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Stimuleret in situ reduktiv deklorering. Vidensopsamling og screening af lokaliteter
9 Referenceliste
9.1 Referenceliste
Acton, D.W., & J.F. Barker. 1992. In situ Biodegradation Potential of Aromatic Hydrocarbons in Anaerobic Groundwaters. J. Contam. Hydrol., 9:325-352.
Adamson, D. T. & G.F. Parkin. 2000. Impact of Mixtures of Chlorinated Aliphatic Hydrocarbons on a High-Rate, Tetrachloroethene-Dechlorinating Enrichment Culture. Environ. Sci. Technol.,
34:1959-1965.
Adamson, D.T., J.M. McDade, & J.B. Hughes. 2003. Inoculation of DNAPL Source Zone to Initiate Reductive Dechlorination of PCE. Environ. Sci. Technol., 37(11):2525-2533.
Alford, G. and R. Cullimore. 1999. The Application of Heat and Chemicals in the Control of Biofouling. Events in Wells, Lewis Publishers, Boca Raton, FL, 1999
Allison, D.G., T. Maira-Litran, and P. Gilbert. 2000. "Antimicrobial Resistance of Biofilms", in Biofilm. Control in Industrial Systems: Approaching an Old Problem in New Ways, In: Evans LV, editor.
Biofilms: recent advances in their study and control. Amsterdam: Harwood Academic Publishers; 2000
Alvarez-Cohen, L. & G.E. Speitel. 2001. Kinetics of aerobic cometabolism of chlorinated solvents. Biodegradation, 12:105-126.
Amternes Videncenter for Jordforurening. Håndbog i prøvetagning af jord og grundvand. Teknik og Administration. Nr. 3. 2003.
Anderson, D., M. Ochsner, C. Sandefur, S. Koenigsberg. 2000. Remedial Action Using HRC Under a State Dry Cleaning Program. I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, & V.S.
Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 213-219.
Aziz, C.E., M.M. Hampton, M. Schipper, & P. Haas. 2001. Organic Mulch Biowall Treatment of Chlorinated-Solvent-Impacted Groundwater. I: Leeson, A., B.C. Alleman, P.J. Alvarez, & V.S. Magar
(Eds.), Bioaugmentation, Biobarriers, and Biogeochemistry. Battelle Press, Columbus, OH. pp. 73-78.
Bachmat, Y., S. Mandel, & M. Bugayevski. 1988. A Single-well Tracer Technique for Evaluating Aquifer Parameters, I. Theoretical work. J. of Hydrol., 99:143-163.
Bagley, D.M., M. Lalonde, V. Kaseros, K.E. Stasiuk, & B.E. Sleep. 2000. Acclimation of anaerobic systems to biodegrade tetrachloroethene in the presence of carbon tetrachloride and chloroform, Water
Research, 34:171-178.
Ballapragada, B.S., H.D. Stensel, J.A. Puhakka, & J.F. Ferguson. 1997. Effect of hydrogen on reductive dechlorination of chlorinated ethenes, Environ. Sci. Technol., 31:1728-1734.
Battelle, 2004. Demonstration of Biodegradation of Dense, Nonaqueous-Phase Liquids (DNAPL) through Biostimulation and Bioaugmentation
at Launch Complex 34 in Cape Canaveral Air Force Station, Florida
Final Innovative Technology Evaluation Report. September 2004.
Bjerg, P.L. & Arvin, E. 1998. Intern rensning af benzinforureninger i grundvand. Amternes Videncenter for Jordforurening, København, Teknik & Administration Nr. 6. pp. 1-31.
Bolesch, D.G., R.B. Nielsen, & J.D. Keasling, 1997. Complete reductive dechlorination of trichloroethene by a groundwater microbial consortium. Bioremediation of Surface and Subsurface
Contamination, 829:97-102.
Boyle, S.L., V.B. Dick, M.N. Ramsdell, & T.M. Caffoe. 2000. Enhanced Closure of a TCE Site Using Injectable HRC. I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, & V.S. Magar (Eds),
Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 255-262.
Bradley, P.M., F.H. Chapelle, & D.R. Lovley. 1998. Humic acids as electron acceptors for anaerobic microbial oxidation of vinyl chloride and dichloroethene, Appl. Environ. Microbiol., 64:3102-3105.
Bradley, P.M., & F.H. Chapelle. 1998a. Microbial mineralization of VC and DCE under different terminal electron accepting conditions, Anaerobe, 4:81-87.
Bradley, P.M. & F.H. Chapelle. 1998b. Effect of contaminant concentration on aerobic microbial mineralization of DCE and VC in stream-bed sediments, Environ. Sci. Technol.32:553-557.
Bradley,P.M. & F.H. Chapelle. 2000. Aerobic microbial mineralization of dichloroethene as sole carbon substrate, Environ. Sci. Technol.,34:221-223.
Burdick, J.S., K.A. McGuiness, E. Rodriquez, & D.J. Wanamaker. 2002. Pilot Test of Enhanced Reductive Dechlorination of TCE and Full-Scale Design. I: A.R. Gavaskar & A.S.C. Chen (Eds),
Remediation of Chlorinated and Recalcitrant Compounds - 2002. Battelle Press, Columbus Ohio.
Butler, B. J. & J. F. Barker. 1996. Chemical and microbiological transformation and degradation of chlorinated solvent compounds. I: Dense Chlorinated Solvents and Other DNAPLs in Ground Water:
History, Behavior, and Remediation. J.F. PanKow, & J.A. Cherry, eds., Waterloo Press, Waterloo, Ontario, Canada, pp. 267-834.
Carr, C.S., S. Garg, & J.B. Hughes. 2000. Effect of Dechlorinating Bacteria on the Longevity and Composition of PCE-Containing Nonaqueous Phase Liquids Under Equilibrium Dissolution Conditions.
Environ. Sci. Technol., 34(6): 1088-1094.
Castellanos, M.R., T.A. Peel, M.L. McMaster, J. Adkisson, & S. Dworatzek. 2002. Laboratory Evaluation of Enhanced Bioremediation of Chlorinated Ethenes in Groundwater at the MLP/VAB Area. I:
A.R. Gavaskar & A.S.C. Chen (Eds), Remediation of Chlorinated and Recalcitrant Compounds - 2002. Battelle Press, Columbus Ohio.
Champ, D.R., J. Gulens, & R.E. Jackson. 1979. Oxidation-reduction sequences in ground water flow systems. Can.J.Earth Sci., 16:12-23.
Chang, P., C. Elder, K. Finneran, D. Major, P. Zeeb, & D. Wanty. 2003. Geochemical and Microbiological Characterization of in situ Reductive Dechlorination in Fractured Bedrock. Abstract. Seventh
International In Situ and On-Site Bioremediation Symposium. Orlando, Florida, June 2-5.
Chang, P.R., P.J. Zeeb, C.R. Elder, R.B. Leary, G.A. Demers, D.W. Major, & D.A. Wanty. 2002. The Evolving Microbiology of an Enhanced Bioremediation Pilot Test Performed in Fractured Bedrock.
Abstract. Third International Conference on Remediation of Chlorinated and Recalcitrant Compounds. Monterey, California.
Chapelle, F.H., D.A. Vroblesky, J.C. Woodward, & D.R. Lovley.1997. Practical considerations for measuring hydrogen concentrations in groundwater. Environmental Science & Technology
31:2873-2877.
Chapelle, F.H. 1996. Identifying redox conditions that favor the natural attenuation of chlorinated ethenes in contaminated groundwater systems. I: Symposium on Natural Attenuation of Chlorinated
Organics in Groundwater. EPA/540/R-96/509. US EPA, Washington, DC, pp.17-20.
