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Rhizoplane microbiota of superior wheat varieties possess enhanced plant growth-promoting abilities

Rhizoplane microbiota of superior wheat varieties possess enhanced plant growth-promoting abilities
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摘要 BACKGROUND: Microbes affect the growth of plants. In this study, the diversity and plant growth-supporting activities of wheat rhizospheric bacteria were examined. METHODS: Sampling was performed thrice at different phases of plant growth. Microbes associated with the rhizoplane of three wheat varieties (Seher, Lasani, and Faisalabad) were cultured and assessed for their plant growth-promoting abilities based on auxin production, hydrogen cyanide production, phosphate solubilization, and nitrogen fixation. RESULTS: Bacterial load (CFU/mL) declined, and the succession of bacterial diversity occurred as the plants aged. Most auxin-producing bacteria and the highest concentrations of auxin (77 ~tg/mL) were observed during the second sampling point at the filleting stage. The Seher variety harbored the most auxin-producing as well as phosphate-solubilizing bacteria. Most of the bacteria belonged to Bacillus and Pseudomonas. Planomicrobium, Serratia, Rhizobium, Brevundimonas, Stenotropho- monas, and Exiguobacterium sp. were also found. CONCLUSIONS: These results suggest that the rhizoplane microbiota associated with higher-yield plant varieties have better plant growth-promoting abilities as compared to the microbiota associated with lower-yield plant varieties. BACKGROUND: Microbes affect the growth of plants. In this study, the diversity and plant growth-supporting activities of wheat rhizospheric bacteria were examined. METHODS: Sampling was performed thrice at different phases of plant growth. Microbes associated with the rhizoplane of three wheat varieties (Seher, Lasani, and Faisalabad) were cultured and assessed for their plant growth-promoting abilities based on auxin production, hydrogen cyanide production, phosphate solubilization, and nitrogen fixation. RESULTS: Bacterial load (CFU/mL) declined, and the succession of bacterial diversity occurred as the plants aged. Most auxin-producing bacteria and the highest concentrations of auxin (77 ~tg/mL) were observed during the second sampling point at the filleting stage. The Seher variety harbored the most auxin-producing as well as phosphate-solubilizing bacteria. Most of the bacteria belonged to Bacillus and Pseudomonas. Planomicrobium, Serratia, Rhizobium, Brevundimonas, Stenotropho- monas, and Exiguobacterium sp. were also found. CONCLUSIONS: These results suggest that the rhizoplane microbiota associated with higher-yield plant varieties have better plant growth-promoting abilities as compared to the microbiota associated with lower-yield plant varieties.
出处 《Frontiers in Biology》 CAS CSCD 2016年第6期481-487,共7页 生物学前沿(英文版)
关键词 wheat MICROBIOTA RHIZOPLANE AUXIN phosphate solubilization wheat, microbiota, rhizoplane, auxin, phosphate solubilization
分类号 Q [生物学]
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