Selenium resistant bacteria enhance Zea mays growth parameters under selenium stress

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Abstract

Heavy metals normally accumulate in the environment and as a result they create various problems to life, especially to plants. In this study two selenium resistant bacteria, Bacillus pumils strain CrK08 and Bacillus licheniformis strain AsK03 were checked for their effect in enhancing growth of Zea mays in the clay pots experiment, under selenium stress. Both strains significantly promoted root length in control and in autoclaved soil. Number of roots from plant base was reduced in control and autoclave soil respectively. Moreover, the fresh weight and dry weight were reduced in control and autoclave soil plants. In selenium treated plants, fresh weight was high than in the non-treated plants. However, Strains also produced an increase in soluble protein content. Indole acetic acid (IAA) content was enhanced to and, while acid phosphatase activity was significantly lower in inoculated plants than the controls and peroxidase content reduced. Selenium content in control plants was high as compared to treated plants. So, these strains promote plant growth under Se stress (17 mg kg-1) in soil.
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耐硒菌对硒胁迫下玉米的生长参数有促进作用
重金属通常会在环境中积累,从而给生命,尤其是植物造成各种问题。本研究通过泥罐试验,考察了两种抗硒菌——玉米芽孢杆菌CrK08和地衣芽孢杆菌AsK03在硒胁迫下对玉米生长的促进作用。两种菌株在对照和高压土壤中均显著提高了根长。在对照土壤和高压灭菌土壤中,植物基部的根系数量分别减少。此外,对照和蒸培土壤植株的鲜重和干重均有所降低。硒处理植株鲜重显著高于未处理植株。然而,菌株也产生可溶性蛋白含量增加。接种植株的吲哚乙酸(IAA)含量显著高于对照,酸性磷酸酶活性显著低于对照,过氧化物酶含量显著降低。对照植株的硒含量高于处理植株。因此,这些菌株在硒胁迫(17 mg kg-1)下促进了土壤中植物的生长。
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