Surface complexation modeling of groundwater arsenic mobility: Results of a forced gradient experiment in a Red River flood plain aquifer, Vietnam

Three surface complexation models (SCMs) developed for, respectively, ferrihydrite, goethite and sorption data for a Pleistocene oxidized aquifer sediment from Bangladesh were used to explore the effect of multicomponent adsorption processes on As mobility in a reduced Holocene floodplain aquifer al...

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Bibliographic Details
Published in:Geochimica et cosmochimica acta 2012-12, Vol.98, p.186-201
Main Authors: Jessen, Søren, Postma, Dieke, Larsen, Flemming, Nhan, Pham Quy, Hoa, Le Quynh, Trang, Pham Thi Kim, Long, Tran Vu, Viet, Pham Hung, Jakobsen, Rasmus
Format: Article
Language:English
Subjects:
adsorption
aquifers
arsenic
desorption
ferrihydrite
field experimentation
floodplains
goethite
groundwater
ions
iron
iron oxides
mixing
phosphates
prediction
rivers
sediments
silica
silicon
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Summary:Three surface complexation models (SCMs) developed for, respectively, ferrihydrite, goethite and sorption data for a Pleistocene oxidized aquifer sediment from Bangladesh were used to explore the effect of multicomponent adsorption processes on As mobility in a reduced Holocene floodplain aquifer along the Red River, Vietnam. The SCMs for ferrihydrite and goethite yielded very different results. The ferrihydrite SCM favors As(III) over As(V) and has carbonate and silica species as the main competitors for surface sites. In contrast, the goethite SCM has a greater affinity for As(V) over As(III) while PO43− and Fe(II) form the predominant surface species. The SCM for Pleistocene aquifer sediment resembles most the goethite SCM but shows more Si sorption. Compiled As(III) adsorption data for Holocene sediment was also well described by the SCM determined for Pleistocene aquifer sediment, suggesting a comparable As(III) affinity of Holocene and Pleistocene aquifer sediments. A forced gradient field experiment was conducted in a bank aquifer adjacent to a tributary channel to the Red River, and the passage in the aquifer of mixed groundwater containing up to 74% channel water was observed. The concentrations of As (
ISSN:0016-7037
1872-9533
DOI:10.1016/j.gca.2012.07.014