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Carbon inputs from Miscanthus displace older soil organic carbon without inducing priming

Robertson, Andy D.; Davies, Christian A.; Smith, Pete; Stott, Andy W.; Clark, Emily L.; McNamara, Niall P.. 2017 Carbon inputs from Miscanthus displace older soil organic carbon without inducing priming. BioEnergy Research, 10 (1). 86-101. https://doi.org/10.1007/s12155-016-9772-9

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Abstract/Summary

The carbon (C) dynamics of a bioenergy system are key to correctly defining its viability as a sustainable alternative to conventional fossil fuel energy sources. Recent studies have quantified the greenhouse gas mitigation potential of these bioenergy crops, often concluding that C sequestration in soils plays a primary role in offsetting emissions through energy generation. Miscanthus is a particularly promising bioenergy crop and research has shown that soil C stocks can increase by more than 2 t C ha−1 yr−1. In this study, we use a stable isotope (13C) technique to trace the inputs and outputs from soils below a commercial Miscanthus plantation in Lincolnshire, UK, over the first 7 years of growth after conversion from a conventional arable crop. Results suggest that an unchanging total topsoil (0–30 cm) C stock is caused by Miscanthus additions displacing older soil organic matter. Further, using a comparison between bare soil plots (no new Miscanthus inputs) and undisturbed Miscanthus controls, soil respiration was seen to be unaffected through priming by fresh inputs or rhizosphere. The temperature sensitivity of old soil C was also seen to be very similar with and without the presence of live root biomass. Total soil respiration from control plots was dominated by Miscanthus-derived emissions with autotrophic respiration alone accounting for ∼50 % of CO2. Although total soil C stocks did not change significantly over time, the Miscanthus-derived soil C accumulated at a rate of 860 kg C ha−1 yr−1 over the top 30 cm. Ultimately, the results from this study indicate that soil C stocks below Miscanthus plantations do not necessarily increase during the first 7 years.

Item Type: Publication - Article
Digital Object Identifier (DOI): https://doi.org/10.1007/s12155-016-9772-9
CEH Sections/Science Areas: Shore
ISSN: 1939-1234
Additional Information. Not used in RCUK Gateway to Research.: Open Access paper - full text available via Official URL link.
Additional Keywords: soil C, priming, bioenergy, 13CO2, greenhouse gas, autotrophic soil respiration
NORA Subject Terms: Ecology and Environment
Date made live: 16 Jan 2017 16:37 +0 (UTC)
URI: http://nora.nerc.ac.uk/id/eprint/515823

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