Arsenate and arsenite adsorption onto Al-containing ferrihydrites Implications for arsenic immobilization after neutralization of acid mine drainage

Areej Adra, G. Morin, G. Ona-Nguema, J. Brest

Institut de Mineralogie, de Physique des Mat_eriaux et de Cosmochimie (IMPMC), Sorbonne Universit_es e UPMC Univ Paris 06, UMR 7590 CNRS, Museum National d'Histoire Naturelle, IRD UMR 206, 4 Place Jussieu, F-75005 Paris, France.

areejadra@gmail.com

Natural ferrihydrites (Fh) often contain impurities such as aluminum, especially in acid mine drainage, and these impurities can potentially impact the chemical reactivity of Fh with respect to metal (loid) adsorption. In the present study, we have investigated the influence of aluminum on the sorption properties of ferrihydrite with respect to environmentally relevant aqueous arsenic species, arsenite and arsenate. We have conducted sorption experiments by reacting aqueous As(III) and As(V) with synthetic Al-free and Al-bearing ferrihydrite at pH 6.5. Our results reveal that, when increasing the Al:Fe molar ratio in Fh, the sorption density dramatically decreased for As(III), whereas it increased for As(V). Extended X-ray Absorption Fine Structure (EXAFS) spectroscopy analysis at the As K-edge indicated that the AsIIIO3 pyramid binds to FeO6 octahedra on both Al-free Fh and Al-bearing Fh, by forming bidentate mononuclear edge-sharing (2E) and bidentate binuclear corner- sharing (2C) surface complexes characterized by As_Fe distances of 2.9 Å and 3.4 Å, respectively. The decrease in As(III) sorption density with increasing Al:Fe ratio in Fh could thus be explained by a low affinity of the As(OH)3 molecule for Al surface sites compared to Fe ones. In contrast, on the basis of available literature on As(V) adsorption mechanisms, we suggest that, in addition to inner-sphere 2C arsenate surface complexes, outer-sphere arsenate surface complexes forming hydrogen bonds with both [AlـOH] and [FeـOH] surface sites could explain the enhancement of As(V) sorption onto aluminous Fh relative to Al-free Fh, as observed in the present study. The presence of aluminum in Fh may thus enhance the mobility of arsenite with respect to arsenate in Acid Mine Drainage impacted systems, while mixed Al:Fe systems could present an alternative for arsenic removal from impacted waters, provided that As(III) would be oxidized to As(V).

Adra, A., Ona-Nguema, G. and Brest, J. (2016) Arsenate and Arsenite Adsorption onto Al- containing ferrihydrites. Implications for Arsenic Immobilization After Neutralization of Acid Mine Drainage. Applied Geochemistry, volume 64 : 2-9.doi:10.1016/j.apgeochem.2015.09.015.

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