WRHSRC Publications:
Refereed Journal Articles, 1989-2003
This list is organized alphabetically. You can
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Refereed Journal Articles, 1989-2003
Abrams, R.H., K. Loague, and D.B. Kent, "Development and Testing of
a Compartmentalized Reaction Network Model for Redox Zones in Contaminated
Aquifers, " Water Resources Research, 34 (6), 1531-1541 (1998).
Abrams, R.H. and K. Loague, A compartmentalized solute transport model for
redox zones in contaminated aquifers. 1. Theory and development. Water Resources
Research, 36, 2001-2013 (2000).
Abrams, R.H. and K. Loague, A compartmentalized solute transport model for
redox zones in contaminated aquifers. 2. Field-scale simulations. Water Resources
Research, 36, 2015-2029 (2000).
Achong, G. R., A. Rodriguez, A. M. Spormann, “Role of benzylsuccinate
synthase in anaerobic toluene and m-xylene mineralization in Azoarcus sp.
strain T: Transcriptional organization of the structural genes and analysis
of a bssA mutant.” J. Bacteriol. 183 (23), 6763-6770 (2001).
Adriaens, P., “Evidence for Chlorine Migration During Oxidation of
2-Chlorobiphenyl by a Type II Methanotroph,” Applied and Environmental
Microbiology, 60(5), 1658-1662 (1994).
Adriaens, P. and D. Grbic ´ -Galic ´ , “Cometabolic Transformation
of Mono- and Dichlorobiphenyls and Chlorohydroxybiphenyls by Methanotrophic
Groundwater Isolates,” Environmental Science and Technology, 28(7),
1325-1330 (1994).
Alvarez-Cohen, L. and P.L. McCarty, “A Cometabolic Biotransformation
Model for Halogenated Aliphatic Compounds Exhibiting Product Toxicity,” Environmental
Science and Technology, 25(8), 1381-1387 (1991).
Alvarez-Cohen, L. and P.L. McCarty, “Effects of Toxicity, Aeration,
and Reductant Supply on Trichloroethylene Transformation by a Mixed Methanotrophic
Culture,” Applied and Environmental Microbiology, 57(1), 228-235 (1991).
Alvarez-Cohen, L. and P.L. McCarty, “Product Toxicity and Cometabolic
Competitive Inhibition Modeling of Chloroform and Trichloroethylene by Methanotrophic
Resting Cells,” Applied and Environmental Microbiology, 57(4), 1031-1037
(1991).
Alvarez-Cohen, L. and P.L. McCarty, “Two-Stage Dispersed-Growth Treatment
of Halogenated Aliphatic Compounds by Cometabolism,” Environmental Science
and Technology, 25(8), 1387-1393 (1991).
Alvarez-Cohen, L., P.L. McCarty, E. Boulygina, R.S. Hanson, G.A. Brusseau,
and H.C. Tsien, “Characterization of a Methane-Utilizing Bacterium from
a Bacterial Consortium that Rapidly Degrades Trichloroethylene and Chloroform,” Applied
and Environmental Microbiology, 85(6), 1886-1893 (1992).
Alvarez-Cohen, L., P.L. McCarty, and P.V. Roberts, “Sorption of Trichloroethylene
onto a Zeolite, Accompanied by Methanotrophic Biotransformation,” Environmental
Science and Technology, 27(10), 2141-2148 (1993).
Anderson, J.E. and P.L. McCarty, “Model for Treatment of Trichloroethylene
by Methanotrophic Biofilms,” Journal of Environmental Engineering, 120(2),
379-400 (1994).
Anderson, J.E. and P.L. McCarty, "Effect of Three Chlorinated Ethenes
on Growth Rates for a Methanotrophic Mixed Culture," Environmental Science
and Technology, 30(12), 3517-3524 (1996).
Anderson, J.E. and P.L. McCarty, “Effect of Chlorinated Ethenes on
Smin for a Methanotrophic Mixed Culture,” Environmental Science and
Technology, 31(8), 2204-2210 (1997).
