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Glob Change Biol Bioenergy


Title:Soil carbon and belowground carbon balance of a short-rotation coppice: assessments from three different approaches
Author(s):Berhongaray G; Verlinden MS; Broeckx LS; Janssens IA; Ceulemans R;
Address:"Department of Biology, Research Centre of Excellence on Plant and Vegetation Ecology University of Antwerp Universiteitsplein 1 B-2610 Wilrijk Belgium"
Journal Title:Glob Change Biol Bioenergy
Year:2017
Volume:20160614
Issue:2
Page Number:299 - 313
DOI: 10.1111/gcbb.12369
ISSN/ISBN:1757-1693 (Print) 1757-1707 (Electronic) 1757-1693 (Linking)
Abstract:"Uncertainty in soil carbon (C) fluxes across different land-use transitions is an issue that needs to be addressed for the further deployment of perennial bioenergy crops. A large-scale short-rotation coppice (SRC) site with poplar (Populus) and willow (Salix) was established to examine the land-use transitions of arable and pasture to bioenergy. Soil C pools, output fluxes of soil CO (2), CH (4), dissolved organic carbon (DOC) and volatile organic compounds, as well as input fluxes from litter fall and from roots, were measured over a 4-year period, along with environmental parameters. Three approaches were used to estimate changes in the soil C. The largest C pool in the soil was the soil organic carbon (SOC) pool and increased after four years of SRC from 10.9 to 13.9 kg C m(-2). The belowground woody biomass (coarse roots) represented the second largest C pool, followed by the fine roots (Fr). The annual leaf fall represented the largest C input to the soil, followed by weeds and Fr. After the first harvest, we observed a very large C input into the soil from high Fr mortality. The weed inputs decreased as trees grew older and bigger. Soil respiration averaged 568.9 g C m(-2) yr(-1). Leaching of DOC increased over the three years from 7.9 to 14.5 g C m(-2). The pool-based approach indicated an increase of 3360 g C m(-2) in the SOC pool over the 4-year period, which was high when compared with the -27 g C m(-2) estimated by the flux-based approach and the -956 g C m(-2) of the combined eddy-covariance + biometric approach. High uncertainties were associated to the pool-based approach. Our results suggest using the C flux approach for the assessment of the short-/medium-term SOC balance at our site, while SOC pool changes can only be used for long-term C balance assessments"
Keywords:Populus sp.bioenergy carbon fluxes carbon pools land-use change poplar second-generation biofuels soil organic carbon;
Notes:"PubMed-not-MEDLINEBerhongaray, Gonzalo Verlinden, Melanie S Broeckx, Laura S Janssens, Ivan A Ceulemans, Reinhart eng England 2017/03/07 Glob Change Biol Bioenergy. 2017 Feb; 9(2):299-313. doi: 10.1111/gcbb.12369. Epub 2016 Jun 14"

 
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