Effects of heavy metals on bacterial community surrounding Bijiashan mining area located in northwest China

Heavy metal (HM) pollution is a severe and common environmental problem in mining area soil. It is imperative to understand the micro ecological characteristics of mining area soil for HM contaminated soil remediation. This study described the effects of HM pollution level and soil physical and chemical parameters on microbial diversity. In this study, high-throughput sequencing technology was used to study the effects of HM pollution on the diversity and composition of the soil microbial community. The soil groups were barren, exhibiting alkaline pH, low total nitrogen (TN), and total potassium (TK) according to soil fertility standard. Compared with the control group, there was severe multiple HM pollution in the other five groups, including lead (Pb), cadmium (Cd), zinc (Zn), and copper (Cu). The dominant phyla accounting for more than 1% of the overall community in all soil groups were Proteobacteria (34.432 +/- 7.478%), Actinobacteria (22.947 +/- 4.297%), Acidobacteria (10.47 +/- 2.439%), Chloroflexi (7.89 +/- 2.980%), Planctomycetota (5.993 +/- 1.558%), Bacteroidota (4.275 +/- 1.980%), Cyanobacteria (3.478 +/- 2.196%), Myxococcus (2.888 +/- 0.822%), Gemmatimonadota (2.448 +/- 0.447%), Firmicutes (1.193 +/- 0.634%), Patescibacteria (0.435 +/- 0.813%), and Nitrospirota (0.612 +/- 0.468%). Proteobacteria and Actinobacteria were predominant at the phylum level, which showed a certain tolerance to HMs. In addition, redundancy analysis (RDA) results showed that Pb, Cu, Zn, and Cd were strongly correlated with each other (P < 0.01). Other nutrient elements (except for TK) were significantly positively correlated with each other. Cu and nutrient element TK had an important impact on bacterial community structure. Therefore, bacteria with the function of HM tolerance and bioremediation in extreme environments should be researched, which provides a foundation for future ecological remediation of contaminated soil by using microbial remediation technology.