Pauline Smedley scite author profile

kg−1. There appear to be two distinct 'triggers' that can lead to the release of As on a large scale. The first is the development of high pH (>8.5) conditions in semi-arid or arid environments usually as a result of the combined effects of mineral weathering and high evaporation rates. This pH change leads either to the desorption of adsorbed As (especially As(V) species) and a range of other anion-forming elements (V, B, F, Mo, Se and U) from mineral oxides, especially Fe oxides, or it prevents them from being adsorbed. The second trigger is the development of strongly reducing conditions at near-neutral pH values, leading to the desorption of As from mineral oxides and to the reductive dissolution of Fe and Mn oxides, also leading to As release. Iron (II) and As(III) are relatively abundant in these groundwaters and SO4 concentrations are small (typically 1 mg l−1 or less). Large concentrations of phosphate, bicarbonate, silicate and possibly organic matter can enhance the desorption of As because of competition for adsorption sites. A characteristic feature of high groundwater As areas is the large degree of spatial variability in As concentrations in the groundwaters. This means that it may be difficult, or impossible, to predict reliably the likely concentration of As in a particular well from the results of neighbouring wells and means that there is little alternative but to analyse each well. Arsenic-affected aquifers are restricted to certain environments and appear to be the exception rather than the rule. In most aquifers, the majority of wells are likely to be unaffected, even when, for example, they contain high concentrations of dissolved Fe.

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Fluoride in Natural Waters

Edmunds

Smedley

2012

289

234

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Hydrogeochemistry of arsenic and other inorganic constituents in groundwaters from La Pampa, Argentina

Smedley¹,

Nicolli²,

Macdonald³

et al. 2002

Applied Geochemistry

538

202

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Molybdenum in natural waters: A review of occurrence, distributions and controls

Smedley

Kinniburgh

2017

Applied Geochemistry

267

165

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Arsenic and Selenium

et al. 2003

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Pauline Smedley

A review of the source, behaviour and distribution of arsenic in natural waters

Fluoride in Natural Waters

Hydrogeochemistry of arsenic and other inorganic constituents in groundwaters from La Pampa, Argentina

Molybdenum in natural waters: A review of occurrence, distributions and controls

Arsenic and Selenium

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