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Linking rhizospheric diazotrophs to the stimulation of soybean N2 fixation in a Mollisol amended with maize straw

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Authors

Xie, Zhihuang
Yu, Zhenhua
Li, Yansheng
Wang, Guanghua
Tang, Caixian
Mathesius, Ulrike
Liu, Xiaobing
Liu, Junjie
Liu, Judong
Herbert, S J

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Kluwer Academic Publishers

Abstract

Aims: Crop residue amendment is likely to stimulate symbiotic N fixation, and clarifying its effect on N -fixing bacteria, i.e., diazotrophs in the rhizosphere of legume crops, is important for sustainable N management in legume-cereal cropping systems. Therefore, this study aimed to reveal the diazotrophic community composition in the rhizosphere of soybean in response to maize residue amendment. Methods: Being designed with treatments of maize residue, chemical fertilizer, and non-fertilizer applications, this study deployed the N-labeling technology combined with high-throughput sequencing of the nifH gene as a molecular marker for diazotrophs to quantify the symbiotically-fixed N in soybean plants and link symbiotically fixed N to the diazotrophic community diversity in the rhizosphere. Results: Residue amendment increased the abundance of diazotrophs and fundamentally altered the composition of its community in the rhizosphere. It increased the relative abundances of Bradyrhizobium and Azohydromonas compared to the chemical fertilizer treatment. The copy number of nifH in the rhizosphere was associated with dissolved organic carbon and N fixation. Conclusions: Residue-induced increase in dissolved organic carbon may provide sufficient carbon sources for diazotroph enrichment and thus enhance nodulation. The maize residue amendment may enrich N fixers to facilitate nodulation and subsequent N fixation of soybean, highlighting the eco-functional importance of diazotrophs fixing extra N into the rotation system.

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Plant and Soil

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Restricted until

2099-12-31

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