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慢生根瘤菌属某菌株在含有本地根瘤菌的土壤中的竞争力。

Competitiveness of a Bradyrhizobium sp. strain in soils containing indigenous rhizobia.

作者信息

Bogino Pablo, Banchio Erika, Bonfiglio Carlos, Giordano Walter

机构信息

Departamento de Biología Molecular, Universidad Nacional de Río Cuarto, Río Cuarto, Córdoba, Argentina.

出版信息

Curr Microbiol. 2008 Jan;56(1):66-72. doi: 10.1007/s00284-007-9041-4. Epub 2007 Sep 26.

DOI:10.1007/s00284-007-9041-4
PMID:17899258
Abstract

The success of rhizobial inoculation on plant roots is often limited by several factors, including environmental conditions, the number of infective cells applied, the presence of competing indigenous (native) rhizobia, and the inoculation method. Many approaches have been taken to solve the problem of inoculant competition by naturalized populations of compatible rhizobia present in soil, but so far without a satisfactory solution. We used antibiotic resistance and molecular profiles as tools to find a reliable and accurate method for competitiveness assay between introduced Bradyrhizobium sp. strains and indigenous rhizobia strains that nodulate peanut in Argentina. The positional advantage of rhizobia soil population for nodulation was assessed using a laboratory model in which a rhizobial population is established in sterile vermiculite. We observed an increase in nodule number per plant and nodule occupancy for strains established in vermiculite. In field experiments, only 9% of total nodules were formed by bacteria inoculated by direct coating of seed, whereas 78% of nodules were formed by bacteria inoculated in the furrow at seeding. In each case, the other nodules were formed by indigenous strains or by both strains (inoculated and indigenous). These findings indicate a positional advantage of native rhizobia or in-furrow inoculated rhizobia for nodulation in peanut.

摘要

根瘤菌在植物根部接种的成功往往受到多种因素的限制,包括环境条件、接种的感染性细胞数量、竞争性土著(本地)根瘤菌的存在以及接种方法。人们已经采取了许多方法来解决土壤中存在的适应性根瘤菌种群对接种剂的竞争问题,但迄今为止尚未找到令人满意的解决方案。我们使用抗生素抗性和分子图谱作为工具,来寻找一种可靠且准确的方法,用于检测引入的慢生根瘤菌菌株与阿根廷花生结瘤的土著根瘤菌菌株之间的竞争力。利用在无菌蛭石中建立根瘤菌种群的实验室模型,评估了根瘤菌土壤种群在结瘤方面的位置优势。我们观察到,在蛭石中建立的菌株每株植物的根瘤数量和根瘤占有率有所增加。在田间试验中,通过直接包衣种子接种的细菌形成的根瘤仅占总根瘤数的9%,而在播种时沟施接种的细菌形成的根瘤占78%。在每种情况下,其他根瘤由土著菌株或两种菌株(接种菌株和土著菌株)共同形成。这些发现表明,土著根瘤菌或沟施接种的根瘤菌在花生结瘤方面具有位置优势。

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本文引用的文献

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