Anderson, J.E. and P.L. McCarty, "Transformation Yields of Chlorinated
Ethenes by a Methanotrophic Mixed Culture Expressing Particulate Methane Monooxygenase," Applied
and Environmental Microbiology, 63(2), 687-693 (1997).
Arp, D.J., “Understanding the Diversity of Trichloroethylene Co-Oxidations,” Current
Opinion in Biotechnology, 6, 352-358 (1995).
Arp, D. J., C.M. Yeager and M. R. Hyman. Molecular and Cellular Fundamentals
of Aerobic Cometabolism of Trichloroethylene, Biodegradation. 12, 81-103,
(2001)
Bae, J., L. Semprini, and P.L. McCarty, “Apparatus for Down-Well Oxygen
Transfer into Contaminated Aquifers,” Journal of Environmental Engineering,
121(8), 565-570 (1995).
Ball, H.A., H.A. Johnson, M. Reinhard, and A.M. Spormann, "Initial Reactions
in Anaerobic Ethylbenzene Oxidation by a Denitrifying Bacterium, Strain EB1," Journal
of Bacteriology, 178(19), 5755-5761 (1996).
Ball, H.A. and M. Reinhard, “Monoaromatic Hydrocarbon Transformation
Under Anaerobic Conditions at Seal Beach, California: Laboratory Studies,” Environmental
Toxicology and Chemistry, 15(2), 114-122, (1996).
Beller, H.R., M. Reinhard, and D. Grbic ´ -Galic ´ , “Metabolic
By-Products of Anaerobic Toluene Degradation by Sulfate-Reducing Enrichment
Cultures,” Applied and Environmental Microbiology, 58(9), 3192-3195
(1992).
Beller, H.R. and M. Reinhard, "The Role of Iron in Enhancing Anaerobic
Toluene Degradation in Sulfate-Reducing Enrichment Cultures," Microbial
Ecology, 30, 105-114 (1995).
Beller, H.R., W.H. Ding, and M. Reinhard, “Byproducts of Anaerobic
Alkylbenzene Metabolism Useful as Indicators of in Situ Bioremediation,” Environmental
Science and Technology, 29(11), 2864-2870 (1995).
Beller, H.R., A.M. Spormann, P. Sharma, J.R. Cole, and M. Reinhard, “Isolation
and Characterization of a Novel Toluene-Degrading, Sulfate-Reducing Bacterium,” Applied
and Environmental Microbiology, 62(4), 1188-1196, (1996).
Beller, H.R. and A.M. Spormann, "Anaerobic Activation of Toluene and
o-Xylene by Addition to Fumarate in Denitrifying Strain T," Journal of
Bacteriology, 179(3), 670-676 (1997).
Beller, H.R. and A.M. Spormann, "Benzylsuccinate Formation as a Means
of Anaerobic Toluene Activation by Sulfate-Reducing Strain PRTOL1," Applied
and Environmental Microbiology, 63(9), 3729-3731 (1997).
Beller, H.R., and A. M. Spormann, "Analysis of the Novel Benzylsuccinate
Synthase Reaction for Anaerobic Toluene Activation Based on Structural Studies
of the Product," Journal of Bacteriology 180(20), 5454-5457 (1998).
Beller, H.R. and A. M. Spormann, "Substrate Range of Benzylsuccinate
Synthase from
Azoarcus Strain T," FEMS Microbiology Letters, (178) 147-153 (1999)
Cantrell, K.M. and Ingle, J.D., Jr., 2003, "The SLIM Spectrometer," Analytical
Chemistry, Vol. 75, No. 1, p. 27-35.
Cao, J., and P. K. Kitanidis, "Pore-scale Dilution of Conservative Solutes:
An Example," Water Resoures Research, 34(8), 1941-1949, (1998).
Cao, J., and P. K. Kitanidis, "Adaptive-Grid Simulation of GroundWater
Flow in Hetero-geneous Aquifers." Adv. in Water Resources, 22(1), 17-31
(1998).
