Literature

Agertved, J., Rügge, K., and Barker, J. F., 1992, Transformation of the herbicides MCPP and atrazine under natural aquifer conditions, Ground Water, 30(4), 500-506.

Amirbahman, A., Schönenberger, R., Furrer, G., Zobrist, J., 2003, Experimental study and steady–state simulation of biogeochemical processes in laboratory columns with aquifer material, J. Cont. Hydrol., 64, 169-190.

Amos, R. T., Mayer, K. U., Blowes, D. W., and Ptacek, C. J., 2004, Reactive Transport Modeling of Column Experiments for the Remediation of Acid Mine Drainage, Env. Sci. Technol., 38(11), 3131-3138.

Appelo, C. A. J., and de Vet, W. W. J. M., 2002, Modeling In Situ Iron Removal from Groundwater with Trace Elements Such as As, Arsenic in Ground Water Geochemistry and Occurrence, A. H. Welch and K. G. Stollenwerk, Kluwer Publishers, 379-402.

Asano, T., 1992, Artificial Recharge of Groundwater with Reclaimed Municipal Wastewater: Current Status and Proposed Criteria, Water Sci. Technol., 25(12), 87-92.

Bjerg, P. L., Rügge, K., Pedersen, J. K., and Christensen, T. H., 1995, Distribution of redox sensitive groundwater quality parameters downgradient of a landfill (Grindsted, Denmark), Environ. Sci. Technol., 29, 1387-1394.

Bosma, T. N. P., Ballemans, E. M. W., Hoekstra, N. K., te Welscher, R. A. G., Smeenk, J. G. M. M., Schraa, G., Zehnder, A. J. B., 1996, Biotransformation of Organics in Soil Columns and an Infiltration Area, Ground Water, 34(1), 49-56.

Bourg, A. C. M., and Bertin, C., 1993, Biogeochemical changes during infiltration of river water into an Alluvial Aquifer, Environ. Sci. Technol., 27(4), 661-666.

Bourg, A. C. M., and Bertin, C., 1994, Seasonal and Spatial Trends in Manganese Solubility in an Alluvial Aquifer, Environ. Sci. Technol., 28(5), 868-876.

Bouwer, E. J. and McCarty, P. L., 1983, Transformations of halogenated organic compounds under denitrification conditions, Appl. Environ. Microbiol., 45(4), 1295–1299.

Bouwer, H., 2002, Artificial recharge of groundwater: hydrogeology and engineering, Hydrogeology Journal, 10(1), 121-142.

Bouwer, H., Rice, R. C., Lance, J. C., and Gilbert, R. G., 1980, Rapid–infiltration research – The Flushing Meadows Project, Arizona, J. Water Poll. Contr. Fed., 52(10), 2457-2470.

van Breukelen, B. M., Appelo, C. A. J., Olsthoorn, T. N., 1998, Hydrogeochemical transport modeling of 24 years of Rhine water infiltration in the dunes of the Amsterdam Water Supply, J. Hydrol., 209, 281-296.

van Breukelen, B., 2003, Natural Attenuation of Landfill Leachate: a Combined Biogeochemical Process Analysis and Microbial Ecology Approach, PhD Thesis, Vrije Universiteit Amsterdam, Amsterdam.

Broholm, M. M., Rügge, K., Tuxen, N., Højbjerg, A. L., Mosbæk, H. and Bjerg, P. L., 2001a, Fate of herbicides in a shallow aerobic aquifer: A continuous field injection experiment (Vejen,Denmark), Water Resour. Res., 37, 3163-3176.

Broholm, M. M., Tuxen, N., Rügge, K. and Bjerg, P. L., 2001b, Sorption and degradation of the herbicide 2-methyl-4,6-dinitrophenol (DNOC) under aerobic conditions in a sandy aquifer in Vejen, Denmark, Environ. Sci. Technol., 35, 4789-4797.

Champ, D. R., Gulens, J., and Jackson, R. E., 1979, Oxidation-reduction sequences in groundwater flow systems, Can. J. Earth Sci., 16, 12-23.