Chapelle, F.H., P.B. Mcmahon, N.M. Dubrovsky, R.F. Fujii, E.T. Oaksford, & D.A Vroblesky. 1995. Deducing the Distribution of Terminal Electron-Accepting Processes in Hydrologically Diverse
Groundwater Systems, Water Resources Research, 31:359-371.
Christensen, T. H., P. Kjeldsen, B. Lindhardt. 1996. Gas-Generating Processes in Landfills. p 27-50. In Landfilling of Waste: Biogas; Christensen, T.H., Cossu, R., Stegmann, R. (ed.); E & FN Spoon,
London, 1996.
Christensen, T.H., P.L. Bjerg, S. Banwart, R. Jakobsen, G. Heron, H.-J. Albrechtsen. 2000. Characterization of redox conditions in groundwater contaminant plumes. J. Contam. Hydrol., 45:165-241.
Cirpka,O.A., C. Windfuhr, G. Bisch, S. Granzow, H. Scholz-Muramatsu, & H. Kobus. 1999. Microbial reductive dechlorination in large-scale sandbox model, Journal of Environmental
Engineering-Asce, 125:861-870.
Cope, N. & J.B. Hughes. 2001. Biologically-Enhanced Removal of PCE from NAPL Source Zones. Environ. Sci. Technol., 35:2014-2021.
Cox, E.E., & S. Neville. 2002. In Situ Bioremediation of Perchlorate: Comparison of Results from Multiple Field Demonstrations. Abstract. SERDP/ESTCP Partners in Environmental Technology
Symposium & Workshop. Washington, DC, December 3 – 5, 2002.
Cox, E.E., E.A. Edwards, S. Neville, G. Swanick, & D.W. Major 2000. Accelerated Bioremediation of Perchlorate and Trichloroethene in Groundwater. Abstract. Second International Conference on
Remediation of Chlorinated and Recalcitrant Compounds. Monterey, California, May 22-25.
Cupples, A. M., A.M. Spormann, & P.L. McCarty. 2003. Growth of a Dehalococcoides-Like Microorganism on Vinyl Chloride and cis-Dichloroethene as Electron Acceptors as Determined by
Competitive PCR. Appl. Environ. Microbiol., 69:953-959.
Davis ,J.W., J.M. Odom, K.A. Deweerd, D.A. Stahl, S.S. Fishbain, R.J. West, G.M. Klecka, & J.G. DeCarolis. 2002. Natural attenuation of chlorinated solvents at Area 6, Dover Air Force Base:
characterization of microbial community structure, J. Contam. Hydrol., 57:41-59.
Davis, J.W. & Carpenter,C.L. 1990. Aerobic biodegradation of vinyl-chloride in groundwater samples, Appl. Environ. Microbiol., 56: 3878-3880.
Debruin, W.P., M.J.J. Kotterman, M.A. Posthumus, G. Schraa, & A.J.B. Zehnder. 1992. Complete Biological Reductive Transformation of Tetrachloroethene to Ethane, Appl. Environ. Microbiol.,
58:1996-2000.
Dennis, P. C., B.E. Sleep, R.R. Fulthorpe, & S.N. Liss. 2003. Phylogenetic analysis of bacterial populations in an anaerobic microbial consortium capable of degrading saturation concentrations of
tetrachloroethylene. Canadian Journal of Microbiology, 49:15-27.
Dick, V.B., N.L. Case, & S.L. Boyle. 2001. Enhanced Bioremedation of High Contaminant Concentrations in Source Residual Area. I: V.S. Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, & A. Leeson
(Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 27-33.
DiStefano, T.D., & R. Baral. 2000. PCE Dechlorination With Complex Electron Donors I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, & V.S. Magar (Eds), Bioremediation and
Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 55-61.
Dolfing, F. Thermodynamic Considerations for Dehalogenation. I: Dehalogenation – Microbial Processes and Environmental Applications. Häggblom, M.M. and Bossert, I.D. Kluwer Academic
Publisher, USA, 2003.
Dolfing, J. 1988. Acetogenesis. I: A. J. B. Zehnder (Ed.), Biology of Anaerobis Microorganisms (pp. 417-422). Wiley.
Donlan, 2000. Biofilm Control in Industrial Systems: Approaching an Old Problem in New Ways, In: Evans LV, editor. Biofilms: recent advances in their study and control. Amsterdam: Harwood Academic
Publishers; 2000. p. 19-34.
Duhamel, M., S.D. Wehr, L.Yu, H. Rizvi, D. Seepersad, S. Dworatzek, E.E. Cox, & E.A. Edwards. 2002. Comparison of Anaerobic Dechlorinating Enrichment Cultures Maintained on Tetrachloroethene,
Trichloroethene, cis-Dichloroethene, and Vinyl Chloride. Wat. Res., 36:4193-4202.
Durant, N. GeoSyntec Consultants. 10015 Old Columbia Road, Suite A-200. Columbia, MD 21046. USA. Personlig vurdering, 2003.
Dupin, H.J., and P.L. McCarty. 2000. "Impact Of Colony Morphologies And Disinfection On Biologically. Clogging In Porous Media", Environmental Science & Technology, 34(8):1513-1520.
Dybas, M.J., D.W. Hyndman, R. Heine, J. Tiedje, K. Linning, D. Wiggert, T. Voice, X. Zhao, L. Dybas, & C.S. Criddle. 2002. Development, Operation, and Long-Term Performance of a Full-Scale
Biocurtain Utilizing Bioaugmentation. Environ. Sci. Technol., 36(16):3635-3644.
El Mamouni, R., R. Jacquet, P. Gerin, & S.N. Agathos. 2002. Influence of electron donors and acceptors on the bioremediation of soil contaminated with trichloroethene and nickel: laboratory- and
pilot-scale study, Water Science and Technology, 45: 49-54.
Ellis, D.E., E.J. Lutz, J.M. Odom, R.J. Buchanan, C.L. Bartlett, M.D. Lee, M.R. Harkness, & K.A. Deweerd. 2000. Bioaugmentation for Accelerated In Situ Anaerobic Bioremediation. Environ. Sci.
Technol., 34(11):2254-2260.
Environment Canada. 2001. "Guidelines for the Notification and Testing of New Substances: Organisms. Pursuant to the New Substances Notification Regulations of the Canadian Environmental Protection
Act." Ottawa, Canada. http://www.ec.gc.ca/substances/nsb/download/Bioge1201.PDF
Environmental Security Technology Certification Program (ESTCP), 2001. Reductive Anaerobic Biological In-Situ Treatment Technology (RABITT) Treatability Test. Interim Report
Environmental Technology Certification Testing Program. 2001. Reductive Anaerobic Biological In situ Treatment Technology (RABITT) Treatability Test Interim Report.
Evans, P.J. & S.S. Koenigsberg. 2001. A Bioavailable Ferric Iron Assay and Relevance to Reductive Dechlorination. I: Leeson, A., Alleman, B.C., P.J. Alvarez &V.S. Magar (Eds.), Bioaugmentation,
Biobarriers, and Biogeochemistry, pp. 209-215. Battelle Press, Columbus, OH
Fam, S.A., M. Findlay, S. Fogel, T. Pirelli, & T. Sullivan. 2000. Full-Scale Anaerobic Bioremediation Using Acetate and Lactate Electron Donors. I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman,
& V.S. Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 23-30.
