根际细菌
青枯病
短小芽孢杆菌
生物
移植
园艺
枯草芽孢杆菌
接种
假单胞菌
干重
植物
细菌
苗木
根际
遗传学
作者
X Xiang-Zhen,DU Jian-jun,Liao Zong-wen
出处
期刊:Journal of tropical microbiology
[African Journals Online]
日期:2011-01-01
卷期号:7 (1): 3-8
摘要
To study the effect of plant growth-promoting rhizobacteria on tomato bacterial wilt and growth, two PGPR combinations T1 and T2 were prepared based on the resistance relationship of Bacillus mucilaginosus BX-1, Bacillus subtilis BX-2, Bacillus pumilus BX-4 and Pseudomonas fluorescences X-5. Pot experimental results indicated that application of the two combinations could reduce the disease incidence of tomato bacterial wilt, and the bio-control efficacy reached 54.5% and 45.5% respectively on the 40th day after transplanting. The biomass showed that height and fresh weight increased obviously after inoculation, especially for the T2 treatment, and compared to the control, the height, fresh weight, dry weight and fruit number improved 16.38%, 30.91%, 17.85% and 29.17%. Meanwhile, inoculating PGPR combinations could affect soil microbial diversity to some degree, and the soil microbial diversity indexes, i.e. AWCD and Shannon, were greater than control for the samples of 25th and 40th day. In addition, PGPR combinations could also induce tomato systemic resistance and improve the defense-related enzyme activities. The enzyme activities were all higher than control after inoculation for 24h. Keywords: plant growth-promoting rhizobacteria; tomato bacterial wilt; bio-control efficacy; defense-related enzymes; soil microbial diversity
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