Chapelle, F. H., and Lovley, D. R., 1992, Competitive exclusion of sulfate-reduction by Fe(III)-reducing bacteria: a mechanism for producing discrete zones of high-iron ground water, Ground Water,30, 29-36.

Chapelle, F. H., McMahon, P. B., Dubrovsky, N. M., Fujii, R. F., Oaksford, E. T., Vroblesky, D. A., 1995, Deducing the distribution of terminal electron-accepting processes in hydrologically diverse groundwater systems, Wat. Resour. Res., 31(2), 359-371.

Christensen, T. H., Bjerg, P. L., Banwart, S. A., Jakobsen, R., Heron, G., Albrechtsen, H.-J., 2000, Characterization of redox conditions in groundwater contaminant plumes, J. Cont. Hydrol., 45, 165-241.

Dillon, P. Pavelic, P. Toze, S. Ragusa, S., Wright, M., Peter, P., Martin, R., Gerges, N., and Rinck-Pfeiffer, S., 1999, Storing recycled water in an aquifer: benefits and risks, Aust. Water & Wastewater Assoc. J. Water, 26(5), 21-29.

Dillon, P, S. Toze, P. Pavelic, J. Skjemstad, G. Davis, R. Miller, R Correll, R Kookana, R, G.-G Ying, S. Fildebrandt, N. Banning, C. Gordon, K. Wall, B. Nicholson, J. Vanderzalm, C. Le Gal La Salle, M. Giber, V. Ingrand, , J-L Guinamant, P. Stuyfzand, H. Prommer, J. Greskowiak, R. Swift, M. Hayes, G. O’Hara, B. Mee, and I. Johnson, 2005,Water quality improvements during aquifer storage and recovery, Vol. 1, Subsurface Processes for Water Quality Improvement, AWWARF Project 2618, Final Report.

Doussan, C., Poitevin, G., Ledoux, E., Detay, M., 1997, Riverbank filtration: modelling of the changes in water chemistry with emphasis in nitrogen species, J.Cont. Hydrol., 25, 129-156.

Dzombak, D. A., and Morel, F. M. M., 1990, Surface Complexation Modeling, Wiley and Sons, New York.

Eckert, P., and Appelo, C. A. J., 2002, Hydrogeochemical modeling of enhanced benzene, toluene, ethylbenzene, xylene (BTEX) remediation with nitrate, Water Resour. Res.,38(8), doi: 10.1029/2001WR000692.

Fox, P., 2002, Soil aquifer treatment: an assessment of sustainability, Dillon, P. J., Management of Aquifer Recharge for Sustainability, A. A. Balkema, Lisse, 21-26.

Grünheid, S., Amy, G., Jekel, M., 2005, Removal of bulk dissolved organic carbon (DOC) and trace organic compounds by bank .ltration and artificial recharge, Water Research, 39, 3219–3228.

von Gunten, U., and Zobrist, J., 1993, Biochemical changes in groundwater infiltration systems: Column studies, Geochim. Cosmochim. Acta, 57, 3895-3906.

von Gunten, H. R., Karametaxas, G., Krähenbühl, U., Kuslys, M., Giovanoli, R., Hoehn, E., Keil, R., 1991, Seasonal biogeochemical cycles in riverborne groundwater, Geochim. Cosmochim. Acta, 55, 3597-3609.

von Gunten, H. R., Karametaxas, G., Keil, R., 1994, Chemical Processes in Infiltrated Riverbed Sediments, Environ. Sci. Technol., 28(2), 2087-2093.

Gupta, M., Sharma, D., Suidan, M. T., Sayles, G. D., 1996, Biotransformation rates of chloroform under anerobic conditions-I. Methanogenesis, Water Res., 30(6), 1377-1385.

Herczeg, A. L, Rattray, K. J., Dillon, P. J., Pavelic, P., Barry, K. E., 2004, Geochemical Processes During Five Years of Aquifer Storage Recovery, Ground Water, 42(3), 438-445.

Hiscock, K. M. and Grischek, T., 2002, Attenuation of groundwater pollution by bank filtration, Journal of Hydrology, 266, 139–144.