Fennell, D.E., & J.M. Gossett. Microcosms for Site-Specific Evaluation of Enhanced Biological Reductive Dehalogenation. I: Dehalogenation – Microbial Processes and Environmental Applications.
Häggblom, M.M. & Bossert, I.D. Kluwer Academic Publisher, USA, 2003.
Fennell, D.E., A.B. Carroll, J.M. Gossett, & S.H. Zinder. 2001. Assessment of Indigenous Reductive Dechlorinating Potential at a TCE-Contaminated Site Using Microcosms, Polymerase Chain Reaction
Analysis, and Site Data. Environ. Sci. Technol., 35(9):1830-1839.
Fennell,D.E., J.M. Gossett, & S.H. Zinder. 1997. Comparison of butyric kid, ethanol, lactic acid, and propionic acid as hydrogen donors for the reductive dechlorination of tetrachloroethene, Environ. Sci.
Technol., 31:918-926.
Fiacco, R.J., M.H. Daly, J.D. Fitzgerald, G. Demers, M.D. Lee, & D. Wanty. 2000. Anaerobic Bioremediation of Chlorinated VOCs in a Fractured Bedrock Aquifer - Preparations for an In Situ Pilot
Study. I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, & V.S. Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp.
405-412.
Findlay, M., S. Fogel, D. Smoler, B.F. Droy, C. Creber, & G. Klecka. 2002. Optimizing Reductive Dechlorination in a High-Sulfate In Situ Bioremediation System. I: A.R. Gavaskar & A.S.C. Chen
(Eds.), Remediation of Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus, OH.
Finn, P. S., A. Kane, J. Vidumsky, D.W. Major, & N. Bauer. 2003. In Situ Bioremediation of Chlorinated Solvents in Overburden and Bedrock Using Bioaugmentation. Abstract. Seventh International In
Situ and On-Site Bioremediation Symposium. Orlando, Florida, June 2-5.
Fischer, N.M., T. Reed, C. Madsen, & T. Mascarenas. 2001. Dissolved Plume PCE Remediation Using a Combination of ZerO-Valent Iron and Hydrogen Release Compound. I: Leeson, A., B.C.
Alleman, P.J. Alvarez, & V.S. Magar (Eds.), Bioaugmentation, Biobarriers, and Biogeochemistry. Battelle Press, Columbus, OH. pp. 73-78.
Flynn, S.J., F.E. Loffler, & J.M. Tiedje. 2000. Microbial community changes associated with a shift from reductive dechlorination of PCE to reductive dechlorination of cis-DCE and VC, Environ. Sci.
Technol.,34:1056-1061.
Fox, B.G., J.G. Borneman, L.P. Wackett, & J.D. Lipscomb. 1990. Haloalkene oxidation by soluble methane monooxygenase from Methylosinus trichosporium OB3B – mechanistic and environmental
implications. Biochemistry, 29:6419-6427.
Fredslund, L., F. Ekelund, C.S. Jacobsen, & K. Johnsen. 2001. Development and Application of a Most Probable Number-PCR Assay to Quantify Flagellate Populations in Soil Samples. Appl. Environ.
Microbiol., 67(4): 1613-1618
Gelhar, L.W., & M.A. Collins. 1971. General Analysis of Longitundinal Dispersion in Nonuniform Flow. Wat. Res., 15:1511-1521.
Gerritse, J., G. Kloetstra, A. Borger, G. Dalstra, A. Alphenaar, & J.C. Gottschal. 1997. Complete degradation of tetrachloroethene in couples anoxic and oxic chemostats. Appl. Microbiol. Biotechnol.,
48:553-562.
Gerritse, J., G. Kloetstra, L. Wiersum, P.A. Lawson, M.D. Collins, A. Alphenaar, & J.C. Gottschal, 1996a. Reductive dechlorination of chloroethenes or chlorophenols by two novel Desulfitobacterium
spp. grown in batch and chemostat cultures. I: J. Lalucat & K.N. Timmis (Eds.), Biodegradation of organic polluants. UIB-GBF-CSI-TUB Symposium, p. 171. Palma de Mallorca, Spain.
Gerritse, J., V. Renard, T.M.P. Gomes, P.A. Lawson, M.D. Collins, & J.C. Gottschal. 1996b. Desulfitobacterium sp strain PCE1, an anaerobic bacterium that can grow by reductive dechlorination of
tetrachloroethene or orthO-chlorinated phenols, Archives of Microbiology, 165:132-140.
Gillham, R.W., R.C. Starr, & D.J. Miller. 1990. A Device for In Situ Determination of Geochemical Transport Parameters. 2: Biochemical Reactions. Ground Water, 28:858-862.
Haas, P.E., P. Cork, C.E. Aziz & M. Hampton. 2000. In Situ Biowall Containing Organic Mulch Promotes Chlorinated Solvent Bioremediation. I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, &
V.S. Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 71-77.
Hageman, K.J., J.D. Istok, J.A. Field, T.E. Buscheck, & L. Semprini. 2001. In Situ Anaerobic Transformation of Trichlorofluoroethene in Trichloroethene-Contaminated Groundwater. Environ. Sci.
Technol., 35:1729-1735.
Haggerty, R., M.H. Schroth, & J.D. Istok 1998. Simplified Method of "Push-Pull" Test Data Analysis for Determining in situ Reaction Rate Coefficients. Ground Water. 36:314-324.
Hall S.H., S.P. Luttrell, & W.E. Cronin. 1991. A Method for Estimating Effective Porosity and Ground-Water Velocity. Ground Water, 29:171-174.
Harkness, M. R.; A.A. Bracco, M.J. Brennan Jr., K.A. DeWeerd, & J.L. Spivack. 1999. Use of Bioaugmentation to Stimulate Complete Reductive Dechlorination of Trichloroethene in Dover Soil
Columns. Environ. Sci. Technol., 33(7):1100-1109.
Harkness, M.R. 2000. Economic Considerations in Enhanced Anaerobic Biodegradation. In: In: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, and V.S. Magar (Eds), Bioremediation and
Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 9-14.
Harms, W.D., K.A. Taylor, B.S. Taylor. 2000. HRC-Enhanced Reductive Dechlorination of Source Trichloroethene in an Unconfined Aquifer. In: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman,
and V.S. Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 295-302.
Hartmans, S., & J.A.M. deBont. 1992. Aerobic vinyl chloride metabolism in Mycobacterium aurum li. Appl. Environ. Microbiol., 58:1220-1226.
Hartmans, S., J.A.M. deBont, J.Tamper, & K.Ch.A.M. Luyben. 1985. Bacterial degradation of vinyl chloride. Biotechnol. Lett., 7:383-388.
He, J., K.M., Ritalahti, M.R. Aiello, F.E. & Loffler. 2003. Complete Detoxification of Vinyl Chloride by an Anaerobic Enrichment Culture and Identification of the Reductively Dechlorinating Population as a
Dehalococcoides Species. Appl. Environ. Microbiol., 69:996-1003.
He, J.Z., Y. Sung, M.E. Dollhopf, B.Z. Fathepure, J.M. Tiedje, & F.E. Loffler. 2002. Acetate versus hydrogen as direct electron donors to stimulate the microbial reductive dechlorination process at
chloroethene- contaminated sites, Environ. Sci. Technol.,36:3945-3952.
Hendrickson, E.R, J.A. Payne, R.M. Young, M.G. Starr, M.P. Perry, J.A. Payne, & L.W. Buonamici. 2002. Molecular Analysis of Dehalococcoides 16S ribosomal DNA from
Chloroethene-Contaminated Sites throughout North America and Europe. Appl. Environ. Microbiol., 68:485-495.
