Lower residue decomposition in historically charcoal-enriched soils is related to increased adsorption of organic matter

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Lower residue decomposition in historically charcoal-enriched soils is related to increased adsorption of organic matter

机译：在历史上富含木炭富集的土壤中的残留物分解与有机物质的吸附增加有关

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Previous field observations have shown increased soil carbon (C) sequestration in charcoal amended soils due to an accumulation of non-charcoal derived soil C. This study was set up to compare and analyse mineralization of non-charcoal derived C between soils that were either or not historically enriched in charcoal. Maize straw (C-13-enriched) was added to samples of arable soil collected under historical charcoal kilns and corresponding adjacent control soil. The respiration was monitored in laboratory conditions for 227 days. Charcoal in soil significantly lowered total soil respiration (1905 vs. 1984 mg C kg(-1)). Mineralization of C-13-enriched added maize C (AMC) was unaffected by charcoal in the initial weeks after maize straw addition, however differences became significant at longer incubations yielding a markedly lower mineralized fraction in the charcoal enriched samples after 227 days (70 versus 62%, P 0.05). A two fraction mineralization model revealed no charcoal effect on the labile fraction and its degradation but that the stable fraction of AMC was larger and degraded slower in the presence of charcoal. A soil drying-rewetting event (35 days) increased respiration to the same extent in charcoal-enriched as in adjacent soils. In contrast, the dissolved organic carbon (DOC) in pore water was significantly lower in charcoal-enriched than in adjacent soils. Microbial biomass-C (MBC) determined by fumigation-centrifugation was not significantly different between charcoal-enriched and adjacent soil (309 mg vs. 266 mg MBC kg(-1)). A soil adsorption experiment with DOC, extracted from a grassland soil, revealed larger DOC sorption with increasing soil charcoal concentration. This study shows that reduced C mineralization of non-charcoal C in charcoal-enriched soil is most likely related to enhanced sorption of more recalcitrant organic matter, rather than to lower MBC. (C) 2016 Elsevier Ltd. All rights reserved.

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《Soil Biology & Biochemistry》 |2017年第1期|共7页
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正文语种 eng
中图分类农业基础科学;
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Biochar; Soil carbon sequestration; Priming effects; Microbial biomass; Carbon dynamics; Dissolved organic carbon;

机译：生物炭;土壤碳封存;引发效果;微生物生物量;碳动力学;溶解有机碳;

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Lower residue decomposition in historically charcoal-enriched soils is related to increased adsorption of organic matter

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