Groundwater arsenic in the Red River delta, Vietnam ... - Fiva
Groundwater arsenic in the Red River delta, Vietnam ... - Fiva
Groundwater arsenic in the Red River delta, Vietnam ... - Fiva
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5070 D. Postma et al. / Geochimica et Cosmochimica Acta 71 (2007) 5054–5071<br />
Herbel M. and Fendorf S. (2006) Biogeochemical processes<br />
controll<strong>in</strong>g <strong>the</strong> speciation and transport of <strong>arsenic</strong> with<strong>in</strong> iron<br />
coated sands. Chem. Geol. 228, 16–32.<br />
Horneman A., van Geen A., Ma<strong>the</strong> Kent D. V., Zheng Y. P. E.,<br />
Dhar R. K., O’Connell S., Hoque M. A., Aziz Z., Shamsudduha<br />
M., Seddique A. A. and Ahmed K. M. (2004)<br />
Decoupl<strong>in</strong>g of As and Fe release to Bangladesh groundwater<br />
under reduc<strong>in</strong>g conditions Part I: evidence from sediment<br />
profiles. Geochim. Cosmochim. Acta 68, 3459–3473.<br />
Hudson-Edwards K. A., Houghton S. L. and Osborn A. (2004)<br />
Extraction and analysis of <strong>arsenic</strong> <strong>in</strong> soils and sediments. Trends<br />
Anal. Chem. 23, 745–752.<br />
Islam F. S., Gault A. G., Boothman C., Polya D. A., Charnock J.<br />
M., Chatterjee D. and Lloyd J. (2004) Role of metal-reduc<strong>in</strong>g<br />
bacteria <strong>in</strong> <strong>arsenic</strong> release from Bengal <strong>delta</strong> sediments. Nature<br />
430, 68–71.<br />
Jakobsen R. and Postma D. (1999) <strong>Red</strong>ox zon<strong>in</strong>g, rates of sulfate<br />
reduction and <strong>in</strong>teractions with Fe-reduction and methanogenesis<br />
<strong>in</strong> a shallow sandy aquifer, Rømø, Denmark. Geochim.<br />
Cosmochim. Acta 63, 137–151.<br />
Jakobsen R. and Cold L. (2007) Geochemistry at <strong>the</strong> sulfate<br />
reduction-methanogenesis transition zone <strong>in</strong> an anoxic<br />
aquifer—a partial equilibrium <strong>in</strong>terpretation us<strong>in</strong>g 2D reactive<br />
transport model<strong>in</strong>g. Geochim. Cosmochim. Acta 71, 1949–<br />
1966.<br />
Keon N. E., Swartz C. H., Brabander D. J., Harvey C. and<br />
Hemond H. F. (2001) Validation of an <strong>arsenic</strong> sequential<br />
extraction method for evaluat<strong>in</strong>g mobility <strong>in</strong> sediments. Environ.<br />
Sci. Technol. 35, 2778–2784.<br />
Kjøller C., Postma D. and Larsen F. (2004) <strong>Groundwater</strong><br />
acidification and <strong>the</strong> mobilization of trace metals <strong>in</strong> a sandy<br />
aquifer. Environ. Sci. Technol. 38, 2829–2835.<br />
Langmuir D. L., Mahoney J. and Rowson J. (2006) Solubility<br />
products of amorphous ferric arsenate and crystall<strong>in</strong>e scorodite<br />
(FeAsO 4 Æ 2H 2O) and <strong>the</strong>ir application to <strong>arsenic</strong> behavior <strong>in</strong><br />
buried m<strong>in</strong>e tail<strong>in</strong>gs. Geochim. Cosmochim. Acta 70, 2942–2956.<br />
Larsen O. and Postma D. (2001) K<strong>in</strong>etics of bulk dissolution of<br />
lepidocrocite, ferrihydrite and goethite. Geochim. Cosmochim.<br />
Acta 65, 1367–1379.<br />
Meng X., Wang W. (1998) Speciation of <strong>arsenic</strong> by disposable<br />
