Mineralogy, geochemistry and toxicity of size-segregated respirable deposited dust in underground coal mines.

• Respirable fraction of dust deposited inside coal mines was extracted and analysed • Respirable coal dust is enriched in minerals related to parent coal geochemistry • Deposited coal mine dust can be used as a proxy for the geochemistry of PM10 • Fe, Si, Mn, Ba and particle size of coal dust are highly correlated with toxicity We focus on a comparison of the geochemistry and mineralogy patterns found in coal, deposited dust (DD), respirable deposited dust (RDD) and inhalable suspended dust (PM10) from a number of underground mines located in China, with an emphasis on potential occupational health relevance. After obtaining the RDD from DD, a toxicological analysis (oxidative potential, OP) was carried out and compared with their geochemical patterns. The results demonstrate: i) a dependence of RDD/DD on the moisture content for high rank coals that does not exist for low rank coals; ii) RDD enrichment in a number of minerals and/or elements related to the parent coal, the wear on mining machinery, lime gunited walls and acid mine drainage; and iii) the geochemical patterns of RDD obtained from DD can be compared with PM10 with relatively good agreement, demonstrating that the characterization of DD and RDD can be used as a proxy to help evaluate the geochemical patterns of suspended PM10. With regards to the toxicological properties of RDD, the Fe content and other by-products of pyrite oxidation, as well as that of anatase, along with Si, Mn and Ba, and particle size (among others), were highly correlated with Ascorbic Acid and/or Glutathione OP. [ABSTRACT FROM AUTHOR]