Abstract
Antimony (Sb) is a major pollutant that poses a serious threat to the environment in the mining and processing of nonferrous metals, coexisting with sulfide and oxide of arsenic (As). Microorganisms play an important role in the migration, transformation, and repair of metals in soil. The ecological effects of bioavailable Sb and As on the microbial community in antimony mining areas(mining and smelting areas)are still poorly understood. The Wenzel method and high-throughput 16S rDNA amplicon were used to characterize soil pollution characteristics in different functional areas, and the relationship between the bacterial community and bioavailable concentrations have been investigated comprehensively. The results showed that: Chemical speciation of Sb and As were amorphous, and poorly crystalline hydrous oxides of Fe and Al (F3) > well-crystallized hydrous oxides of Fe and Al (F4) > residual phases (F5) > specifically adsorbed (F2) > non-specifically adsorbed (F1). According to the estimation of the potential ecological risk index (RI) and geo-accumulation index (Igeo), the Sb pollution degree was: smelting area > mining area > contrast area, in which the smelting area showed serious pollution, and the mining area showed moderate to severe pollution. The As pollution degree was: mining area > smelting area > contrast area, in which the mining area and smelting area showed moderate to severe pollution. High-throughput 16S rDNA amplicon showed that Proteobacteria was the most abundant phylum in mining and smelting areas; Kaistobacter, Pseudomonas, Sphingomonas, and Lysobacter were the most abundant microbial genera; Geobacter and Luteolibacter had a high LDA score in mining areas; and Thiobacillus had a high LDA score in antimony-contaminated areas. Spearman correlation analysis, variation partitioning analysis (VPA), and random forest (RF) analysis showed that Sb, As, bioavailable antimony [Sb (Bio)], and bioavailable arsenic [As (Bio)]were the main factors affecting the microbial community structure in different functional areas of antimony ore. Redundancy analysis (RDA) indicated that Sb and its bioavailable concentrations showed uniformly negative associations with the relative abundance of bacteria Nitrospirae and showed a significant positive correlation with Thiobacillus (P<0.05). The in-depth research on the ecological effects of bioavailable Sb and As on the bacterial community provides references and new perspectives for environmental monitoring and management.
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