Arsenic mobility controlled by solid calcium arsenates: A case study in Mexico showcasing a potentially widespread environmental problem

An As-contaminated perched aquifer under an urban area affected by mining was studied over a year to determine the contamination source species and the mechanism of As mobilization. Results show that the dissolution of calcium arsenates in residues disposed on an inactive smelter has caused high levels of As pollution in the adjoining downgradient 6-km perched aquifer, reaching up to 158 mg/L of dissolved As, and releasing a total of ca. 7.5 tons of As in a year. Furthermore, free calcium ion availability was found to control As mobility in the aquifer through the diagenetic precipitation of calcium arsenates (Ca 5H2(AsO4)4·cH2O) preventing further mobilization of As. Results shown here represent a model for understanding a highly underreported mechanism of retention of arsenate species likely to dominate in calcium-rich environments, such as those in calcareous sediments and soils, where the commonly reported mechanism of adsorption to iron(III) oxyhydroxides is not the dominant process. © 2013 Elsevier Ltd. All rights reserved.

Arsenate dissolution; Arsenate retention; Arsenic mobility; Arsenic pollution; Calcium arsenates Arsenate retention; Arsenic mobility; Arsenic pollution; Calcareous sediments; Contamination sources; Diagenetics; Dominant process; Environmental problems; Free calciums; Me-xico; Oxyhydroxides; Urban areas; Aquifers; Arsenic; Calcium; Dissolution; Geologic models; Iron compounds; Pollution; Sediments; Groundwater pollution; arsenic; arsenic acid derivative; calcium arsenic acid derivative; calcium ion; ferric hydroxide; unclassified drug; adsorption; aquifer; arsenic; dissolution; mining; numerical model; precipitation (chemistry); water pollution; aquifer; article; contamination; diagenetic precipitation; dissolution; geochemistry; Mexico; mining; pH; pollution transport; precipitation; scanning electron microscopy; sediment; smelter; soil; Adsorption; Arsenates; Arsenic; Calcium Compounds; Environmental Monitoring; Environmental Remediation; Geologic Sediments; Mexico; Mining; Models, Chemical; Soil; Soil Pollutants; Mexico [North America]

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