Holm, J. V., Rügge, K., Bjerg, P. L., Christensen, T. H., 1995, Occurrence and Distribution of Pharmaceutical Organic Compounds in the Groundwater Downgradient of a Landfill (Grindsted, Denmark), Environ. Sci. Technol., 29(5), 1415-1420.

Idelovitch, I., and Michail, M., 1984, Soil-aquifer treatment - A new approach to an old method of wastewater reuse, J. Water Poll. Contr. Fed., 56, 936-943.

Jacobs, L. A., von Gunten, H. R., Keil, R., Kuslys, M., 1988, Geochemical changes along a river-groundwater infiltration flow path: Glattfelden, Switzerland, Geochim. Cosmochim. Acta, 52, 2693-2706.

Khan, S. J. and Rorije, E., 2002, Pharmaceutically Active Compounds in Aquifer Storage and Recovery, Dillon, P. J., Management of Aquifer Recharge for Sustainability, A. A. Balkema, Lisse, 161-167.

Kühn, W., and Müller, U., 2000, Riverbank filtration. An overview, J. AWWA, 92(12), 60-69.

Larsen, O., and Postma, D., 2001, Kinetics of reductive bulk dissolution of lepidocrocite, ferrihydrite, and goethite, Geochim. Cosmochim. Acta, 65(9), 1367-1379.

Lensing, H. J., Vogt, M., Herrling, B., 1994, Modeling of biologocally mediated redox processes in the subsurface, J. Hydrol., 159, 125-143.

Lovley, D. R., and Phillips, E. J. P., 1988, Novel mode of microbial energy metabolism: organic carbon oxidation dissimilatory reduction of iron and manganese, Appl. Environ. Microbiol.,54(6), 1472-1480.

Lovley, D. R., Chapelle, F. H., Woodward, J. C., 1994, Use of Dissolved H2 Concentrations To Determine Distribution of Microbially Catalyzed Redox Reactions in Anoxic Groundwater, Environ. Sci. Technol., 28(7), 1205-1210.

Martijn, Th. G., 1998, Preface - Water in Europe, In: Artificial Recharge of Groundwater, J. H. Peters et al., A. A. Balkema, Rotterdam.

Massmann, G., Knappe, A., Richter , R., Pekdeger, A., 2004a, Investigating the Influence of Treated Sewage on Groundwater and Surface Water Using Wastewater Indicators in Berlin, Germany, Acta Hydrochimica et Hydrobiologica, 32(4-5), 336-350.

Massmann, G., Pekdeger, A., Merz, C., 2004b, Redox processes in the Oderbruch polder groundwater flow system in Germany, Applied Geochemistry, 19(6), 863-886.

Massmann, G., Dünnbier, U., Greskowiak, J., Knappe A., and Pekdeger, A., 2005a, Investigating surface water–groundwater interactions with the help of sewage indicators in Berlin, Germany, Bringing Groundwater Quality Research to the Watershed Scale (Proceedings of GQ2004, the 4th International Groundwater Quality Conference, Waterloo, Canada, July 2004). IAHS Publ297, 103-112.

Massmann, G., Greskowiak, J., Dünnbier U., Zuehlke, S., Knappe A., Pekdeger A., 2005b, The impact of alternating redox conditions on groundwater chemistry during artificial recharge in Berlin, Journal of Hydrology (submitted).

Matsunaga, T., Karametaxas, G., von Gunten, H. R., and Lichtner, P. C., 1993, Redox chemistry of iron and manganese minerals in river-recharged aquifers: A model interpretation of a column experiment, Geochim. Cosmochim. Acta, 57, 1691-1704.

McMahon, P. B., and Chapelle, F. H., 1991, Microbial production of organics acids in aquitard sediments and its role in aquifer geochemistry, Nature, 349, 233-235.

Parkhurst, D. L., and Petkewich, M. D., 2002, Geochemical Modeling of an Aquifer Storage Recovery Experiment, Charleston, South Carolina, Artificial Recharge Workshop Proceedings, U.S. Geological Survey, Sacramento, California.

Pavelic, P., Nicholson, B. C., Dillon, P. J., Barry, K. E., 2005, Fate of disinfection by-products in groundwater during aquifer storage and recovery with reclaimed water, J. Cont. Hydrol., 77, 119– 141.