Hendrickson, E.R., M.G. Starr, M.A. Elberson, J.A. Payne, E. Mack, H.-B. Huang, M. McMaster, & D.E. Ellis. 2001. Using a Molecular Monitoring Approach to Monitor a Bioaugmentation Plot. I:
Leeson, A., B.C. Alleman, P.J. Alvarez, & V.S. Magar (Eds.) Bioaugmentation, Biobarriers, and Biogeochemistry. Battelle Press, Columbus, OH. pp. 43-51.
Henssen, M.J.C., A.W. van der Werf, S. Keuning, C. Hubach, R. Blokzijl, E. van Keuklen, B. Alblas, C. Haasnoot, H. Boender, & E. Meijerink. 2001. Engineered Full Scale Bioremediation of
Chlorinated Ethenes. I: Leeson, A., B.C. Alleman, P.J. Alvarez, & V.S. Magar (Eds.), Bioaugmentation, Biobarriers, and Biogeochemistry. Battelle Press, Columbus, OH. pp. 73-78.
Holliger, C., D. Hahn, H. Harmsen, W. Ludwig, W. Schumacher, B. Tindall, F. Vazquez, N. Weiss, & A.J.B. Zehnder. 1998. Dehalobacter restrictus gen. nov. and sp. nov., a strictly anaerobic
bacterium that reductively dechlorinates tetra- and trichloroethene in an anaerobic respiration. Archives of Microbiology, 169:313-321.
Holliger, C., C. Regeard, & G. Diekert. Dehalogenation by Anaerobic Bacteria. I: Dehalogenation – Microbial Processes and Environmental Applications. Häggblom, M.M. & Bossert, I.D. Kluwer
Academic Publisher, USA, 2003.
Holliger, C., G. Schraa, A.J.M. Stams, & A.J.B. Zehnder. 1993. A Highly Purified Enrichment Culture Couples the Reductive Dechlorination of Tetrachloroethene to Growth, Appl. Environ. Microbiol.,
59:2991-2997.
Holmes, A., Govan, J., and R. Goldstein. 1998. Agricultural Use of Burkholderia (Pseudomonas) cepacia: A Threat to Human Health? Emerging and Infectious Diseases. 4(2) April-June
Hristova, K.R., C.M. Lutenegger, & K.M. Scow. 2001. Detection and Quantification of Methyl tert-Butyl Ether-Degrading Strain PM1 by Real-Time Taqman PCR. Appl. Environ. Microbiol.,
67(11):5154-5160.
Istok, J.D., M.D. Humphrey, M.H. Schroth, M.R. Hyman, and K.T. O'Reilly. 1997. Single-well 'push-pull' test for in situ determination of microbial activities, Ground Water, 35(4):619-631
ITRC/RTDF. 2003. Accelerated Bioremediation of Chlorinated Solvents – Short Course Handout Materials. Battelle Conference on In Situ and On-Site Bioremediation. Orlando, Florida. June 1, 2003.
Isalou, M., B.E. Sleep, & S.N. Liss.1998. Biodegradation of high concentrations of tetrachloroethene in a continuous flow column system, Environ. Sci. Technol., 32:3579-3585.
Janssen, D.B., A. Scheper, L. Dijkhuizen, & B. Witholt. 1985. Degradation of halogenated aliphatic compounds by Xanthobacter autotrophicus GJ10, Appl. Environ., Microbiol., vol. 49, no. 3, pp.
673-677.
Jacobsen, T.H, C. Mossing. 2002. Hedeselskabet Miljø og Energi as. Pilotforsøg med stimuleret reduktiv deklorering ved tilsætning af HRCTM, Jægersborg alle, Gentofte. ATV Vintermøde, 5.-6-. marts
2002.
Johnsen, K., Ø. Enger, C.S. Jacobsen, L. Thirup, & V. Torsvik. 1999. Quantitative selective PCR of 16S rDNA correlates well with selective agar plating in describing population dynamics of indigenous
Pseudomonas in soil hot spots. Appl. Environ. Microbiol., 65:1786-1788.
Jeffers, P.M., L.M. Ward, L.M. Woytowitch, & N.L. Wolfe. 1989. Homogeneous hydrolysis rate constants for selected chlorinated methanes, ethanes, ethenes, and propanes. Environ. Sci.
Technol.,23:965-969.
Kaseros, V.B., B.E. Sleep, & D.M. Bagley. 2000. Column Studies of Biodegradation of Mixtures of Tetrachlorothene and Carbon Tetrachloride. Wat. Res., 34(17):4161-4168.
Kean, J.A., D. Graves, K. Bishop, E. Mott-Smith, & M. Lodato. 2002. I: A.R. Gavaskar & A.S.C. Chen (Eds), Remediation of Chlorinated and Recalcitrant Compounds. Proceedings of the Third
International Conference on Remediation of Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus Ohio.
Kengen, S.W.M., C.G. Breidenbach, A. Felske, A.J.M. Stams, G. Schraa, & W.M. de Vos. 1999. Reductive dechlorination of tetrachloroethene to cis-1,2-dichloroethene by a thermophilic anaerobic
enrichment culture. Applied and Environmental Microbiology 65:2312-2316.
Krumholz, L.R. 1997. Desulfuromonas chloroethenica sp. Nov. uses tetrachloroethylene and trichloroethylene as electron acceptors. International J. Syst. Bacteriol., 47:1262-1263.
Krumholz, L.R., R. Sharp, & S.S. Fishbain. 1996. A freshwater anaerob coupling acetate oxidation to tetrachloroethylene dehalogenation. Appl. Environ. Microbiol., 62:4108-4113.
Langenhoff, A.A.M, A.A.M. Nipshagen, C. Bakker, J. Krooneman, & G. Visscher. 2001. Monitoring Stimulated Reductive Dechlorination at the Rademarkt in Groningen, The Netherlands. I: V.S. Magar,
D.E. Fennell, J.J. Morse, B.C. Alleman, & A. Leeson (Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 141-147.
Lee, M.D., J.M. Thomas, R.C. Borden, P.B. Bedient, J.T. Wilson, & C.H. Ward. 1988. Biorestoration of Aquifers Contaminated with Organic Compounds. CRC Critical Rev.Environ. Controls,
18:29-89.
Lee, M.D., R.J. Buchanan, & D.E. Ellis. 2000. Laboratory Studies Using Edible Oils to Support Reductive Dechlorination. I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, & V.S. Magar (Eds),
Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 77-84.
Leigh, D.P., C.D. Johnson, R.S. Skeen, M.G. Butcher, L.A. BienKowski, & S. Granade. 2000. Enhanced Anaerobic In Situ Bioremediation of Chloroethenes at NAS Point Mugu. I: G.B.
Wickramanayake, A.R. Gavaskar, B.C. Alleman, & V.S. Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 229-235.
Lendvay, J., P. Adriaens, M. Barcelona, C. Lee Major, J. Tiedje, M. Dollhopf, F. Loeffler, B. Fathepure, E. Petrovskis, M. Gebhard, G. Daniels, R. Hickey, R. Heine, & J. Shi. 2001. Preventing
Contaminant Discharge to Surface Waters: Plume Control with Bioaugmentation. I: Leeson, A., B.C. Alleman, P.J. Alvarez, & V.S. Magar (Eds.), Bioaugmentation, Biobarriers, and Biogeochemistry.
Battelle Press, Columbus, OH. pp. 19-26.
Lendvay, J.M., F.E. Löffler, M. Dollhopf, M.R. Aiello, G. Daniels, B.Z. Fathepure, M. Gebhard, R. Heine, R. Helton, J. Shi, R. Krajmalnik-Brown, C.L. Major, M.J. Barcelona, E. Petrovskis, J.M.