Cao, J., and P.K. Kitanidis, "Adaptive Finite-Element Simulation of
Stokes Flow in Porous Media," Adv. in Water Resour., 22(7), 681-696,
(1999).
Chiu, P.C. and M. Reinhard, "Metallocoenzyme-Mediated Reductive Transformation
of Carbon Tetrachloride in Titanium(III) Citrate Aqueous Solution," Environmental
Science and Technology, 29, 595-603 (1995).
Chiu, P.C. and M. Reinhard, “Transformation of Carbon Tetrachloride
by Reduced Vitamin B12 in Aqueous Cysteine Solution,” Environmental
Science and Technology, 30(6), 1882-1889 (1996).
Chu, M., Kitanidis, P. K. and McCarty, P. L., “Effects of Biomass Accumulation
on Biologically Enhanced Dissolution of a PCE Pool: A Numerical Simulation.” Journal
of Contaminant Hydrology, 65, 75-100 (2003).
Chrysikopoulos, C.V., P.K. Kitanidis, and P.V. Roberts, “Analysis of
One-Dimensional Solute Transport through Porous Media with Spatially Variable
Retardation Factor,” Water Resources Research, 26(3), 437-446 (1990).
Chrysikopoulos, C.V., L.M. Hildemann, and P.V. Roberts, “Modeling the
Emission and Dispersion of Volatile Organics from Surface Aeration Water Treatment
Facilities,” Water Resources Research, 26(8), 1045-1052 (1992).
Chrysikopoulos, C.V., L.M. Hildemann, and P.V. Roberts, “A Three-Dimensional
Atmospheric Dispersion-Deposition Model for Emissions from a Ground-Level
Area Source,” Atmospheric Environment, 26A(5), 747-757 (1992).
Chrysikopoulos, C.V., P.K. Kitanidis, and P.V. Roberts, “Generalized
Taylor-Aris Moment Analysis of the Transport of Sorbing Solutes Through Porous
Media with Spatially Periodic Retardation Factor,” Transport in Porous
Media, 7, 163-185 (1992).
Chrysikopoulos, C.V., P.K. Kitanidis, and P.V. Roberts, “Macrodispersion
of Sorbing Solutes in Heterogeneous Porous Formations in Spatially-Periodic
Retardation and Velocity Field,” Water Resources Research, 28(6), 1517-1529
(1992).
Chu, M., Kitanidis, P. K. and McCarty, P. L., “Effects of Biomass Accumulation
on Biologically Enhanced Dissolution of a PCE Pool: A Numerical Simulation.” Journal
of Contaminant Hydrology, in press (2002).
Cole, J.D., S.L. Woods, and T.R. Bricker, "Pentachlorophenol Reductive
Dechlorination in an Interceptor Trench: Temperature Effects," Ground
Water, 34(5), 784-790 (1996).
Cozza, C.L. and S.L. Woods, “Reductive Dechlorination Pathways for
Substituted Benzenes: a Correlation with Electronic Properties,” Biodegradation,
2, 265-278 (1992).
Cunningham, J.A., H. Rahme, G.D. Hopkins, and M. Reinhard. “Enhanced
in situ Bioremediation of BTEX-Contaminated Groundwater by Combined Injection
of Nitrate and Sulfate,” Environmental Science and Technology, 35(8)
1663-1670 (2001).
Cupples, A. M., Spormann, A. M., and McCarty, P. L., “Growth of a Dehalococcoides-like
Microorganism on Vinyl Chloride and cis-Dichloroethene as Electron Acceptors
as Determined by Competitive PCR,” Applied and Environmental Microbiology,
69(2) 953-959 (2003).
Curry, S., L. Ciuffetti, and M. Hyman, "Inhibition of growth of a Graphium
sp. on gaseous n-alkanes by gaseous n-alkynes and n-alkenes," Applied
and Environmental Microbiology, 62, 2198-2200 (1996).
