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期刊

標題

Biochar affects soil organic matter cycling and microbial functions but does not alter microbial community structure in a paddy soil

作者

JingTian,JingyuanWang, MichaelaDippold, YangGao, EvgeniaBlagodatskaya, YakovKuzyakov

名稱(期刊/節目)

Science of The Total Environment

期刊期數/節目集數

Volume 556, Pages 89-97

出版單位

ELSEVIER

出版年月日

2016/6/15

原文摘要

The application of biochar (BC) in conjunction with mineral fertilizers is one of the most promising management practices recommended to improve soil quality. However, the interactive mechanisms of BC and mineral fertilizer addition affecting microbial communities and functions associated with soil organic matter (SOM) cycling are poorly understood. We investigated the SOM in physical and chemical fractions, microbial community structure (using phospholipid fatty acid analysis, PLFA) and functions (by analyzing enzymes involved in C and N cycling and Biolog) in a 6-year field experiment with BC and NPK amendment. BC application increased total soil C and particulate organic C for 47.4–50.4% and 63.7–74.6%, respectively. The effects of BC on the microbial community and C-cycling enzymes were dependent on fertilization. Addition of BC alone did not change the microbial community compared with the control, but altered the microbial community structure in conjunction with NPK fertilization. SOM fractions accounted for 55% of the variance in the PLFA-related microbial community structure. The particulate organic N explained the largest variation in the microbial community structure. Microbial metabolic activity strongly increased after BC addition, particularly the utilization of amino acids and amines due to an increase in the activity of proteolytic (l-leucine aminopeptidase) enzymes. These results indicate that microorganisms start to mine N from the SOM to compensate for high C:N ratios after BC application, which consequently accelerate cycling of stable N. Concluding, BC in combination with NPK fertilizer application strongly affected microbial community composition and functions, which consequently influenced SOM cycling.

原文摘要簡述

生物炭(BC)與礦物肥料的結合使用是最有希望的改善土壤品質的管理實踐之一。然而,對生物炭和礦物肥料添加影響微生物群落和土壤有機質(SOM)循環相關功能的相互作用機制了解甚少。在一項為期6年的生物炭與氮、磷、鉀改良田間試驗中,我們研究了土壤有機物質的物理和化學成分、微生物群落結構(使用磷脂脂肪酸分析,PLFA)和功能(透過分析涉及碳和氮循環的酵素及生物學)。

關鍵字

Biochar; Soil organic matter fraction; Microbial community; Enzymes; Microbial function

連結

https://doi.org/10.1016/j.scitotenv.2016.03.010

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