贝吉阿托菌与水稻植株的相互作用:水稻根际中硫化氢的解毒。
Interaction of beggiatoa and rice plant: detoxification of hydrogen sulfide in the rice rhizosphere.
出版信息
Science. 1977 Jan 14;195(4274):179-80. doi: 10.1126/science.195.4274.179.
Beggiatoa was obtained from six habitats, including four water-saturated soils from rice fields. The isolate of Beggiatoa from Bernard clay, when reinoculated into soil treatments from pure culture, significantly reduced hydrogen sulfide levels in soils and increased oxygen release from rice plants. Rice plants significantly increased Beggiatoa survival in flooded soils. Some hydrogen sulfide was necessary for survival of the Bernard clay isolate; high concentrations of hydrogen sulfide killed the Bernard clay isolate but were tolerated by a Crowley silt loam isolate from Eagle Lake, Texas. The results suggest that Beggiatoa may be an element of wetlands plant ecosystems.
从六个栖息地获得了贝日阿托氏菌,包括来自稻田的四个水饱和土壤。从纯培养物中重新接种到土壤处理中的伯纳德粘土中的贝日阿托氏菌分离物显著降低了土壤中的硫化氢水平,并增加了水稻植株的氧气释放。水稻植株显著增加了淹没土壤中贝日阿托氏菌的存活率。一些硫化氢对于伯纳德粘土分离物的存活是必要的;高浓度的硫化氢杀死了伯纳德粘土分离物,但被来自德克萨斯州鹰湖的克劳利粉壤土分离物耐受。结果表明,贝日阿托氏菌可能是湿地植物生态系统的一个组成部分。
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