Dawson, H.E. and P.V. Roberts, “Influence of Viscuous, Gravitational,
and Capillary Forces on DNAPL Saturation,” Ground Water, 35(2), 261-269
(1997).
Dillard, L.A., and M.J. Blunt, "Development of a Pore Network Simulation
Model to Study Nonaqueous Phase Liquid Dissolution," Water Resources
Research, 36(2), 439-454 (2000).
Dillard, L.A., H.I. Essaid, and M.J. Blunt, A functional relation for field-scale
nonaqueous phase liquid dissolution developed using a pore network model,
J. Contaminant Hydrology, in press.
Dolan, M.E. and P.L. McCarty, “Methanotrophic Chloroethene Transformation
Capacities and 1,1-Dichloroethene Transformation Product Toxicity,” Environmental
Science and Technology, 29(11), 2741-2747 (1995).
Dolan, M.E. and P.L. McCarty, "Small-Column Microcosm for Assessing
Methane-Stimulated Vinyl Chloride Transformation in Aquifer Samples,” Environmental
Science and Technology, 29(8), 1892-1897 (1995).
Donaldson, J.H., J.D. Istok, M.D. Humphrey, K.T. O'Reilly, C.A. Hawelka,
and D.H. Mohr, "Development and Laboratory Testing of a Kinetic Model
for Dissolved Oxygen Partitioning and Transport in Porous Media in the Presence
of Trapped Gas," Ground Water, 40(1), 113-119 (1997).
Donaldson, J.H., J.D. Istok, and K.T. O'Reilly, "Dissolved Gas Transport
in the Presence of a Trapped Gas Phase: Development and Laboratory Testing
of a Two-Dimensional Kinetic Model", Ground Water, 36(1), 133-142 (1998).
Drefahl, A. and M. Reinhard, “Similarity-Based Search and Evaluation
of Environmentally Relevant Properties for Organic Compounds in Combination
with the Group Contribution Approach,” Journal Chem. Info. Comp. Sci.,
33, 886-895 (1993).
Dupin, H.J. and McCarty, P.L., "Mesoscale and Microscale Observations
of Biological Growth in a Silicon Pore Imaging Element, Environmental Science
and Technology, 33(8), 1230-1236 (1999).
Dupin, H. J. and McCarty, P. L., “Impact of Colony Morphologies and
Disinfection on Biological Clogging in Porous Media,” Environmental
Science & Technology (8) 34, 1513-1520 (2000).
Dupin, H. J., Kitanidis, P., and McCarty, P., “Simulations of Two Dimensional
Modeling of Biomass Aggregate Growth in Network Models,”Water Resources
Research, 37(12), 2981-2994 (2001).
Dupin, H. J., Kitanidis, P. and McCarty, P. L. “Pore-Scale Modeling
of Biological Clogging Due to Aggregate Expansion: A Material Mechanics Approach,” Water
Resources Research, 37(12), 2965-2979 (2001).
Dykaar, B.B. and P.K. Kitanidis, “Determination of Effective Hydraulic
Conductivity for Heterogeneous Porous Media Using a Numerical Spectral Approach:
1. Method,” Water Resources Research, 28(4), 1155-1166 (1992).
Dykaar, B.B. and P.K. Kitanidis, “Determination of Effective Hydraulic
Conductivity for Heterogeneous Porous Media Using a Numerical Spectral Approach:
2. Results,” Water Resources Research, 28(4), 1167-1178 (1992).
Dykaar, B.B. and P.K. Kitanidis, “Transmissivity of a Heterogeneous
Formation,” Water Resources Research, 31(5), 985-1001 (1993).
Dykaar, B.B. and P.K. Kitanidis, “Macrotransport of a biologically
reacting solute through porous media,” Water Resources Research, 32(2),
307-320 (1996).
Edwards, E.A., and D. Grbic ´ -Galic ´ , “Complete Mineralization
of Benzene by Aquifer Microorganisms under Strictly Anaerobic Conditions,” Applied
and Environmental Micro-biology, 58(8), 2663-2666 (1992).