cartridges. In Proceed<strong>in</strong>gs of <strong>the</strong> Third International Conference<br />
of Arsenic Exposure and Health Effects. Soc. Environ. Geochem.<br />
Health, University of Colorado, Denver.<br />
McArthur J. M., Ravenscroft P., Safiulla S. and Thirlwall M. F.<br />
(2001) Arsenic <strong>in</strong> groundwater: test<strong>in</strong>g pollution mechanisms<br />
for sedimentary aquifers <strong>in</strong> Bangladesh. Water Resour. Res. 37,<br />
109–117.<br />
McArthur J. M., Banerjee D. M., Hudson-Edwards K. A., Mishra<br />
R., Purohit R., Ravenscroft P., Cron<strong>in</strong> A., Howarth R. J.,<br />
Chatterjee A., Talukder T., Lowry D., Houghton S. and<br />
Chahda D. K. (2004) Natural organic matter <strong>in</strong> sedimentary<br />
bas<strong>in</strong>s and its relation <strong>arsenic</strong> <strong>in</strong> anoxic ground water: <strong>the</strong><br />
example of West Bengal and its worldwide implications. Appl.<br />
Geochem. 19, 1255–1293.<br />
Nickson R., McArthur J., Burgess W., Ahmed K. M., Ravenscroft<br />
P. and Rahman M. (1998) Arsenic poison<strong>in</strong>g of Bangladesh<br />
groundwater. Nature 395, 338.<br />
Nickson R. T., McArthur J. M., Ravenscroft P., Burgess W. G.<br />
and Ahmed K. M. (2000) Mechanism of <strong>arsenic</strong> release to<br />
groundwater, Bangladesh and West Bengal. Appl. Geochem. 15,<br />
403–413.<br />
Oremland R. S., Dowdle P. R., Hoeft S., Sharp J. O., Schaefer J.<br />
K., Miller L. G., Switzer Blum J., Smith R. L., Bloom N. S. and<br />
Wallschlaeger D. (2000) Bacterial dissimilatory reduction of<br />
arsenate and sulfate <strong>in</strong> meromictic Mono Lake, California.<br />
Geochim. Cosmochim. Acta 64, 3073–3084.<br />
Parkhurst D. L. and Appelo C. A. J. (1999) User’s guide to<br />
PHREEQC (Version 2)—a computer program for speciation,<br />
reaction-path, 1D-transport, and <strong>in</strong>verse geochemical calculations.<br />
U.S. Geol. Surv. Water Resour. Inv. Rep., 99–4259.<br />
Pedersen H. D., Postma D., Jakobsen R. and Larsen O. (2005) Fast<br />
transformation of iron oxyhydroxides by <strong>the</strong> catalytic action of<br />
Fe(II). Geochim. Cosmochim. Acta 69, 3967–3977.<br />
Pedersen H. D., Postma D. and Jakobsen R. (2006) Release of<br />
<strong>arsenic</strong> associated with <strong>the</strong> reduction and transformation of<br />
iron oxides. Geochim. Cosmochim. Acta 70, 4116–4129.<br />
Polizzotto M. L., Harvey C. F., Li G., Badruzzman B., Ali A.,<br />
Newville M., Sutton S. and Fendorf S. (2006) Solid-phases and<br />
desorption processes of <strong>arsenic</strong> with<strong>in</strong> Bangladesh sediments.<br />
Chem. Geol. 228, 97–111.<br />
Postma D. (1982) Pyrite and siderite formation <strong>in</strong> brackish and<br />
freshwater swamp sediments. Am. J. Sci. 282, 1151–1183.<br />
Postma D. and Jakobsen R. (1996) <strong>Red</strong>ox zonation: equilibrium<br />
constra<strong>in</strong>ts on <strong>the</strong> Fe(III)/SO4-reduction <strong>in</strong>terface. Geochim.<br />
Cosmochim. Acta 60, 3169–3175.<br />
Postma D., Boesen C., Kristiansen H. and Larsen F. (1991) Nitrate<br />
reduction <strong>in</strong> an unconf<strong>in</strong>ed sandy aquifer: water chemistry,<br />
