Antimony (Sb) and arsenic (As) are two hazardous metalloid elements, and the
biogeochemical cycle of Sb and As can be better understood by studying plant rhizosphere …

Mining and smelting activities are the major sources of antimony (Sb) contamination. The
soil around Xikuangshan (XKS), one of the largest Sb mines in the world, has been …

The reclamation of mine dump is largely centered on the role played by microorganisms.
However, the succession of microbial community structure and function in ecological …

To assess the impact of antimony (Sb) on microbial community structure, 12 samples were
taken from an Sb tailings pile in Guizhou Province, Southwest China. All 12 samples …

Microbes have great potential for arsenic (As) and antimony (Sb) bioremediation in heavily
contaminated soil because they have the ability to biotransform As and Sb to species that …

To unravel the ecological function played by pioneer plants in the practical restoration of
mine tailings, it is vital to explore changes of soil characteristics and microbial communities …

To uncover the role played by pioneer plants in the natural succession of vegetation on
heavy-metal mine tailings, it is important to explore the sensitive indicator of rhizosphere …

Investigations of the impact of heavy metals on microbial community structure are crucial for
bioremediation of the contaminated sites. To this end, high-throughput 16S rRNA …

Miscanthus is a common pioneer plant with abundant genetic variation in abandoned mines
in southern China. However, the extent to which genetic differentiation among species …

Antimony (Sb) mining often causes severe Sb pollution and associate arsenic (As)
compound contamination. To further understand the interaction mechanism among soil …