The mobility of thorium, uranium and rare earth elements from Mid Ordovician black shales to acid waters and its removal by goethite and schwertmannite

Previous studies have addressed the occurrence of Acid Rock Drainage (ARD) affecting La Silva stream due to the generation of large dumps of Middle Ordovician black shales during the construction of a highway close to El Bierzo (León, Spain). This ARD was characterized by sulphated acid waters with...

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Published in:Chemosphere (Oxford) 2022-11, Vol.307, p.135907-135907, Article 135907
Main Authors: Santofimia, Esther, González, Francisco Javier, Rincón-Tomás, Blanca, López-Pamo, Enrique, Marino, Egidio, Reyes, Jesús, Bellido, Eva
Format: Article
Language:English
Subjects:
Acid rock drainage
adsorption
Black shales
circular economy
Critical raw materials
drainage
Goethite
Ordovician period
Schwertmannite
Spain
stream channels
thorium
U and REY
uranium
yttrium
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Summary:Previous studies have addressed the occurrence of Acid Rock Drainage (ARD) affecting La Silva stream due to the generation of large dumps of Middle Ordovician black shales during the construction of a highway close to El Bierzo (León, Spain). This ARD was characterized by sulphated acid waters with high concentration of heavy metals and anomalies in dissolved thorium (Th) and uranium (U). In the present study, we analyse in depth black shales and water, streambed sediments and precipitates of La Silva stream and its tributaries using different petrographic, mineralogical and geochemical approaches. Black shales, with average Th and U contents of 20 and 3 μg/g respectively contain disseminated detritic micro-grains of high weathering-resistant minerals, such as monazite and xenotime, that present smaller amounts of yttrium and rare earth elements (REY) and other elements as Ca, U, Th, Si and F. Results of the affected waters by ARD show an enrichment in dissolved Th, U and REY of several orders of magnitude with respect to natural waters. Sampled precipitates were mainly schwertmannite (Fe8O8(OH)8-2x (SO4)xO16•nH2O) and goethite (α–Fe3+O(OH)) that showed an enrichment of Th (up to 798 μg/g) and REY, due to the presence of dissolved anionic species (e.g. Th(SO4)32−, REY(SO4)32−) that enables their adsorption. Furthermore, these black shales show a clear enrichment in REE (Rare Earth Elements) with respect to NASC (North American Shales Composite) normalized REE patterns. Likewise, normalized REE patterns of stream waters and precipitates clearly show convex curvatures in middle-REE (MREE) with respect to light- and something less than heavy-REE, indicating the trend towards MREE enrichment. These findings are essential to evaluate the impact of ARD of Mid Ordovician shales in the surrounding environment, and to start considering these site as potential source of REE and critical raw materials, activating a Circular Economy. [Display omitted] •Th, U and REY in rock, Acid Rock Drainage (ARD), precipitates and fluvial sediments.•The shales contained disseminated detritic micro-grains of monazite and xenotime with smaller amounts of Th, U and REY.•The oxidative dissolution of pyrite from Middle Ordovician shales generated ARD.•A low pH and sulphated waters, Th, U and REY can be dissolved as sulphated ionic complexes.•Th, heavy metals and REY retention in schwertmannite and goethite.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2022.135907