suggests that relative water availability will be one of the most important climatic changes to consider in the design of bioenergy systems.
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