Edwards, E.A., L.E. Wills, M. Reinhard, and D.Grbic ´ -Galic ´ , “Anaerobic
Degradation of Toluene and Xylene by Aquifer Microorganisms under Sulfate-Reducing
Conditions,” Applied and Environmental Microbiology, 58(3), 794-800
(1992).
Edwards, E.A. and D. Grbic ´ -Galic ´ , “Anaerobic Degradation
of Toluene and o-Xylene by a Methanogenic Consortium,” Applied and Environmental
Microbiology, 60(1), 313-322 (1994).
Edwards, E.A., A.M. Edwards, and D. Grbic ´ -Galic ´ , “A
Method for Detection of Aromatic Metabolites at Very Low Concentrations: Application
to Detection of Metabolites of Anaerobic Toluene Degradation,” Applied
and Environmental Microbiology, 60(1), 323-327 (1994).
Ely, R.L., K.J. Williamson, R.B. Guenther, M.R. Hyman, and D.J. Arp, “A
Cometabolic Kinetics Model Incorporating Enzyme Inhibition, Inactivation,
and Recovery: 1. Model Development, Analysis, and Testing,” Biotechnology
and Bioengineering, 46, 218-231 (1995).
Ely, R.L., M.R. Hyman, D.J. Arp, R.B. Guenther, and K.J. Williamson, “A
Cometabolic Kinetics Model Incorporating Enzyme Inhibition, Inactivation,
and Recovery: 2. Trichlorotheylene Degradation Experiments,” Biotechnology
and Bioengineering, 46, 232-245 (1995).
Ely, R. L., K.J. Williamson, M.R. Hyman, and D.J. Arp, "Cometabolism
of Chlorinated Solvents by Nitrifying Bacteria: Kinetics, Substrate Interactions,
Toxicity Effects, and Bacterial Response," Biotechnology and Bioengineering,
54(6), 520-534 (1997).
Farrell, J. and M. Reinhard, “Desorption of Halogenated Organics from
Model Solids, Sediments, and Soil Under Unsaturated Conditions: 1. Isotherms,” Environmental
Science and Technology, 28(1), 53-62 (1994).
Farrell, J. and M. Reinhard, “Desorption of Halogenated Organics from
Model Solids, Sediments, and Soil Under Unsaturated Conditions: 2. Kinetics,” Environmental
Science and Technology, 28(1), 63-72 (1994).
Fleming F.F., J.T. Hovermale, J.F. White, and A.M. Craig, “Improved
Labelling Methods for C9-2H-Retronecine,” Heterocycles, 38(1), 135-139
(1993).
Fraley, C.D., J.H. Kim, M.P. McCann, and A. Matin, "The Escherichia
coli Starvation Gene, cstC, is Involved in Amino Acid Cometabolism," Journal
of Bacteriology, 180, 4287 (1998).
Francois, O., T. Gilmore, M.J. Pinto, and S.M. Gorelick, "A Physically
Based Model for Air-Lift Pumping," Water Resources Research, 32(8), 2383-2399
(1996).
Fry, V.A., J.D. Istok, and R.B. Guenther, “An analytical solution to
the solute transport equation with rate-limited desorption and decay,” Water
Resources Research, 29(9), 3201-3208 (1993).
Fry, V.A., J.D. Istok, and K.T. O'Reilly, "Effect of Trapped Gas on
Dissolved Oxygen Transport - Implications for In Situ Bioremediation," Ground
Water, 34(2), 200-210 (1996).
Fry, V. A., J. S. Selker, and S.M. Gorelick, "Experimental Investigations
for Trapping Oxygen Gas in Saturated Porous Media for in situ Bioremediation," Water
Resources Research. 33(12), 2687-2696 (1997).
