摘要:Aged refuse is widely considered to have certain soil fertility. 16S rRNA amplicon sequencing is used to investigate the microbial community of aged refuse. The aged refuse is found to contain higher soil fertility elements (total nitrogen, total phosphorus, total potassium, etc.) and higher concentrations of heavy metals (Pb, Cd, Zn, and Hg). Taxonomy based on operational taxonomic units (OTUs) shows that<i> Actinobacteria</i>, <i>Proteobacteria</i>, <i>Chloroflexi</i>, <i>Acidobacteria</i>, and <i>Gemmatimonadetes</i> are the main bacterial phyla in the two soils and there is a palpable difference in the microbial community composition between the two groups of samples. The genera <i>Paramaledivibacter</i>, <i>Limnochorda</i>, <i>Marinobacter</i>, <i>Pseudaminobacter</i>, <i>Kocuria</i>, <i>Bdellovibrio</i>, <i>Halomonas</i>, <i>Gillisia</i>, and <i>Membranicola</i> are enriched in the aged refuse. Functional predictive analysis shows that both the control soil and aged refuse have a high abundance of “carbohydrate metabolism” and “amino acid metabolism”, and show differences in the abundance of several metabolism pathways, such as “xenobiotics biodegradation and metabolism” and “lipid metabolism”. Aged refuse and undisturbed soil show significant differences in alpha diversity and microbial community composition. Multiple environmental factors (Hg, TN, Cr, Cd, etc.) significantly impact microorganisms’ abundance (<i>Marinobacter</i>, <i>Halomonas</i>, <i>Blastococcus</i>, etc.). Our study provides valuable knowledge for the ecological restoration of closed landfills.
