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The fate of soybean residue -carbon links to changes of bacterial community composition in Mollisols differing in soil organic carbon
T. X. Lian, J. Jin, G. H. Wang, C. X. Tang, Z. H. Yu, Y. S. Li, J. J. Liu, S. Q. Zhang and X. B. Liu; Jin J(金剑)
2017
Source PublicationSoil Biology & Biochemistry
Volume109Pages:50-58
AbstractQuantifying residue carbon (C) incorporation into soil organic C (SOC) fractions, and underpinning microbial community in the decomposition process of crop residues are essential for improving SOC management in agricultural systems. However, the fate of residue-C and associated responses of microbial communities remain unclear in Mollisols in north-eastern China, where SOC varies geographically. A 150-day incubation experiment was conducted with C-13-labelled soybean residue (4%) amended into two Mollisols differing in SOC (SOC-poor and SOC-rich soils). The C-13 abundances in SOC fractions and the CO2-C efflux from soil were determined, and bacterial community composition was analyzed with MiSeq sequencing. The amounts of residue-C incorporated into the coarse particulate organic C (POC), fine POC and mineral-associated C (MOC) fractions were 4.5-, 4.3- and 2.4-fold higher in the SOC-rich soil than in the SOC-poor soil, respectively. Residue amendment led to negative SOC priming before Day 50 but positive priming thereafter. The primed CO2 per unit of native SOC was greater in the SOC-poor soil than in the SOC-rich soil. This indicates that the contributions of residue-C to the POC and MOC fractions were greater in the SOC-rich soil while residue amendment had stronger priming effect in the SOC-poor soil, stimulating the C exchange rate between fresh and native SOC. A principal coordinates analysis (PCoA) showed that the shift of bacterial community structure in response to residue amendment varied between the two soils. Genera Verrucosispora, Xanthomonadales and Steroidobacter Were mainly enriched in the residue-amended SOC-poor soil while Anaerolineaceae_uncultured was dordinant in the SOC-rich soil. The canonical correspondence analysis (CCA) revealed that the relative abundance of the bacterial operational taxonomic unit (OTU) among residue treatments was significantly associated with soil characteristics, especially C content in coar(se) POC and MOC fractions (p < 0.01), implying that the shift of bacterial community composition in response to residue amendment contributes to the sequestration of residue-C in SOC fractions. (C) 2017 Elsevier Ltd. All rights reserved.
DOI10.1016/j.soilbio.2017.01.026
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Cited Times:9[WOS]   [WOS Record]     [Related Records in WOS]
Document Type期刊论文
Identifierhttp://ir.iga.ac.cn/handle/131322/7657
Collection湿地与全球变化学科组
Corresponding AuthorJin J(金剑)
Recommended Citation
GB/T 7714
T. X. Lian, J. Jin, G. H. Wang, C. X. Tang, Z. H. Yu, Y. S. Li, J. J. Liu, S. Q. Zhang and X. B. Liu,Jin J. The fate of soybean residue -carbon links to changes of bacterial community composition in Mollisols differing in soil organic carbon[J]. Soil Biology & Biochemistry,2017,109:50-58.
APA T. X. Lian, J. Jin, G. H. Wang, C. X. Tang, Z. H. Yu, Y. S. Li, J. J. Liu, S. Q. Zhang and X. B. Liu,&金剑.(2017).The fate of soybean residue -carbon links to changes of bacterial community composition in Mollisols differing in soil organic carbon.Soil Biology & Biochemistry,109,50-58.
MLA T. X. Lian, J. Jin, G. H. Wang, C. X. Tang, Z. H. Yu, Y. S. Li, J. J. Liu, S. Q. Zhang and X. B. Liu,et al."The fate of soybean residue -carbon links to changes of bacterial community composition in Mollisols differing in soil organic carbon".Soil Biology & Biochemistry 109(2017):50-58.
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