Tiedje, & P. Adriaens. 2003. Bioreactive Barriers: A Comparison of Bioaugmentation and Biostimulation for Chlorinated Solvent Remediation. Environ. Sci. Technol., 37(7):1422-1431.
Lesage, S., S. Brown, K. Millar, C.S. Mowder, T. Llewellyn, S. Forman, D. Peters, G. DeLong, D.J. Green, & H. McIntosh. 2002. Post-Treatment Biological Attenuation at a Site Contaminated with
Mixed Chlorinated Solvents. I: A.R. Gavaskar & A.S.C. Chen (Eds), Remediation of Chlorinated and Recalcitrant Compounds. Proceedings of the Third International Conference on Remediation of
Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus Ohio.
Litherland, S.T., D.W. Anderson, & B.A. Dinwiddle. 1999. Full-Scale Bioremediation at a Chlorinated Solvents Site: Project Update. I: A. Leeson & B.C. Alleman (Eds.), Engineered Approaches for In
Situ Bioremediation of Chlorinated Solvent Contamination. Battelle, Columbus, Ohio. pp. 157-163
Little, C.D., A.V. Palumbo, S.E. Herbes, M.E. Lidstrom, R.L. Tyndall, & P.J. Gilmer. 1988. Trichloroethylene biodegradation by methane-oxidizing bacterium. Appl. Environ. Microbiol., 54:951-956.
Lovley,D.R., F.H. Chapelle, & J.C. Woodward. 1994. Use of Dissolved H-2 Concentrations to Determine the Distribution of Microbially Catalyzed Redox Reactions in Anoxic Groundwater (Vol 28, Pg
1205, 1994), Environ. Sci. Technol.,28:1992.
Lovely, D.R., & M.J. Klug. 1983. Sulfate reducers can outcompete methanogens at freshwater sulfate concentrations. Appl. Environ. Microbiol., 45:187-192.
Löffler F.E., Q. Sun, J. Li, J.M. Tiedje. 2000. 16S rRNA Gene-Based Detection of Tetrachloroethene-Dechlorinating Desulfuromonas and Dehalococcoides Species. Appl. Environ. Microbiol.,
66(4):1369-1374.
Löffler, F.E., J.M. Tiedje, & R.A. Sanford. 1999. Fraction of electrons consumed in electron acceptor reduction and hydrogen thresholds as indicators of halorespiratory physiology. Appl. Environ.
Microbiol., 65:4049-4056.
MacDonald. T.R., and P.K. Kitanidis, "Biofouling Effects on In Situ TCE Bioremediation by Phenol. Utilizers", in Bioremediation of Chlorinated Solvents, R.E. Hinchee, A. Leeson, and L. Semprini
(eds.), Battelle Press, Columbus, OH, 1995.
Maierle, M.S. & J.L. Cota. 2001. Complete PCE Degradation and Site Closure Using Enhanced Reductive Dechlorination. I: V.S. Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, & A. Leeson (Eds),
Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 149-156.
Major, D.W., M.L. McMaster, E.E. Cox, B.J. Lee, E.E. Gentry, E. Hendrickson, E. Edwards, & S. Dworatzek. 2001. Successful Field Demonstration of Bioaugmentation to Degrade PCE and TCE to
Ethene. I: Leeson, A., B.C. Alleman, P.J. Alvarez, & V.S. Magar (Eds.), Bioaugmentation, Biobarriers, and Biogeochemistry. Battelle Press, Columbus, OH. pp. 27-33.
Major, D.W., M.L. McMaster, E.E. Cox, E.A. Edwards, S.M. Dworatzek, E.R. Hendrickson, M.G. Starr, J.A. Payne, & L.W. Buonamici. 2002. Field Demonstration of Successful Bioaugmentation to
Achieve Dechlorination of Tetrachloroethene to Ethene. Environ. Sci. Technol., 36(23):5106-5116.
Major, D.; Edwards, E.; McCarty, P., Gossett, J.; Hendrickson, E. Frank Loeffler, Zinder, S., Ellis, D., Vidumsky, J., Harkness, M., Klecka, G., Cox, E. "Discussion of Environment vs. Bacteria or Let's
Play,`Name that Bacteria'" Ground Water Monitoring & Remediation, 23(2):32-48.
Manale F., Bradley F. Droy, Ph.D., and Russ Copeland, P.E., Catherine Creber, Gary Klecka, Ph.D. Paper 2B-37, in: A.R. Gavaskar and A.S.C. Chen (Eds.), Remediation of Chlorinated and
Recalcitrant Compounds2002. Proceedings of the Third International Conference on Remediation of Chlorinated and Recalcitrant Compounds (Monterey, CA; May 2002). ISBN 1-57477-132-9,
published by Battelle Press, Columbus, OH,
Marnette, E.C.L., H. Tonnare, A. Alphenaar, & G.J. Groenendijk. 2001. Liner- A New Concept for the Stimulation of Reductive Dechlorination. I: V.S. Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, &
A. Leeson (Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 297-303.
Martin, J.P., K.S. Sorenson, L.N. Peterson, R.A. Brennan, C.J. Werth, R.A. Sanford, G.H. Bures, & C.J. Taylor. 2002. Enhanced CAH Dechlorination in a Low Permeability, Variably-Saturated
Medium. I: A.R. Gavaskar & A.S.C. Chen (Eds), Remediation of Chlorinated and Recalcitrant Compounds. Proceedings of the Third International Conference on Remediation of Chlorinated and
Recalcitrant Compounds. Battelle Press, Columbus Ohio.
Martin, R.E., E.J. Bouwer, & L.M. Hanna. 1992. Application of Clean Bed Filtration Theory to Bacterial Deposition in Porous Media. Environ. Sci. Technol., 26:1053-1058.
MaymO-Gatell, X., I. Nijenhuis, & S.H. Zinder. 2001. Reductive dechlorination of cis-1,2-dichloroethene and vinyl chloride by "Dehalococcoides ethenogens", Environ. Sci. Technol.,35:516-521.
MaymO-Gatell, X., T. Anguish, & S.H. Zinder. 1999. Reductive dechlorination of chlorinated ethenes and 1,2- dichloroethane by "Dehalococcoides ethenogens" 195, Appl. Environ. Microbiol.,
65:3108-3113.
MaymO-Gatell, X., Y.-T. Chien, J.M. Gossett, & S.H. Zinder. 1997. Isolation of a Bacterium that Reductively Dechlorinates Tetrachloroethene to Ethene. Science, 276:1568-1571.
Mazur, C.S., & W.J. Jones. 2001. Hydrogen concentrations in sulfate-reducing estuarine sediments during PCE dehalogenation. Environ. Sci. Technol., 35:4783-4788.
McCarty, P.L. & L. Semprini. 1994. Groundwater treatment for chlorinated solvents. I: Handbook of Bioremediation. R.D. Norris et al., eds., Lewis Publishers, Boca Raton, FL
McCarty, P.L., M.N. Goltz, G.D. Hopkins, M.E. Dolan, J.P. Allan, B.T. Kawakami, & T.J. Carrothers. 1998. Full-Scale Evaluation of In Situ Cometabolic Degradation of Trichloroethylene in
Groundwater through Toluene Injection. Environ. Sci. Technol. 32(1):88-100.
McCarty, P. 1996. Biotic and Abiotic Transformations of Chlorinated Solvents in Ground Water. I: Symposium on Natural Attenuation of Chlorinated Organics in Ground Water, Dallas, Texas, September
11-13, 1996. US EPA. EPA/540/R-97/504, pp 5-9.