reduction processes, and geochemical model<strong>in</strong>g. Water Resour.<br />
Res. 27, 2027–2045.<br />
Radu T., Subacz J. L., Phillippi J. M. and Barnett M. O. (2005)<br />
Effects of dissolved carbonate on <strong>arsenic</strong> adsorption and<br />
mobility. Environ. Sci. Technol. 39, 7875–7882.<br />
Sengupta S., Mukherjee P. K., Pal T. and Shome S. (2004) Nature<br />
and orig<strong>in</strong> of <strong>arsenic</strong> carriers <strong>in</strong> shallow aquifer sediments of<br />
Bengal Delta, India. Environ. Geol. 45, 1071–1081.<br />
Seyler P. and Mart<strong>in</strong> J.-M. (1989) Biogeochemical processes<br />
affect<strong>in</strong>g <strong>arsenic</strong> species distribution <strong>in</strong> a permanently stratified<br />
lake. Environ. Sci. Technol. 23, 1258–1263.<br />
Smedley P. L. and K<strong>in</strong>niburgh D. G. (2002) A review of <strong>the</strong> source,<br />
behaviour and distribution of <strong>arsenic</strong> <strong>in</strong> natural waters. Appl.<br />
Geochem. 17, 517–568.<br />
Stanger G. (2005) A palaeo-hydrogeological model for <strong>arsenic</strong><br />
contam<strong>in</strong>ation <strong>in</strong> sou<strong>the</strong>rn and south-east Asia. Environ.<br />
Geochem. Health 27, 359–367.<br />
Stookey L. L. (1970) Ferroz<strong>in</strong>e—a new spectrophotometric reagent<br />
for iron. Anal. Chem. 42, 779–781.<br />
Stumm W. and Morgan J. J. (1981) Aquatic Chemistry, second ed.<br />
Wiley & Sons, New York, 780 pp.<br />
Suter D., Siffert C., Sulzberger B. and Stumm W. (1988) Catalytic<br />
dissolution of iron(III) (hydr)oxides by oxalic acid <strong>in</strong> <strong>the</strong><br />
presence of Fe(II). Naturwissenschaften 75, 571–573.<br />
Swartz C. H., Blute N. K., Badruzzman B., Ali A., Brabander D.,<br />
Jay J., Besancon J., Islam S., Hemond H. F. and Harvey C.<br />
(2004) Mobility of <strong>arsenic</strong> <strong>in</strong> a Bangladesh aquifer: <strong>in</strong>ferences<br />
from geochemical profiles, leach<strong>in</strong>g data, and m<strong>in</strong>eralogical<br />
characterization. Geochim. Cosmochim. Acta 68, 539–4557.<br />
Swedlund P. J. and Webster J. G. (1999) Adsorption and<br />
polymerization of silicic acid on ferrihydrite and its effect on<br />
<strong>arsenic</strong> adsorption. Water Res. 33, 3413–3422.<br />
Tessier A., Campbell P. G. C. and Bisson M. (1979) Sequential<br />
extraction procedure for <strong>the</strong> speciation of particulate trace<br />
metals. Anal. Chem. 51(7), 844–851.<br />
van Geen A., Zheng Y., Versteeg R., Stute M., Horneman A.,<br />
Dhar R., Steckler M., Gelman A., Small C., Ahsan H.,<br />
Graziano J. H., Hussa<strong>in</strong> I. and Ahmed K. M. (2003) Spatial<br />
variability of <strong>arsenic</strong> <strong>in</strong> 6000 tube wells <strong>in</strong> a 25 km 2 area of<br />
Bangladesh. Water Resour. Res. 39, 1140. doi:10.1029/<br />
2002WR001617.<br />
van Geen A., Zheng Y., Cheng Z., Aziz Z., Horneman A., Dhar R.<br />
K., Mailloux B., Stute M., We<strong>in</strong>man B., Goodbred S., Seddique<br />
A. A., Hoque M. A. and Ahmed K. M. (2006) A transect of<br />
groundwater and sediment properties <strong>in</strong> Araihazar, Bangla-