粪便废水生物膜中大肠菌群的组成

IF 0.3 Q4 ECOLOGY
L. V. Pilip, N. V. Syrchina, T. Ya. Ashikhmina, E. P. Kolevatykh
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引用次数: 0

摘要

的目标。研究粪水生物膜微生物群落中大肠菌群的种内多样性,评价不同化学试剂对大肠杆菌属细菌组成及部分特性的影响。材料和方法。在实验室条件下获得了ME生物膜,并对其微生物组成进行了定性和定量研究。采用H2SO4和NaOCl溶液进入ME。采用营养培养基接种法测定菌群组成。结果。ME生物膜中的优势微生物群为梭状芽孢杆菌属、拟杆菌属和埃希氏菌属专性和兼性厌氧菌。大肠杆菌属以大肠杆菌、弗格森杆菌、hermannii (hermannii大西洋杆菌)、bltae (Shimwellia bltae)、灭活大肠杆菌和易感大肠杆菌为代表,具有不同的生化活性。弗格森杆菌、失活大肠杆菌和易感大肠杆菌的定植潜力增加,这有助于细菌群落中细菌群体的存活。埃希氏菌属的细菌能够与兼性厌氧变形杆菌和粘红酵母形成关联。在pH为5.5±0.1时,大肠杆菌对中和和消除ME (H2SO4)气味的化学试剂的作用具有显著的抗性;在NaOCl中引入了12.5 mg/l的活性氯。ME治疗并没有导致大肠杆菌完全死亡。然而,它使浓度降低了2个数量级。使用这些化学物质可以减少30-40%的气体释放总量,并减少令人不快的u的强度。所得结果可以在生物制品配方的开发中找到实际应用,以减少气味和提高合理处理动物副产品的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coliform bacteria as components in biofilm of manure effluents
Aim . To study the intraspecific diversity of coliform bacteria represented in microbial communities in biofilms of manure effluents (ME), as well as to evaluate the effect of chemical reagents on the composition of microbial consortia and some properties of bacteria of the genus Escherichia. Material and Methods . Biofilms of ME were obtained under laboratory conditions and their qualitative and quantitative microbial composition studied. H2SO4 and NaOCl solutions were used for entry into ME. The composition of the microbiota was determined by the method of inoculation on nutrient media. Results . The dominant groups of microorganisms in biofilms of ME were obligate and facultative anaerobic bacteria of the genera Clostridium, Bacteroides and Escherichia. The genus Escherichia is represented by E. coli, E. fergusonii, E. hermannii (Atlantibacter hermannii), E. blattae (Shimwellia blattae), E. coli inactive and E. vulneris with varying biochemical activity. Escherichia fergusonii, Escherichia coli inactive and Escherichia vulneris have increased colonization potential, which contributes to the survival of bacterial populations in the bacterial consortium. Bacteria of the genus Escherichia are able to form associations with the facultative anaerobe Proteus vulgaris and the yeast Rhodotorula glutinis. The significant resistance of E. coli to the effects of chemical reagents used to neutralize and eliminate the smell of ME (H2SO4 to pH 5.5±0.1; introduction of 12.5 mg/l of active chlorine in NaOCl) was revealed. ME treatment did not lead to the complete death of E. coli. However, it reduced the concentration by 2 orders of magnitude. The use of these chemicals can reduce the total volume of gases released by 30–40% and reduce the intensity of unpleasant u. Conclusions . The results obtained can find practical application in the development of formulations of biological products to reduce odour and improve the efficiency of rational disposal of animal by-products.
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来源期刊
CiteScore
0.80
自引率
50.00%
发文量
73
审稿时长
8 weeks
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