期刊
GLOBAL CHANGE BIOLOGY BIOENERGY
卷 8, 期 2, 页码 371-381出版社
WILEY
DOI: 10.1111/gcbb.12250
关键词
biochar; carbon sequestration; charcoal; crop yield; soil aggregates; soil organic carbon; soil productivity; stable isotopes
资金
- Fund for Scientific Research - Flanders (FWO)
This study was set up to identify the long-term effect of biochar on soil C sequestration of recent carbon inputs. Arable fields (n=5) were found in Belgium with charcoal-enriched black spots (>50m(2); n=14) dating >150years ago from historical charcoal production mound kilns. Topsoils from these black spots' had a higher organic C concentration [3.6 +/- 0.9% organic carbon (OC)] than adjacent soils outside these black spots (2.1 +/- 0.2% OC). The soils had been cropped with maize for at least 12years which provided a continuous input of C with a C isotope signature (C-13) -13.1, distinct from the C-13 of soil organic carbon (-27.4 parts per thousand) and charcoal (-25.7 parts per thousand) collected in the surrounding area. The isotope signatures in the soil revealed that maize-derived C concentration was significantly higher in charcoal-amended samples (black spots') than in adjacent unamended ones (0.44% vs. 0.31%; P=0.02). Topsoils were subsequently collected as a gradient across two black spots' along with corresponding adjacent soils outside these black spots and soil respiration, and physical soil fractionation was conducted. Total soil respiration (130days) was unaffected by charcoal, but the maize-derived C respiration per unit maize-derived OC in soil significantly decreased about half (P<0.02) with increasing charcoal-derived C in soil. Maize-derived C was proportionally present more in protected soil aggregates in the presence of charcoal. The lower specific mineralization and increased C sequestration of recent C with charcoal are attributed to a combination of physical protection, C saturation of microbial communities and, potentially, slightly higher annual primary production. Overall, this study provides evidence of the capacity of biochar to enhance C sequestration in soils through reduced C turnover on the long term.
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