Indigenous diazotrophs and their effective properties for organic agriculture

Nguyen Thi Hieu Thu, Trinh Cao Son, Dang Thu Trang, Nguyen Thi My Le, Nguyen Duy Toi, Nguyen Thi Van, Dinh Thuy Hang
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Abstract

Nitrogen-fixing microorganisms (diazotrophs) converting the atmospheric N2 into usable form NH4 are considered the key players in the nitrogen cycle, chiefly responsible for the enriching nitrogen content in the soils. Globally, biological fixation of N2 greatly contributes to plant growth, lessens the need for chemical fertilizers, and thus contributes to the mitigation of greenhouse gases NOx. In this study, diazotrophic bacterial strains were isolated from rhizosphere soils and root nodules of legume and non-legume plants in Vietnam. Quantitative analyzes by the acetylene reduction assay showed that the isolates have high nitrogen fixation activity compared with that of reference strain Azospirillum vinelandii KCTC 2426. In addition, other effective capabilities of the isolated strains toward supporting agriculture were investigated, i.e. synthesizing IAA and siderophore for promoting plant growth, or producing exopolysaccharides for maintaining soil moisture. Taxonomic positions of the isolated strains were identified based on the comparative analyses of sequences of the 16S rDNA and gene related to nitrogen fixation (nifH), revealing a high taxonomic diversity among free-living and symbiotic diazotrophic isolates. Direct support of the selected isolates to plant growth was proven in experiments with mung beans under laboratory conditions. Thus, the native diazotrophic strains obtained in this study would be good microbial sources for application in organic agriculture and soil amendment.
乡土重氮营养物及其在有机农业中的有效特性
固氮微生物(重氮营养菌)将大气中的N2转化为可用的NH4,被认为是氮循环中的关键角色,主要负责丰富土壤中的氮含量。在全球范围内,氮的生物固定极大地促进了植物生长,减少了对化肥的需求,从而有助于减少温室气体氮氧化物。本研究从越南豆科和非豆科植物的根际土壤和根瘤中分离到了重氮营养菌株。乙炔还原法定量分析表明,与对照菌株Azospirillum vinelandii KCTC 2426相比,该菌株具有较高的固氮活性。此外,还考察了分离菌株对农业的其他有效支持能力,如合成IAA和铁载体促进植物生长,或产生外多糖保持土壤水分。通过对分离菌株的16S rDNA和固氮相关基因(nifH)序列的比较分析,确定了分离菌株的分类位置,揭示了自由生活和共生重氮营养分离菌株具有较高的分类多样性。在实验室条件下用绿豆进行试验,证实了所选菌株对植物生长的直接支持作用。因此,本研究获得的重氮营养原生菌株将是有机农业和土壤改良剂的良好微生物源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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