硫酸盐还原菌在环境和工业中的积极和消极方面

Q4 Agricultural and Biological Sciences
A. Luptáková, E. Mačingová, V. Harbuláková
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引用次数: 2

摘要

提交的工作主要集中在硫酸盐还原菌代谢的两个方面:金属生物沉淀和混凝土生物降解。硫酸盐还原菌(SRB)将金属与细菌产生的硫化氢进行生物沉淀,代表了SRB在环境中存在的积极影响。它允许在从工业废水中去除金属的领域进行工业开发。所述方法涉及主要阶段,如:硫化氢细菌生产、通过生物生产的硫化氢沉淀金属、金属硫化物分离、通过1M NaOH设定先前步骤的滤液的pH值以及金属氢氧化物分离。第一阶段,即硫化氢细菌生产的基础是SRB的培养。在实验室条件下,乳酸钠是细菌生长的能量底物。它的价格对于在实践中的应用来说是不经济的,需要研究替代品。因此,研究了利用乳酸钙、甘油和乳清等高能底物培养硫酸盐还原菌的方法。实验研究证实,所有选择的底物都是乳酸钠还原细菌硫酸盐的合适替代底物。就细菌硫酸盐还原的效率而言,乳酸钙是最好的。混凝土的生物降解表现出SRB在环境中存在的负面影响。本研究旨在模拟废水、酸性矿山排水、营养介质和蒸馏水环境中硫氧化菌属氧化硫酸硫杆菌和硫还原菌属脱硫弧菌同时影响下混凝土样品的生物降解。对混凝土样品表面结构变化的观察证实,在酸性矿山排水应用的情况下,生物降解影响最大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Positive and negative aspects of suplhate-reducing bacteria in environment and industry
The submitted work is oriented on the study of two aspects of the sulphate-reducing bacteria metabolism: the metals bioprecipitation and the concrete biodeterioration. The bioprecipitation of metals with the bacterially produced hydrogen sulphide by sulphate-reducing bacteria (SRB) represents the positive effect of the SRB existence in the environment. It allows the industrial exploitation in the area of the removal metals from industrial wastewaters. Referred method involves principal stages such as: hydrogen sulphide bacterial production, metals precipitation by biologically produced hydrogen sulphide, metal sulphides separation, setting pH of the filtrate from previous steps by 1M NaOH and metal hydroxides separation. The basis of the first stage i.e. the hydrogen sulphide bacterial production is the cultivation of SRB. In the laboratory conditions the sodium lactate is the energetic substrate for the growth of bacteria. Its price is not economic for the application in the practice and is needed investigate the alternative substitutes. Therefore was studied the cultivation of sulphate-reducing bacteria to using the selected energetic substrates such as: calcium lactate, glycerol and whey. Experimental studies confirm that all chosen substrates are suitable alternative substrates of sodium lactate for the bacterial sulphate-reduction. In the regard to the efficiency of bacterial sulphate reduction the calcium lactate is the best. The biodeterioration of the concrete presents the negative effect of the SRB existence in the environment. The research was oriented on the simulation of the biodeterioration of concrete samples under the simultaneous influence of the sulphur-oxidising bacteria genera Acidithiobacillus thiooxidans and sulphatereducing bacteria genera Desulfovibrio in the environs of the waste water, the acid mine drainage, the nutrient medium and the distilled water. The observation of the surface structure changes of concrete samples confirms the highest biodeterioration influences in the case of the acid mine drainage application.
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来源期刊
Nova Biotechnologica et Chimica
Nova Biotechnologica et Chimica Agricultural and Biological Sciences-Food Science
CiteScore
0.60
自引率
0.00%
发文量
47
审稿时长
24 weeks
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