Phillips, S. P., Carlson, C. S., Metzger, L. F., Sneed, M., Galloway, D. L., Hudnut, K. W., Ikehara, M. E., 2002, Optimal management of an ASR program to control land subsidence in Lancaster, California, Dillon, P. J., Management of Aquifer Recharge for Sustainability, A. A. Balkema, Lisse, 361-366.

Postma, D., and Jakobsen, R., 1996, Redox zonation: equilibrium constraints on the Fe (III)/SO4-reduction interface, Geochim. Cosmochim. Acta,60, 3169-3175.

Prommer, H., and Stuyfzand, P. J., 2005, Identification of temperature-dependent water quality changes during a deep well injection experiment in a pyritic aquifer, Environ. Sci. and Technol., 39(7), 2200-2209.

Prommer, H. and Barry, D. A., 2005, Modeling bioremediation of contaminated groundwater, R. M. Atlas and J. Philp, Bioremediation: Microbial solutions for real-world environmental cleanup, ASM press, Washington DC., 108-138.

Pyne, R. D., 1995, Groundwater Recharge and Wells: A Guide to Aquifer Storage Recovery, Lewis Publishers, Boca Raton, Florida.

Ray, C., Melin, G., Linsky, R. B., 2002, Riverbank filtration – Improving Source-Water Quality, Kluwer Academic Publishers, Dordrecht.

Rinck-Pfeiffer, S. M., Ragusa, S., Szajnbok, P., and Vandevelde, T., 2000, Interrelationships between biological, chemical and physical processes as an anaolog to clogging in Aquifer Storage and Recovery (ASR) wells, Water Res., 34(7), 2110-2118.

Scheffer F., and Schachtschabel P., 2002, Lehrbuch der Bodenkunde. Spektrum Akademischer Verlag, Heidelberg, Berlin.

Schijven, J. F., Medema, G. J., Vogelaar, A. J., Hassanizadeh, S. M., 2000, Removal of microorganisms by deep well injection, J. Cont. Hydrol., 44, 301-327.

Sontheimer, H., 1980, Experience with riverbank filtration along the Rhine River, J. AWWA, 72(7), 386–390.

Stumm, W, and Morgan, J. J., 1996, Aquatic chemistry, John Wiley - Interscience, New York.

Stuyfzand, P. J., 1998, Quality changes upon injection into anoxic aquifers in the Netherlands: Evaluation of 11 experiments, J. H. Peters et al., Artificial recharge of groundwater, A. A. Balkema, 283-291.

Ternes, T. A., Joss, A., Siegrist, H., 2004, Scrutinizing Pharmaceuticals and Personal Care Products in Wastewater Treatment, Environ. Sci. and Technol., 15, 393A – 398A.

Tuxen, N., Tüchsen, P. L., Rügge, K., Albrechtsen, H-.J., and Bjerg, P. L., 2000, Fate of seven pesticides in an aerobic aquifer studied in column experiments, Chemosphere, 41, 1485-1494.

UNEP, 2002, Environmental Outlook 3, United Nations Environment Programme, Earthscan Publications Ltd, London.

Vandevivere, P., and Baveye, P., 1992, Effect of bacterial extracellular polymers on the saturated hydraulic conductivity of sand columns, Appl. Environ. Microbiol., 58(5), 1690-1698.

Valocchi, A. J., Street, R. L., and Roberts, P. V., 1981, Transport of ion-exchanging solutes in groundwater: Chromatographic theory and field simulation, Water. Resour. Res., 17(5), 1517-1527.

Vanderzalm, J. L., 2004, Hydrogeochemical processes during aquifer storage and recovery (ASR) with reclaimed water in a carbonate aquifer, PhD Thesis, Flinders University, South Australia.

Zhuang, J., Jin, Y., 2003, Virus retention and transport in Al-oxide coated sand columns: effects of ionic strength and composition, J. Cont. Hydrol., 60(3-4), 193-209.

Ziegler, D., Hartig, C., Wischnack, S. and Jekel, M., 2002, Organic substances in partly closed water cycles, Dillon, P. J., Management of Aquifer Recharge for Sustainability, A. A. Balkema, Lisse, 161-167.


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