人工湿地系统处理污水中微生物的宏基因组学研究

B. Usharani
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引用次数: 10

摘要

人工湿地是一种环境友好、经济有效的污水处理技术。本研究主要研究了植草处理重金属污染污水的人工湿地系统的微生物群落特征。出水特性符合内河灌溉排放标准。人工湿地中的微生物对系统去除有机物、营养物、悬浮物和重金属的效率起着关键作用。为了使活性菌暴露在石灰光照下,从芦苇床中收集了具有代表性的土壤样品,并对其进行了微生物群落分析。对细菌和真菌菌群进行了宏基因组研究。结果表明,细菌和真菌分别以变形菌门(38.27%)和子囊菌门(77.47%)占主导地位。然而,在菌种水平上,除假单胞菌外,大部分仍未分类,但在真菌领域,物种水平上仅3.1%仍未分类。细菌在废水处理中的作用在以往的报道中得到了例证,但真菌在废水系统中的作用有待探索。然而,研究结果表明,鉴定出的微生物可能确实在废水处理中发挥了至关重要的作用。可用于鉴定细菌种类的数据库仍有很大一部分未被发现,需要升级。下一代测序技术是微生物生态学的一项高端技术,可对环境样品中的整个群落进行解码,但缺乏数据库限制了其鉴定。必须改进数据库的缺乏情况。
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Metagenomics Study of the Microbes in Constructed Wetland System Treating Sewage
Constructed wetlands are ecofriendly, cost effective technology involved in treatment of wastewaters. The goal of this study is focused on characterization of microbial community existing in constructed wetland system planted withCyperusalternifoliustreating sewage contaminated with heavy metals. The characteristics of effluent met the standards of discharge for inland use and irrigation. Microbes in constructed wetland apparently play a pivotal role in the efficiency of system for removal of organics, nutrients, suspended solids and heavy metal. To expose the active players in the lime light, a representative soil sample from the reed bed was collected and characterized for microbial community analysis. Metagenomic studies of the bacterial and fungal flora were identified. Results revealed that the phylum Proteobacteria (38.27%) and Ascomycota (77.47%) dominated in the bacterial and fungal kingdom respectively. However, in the bacterial kingdom at species level major portion remain unclassified exceptPseudomonasalcaligenesbut in the fungal kingdom at species level only 3.1% remain unclassified. The role of bacteria in wastewater treatment is exemplified in previous reports but the role of fungi in wastewater system needs exploration. However, the findings reveal that the identified microbes might have definitely played a vital role in wastewater treatment. The database available for the identification of bacterial species remain undiscovered for a major portion and requires up gradation. Next generation sequence being a high end technology in microbial ecology decodes the entire community in environmental samples but lack of database limits the identification. Implementation of improvements in the paucity of data bases is essential.
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International Letters of Natural Sciences
International Letters of Natural Sciences MULTIDISCIPLINARY SCIENCES-
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