假单胞菌和芽孢杆菌强效生防促株非生物抗性的体外筛选

G. Praveen Kumar, S. K. Mir, Hassan Ahmed, S. Desai, E. Leo, D. Amalraj, Abdul Rasul
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引用次数: 73

摘要

促进植物生长的根瘤菌(PGPR)是一类具有促进植物生长和生物防治植物病害作用的微生物。由于野外普遍存在的非生物胁迫,这些细菌在实验室和野外条件下的表现不一致。因此,选择对非生物胁迫具有耐受性的菌株将使最终用户受益,因为菌株的成功建立显示了期望的效果。在这项研究中,我们试图分离和鉴定芽孢杆菌和假单胞菌具有耐受性和抑制潜在植物病原真菌生长的能力。菌株在高温(50°C)、盐度(7% NaCl)和干旱(- 1.2 MPa)条件下的筛选结果表明,假单胞菌菌株的耐受性明显低于芽孢杆菌菌株。这背后的原因可能是由分离的芽孢杆菌形成的内生孢子。假单胞菌菌株对干旱的耐受性高于其他两种菌株。3株菌株P8、P20和P21均具有耐盐性和耐温性。菌株P59具有良好的拮抗活性和耐旱性。与假单胞菌菌株相比,芽孢杆菌菌株的拮抗作用也更高。总之,鉴定具有耐受性和其他附加特征的微生物候选菌株将有助于最终用户获得所需的有益效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In Vitro Screening for Abiotic Stress Tolerance in Potent Biocontrol and Plant Growth Promoting Strains of Pseudomonas and Bacillus spp.
Plant growth promoting rhizobacteria (PGPR) has been identified as a group of microbes that are used for plant growth enhancement and biocontrol for management of plant diseases. The inconsistency in performance of these bacteria from laboratory to field conditions is compounded due to the prevailing abiotic stresses in the field. Therefore, selection of bacterial strains with tolerance to abiotic stresses would benefit the end-user by successful establishment of the strain for showing desired effects. In this study we attempted to isolate and identify strains of Bacillus and Pseudomonas spp. with stress tolerance and proven ability to inhibit the growth of potential phytopathogenic fungi. Screening of bacterial strains for high temperature (50°C), salinity (7% NaCl), and drought (−1.2 MPa) showed that stress tolerance was pronounced less in Pseudomonas isolates than in Bacillus strains. The reason behind this could be the formation of endospores by Bacillus isolates. Tolerance to drought was high in Pseudomonas strains than the other two stresses. Three strains, P8, P20 and P21 showed both salinity and temperature tolerance. P59 strain possessed promising antagonistic activity and drought tolerance. The magnitude of antagonism shown by Bacillus isolates was also higher when compared to Pseudomonas strains. To conclude, identification of microbial candidate strains with stress tolerance and other added characteristic features would help the end-user obtain the desired beneficial effects.
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