McMaster, M., E. Hood, D. Major, C. LeBron, & J. Quinn. 2003. Evaluation of Bioaugmentation to Enhance DNAPL Dissolution at Multiple Field Sites. Abstract. Seventh International In Situ and
On-Site Bioremediation Symposium. Orlando, Florida, June 2-5.
McMaster, M., E. Hood, D. Major, C. Lebron, & T. McHale. 2002. Evaluation of Bioaugmentation to Enhance PCE DNAPL Dissolution at Dover National Test Site. Abstract. SERDP/ESTCP Partners
in Environmental Technology Symposium & Workshop. Washington, DC, December 3 – 5, 2002.
Middeldorp, P.J.M., M.L.G.C. Luijten, B. A. van de Pas, M.H.A. van Eekert, A.J. M. Stams, S.W.M. Kengen, & G. Schraa. 1999. Anaerobic microbial reductive dehalogenation of chlorinated ethenes.
Bioremediation Journal, 3(3):151-169.
Miljøstyrelsen 2000. Miljøprojekt, Nr 544. Naturlig nedbrydning af olie og chlorerede opløsningsmidler i grundvandet på Drejøgade 3-5. Teknologiprogrammet for jord- og grundvandsforurening. Af:
Christensen, A.G.& C.R. Riis.
Miljøstyrelsen 1996. nr. 20. Kemiske stoffers opførsel i jord og grundvand. Projekt om jord og grundvand. Af: Kjeldsen, P & T.H. Christensen.
Miljøstyrelsen 2003a. Miljøprojekt, Nr 833. Oprensning af klorerede opløsningsmidler ved stimuleret reduktiv deklorering - Jægersborg Allé, Gentofte. Teknologiprogrammet for jord- og
grundvandsforurening. Af: Mossing, C.& P.L.Bjerg.
Miljøstyrelsen. 2003b. Spildevand- og vandforsyningskontoret, Christian Ammitsøe, 2003. Brev af 15. august 2003 med svar på COWI's spørgsmål vedrørende tilsætning af bakteriekulturer til grundvand.
Millar, K., S. Lesage, S Brown, C.S. Mowder, T. Llewellyn, S. Forman, D. Peters, G. DeLong, D.J. Green, & H. McIntosh. 2001. Biocide Application Prevents Biofouling of a Chemical
Injection/Recirculation Well. I: V.S. Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, & A. Leeson (Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 333-340.
Miller, E.G., G. Wohlfarth, & G. Diekert. 1996. Studies on tetrachloroethene respiration in Dehalospirillum multivorans. Arch. Microbiol., 166:379-387.
Mohn, W.W. & J.M. Tiedje. 1992. Microbial reductive dehalogenation. Microbiol. Rev. 56:482-507.
Morie, C.S, J. Greene, G.B. Page, & B. Ilgner. 2002. Tetrachloroethylene and Uranium Remediation Using IRZ. I: A.R. Gavaskar & A.S.C. Chen (Eds), Remediation of Chlorinated and Recalcitrant
Compounds - 2002. Proceedings of the Third International Conference on Remediation of Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus Ohio.
Morse, J.J., B.C. Alleman, J.M. Gossett, S.H. Zinder, D.E. Fennell, G.W. Sewell, & C.M. Vogel. 1998. A Treatability Test for Evaluating the Potential Applicability of the Reductive Anaerobic Biological
In Situ Treatment Technology (RABITT) to Remediate Chloroethenes. Draft Technical Protocol. U.S. Department of Defense, Environmental Security Technology Certification Program.
Murray, W., M. Dooley, & S. Koenigsberg. 2001. Enhanced Bioremediation of Chlorinated Solvents. Two Novel Methods for Enhancing Source Zone Bioremediation: Direct Hydrogen Addition and
Electron Acceptor Diversion. I: V.S. Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, & A. Leeson (Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 197-204.
Nakashima, M., X. Wu, R. Okada, & M. Nishigaki. 2002. Enhanced Bioremediation of a Site in Japan Contaminated with Chlorinated Solvents Using HRC Injection. I: A.R. Gavaskar & A.S.C. Chen
(Eds), Remediation of Chlorinated and Recalcitrant Compounds. Proceedings of the Third International Conference on Remediation of Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus
Ohio.
Neumann, A., H. Schotz-Maramatsu, & G. Diekert, 1994. Tetrachloroethene metabolism of Dehalospirillum multivorans. Arch. Microbiol., 139:388-396.
Neumann, A., G. Wohlfarth, & G. Diekert. 1995. Properties of tetrachloroethene and trichloroethene dehalogenase of Dehalospirillum multivorans. Arch. Microbiol., 163:276-281.
Newell, C.J., C.E. Aziz, P.E. Haas, J.B. Hughes, & T.A. Khan. 2001. Two Novel Methods for Enhancing Source Zone Bioremediation: Direct Hydrogen Addition and Electron Acceptor Diversion. I: V.S.
Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, & A. Leeson (Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 19-26.
Nielsen, R.B. & J.D. Keasling. 1999. Reductive dechlorination of chlorinated ethene DNAPLs by a culture enriched from contaminated groundwater, Biotechnology and Bioengineering 62: 160-165.
Nielsen, P.H., P.L. Bjerg, P. Nielsen, P. Smith, & T.H. Christensen. 1996. In Situ and Laboratory Determined First Order Degradation Rate Constants of Specific Organic Compounds in an Aerobic
Aquifer. Environ. Sci. Technol., 30:31-37.
Nielsen, P.H., T.H., Christensen, H.-J. Albrechtsen, and R.W. Gillham, 1996b. Performance of the in-situ microcosm technique for measuring the degradation of organic chemicals in aquifers, Ground
Water Monitoring and Remediation, 16(1):130-140.
Nyer, E.K., F. Payne, & S. Suthersan, 2002. Environment vs. bacteria or let's play 'name that bacteria'. Ground Water Monitoring and Remediation 23:36-45.
Oldenhuis, R., R.L.J.M. Vink, D.B. Janssen, & B. Witholt. 1989. Degradation of chlorinated aliphatic hydrocarbons by Methylosinus trichosporium OB3b expressing soluble methane monooxygenase,
Appl. Environ. Microbiol., Nov. 1989:2819-2826.
Peeples, J.A., J.M. Warburton, I. Al-Fayyomi, & J. Haff. 2001. Enhanced Reductive Dechlorination of Ethenes: Large-Scale Pilot Testing. I: V.S. Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, & A.
Leeson (Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 165-171.
Quinton, G.E., D.E. Ellis, S.H. Shoemaker. 1997. "Cost Evaluation of Anaerobic Bioremediation VersusOther In Situ Technologies," in In Situ and On-Site Bioremediation: Volume 4, Battelle Press,
Columbus, OH, 1997
Ras N.J.P., Bioclear b.v., 9704 CG Groningen, Holland. Telefonisk samtale, februar 2004.
Railsback, R., G. S. Hardy, & R. Gillespie. 2002. Enhanced Reductive Dechlorination Results in Conditional Closure at Texas Dry Cleaner Facility. I: A.R. Gavaskar & A.S.C. Chen (Eds.), Remediation of
Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus, OH.
Reinhard, M., S. Shang, P.K. Kitanidis, E. Orwin, G.D. Hopkins, & C.A. Lebron. 1997. In Situ Biotransformation under Enhanced Nitrate- and Sulfate-Reducing Conditions. Environ. Sci. Technol.,
31:28-36.
