Geoscience Reference
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Brun, A. & Engesgaard, P.: Modeling of transport and biogeochemical processes in pollution plumes:
literature review and model development.
J. Hydrol.
256 (2002), pp. 211-227.
Burnol, A., Garrido, F., Baranger, P., Joulian, C., Dictor, M.-C., Bodénan, F., Morin, G. & Charlet,
L.: Decoupling of arsenic and iron release from ferrihydrite suspension under reducing conditions: a
biogeochemical model.
Geochem. Trans.
8:12 (2007).
Champ, D.R., Gulens, J. & Jackson, R.E.: Oxidation-reduction sequences in groundwater flow systems.
Can.
J. Earth Sci.
16 (1979), pp. 12-23.
Chapelle, F.H. & Lovley, D.R.: competitive exclusion of sulfate-reduction by Fe(III)-reducing bacteria: a
mechanism for producing discrete zones of high-iron ground water.
Ground Water
30 (1992), pp. 29-36.
Charlet, L., Chakraborty, S., Appelo, C.A.J., Roman-Ross, G., Nath, B., Ansari, A.A., Lanson, M.,
Chatterjee, D. & Mallik, S.B.: Chemodynamics of an arsenic “hotspot” in a West Bengal Aquifer: a
field and reactive transport modeling study.
Appl. Geochem.
22:7 (2007), pp. 1273-1292.
Chiang, W.-H. & Kinzelbach, W.:
3D-groundwater modeling with PMWIN: A simulation system for modeling
groundwater flow and pollution
. Springer, Heidelberg, Germany, 2000.
Christensen, T.H., Bjerg, P.L., Banwart, S.A., Jakobsen, R., Heron, G. & Albrechtsen, H.-J.: Characterization
of redox conditions in groundwater contaminant plumes.
J. Cont. Hydrol.
45 (2000), pp. 165-241.
Clement, T.P.: RT3D - A modular computer code for simulating reactive multi-species transport in
3-dimensional groundwater aquifers. Pacific Northwest National Laboratory, Richland, WA, 1997.
Darland, E.J. & Inskeep, P.W.: Effects of pore water velocity on transport of arsenate.
Environ. Sci. Technol
.
31:3 (1997), pp. 704-709.
Davis, J.A. & Kent, D.B.: Surface complexation modeling in aqueous geochemistry. Chapter 5 in: M.F., Jr.
Hochella, A.F. White & P.H. Ribbe (eds):
Reviews in mineralogy: mineral-water interface geochemistry
,
Vol. 23. Mineralogical Society of America, Washington DC, 1990, pp. 177-248.
Davis, J.A. & Leckie. J.O.: Surface ionization and complexation at the oxide/water interface. II. Surface
properties of amorphous iron oxyhydroxide and adsorption of metal ions.
J. Colloid Interface Sci.
67
(1978), pp. 90-107.
Decker, D.L., Simunek, J., Tyler, S.W., Papelis, C. & Logsdon, M.J.: Variably saturated reactive transport of
arsenic in heap-leach facilities.
Vadose Zone J.
5:1 (2006), pp. 430-444.
Diersch, H.-J.: Interactive, graphics-based finite-element simulation system FEFLOW for modelling
groundwater flow, contaminant mass and heat transport processes. User's manual version 4.6. WASY.
Institute for Water Resources Planning and System Research Ltd., Berlin, Germany, 1997.
Dixit, S. & Hering, J.G.: Comparison of arsenic(V) and arsenic(III) sorption onto iron oxide minerals:
implications for arsenic mobility.
Environ. Sci. Technol
.
37:18 (2003), pp. 4182-4189.
Domenico, P.A. & Schwartz, W.:
Physical and chemical hydrogeology
. Wiley, New York, NY, 1998.
DPHE, BGS & MML: Groundwater studies for arsenic contamination in Bangladesh. Phase I: rapid
investigation phase. Main report and five supplementary volumes. Dep. of Public Health Engineering,
Gov. of Bangladesh, BGS and Mott Macdonald Ltd (UK), 1999.
Dzombak, D.A. & Morel, F.M.M.:
Surface complexation modeling hydrous ferric oxide
. John Wiley & Sons
Inc, New York, NY, 1990.
Eckert, P. & Appelo, C.A.J.: Hydrogeochemical modeling of enhanced benzene, toluene, ethylbenzene,
xylene (BTEX) remediation with nitrate.
Water Resour. Res
. 38:8 (2002), pp. 5-1-5-11.
Fetter, C.W.:
Applied hydrogeology
. Prentice-Hall, Upper Saddle River, NJ, 2001.
Fiori, A. & Dagan, G.: Concentration fluctuations in transport by groundwater: comparison between theory
and field experiments.
Water Resour. Res
. 35:1 (1999), pp. 105-112.
Freundlich, H.:
Colloid and capillary chemistry
. Methuen, London, UK, 1926.
Gao, H., Butler, A., Wheater, H. & Vesovic, V.: Chemically reactive multicomponent transport simula-
tion in soil and groundwater: 1. Model development and evaluation.
Environ. Geol.
41:3-4 (2001),
pp. 274-279.
Goldberg, S.: Adsorption of arsenate and arsenite on oxides and clay minerals.
Soil Sci. Soc. Am. J.
66 (2002),
pp. 413-421.
Goldberg, S.R. & Criscenti, L.J.: Modeling adsorption of heavy metals and metalloids by soil components.
In: A. Violante, P.M. Huang & Stotzsky, G. (eds):
Biophysico-chemical processes of heavy metals and
metalloids in soil environments
. J. Wiley & Sons, New York, NY, 2007, pp. 215-264.
Goldberg, S.R., Criscenti, L.J., Turner, D.R., Davis, J.A. & Cantrell, K.J.: Adsorption-desorption processes
in subsurface reactive transport modeling.
Vadose Zone J.
6:3 (2007), pp. 407-435.
Greskowiak, J., Prommer, H., Vanderzalm, J., Pavelic, P. & Dillon, P.: Modeling of carbon cycling and
biogeochemical changes during injection and recovery of reclaimed water at Bolivar, South Australia.
Water Resour. Res.
41:10 (2005), W10418.
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