Journal
SCIENCE OF THE TOTAL ENVIRONMENT
Volume 660, Issue -, Pages 697-704Publisher
ELSEVIER
DOI: 10.1016/j.scitotenv.2019.01.076
Keywords
REE speciation; Size-fraction distribution; Mineral and organic colloids; Particles; Fractionation
Categories
Funding
- National Key R&D Program of China [2018YFD0800700]
- National Natural Science Foundation of China [41771343, 21607178, 21850410450]
- 111 Project [B18060]
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Rare-earth elements (REEs) are known to be a group of emerging pollutants, but the geochemistry of REEs in river waters in ion-adsorption rare-earth mining areas has attracted little attention. In this study, samples of the <0.45 mu m and 0.22-0.45 mu m (large colloids) water fractions and acid-soluble particles (ASPs) were collected from a river impacted by ion-adsorption rare-earth mining activities. The roles of ligand complexation, colloid binding, and particle adsorption in REE transport and distribution were also investigated. Results showed higher concentrations of REEs in the <0.45 mu m fraction of all sampling sites (3.30 x 10(-2) -9.42 mu M) compared with that in the control site (1.21 x 10(-3) mu M); this fraction was also characterized by middle REE enrichment at upstream sites, where REEs are mainly controlled by the <0.22 mu m fraction (55%-94% of the species found in the <0.45 mu m fraction) and ligand complexation (REE3+, REE(SO4)(+), and REE(CO3)(+)). At downstream sites, heavy REE enrichment was observed, which was largely determined by binding to large colloids (68%-83% of the species found in the <0.45 mu m fraction) and adsorption to particles (>90% of the acidified bulk water). Furthermore, REE patterns indicated that the REE-associated large colloids were mineral or mixed mineral-organic matter (OM) at upstream sites and OM-dominated or functionalized at downstream sites. The particles were mainly coated by inorganic matter substances (e.g., Fe/Al oxyhydroxides). In summary, our results reveal that REE patterns provide a useful tool to study the fate of REEs in ion-adsorption rare-earth mining catchments. (C) 2019 Elsevier B.V. All rights reserved.
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