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References

  • Appelo, C.A.J., B. Drijver, R. Hekkenberg, and M. De Jonge. 1999. Modeling in situ iron removal from ground water. Ground Water 37, no. 6: 811817.
  • Aronson, D., and P.H. Howard. 1997. Anaerobic biodegradation of organic chemicals in groundwater: A summary of field and laboratory studies. SRC TR-97-0223F. New York: Syracuse Research Corporation.
  • Baedecker, M.J., I.M. Cozzarelli, P. Eganhouse, D.I. Siegel, and P.C. Bennett. 1993. Crude oil in a shallow sand and gravel aquifer-III—Biogeochemical reactions and mass balance modeling in anoxic groundwater. Applied Geochemistry 8, no. 6: 569586.
  • Bagrov, N.A. 1953. O srednem mnogoletnem isparenii s poverchnosti susi [On multi-year average of evapotranspiration from land surface] [in Russian]. Meteorog. i Gridrolog 10.
  • Bjerg, P.L., K. Rügge, J.K. Pederson, and T. Christensen. 1995. Distribution of redox-sensitive groundwater quality parameters downgradient of a landfill (Grinsted, Denmark). Environmental Science & Technology 29, no. 5: 13871394.
  • Brun, A., P. Engesgaard, T. Christensen, and D. Rosbjerg. 2002. Modelling of transport and biogeochemical processes in pollution plumes: Vejen landfill, Denmark. Journal of Hydrology 256, no. 3–4: 228247.
  • Chapelle, F.H., P.M. Bradley, D.R. Lovley, K. O’Niell, and J.E. Landeyer. 2002. Rapid evolution of redox processes in a petroleum hydrocarbon-contaminated aquifer. Ground Water 40, no. 4: 353360.
  • Chaplin, B.P., G.N. Delin, R.J. Baker, and M.K. Lahvis. 2002. Long-term evolution of biodegradation and volatilization rates in a crude oil-contaminated aquifer. Bioremediation Journal 6, no. 3: 237255.
  • Christensen, T.H., P.L. Bjerg, S.A. Banwart, R. Jakobsen, G. Heron, and H. Albrechtson. 2000. Characterization of redox conditions in groundwater contaminant plumes. Journal of Contaminant Hydrology 45, no. 3–4: 165241.
  • Cozzarelli, I.M., B.A. Bekins, M.J. Baedecker, G.R. Aiken, R.P. Eganhouse, and M.E. Tuccillo. 2001. Progression of natural attenuation processes at a crude-oil spill site: I. Geochemical evolution of the plume. Journal of Contaminant Hydrology 53, no. 3–4: 369385.
  • Essaid, H.I., I.M. Cozzarelli, R.P. Eganhouse, W.N. Herkelratha, B.A. Bekinsa, and G.N. Delinc. 2003. Inverse modeling of BTEX dissolution and biodegradation at the Bemidji, MN crude-oil spill site. Journal of Contaminant Hydrology 67, no. 1–4: 269299.
  • Freedman, Y.E., M. Magaritz, G.L. Long, and D. Ronen. 1994. Interaction of metals with mineral surfaces in a natural groundwater environment. Chemical Geology 116, no. 1–2: 111121.
  • Jahn, M. 2005a. Microbial dissimilatory iron(III) reduction: Studies on the mechanism and on processes of environmental relevance. Ph.D. thesis, Centre for Applied Geosciences (ZAG), Eberhard-Karls-University, Tübingen, Germany.
  • Jahn, M. 2005b. Final report Brand-Niedergörsdorf: Microbiology. Tuebingen, Germany: TGF.
  • Jakobsen, R., and D. Postma. 1999. Redox zoning, rates of sulfate reduction and interactions with Fe-reduction and methanogenisis in a shallow sandy aquifer, Romo, Denmark. Geochimica et Cosmochimica Acta 63, no. 1: 137151.
  • Jakobsen, R., H. Albrechtson, M. Rasmussen, H. Bay, P.L. Bjerg, and T.H. Christensen. 1998. H-2 concentrations in a landfill leachate plume (Grinsted, Denmark): In situ energetics of terminal electron acceptor processes. Environmental Science & Technology 32, no. 14: 21422148.
  • Lønborg, M.J., P. Engesgaard, P.L. Bjerg, and D. Rosbjerg. 2006. A steady state redox zone approach for modeling the transport and degradation of xenobiotic organic compounds from a landfill site. Journal of Contaminant Hydrology 87, no. 1–2: 191210.
  • Lovley, D.R., F.H. Chapelle, and J.C. Woodward. 1994. Use of dissolved H2 concentrations to determine distribution of microbially catalyzed redox reactions in anoxic groundwater. Environmental Science & Technology 28, no. 7: 12051210.
  • Mayer, K.U., E.O. Frind, and D.W. Blowes. 2002. Multicomponent reactive transport modeling in variably saturated porous media using a generalized formulation for kinetically controlled reactions. Water Resources Research 38, no. 9: 1174.
  • McWorter, D.B., and D.K. Sunada. 1977. Groundwater and Hydraulics. Fort Collins, Colorado: Water Resources Publications.
  • Miles, B., T. Kalbacher, O. Kolditz, C. Chen, J. Gronewald, G. Wang, and A. Peter. 2007. Development and parameterisation of a complex hydrogeological model based on high-resolution data. Environmental Geology 52, no. 7: 13991412.
  • Postma, D., and R. Jakobsen. 1996. Redox zonation: Equilibrium constraints on the Fe(III)/SO4-reduction interphase. Geochimica et Cosmochimica Acta 60, no. 17: 31693175.
  • Prommer, H., G.B. Davis, and D.A. Barry. 1999. Geochemical changes during biodegradation of petroleum hydrocarbons: Field investigations and biogeochemical modelling. Organic Geochemistry 30, no. 6: 423435.
  • Scholl, M.A., I.M. Cozzarelli, and S.C. Christensen. 2006. Recharge processes drive sulfate reduction in an alluvial aquifer contaminated with landfill leachate. Journal of Contaminant Hydrology 86, no. 1–2: 239261.
  • Schreiber, M.E., G.R. Carey, D.T. Feinstein, and J.M. Bahr. 2004. Mechanisms of electron acceptor utilization: Implications for simulating anaerobic biodegradation. Journal of Contaminant Hydrology 73, 99127.
  • Tuccillo, M.E., I.M. Cozzarelli, and J.S. Herman. 1999. Iron reduction in the sediments of a hydrocarbon-contaminated aquifer. Applied Geochemistry 14, no. 5: 655667.
  • U.S. EPA. 1997. The rapid optical screening tool (ROST) laser-induced fluorescence system for screening of petroleum hydrocarbons in subsurface soils. Las Vegas, Nevada: U.S. EPA.
  • Vencelides, Z., O. Sracek, and H. Prommer. 2007. Modelling of iron cycling and its impact on the electron balance at a petroleum hydrocarbon contaminated site in Hnevice, Czech Republic. Journal of Contaminant Hydrology 89, no. 3–4: 270294.
  • Widdowson, M.A., F.J. Moltz, and L.D. Benefield. 1988. A numerical transport model for oxygen- and nitrate-based respiration linked to substrate and nutrient availability in porous media. Water Resources Research 24, no. 9: 15531565.
  • Wiedemeier, T.H., H.S. Rifai, C.J. Newell, and J.T. Wilson. 1999. Natural Attenuation of Fuels and Chlorinated Solvents in the Subsurface. New York: John Wiley & Sons.