The industrial extraction of Y and lanthanides (hereafter defined as Rare Earth Elements, REE) often requires the achievement of leaching procedures removing these metals from primary rocks and their transfer in aqueous leachates or incorporated in newly forming soluble solids. These procedures are the most dangerous to the environment in relation to the composition of leachates. Hence, the recognition of natural settings where these processes currently occur, represents a worthy challenge for learning how to carry out similar industrial procedures under natural and more eco-friendly conditions. Accordingly, the REE distribution was studied in the brine of Dead Sea, a terminal evaporating basin where brines dissolve atmospheric fallout particles and crystallise halite. Our results indicate that the shale-like fractionation of shale-normalised REE patterns in brines, inherited during the dissolution of atmospheric fallout, changes because of the halite crystallisation. This process leads to crystallising halite mainly enriched in elements from Sm to Ho (medium REE, MREE) and coexisting mother brines enriched in La and some other light REE (LREE). We suggest that the dissolution of atmospheric dust in brines corresponds to the REE extraction from primary silicate rocks, whereas halite crystallisation represents the REE transfer into a secondary more soluble deposit with reduced environmental health outcomes.

Censi, P., Sirota, I., Zuddas, P., Lensky, N.G., Crouvi, O., Cangemi, M., et al. (2023). Rare earths release from dissolving atmospheric dust and their accumulation into crystallising halite. The dead-sea example. SCIENCE OF THE TOTAL ENVIRONMENT, 875 [10.1016/j.scitotenv.2023.162682].

Rare earths release from dissolving atmospheric dust and their accumulation into crystallising halite. The dead-sea example

Censi, P
Writing – Original Draft Preparation
;
Zuddas, P
Writing – Review & Editing
;
Cangemi, M;Piazzese, D
2023-06-01

Abstract

The industrial extraction of Y and lanthanides (hereafter defined as Rare Earth Elements, REE) often requires the achievement of leaching procedures removing these metals from primary rocks and their transfer in aqueous leachates or incorporated in newly forming soluble solids. These procedures are the most dangerous to the environment in relation to the composition of leachates. Hence, the recognition of natural settings where these processes currently occur, represents a worthy challenge for learning how to carry out similar industrial procedures under natural and more eco-friendly conditions. Accordingly, the REE distribution was studied in the brine of Dead Sea, a terminal evaporating basin where brines dissolve atmospheric fallout particles and crystallise halite. Our results indicate that the shale-like fractionation of shale-normalised REE patterns in brines, inherited during the dissolution of atmospheric fallout, changes because of the halite crystallisation. This process leads to crystallising halite mainly enriched in elements from Sm to Ho (medium REE, MREE) and coexisting mother brines enriched in La and some other light REE (LREE). We suggest that the dissolution of atmospheric dust in brines corresponds to the REE extraction from primary silicate rocks, whereas halite crystallisation represents the REE transfer into a secondary more soluble deposit with reduced environmental health outcomes.
1-giu-2023
Censi, P., Sirota, I., Zuddas, P., Lensky, N.G., Crouvi, O., Cangemi, M., et al. (2023). Rare earths release from dissolving atmospheric dust and their accumulation into crystallising halite. The dead-sea example. SCIENCE OF THE TOTAL ENVIRONMENT, 875 [10.1016/j.scitotenv.2023.162682].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/583852
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