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论文题目: Elevated CO2 alters the abundance but not the structure of diazotrophic community in the rhizosphere of soybean grown in a Mollisol
英文论文题目: Elevated CO2 alters the abundance but not the structure of diazotrophic community in the rhizosphere of soybean grown in a Mollisol
第一作者: 于镇华
英文第一作者: Yu,Zhenhua
联系作者: 金剑
英文联系作者: Jin,Jian
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发表年度: 2018
卷: 54
期: 7
页码: 877-881
摘要:

The effect of elevated CO2 (eCO(2)) on rhizospheric diazotrophic community in cropland has little been studied, although eCO(2) facilitates nodulation and N-2 fixation in legumes. In this study, four soybean cultivars (Xiaohuangjin, Suinong 8, Suinong 14, and Heinong 45) were grown in Mollisols for 65 days under ambient CO2 (aCO(2)) (390 ppm) or eCO(2) (550 ppm). Quantitative PCR and Illumina MiSeq sequencing targeting the nifH gene that reflects the composition of diazotrophic community were determined. Elevated CO2 significantly increased the abundance of nifH gene copies in the rhizospheres of the Suinong 8 and Heinong 45 cultivars, but not in the Suinong 14 and Xiaohuangjin cultivars. The nifH abundance correlated negatively with nodule density (p 0.01) but positively with nodule size (p 0.01). Elevated CO2 did not significantly alter the composition of diazotrophic community, nor shift dominant bacterial operational taxonomic units (OTUs). These results indicated that eCO(2) stimulated the growth but did not alter the community composition of diazotrophs in the rhizosphere of soybean, which depended on cultivar and might contribute to nodulation responses to eCO(2).

 

 

英文摘要:

The effect of elevated CO2 (eCO(2)) on rhizospheric diazotrophic community in cropland has little been studied, although eCO(2) facilitates nodulation and N-2 fixation in legumes. In this study, four soybean cultivars (Xiaohuangjin, Suinong 8, Suinong 14, and Heinong 45) were grown in Mollisols for 65 days under ambient CO2 (aCO(2)) (390 ppm) or eCO(2) (550 ppm). Quantitative PCR and Illumina MiSeq sequencing targeting the nifH gene that reflects the composition of diazotrophic community were determined. Elevated CO2 significantly increased the abundance of nifH gene copies in the rhizospheres of the Suinong 8 and Heinong 45 cultivars, but not in the Suinong 14 and Xiaohuangjin cultivars. The nifH abundance correlated negatively with nodule density (p 0.01) but positively with nodule size (p 0.01). Elevated CO2 did not significantly alter the composition of diazotrophic community, nor shift dominant bacterial operational taxonomic units (OTUs). These results indicated that eCO(2) stimulated the growth but did not alter the community composition of diazotrophs in the rhizosphere of soybean, which depended on cultivar and might contribute to nodulation responses to eCO(2).

刊物名称: Biology and Fertility of Soils
英文刊物名称: Biology and Fertility of Soils
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参与作者: Y. S. Li, G. H. Wang, C. X. Tang, Y. H. Wang, J. J. Liu, X. B. Liu and J. Jin
英文参与作者: Y. S. Li, G. H. Wang, C. X. Tang, Y. H. Wang, J. J. Liu, X. B. Liu and J. Jin