首页|Exploring the characteristics of microbial community and enzyme activity in the aged refuse landfill environment of Taiyuan,China
Exploring the characteristics of microbial community and enzyme activity in the aged refuse landfill environment of Taiyuan,China
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NETL
NSTL
万方数据
Municipal solid waste landfill is the main disposal option for domestic garbage,in which microbial activities play an important role.However,despite the widespread practice of landfilling,the metagenomic microbial profiles of landfill sites remain poorly characterized.In this study,we used a combination of physicochemical analysis,ultraviolet-visible spectrophotometry,and high-throughput Illumina shotgun sequencing to systematically investigate the changes in soil enzyme activities,microbial community structure,and functional attributes in aged refuse collected from the Xingou Municipal Solid Waste Landfill in Taiyuan,China,with ordinary topsoil from an area within 5 km of the landfill as control soil.Except for neutral phosphatase(P=0.065),the activities of urease,laccase,dehydrogenase,sucrase,neutral protease,and β-glucosidase were all significantly reduced(P<0.05)in the aged refuse compared with the control soil.Contrastingly,catalase activity was found to be significantly elevated in the aged refuse.Compared with the control soil,aged refuse was characterized by higher richness and diversity of microbial communities,as reflected by the higher values of community richness estimators(Chao 1 and ACE)and diversity indices(Shannon and Simpson).In total,186 phyla,4 354 genera,and 34 459 species were identified,with 132 phyla,1 914 genera,and 7 369 species showing significantly different abundances between the aged refuse and the control soil.Actinobacteria and Acidobacteria were identified as the dominant phyla in the control soil,whereas Proteobacteria,Euryarchaeota(archaea),and Firmicutes were found to predominate in the aged refuse.Notably,Euryarchaeota and Methanoculleus were the major taxa detected in the aged refuse,but were almost completely absent in the control soil.Xenobiotic biodegradation and bacterial chemotaxis were the main functions of the microflora in the aged refuse,whereas the carbohydrate,amino acid,energy,and lipid metabolism pathways were significantly enriched in the control soil.Moreover,the aged refuse contained a high abundance of genes involved in quorum sensing.Our findings in this study revealed close associations between enzyme activities and variations in the microbial community structure and genes that were actively involved in biodegradation activities at landfill sites.It was found that the landfill environment was characterized by a more complex spectrum of microbial activities than expected.Further investigations are needed to gain a more comprehensive understanding of the microbial community structure and functional attributes as well as their potential influencing factors in the landfill environment.
NETL
NSTL
万方数据
