Abundant water-soluble calcium coatings on fine Asian dust particles

Abstract

Abstract. The dissolution behavior of atmospheric calcium (Ca) mineral dust released from arid regions and their climate impacts via buffering effects are highly dependent on their size-resolved mineralogical composition. Due to the inherent complexity of mineral dust, tracing the chemical forms and mixing states of Ca minerals at single-particle level remains challenging. In this study, an automated microanalysis technique was employed to characterize the physicochemical properties of 43,990 individual mineral dust particles generated by saltation-sandblasting processes in two typical Asian dust source regions, along with their residual 42,306 particles after water dialysis. Both the total dust and the Ca-containing particles exhibited a modal peak in the submicron size range, before and after dialysis. After dialysis, 56.9 % to 88.2 % (by number) of the calcium-containing dust particles lost their soluble calcium components. These water-soluble constituents accounted for 19.6–41.9 % of the mass of calcium-containing particles in both the Taklimakan and Gobi deserts. In addition, more than 73.0 % of Ca-O-rich and Ca-S-containing particles occurred as surface coatings on other minerals and were effectively removed by water dialysis. The abundance and mixing state of water-soluble calcium-containing particles in mineral dust emitted from Asian dust source regions provide realistic constraints for assessing their role in enhancing atmospheric acid neutralization and mitigating ocean acidification.

Affiliated Institutions

• Institute of Earth Environment CN
• Chinese Academy of Sciences CN
• Nanchang University CN
• Institute of Atmospheric Physics CN
• Prefectural University of Kumamoto JP

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