Richardson, R.E., V.K. Bhupathiraju, D.L. Song, T.A. Goulet, & L. Alvarez-Cohen. 2002. Phylogenetic characterization of microbial communities that reductively dechlorinate TCE based upon a
combination of molecular techniques, Environ. Sci. Technol.,36:2652-2662.
Rijnaarts, H.H.M., W. Norde, E.J. Bouwer, J. Lyklema, & A.J.B. Zehnder. 1996. Bacterial Deposition in Porous Media: Effects of Cell Coating, Substratum Hydrophobicity, and Electrolyte Concentration.
Environ. Sci. Technol., 30(10):2877-2883.
Roberts, P.V., G.D. Hopkins, D.M. Mackay, & L. Semprini. 1990. A Field Evaluation of In situ Biodegradation of Chlorinated Ethenes. Part 1. Methodology and Field Site Characterization. Ground
Water, 28(4):591-604.
Robinson J.A. & J.M. Tiedje. 1984. Competition between sulfate-reducing and methanogenic bacteria for H2 under resting and growing conditions. Arch. Microbiol., 137:26-32.
Sandefur, C.A., K. Parrett, & K.A. Lapus. 2002. Bioremediaiton of a PCE Plume at a Dry Cleaner Site. I: A.R. Gavaskar & A.S.C. Chen (Eds), Remediation of Chlorinated and Recalcitrant Compounds.
Proceedings of the Third International Conference on Remediation of Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus Ohio. TJR tjekker
Scholz-Muramatsu, H., A. Neumann, M. Messmer, E. Moore, & G. Diekert. 1995. Isolation and Characterization of Dehalospirillum Multivorans Gen-Nov, Sp-Nov, A Tetrachloroethene-Utilizing,
Strictly Anaerobic Bacterium. Archives of Microbiology 163:48-56.
Schumacher, T.T., W.A. Bow, & J.P. Chitwood. 2000. A Field Demonstration Showing Enhanced Reductive Dechlorination Using Polymer Injection. I: G.B. Wickramanayake, A.R. Gavaskar, B.C.
Alleman, & V.S. Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 15-22.
Seagren, E.A., B.E. Rittman, & A.J. Valocchi. 1994. Quantitative Evaluation of the Enhancement of NAPL-Pool Dissolution by Flushing and Biodegradation. Environ. Sci. Technol., 28:833-839.
Semprini, L, G.D. Hopkins, P.V. Roberts, D. Ggalic, & P.L. McCarty. 1991. A field-evaluation of insitu biodegradation of chlorinated ethenes. 3. Studies of competitive-inhibition. Ground Water,
29:239-250.
Semprini, L, P.V. Roberts, G.D. Hopkins, & P.L. McCarty. 1990. A field-evaluation of insitu biodegradation of chlorinated ethenes. 2. Results of biostimulation and biotransformation experiments. Ground
Water, 28:715-727.
Sewell, G.W., B.H. Wilson, J.T. Wilson, D.H. Kampbell, & S.A. Gibson. 1991. Reductive dechlorination of tetrachloroethene and trichloroethene in fuel spill plumes, in Chemical and Biochemical
Detoxification of Hazardous Waste, Vol. II, J.A. Glaser, ed., Lewis Publishers, Boca Raton, FL.
Skoff, D.E., J.S. Holmes, & D. Peterson. 2002. Time-Release Electron Donor Application in a Low-Permeability PCE-Contaminated Aquifer. I: A.R. Gavaskar & A.S.C. Chen (Eds), Remediation of
Chlorinated and Recalcitrant Compounds. Proceedings of the Third International Conference on Remediation of Chlorinated and Recalcitrant Compounds. Battelle Press, Columbus Ohio.
Skubal, K.L., M.J. Barcelona, & P. Adriaens. 2001. An assessment of natural biotransformation of petroleum hydrocarbons and chlorinated solvents at an aquifer plume transect, Journal of Contaminant
Hydrology, 49:151-169.
Smatlak, C.R., J.M. Gossett, & S.H. Zinder. 1996. Comparative kinetics of hydrogen utilization for reductive dechlorination of tetrachloroethene and methanogenesis in an anaerobic enrichment culture,
Environ. Sci. Technol.,30:2850-2858.
Snodgrass, M.F., & P.K. Kitanidis. 1998. A Method to Infer in Situ Reaction Rates from Push-Pull Experiments. Ground Water, 36:645-650.
Stover M.A. 1993. MS Thesis; Cornell University, Ithaca, NY.
Stucki, G., U. Krebser, & T. Leisinger. 1983. Bacterial growth on 1,2-dichloroethane. Experientia, 39, pp. 1271-1273.
Sun,B.L., B.M. Griffin, H.L. Ayala-del-Rio, S.A. Hashsham, & J.M. Tiedje. 2002. Microbial dehalorespiration with 1,1,1-trichloroethane, Science, 298:1023-1025.
Tandoi,V., T.D. Distefano, P.A. Bowser, J.M. Gossett, & S.H. Zinder. 1994. Reductive Dehalogenation of Chlorinated Ethenes and Halogenated Ethanes by A High-Rate Anaerobic Enrichment Culture,
Environ. Sci. Technol.28:973-979.
Taylor, S.W., C.R. Lange, and E.A. Lesold. 1997. "Biofouling of Contaminated Groundwater Recovery. Wells: Characterization of Microorganisms", Ground Water, 35(6):973-980, 1997.
Thomas, J.H. and C.H. Ward. 1989. In situ biorestoration of organic contaminants in the subsurface. Environ. Sci. Technol. 23(7):760-766.
Uchiyama, H., T. Nakijima, O. Yagi, & T. Nakaharat. 1992. Role of heterotrophic bacteria in complete mineraliszation of trichloroethylene by Methylocystis sp strain-M. Appl. Environ. Microbiol., 58:
3067-3071.
U.S. Air Force. 1998. Aerobic Cometabolic In Situ Bioremediation Technology Guidance Manual and Screening Software User's Guide. Center for Environmental Excellence, Environmental Restoration
Division. Brooks Air Force Base, Texas. http://en.afit.af.mil/env/insitubio.htm
U.S. EPA. 2000a. Engineered Approaches to In Situ Bioremediation of Chlorinated Solvents: Fundamentals and Field Applications. EPA 542-R-00-008. http://www.epa.gov/tio/pub.htm
U.S. EPA. 2000b. Applicability of RCRA Section 3020 to In situ Treatment of Ground Water. http://www.epa.gov/epaoswer/hazwaste/ca/resource/ guidance/remwaste/refrnces/pol-mem3.pdf
U.S. EPA. 2000c. Case Study #6. Pilot and Full-Scale Anaerobic In-Situ Reactive Zone at an Abandoned Manufacturing Facility, Emeryville, California. In: Engineered Approaches to In Situ
Bioremediation of Chlorinated Solvents. EPA 542-R-00-008. pp. A-49:A-55
U.S. EPA. 2000d. Case Study #8. Bioaugmentation (Accelerated Anaerobic Bioremediation) Field Demonstration at Area 6 of the Dover Air Force Base, Dover Delaware. In: Engineered Approaches to
In Situ Bioremediation of Chlorinated Solvents. EPA 542-R-00-008. pp. A-42:A-48
Utkin, I., D.D. Dalton, & J. Wiegel. 1995. Specificity of reductive dehalogenation of substituted ortho-chlorophenols by Desulfitobacterium dehalogenans JW/IU-DC1. Appl. Environ. Microbiol.,
61:346.351.
