土壤因子对链霉菌S506定殖和促生功能的影响

Effect of soil on colonization and growth promotion-function of Streptomyces sp. S506

  • 摘要: 链霉菌S506是从植物根际分离获得的具有促生、防病和降解根系毒素功能的根际微生物, 为了解土壤环境条件对其在根际定殖和功能表达的影响, 以链霉菌S506为试材, 研究了土壤质地、环境温度和土壤湿度对S506在番茄根际土壤定殖及番茄植株生长的影响。结果表明, 适宜链霉菌S506在番茄根际定殖和促生作用发挥的土壤质地为壤土, 其次为砂土和黏土; 试验所设温度梯度中, 利于S506在根际定殖的环境温度为30 ℃, 其次为22.5 ℃和15 ℃, 而利于目的菌株促生功能表达的环境温度则依次为22.5 ℃、30 ℃和15 ℃; 适宜于目的菌株在根际定殖和促生功能发挥的土壤相对湿度为20%、25%, 其次为15%和30%。

     

    Abstract: Isolated Streptomyces sp. S506 from tomato rhyzosphere is one of the beneficial strains which can promote root growth, control soil-borne diseases and attenuate root autotoxicity. In this paper, the effect of soil texture, temperature and moisture on Streptomyces sp.S506 colonization in tomato rhizosphere and growth-promotion effect of Streptomyces sp. S506 on tomato seedling were studied through pot experimentation. The results show that optimum soil texture order for Streptomyces sp. S506 colonization in tomato rhizosphere and the corresponding expression of growth-promotion function is loamy soil, followed by sandy soil and then clay soil. In the tested temperature gradient, the optimum temperature order for Streptomyces sp. S506 colonization is 30 ℃, 22.5 ℃ and the 15 ℃; and that for growth-promotion function expression is 22.5 ℃, 30 ℃ and 15 ℃ respectively. The optimum soil relative moisture order for colonization and growth-promotion function expression of Streptomyces sp. S506 is 20%, 25%, 15% and 30%. This study enhances our knowledge on the role of soil environment on the colonization and function expression of target strains in tomato rhizosphere.

     

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