Eric B. Sucre scite author profile

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 agroclimatic 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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Evaluation of intercropped switchgrass establishment under a range of experimental site preparation treatments in a forested setting on the Lower Coastal Plain of North Carolina, U.S.A.

Albaugh

Sucre

Leggett

et al. 2012

Biomass and Bioenergy

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Loblolly Pine Age and Density Affects Switchgrass Growth and Soil Carbon in an Agroforestry System

Blazier¹,

Clason²,

Vance³

et al. 2012

Forest Science

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Gas exchange and stand-level estimates of water use and gross primary productivity in an experimental pine and switchgrass intercrop forestry system on the Lower Coastal Plain of North Carolina, U.S.A

Albaugh

Domec

Maier

et al. 2014

Agricultural and Forest Meteorology

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Switchgrass intercropping reduces soil inorganic nitrogen in a young loblolly pine plantation located in coastal North Carolina

Minick¹,

Strahm²,

Fox³

et al. 2014

Forest Ecology and Management

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Eric B. Sucre

The Challenge of Lignocellulosic Bioenergy in a Water-Limited World

Evaluation of intercropped switchgrass establishment under a range of experimental site preparation treatments in a forested setting on the Lower Coastal Plain of North Carolina, U.S.A.

Loblolly Pine Age and Density Affects Switchgrass Growth and Soil Carbon in an Agroforestry System

Gas exchange and stand-level estimates of water use and gross primary productivity in an experimental pine and switchgrass intercrop forestry system on the Lower Coastal Plain of North Carolina, U.S.A

Switchgrass intercropping reduces soil inorganic nitrogen in a young loblolly pine plantation located in coastal North Carolina

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