Vandamme P, Holmes B, Vancanneyt M, Coenye T, Hoste B, Coopman R, et al. 1997. Occurrence of multiple genomovars of Burkholderia cepacia in cystic fibrosis patients and proposal of
Burkholderia multivorans sp nov. Int J Syst Bacteriol 1997;47:1188-200.
Vogel, T.M., & P.L. McCarty. 1985. Biotransformation of tetrachloroethylene to trichloroethylene, dichloroethylene, vinylchloride, and carbon dioxide under methanogenic conditions. Appl. Environ.
Microbiol., 49:1080-1083.
Vogel, T.M., & P.L. McCarty. 1987. Abiotic and biotic transformations of 1,1,1-trichlotoethane under methanogenic conditions. Environ. Sci. Technol., 21:1208-1213.
Vogel, T.M. 1994. Natural bioremediation of chlorinated solvents. I: Handbook of Bioremediation. R.D. Norris et al., eds., Lewis Publishers, Boca Raton, FL.
Vogel, T.M., C.S. Criddle & P.L. McCarty. 1987. Transformation of halogenated aliphatic compounds. Environ. Sci. Technol., 21:722-736.
Wiedemeier, T.H., H.S. Rifai, C.J. Newell, & J.T. Wilson. 1999. Natural Attenuation of fuels and chlorinated solvents in the subsurface. New York, USA: John Wiley & Sons, Inc.
Wild, A., R. Hermann, & T. Leisinger. 1996. Isolation of an anaerobic bacterium which reductively dechlorinates tetrachloroethene and trichloroethene. Biodegradation, 7:507-511.
Wilson, J.T., & B.H. Wilson, 1985. Biotransformation of Trichloroethylene in Soil, Appl. Environ. Microbiol., 49:242-243.
Wilson, R.D., D.M. Mackay, and K.M. Scow. 2002. In situ MTBE biodegradation supported by diffusive oxygen release. Environ. Sci. Technol. 36:190-199.
Wu, W.M., J. Nye, M.K. Jain, & R.F. Hickey. 1998. Anaerobic dechlorination of trichloroethylene (TCE) to ethylene using complex organic materials. Water Research, 32:1445-1454.
Yager, R.M., S.E. Bilotta, C.L. Mann, & E.L. Madsen. 1997. Metabolic adaptation and in situ attenuation of chlorinated ethenes by naturally occurring microorganisms in a fractured dolomite aquifer near
Niagara Falls, New York, Environ. Sci. Technol., 31: 3138-3147.
Yang, Y., & P.L. McCarty. 2000a. Biologically Enhanced Dissolution of Tetrachloroethene DNAPL. Environ. Sci. Technol.,34(14): 2979-2984.
Yang, Y. & P.L. McCarty. 2000b. Biomass, Oleate, and Other Possible Substrates for Chloroethene Reductive Dehalogenation. Bioremediation Journal. 4(2):125-133.
Yang, Y., & P.L. McCarty. 2002. Comparison Between Donor Substrates for Biologically Enhanced Tetrachloroethene DNAPL Dissolution. Environ. Sci. Technol.,36(15):3400-3404.
Yang, Y., & P.L. McCarty. 2003. Response to Comment on "Comparison Between Donor Substrates for Biologically Enhanced Tetrachloroethene DNAPL Dissolution." Environ. Sci. Technol.,
37(11):2620-2621.
Yang, Y.R., & P.L. McCarty. 1998. Competition for hydrogen within a chlorinated solvent dehalogenating anaerobic mixed culture, Environ. Sci. Technol., 32: 591-3597.
Young R.G. & J.M. Gossett. 1997. Effect of environmental parameters and concentrations on dechlorination of chloroethenes. Præsenteret på The Fourth International In Situ and On-Site Bioremediation
Symposium. New Orleans, LA.
Yu, S., & L. Semprini. 2002. Dechlorination of PCE DNAPL with TBOS Using a Binary Mixed Culture. I: A.R. Gavaskar & A.S.C. Chen (Eds.), Remediation of Chlorinated and Recalcitrant Compounds.
Battelle Press, Columbus, OH.
Zahiraleslamzadeh, Z.M., & J.C. Bensch. 2000. Enhanced Bioremediation Using Hydrogen Release Compound (HRC) in Clay Soils. I: G.B. Wickramanayake, A.R. Gavaskar, B.C. Alleman, & V.S.
Magar (Eds), Bioremediation and Phytoremediation of Chlorinated Recalcitrant Compounds. Battelle Press, Columbus Ohio. pp. 237-244. Also I: V.S. Magar, D.E. Fennell, J.J. Morse, B.C. Alleman, &
A. Leeson (Eds), Anaerobic Degradation of Chlorinated Solvents. Battelle Press, Columbus Ohio. pp. 221-228.
Zahiraleslamzadeh Z. M. & J.C. Bensch, 2001. Enhanced bioremediation using Hydrogen Release Compound (HRC) in clay soils. Bioremediation Field Case studies.
9.2 Referencer for henvendelse til myndigheder og rådgivere
Miljøstyrelsen. 2003. Spildevand- og vandforsyningskontoret, Christian Ammitsøe, 2003. Brev af 15. august 2003 med svar på COWI's spørgsmål vedrørende tilsætning af bakteriekulturer til grundvand.
Københavns Amt. 2003. Telefonsamtale med Peder Johansen, Københavns Amt. August 2003
Frederiksborg Amt. 2003: Telefonsamtale med Mads Ertebjerg Nielsen, Frederiksborg Amt. August 2003
Vejle Amt. 2003. Telefonsamtale med Rolf Johnsen, Vejle Amt. August 2003.
SKB. 2003. E-mail korrespondance med Bert Satijn, SKB (den hollandske miljøstyrelse, www.skbodem.nl), juli-august 2003. Bert.Satijn@Cur.nl.
Bioclear. 2003. E-mail korrespondance med Maurice Henssen, Bioclear BV (www.bioclear.nl), juli-august 2003. Henssen@bioclear.nl.
Tauw BV. 2003. E-mail korrespondance med Frank Volkering, Tauw BV (www.tauw.nl), juli-august 2003. Fvo@tauw.nl.
Fyns Amt. 2003. Telefonsamtale med Lone Frederiksen, Fyns Amt. September 2003
Storstrøms Amt. 2003. Telefonsamtale med Brian Tang Vestergård, Storstrøms Amt. September 2003
Geomatrix. 2003. Telefonsamtale med Peter Bennett, Geomatrix Consultants. September 2003
Arcadis. 2003. E-mail korrespondance med Jeff Burdick, Arcadis - Holland, September 2003
Tabel 9.1 Firmaer som er kontaktet i forbindelse med projektet
Land | Firma | Kontaktperson | Bemærkning |
USA | Geomatrix Consultants, www.geomatrix.com | Peter Bennett | Har givet oplysninger om bl.a. elektrondonorer, bioaugmentation, felterfaringer. Har fremsendt 4 artikler (grå litteratur) |
| Coler & Colantonio, Inc., www.col-col.com | Ingen | Ingen respons |
Holland | Bioclear BV, www.bioclear.ne | Maurice Henssen | Har udarbejdet en rapport som er vedlagt som bilag F. |
| Arcadis,www.arcadis-us.com | Jeff Burdick, Arcadis – Holland | Har givet overordnede oplysninger, bl.a. med behov for bioaugmentation. |
| Tauw BV,www.tauw.com | Frank Volkering | Har givet oplysninger om myndighedsforhold. |
| Forside | | Indhold | | Forrige | | Top |
Version 1.0 Februar 2005, © Miljøstyrelsen.
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