中国东北地区大豆根瘤菌的多样性及其应用。

Q3 Environmental Science
Jia-Xin Tian, Si-Yi Liu, Wen-Fu Wang, Feng Zheng, Li-Li Han, Li-Mei Zhang
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引用次数: 0

摘要

生物固氮是生态系统中氮的主要来源。土壤根瘤菌的多样性及其对大豆的影响需要进一步研究。本研究在中国东北黑土大豆种植区的 8 个地点采集了大豆根瘤菌样本。通过 16S rRNA 和共生基因(nodC、nifH)分析,共分离鉴定出 94 株细菌,其中 70 株被鉴定为属于 Bradyrhizobium 属的根瘤菌。为了进一步验证根瘤菌的应用效果,我们根据系统发育分析的结果筛选出七种具有代表性的本地根瘤菌,并进行了实验室实验,以确定它们的结瘤情况及其对大豆的影响。结果表明,与未接种根瘤菌的对照相比,七种本地根瘤菌均表现出良好的促进作用和结瘤能力。其中,菌株 H7-L22 和 H34-L6 的表现最好,与其他未接种根瘤菌的处理相比,前者显著增加了 25.7% 的株高,后者增加了 20.9% 到 67.1% 的根瘤干重。我们将这两种高效根瘤菌株系作为大豆根瘤菌接种剂进行了田间试验。混合根瘤菌接种剂的促进效果明显优于单一接种剂。与未接种的对照相比,菌株 H7-L22 处理的大豆产量提高了 8.4%,混合接种处理的大豆产量提高了 17.9%。此外,大豆的四籽豆荚数量也显著增加。总之,施用根瘤菌接种剂能显著提高大豆产量,从而减少大豆生产过程中对氮肥的依赖,改善土壤健康状况,促进东北黑土区农业绿色发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Diversity of soybean rhizobia in Northeast China and their application.

Biological nitrogen fixation is the main source of nitrogen in ecosystems. The diversity of soil rhizobia and their effects on soybeans need further research. In this study, we collected soybean rhizosphere samples from eight sites in the black soil soybean planting area in Northeast China. A total of 94 strains of bacteria were isolated and identified using the 16S rRNA and symbiotic genes (nodC, nifH) analysis, of which 70 strains were identified as rhizobia belonging to the genus Bradyrhizobium. To further validate the application effects of rhizobia, we selec-ted seven representative indigenous rhizobia based on the results of phylogenetic analysis, and conducted laboratory experiments to determine their nodulation and the impacts on soybeans. The results showed that, compared to the control without rhizobial inoculation, all the seven indigenous rhizobia exhibited good promoting and nodulation abilities. Among them, strains H7-L22 and H34-L6 performed the best, with the former significantly increasing plant height by 25.7% and the latter increasing root nodule dry weight by 20.9% to 67.1% compared to other indi-genous rhizobia treatments. We tested these two efficient rhizobia strains as soybean rhizobial inoculants in field experiments. The promoting effect of mixed rhizobial inoculants was significantly better than single ones. Compared to the control without inoculation, soybean yield increased by 8.4% with the strain H7-L22 treatment and by 17.9% with the mixed inoculant treatment. Additionally, there was a significant increase in the number of four-seed pods in soybeans. In conclusion, the application of rhizobial inoculants can significantly increase soybean yield, thereby reducing dependence on nitrogen fertilizer during soybean production, improving soil health, and promoting green development in agriculture in the black soil region of Northeast China.

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应用生态学报
应用生态学报 Environmental Science-Ecology
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