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Review
. 2008;179(1):15-32.
doi: 10.1111/j.1469-8137.2008.02432.x. Epub 2008 Apr 14.

Bioenergy from plants and the sustainable yield challenge

Angela Karp  1 Ian Shield  1
Affiliations
Free article
Review

Bioenergy from plants and the sustainable yield challenge

Angela Karp et al. New Phytol. 2008.
Free article

Abstract

Bioenergy from plants, particularly from perennial grasses and trees, could make a substantial contribution to alleviation of global problems in climate change and energy security if high yields can be sustained. Here, yield traits in a range of key bioenergy crops are reviewed, from which several targets for future improvement can be identified. Some are already the focus of genetically modified (GM) and non-GM approaches. However, the efficient growth strategies of perennial bioenergy crops rely on newly assimilated and recycled carbon and remobilized nitrogen in a continually shifting balance between sources and sinks. This balance is affected by biotic (e.g. pest, disease) and abiotic (e.g. drought) stresses. Future research should focus on three main challenges: changing (photo)thermal time sensitivity to lengthen the growing season without risking frost damage or limiting remobilization of nutritional elements following senescence; increasing aboveground biomass without depleting belowground reserves required for next year's growth and thus without increasing the requirement for nutrient applications; and increasing aboveground biomass without increasing water use.

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References

    1. Abrahamson LP, Robison DJ, Volk TA, White EH, Neuhauser EF, Benjamin WH, Peterson JM. 1998. Sustainability and environmental issues associated with willow bioenergy development in New York (USA). Biomass & Bioenergy 15: 17-22.
    1. Akin DE. 2007. Grass lignocellulose - strategies to overcome recalcitrance. Applied Biochemistry and Biotechnology 137: 3-15.
    1. Al Afas N, Pellis A, Niinemets U, Ceulemans R. 2005. Growth and production of a short rotation coppice culture of poplar. I. Clonal and year-to-year differences in leaf and petiole characteristics and stand leaf area index. Biomass & Bioenergy 28: 536-547.
    1. Andrews M, James EK, Cummings SP, Zavalin AA, Vinogradova LV, McKenzie BA. 2003. Use of nitrogen fixing bacteria inoculants as a substitute for nitrogen fertiliser for dryland graminaceous crops: progress made, mechanisms of action and future potential. Symbiosis 35: 209-229.
    1. Argus GW. 1997. Infrageneric classification of Salix (Salicaceae) in the new world. Systematic Botany Monographs 52: 1-121.

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