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Consensus, uncertainties and challenges for perennial bioenergy crops and land use

Whitaker, Jeanette; Field, John L.; Bernacchi, Carl J.; Cerri, Carlos E.P.; Ceulemans, Reinhart; Davies, Christian A.; DeLucia, Evan H.; Donnison, Iain S.; McCalmont, Jon P.; Paustian, Keith; Rowe, Rebecca L.; Smith, Pete; Thornley, Patricia; McNamara, Niall P.. 2018 Consensus, uncertainties and challenges for perennial bioenergy crops and land use. Global Change Biology Bioenergy, 10 (3). 150-164. https://doi.org/10.1111/gcbb.12488

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Abstract/Summary

Perennial bioenergy crops have significant potential to reduce greenhouse gas (GHG) emissions and contribute to climate change mitigation by substituting for fossil fuels; yet delivering significant GHG savings will require substantial land-use change, globally. Over the last decade, research has delivered improved understanding of the environmental benefits and risks of this transition to perennial bioenergy crops, addressing concerns that the impacts of land conversion to perennial bioenergy crops could result in increased rather than decreased GHG emissions. For policymakers to assess the most cost-effective and sustainable options for deployment and climate change mitigation, synthesis of these studies is needed to support evidence-based decision making. In 2015, a workshop was convened with researchers, policymakers and industry/business representatives from the UK, EU and internationally. Outcomes from global research on bioenergy land-use change were compared to identify areas of consensus, key uncertainties, and research priorities. Here, we discuss the strength of evidence for and against six consensus statements summarising the effects of land-use change to perennial bioenergy crops on the cycling of carbon, nitrogen and water, in the context of the whole life-cycle of bioenergy production. Our analysis suggests that the direct impacts of dedicated perennial bioenergy crops on soil carbon and nitrous oxide are increasingly well understood and are often consistent with significant life cycle GHG mitigation from bioenergy relative to conventional energy sources. We conclude that the GHG balance of perennial bioenergy crop cultivation will often be favourable, with maximum GHG savings achieved where crops are grown on soils with low carbon stocks and conservative nutrient application, accruing additional environmental benefits such as improved water quality. The analysis reported here demonstrates there is a mature and increasingly comprehensive evidence base on the environmental benefits and risks of bioenergy cultivation which can support the development of a sustainable bioenergy industry.

Item Type: Publication - Article
Digital Object Identifier (DOI): https://doi.org/10.1111/gcbb.12488
CEH Sections/Science Areas: Soils and Land Use (Science Area 2017-)
ISSN: 1757-1693
Additional Information. Not used in RCUK Gateway to Research.: Open Access paper - full text available via Official URL link.
Additional Keywords: biofuels, biomass, greenhouse gas emissions, land-use change, life-cycle assessment, nitrous oxide, perennial bioenergy crops, soil carbon
NORA Subject Terms: Agriculture and Soil Science
Date made live: 28 Nov 2017 15:11 +0 (UTC)
URI: http://nora.nerc.ac.uk/id/eprint/518523

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