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Sustained impact of drought on wet shrublands mediated by soil physical changes

Dominguez, Marıa T.; Sowerby, Alwyn; Smith, Andrew R.; Robinson, David A.; Van Baarsel, Susie; Mills, Rob T.E.; Marshall, Miles R.; Koller, Eva; Lebron, Inma; Hall, Jane; Emmett, Bridget A.. 2015 Sustained impact of drought on wet shrublands mediated by soil physical changes. Biogeochemistry, 122 (2-3). 151-163. 10.1007/s10533-014-0059-y

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Abstract/Summary

Projected climate warming may substantially increase carbon emissions from wet organic soils, contributing to a positive feedback between the terrestrial carbon cycle and climate change. Evidence suggests that in these soils the stimulation of soil respiration by warming can be sustained over long periods of time due to the large availability of C substrates. However, the long-term response of wet organic soils to drought remains uncertain. Organo-mineral soils might be particularly vulnerable, because of their limited soil moisture pool to buffer drought events. Using a whole-ecosystem climate-change experiment in North Wales (UK) we show that soil respiration in podzolic (organo-mineral) soils from wet shrublands is more vulnerable to recurrent drought than to warming, and that the drought impact does not attenuate at decadal time scales. Stimulation of soil respiration by drought was linked to major changes in soil structure that led to a 54 % reduction in water holding capacity compared to control. Bryophyte abundance was found to buffer soil moisture losses, moderating soil CO2 efflux under warming. As there was no evidence of change in plant productivity to offset the increased soil C emissions under drought, this response may result in a positive climate feedback. The results indicate the potentially critical role that changes in sub-dominant vegetation and in soil physical properties may have in determining climate change impacts on soil C dynamics.

Item Type: Publication - Article
Digital Object Identifier (DOI): 10.1007/s10533-014-0059-y
CEH Sections: Emmett
ISSN: 0168-2563
Additional Keywords: soil respiration, acclimation, water retention, warming, bryophyte, Calluna vulgaris, soil structure
NORA Subject Terms: Ecology and Environment
Agriculture and Soil Science
Date made live: 23 Mar 2015 16:40 +0 (UTC)
URI: http://nora.nerc.ac.uk/id/eprint/510347

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