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dc.contributor.authorBray, A.
dc.contributor.authorOelkers, E.
dc.contributor.authorBonneville, S.
dc.contributor.authorWolff-Boenisch, Domenik
dc.contributor.authorPotts, N.
dc.contributor.authorFones, G.
dc.contributor.authorBenning, L.
dc.identifier.citationBray, A. and Oelkers, E. and Bonneville, S. and Wolff-Boenisch, D. and Potts, N. and Fones, G. and Benning, L. 2015. The effect of pH, grain size, and organic ligands on biotite weathering rates. Geochimica et Cosmochimica Acta. 164: pp. 127-145.

Biotite dissolution rates were determined at 25 °C, at pH 2–6, and as a function of mineral composition, grain size, and aqueous organic ligand concentration. Rates were measured using both open- and closed-system reactors in fluids of constant ionic strength. Element release was non-stoichiometric and followed the general trend of Fe, Mg > Al > Si. Biotite surface area normalised dissolution rates (ri) in the acidic range, generated from Si release, are consistent with the empirical rate law: ri=kHiaH+xi where kH,i refers to an apparent rate constant, aH+aH+ designates the activity of protons, and xi stands for a reaction order with respect to protons. Rate constants range from 2.15 × 10−10 to 30.6 × 10−10 (molesbiotite m−2 s−1) with reaction orders ranging from 0.31 to 0.58. At near-neutral pH in the closed-system experiments, the release of Al was stoichiometric compared to Si, but Fe was preferentially retained in the solid phase, possibly as a secondary phase. Biotite dissolution was highly spatially anisotropic with its edges being ~120 times more reactive than its basal planes. Low organic ligand concentrations slightly enhanced biotite dissolution rates. These measured rates illuminate mineral–fluid–organism chemical interactions, which occur in the natural environment, and how organic exudates enhance nutrient mobilisation for microorganism acquisition.

dc.publisherElsevier Ltd
dc.titleThe effect of pH, grain size, and organic ligands on biotite weathering rates
dc.typeJournal Article
dcterms.source.titleGeochimica et Cosmochimica Acta

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curtin.departmentDepartment of Applied Geology
curtin.accessStatusOpen access

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