Linking microbial taxa and the effect of mineral nitrogen forms on residue decomposition at the early stage in arable soil by DNA-qSIP
文献类型: 外文期刊
第一作者: Dong, Weiling
作者: Dong, Weiling;Yin, Huaqun;Li, Xu;Wang, Enzhao;Liu, Xiongduo;Wang, Meng;Song, Alin;Fan, Fenliang
作者机构:
关键词: Soil microbial community; Ammonium; Nitrate; Residue decomposition; Quantitative stable isotope probing
期刊名称:GEODERMA ( 影响因子:6.114; 五年影响因子:6.183 )
ISSN: 0016-7061
年卷期: 2021 年 400 卷
页码:
收录情况: SCI
摘要: The decomposition of crop residues represents the largest organic carbon (C) input into agricultural ecosystems, and plays an important role in soil C sequestration and soil fertility. However, how different forms of mineral nitrogen (N) influence the decomposition of these residues, or their associated active microbes, is poorly understood. In this study, we investigated the impacts of ammonium ((NH4)(2)SO4) and nitrate (KNO3) on the early stages (14 days) of decomposition of highly enriched C-13-labeled (C-13 atom% = 77.0%) maize residues. Further, we characterized the contributions of various bacterial and archaeal taxa using quantitative stable isotope probing (qSIP). To our surprise, we found that the majority of measured parameters including C-13 soil respiration, total C-13 microbial assimilation in soil DNA, as well as the diversity and structure of these microbial communities, were not significantly different between these two N forms during our 2-week incubation. Slight differences were observed however, in the activity of straw-metabolizing microbes. The qSIP revealed variability in C-13 assimilation (excess atom fraction, EAF) among different microbial taxa at the operational taxonomic unit (OTU) level, with Proteobacteria, Bacteroidetes, and Verrucomicrobia being the most intensively C-13-labeled phyla, suggesting their potentially dominant roles in residue decomposition. However, only the C-13 EAF of Thaumarchaeota (genus Nitrososphaera) was significantly higher in the ammonium treatment than in the nitrate treatment. The Nitrososphaera might indirectly participate in the decomposition of residues by fixing CO2 or by directly incorporate C-13 from organic matter. These results reveal a quantitative overview of the contribution of bacteria and archaea to residue decomposition. Further, we document that the similar effect of nitrate and ammonium on residue decomposition at the early stages is likely due to the unchanged activity of predominant bacterial taxa with the two N forms.
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