Gailey, R.M., A.S. Crowe, and S.M. Gorelick, “Coupled Process Parameter
Estimation and Prediction Uncertainty Using Hydraulic Head and Concentration
Data,” Advances in Water Resources, 14(5), 301-314 (1991).
Gailey, R.M. and S.M. Gorelick, “Design of Optimal, Reliable Plume
Capture Schemes: Application to the Gloucester Landfill Groundwater Contamination
Problem,” Ground Water, 31(1), 107-114 (1993).
Gandhi, R. K., Hopkins, G. D., Goltz, M. N., Gorelick, S. M., and McCarty,
P. L., “Full-Scale Demonstration of In Situ Cometabolic Biodegradation
of Trichloroethylene in Groundwater, 1: Dynamics of a Recirculating Well System,” Water
Resources Research, 38(4), 10.1- 10.16 (2002).
Gandhi, R. K., Hopkins, G. D., Goltz, M. N., Gorelick, S. M., and McCarty,
P. L., “Full-Scale Demonstration of In Situ Cometabolic Biodegradation
of Trichloroethylene in Groundwater, 2: Comprehensive Analysis of Field Data
Using Reactive Transport Modeling,” Water Resources Research, 38(4),
11.1 - 11.19 (2002).
Goltz, M.N., G.C. Mandalas, G.D. Hopkins, and P.L. McCarty, "Technology
Transfer of an Innovative Remediation Technology from the Laboratory to the
Field: A Case Study of In Situ Aerobic Cometabolic Bioremediation," Environmental
Engineering and Policy, 1 117-124 (1998).
Goltz, M.N. and K.J. Williamson, “Transfer and Commercialisation of
Contaminated Groundwater Remediation Technologies,” International Journal
of Technology Transfer and Commercialisation, 1(4), 329-346 (2002).
Gorelick, S.M., “Large Scale Nonlinear Deterministic and Stochastic
Optimization: Formulations Involving Simulation of Subsurface Contamination,” Mathematical
Programming, 48, 19-39 (1990).
Grathwohl, P. and M. Reinhard, “Desorption of Trichloroethylene in
Aquifer Materials: Rate Limitation at the Grain Scale,” Environmental
Science and Technology, 27(12), 2360-2366 (1993).
Grbic ´ -Galic ´ , D., “Anaerobic Transformation of Aromatic
Hydrocarbon Pollutants under Fermentative/Methanogenic Conditions,” Periodicum
Biologorum, 93(4), 533-546 (1991).
Grbic ´ -Galic ´ , D., “Methanogenic Transformation of
Aromatic Hydrocarbons and Phenols in Groundwater Aquifers,” Geomicrobiol.
J., 8, 167-200 (1991).
Gvirtzman, H. and P. Roberts, “Pore Scale Spatial Analysis of Two Immiscible
Fluids in Porous Media,” Water Resources Research, 27(6), 1165-1176
(1991).
Gvirtzman, H. and S.M. Gorelick, “Using Air-lift Pumping as an In-Situ
Aquifer Remediation Technique,” Water Science Technology, 27(7-8), 195-201
(1993).
Haag, F., M. Reinhard, and P.L. McCarty, “Degradation of Toluene and
p-Xylene in Anaerobic Microcosms: Evidence for Sulfate as a Terminal Electron
Acceptor,” Environmental Toxicology and Chemistry, 10, 1379-1389 (1991).
Habeck, D.B. and K.L. Sublette, “Reductive Dechlorination of Tetrachloride
(PCE) Catalyzed by Cyanocobalamin,” Center for Environmental Research
and Technology, University of Tulsa, Applied Biochemistry and Biotechnology,
51/52, 747-759 (1995).
Haggerty, R., and S.M. Gorelick, “Design of Multiple Contaminant Remediation:
Sensitivity to Rate-Limited Mass Transfer,” Water Resources Research,
30(2), 435-446 (1994).
Haggerty, R., and S.M. Gorelick, “Multiple-Rate Mass Transfer for Modeling
Diffusion and Surface Reactions in Media with Pore-Scale Heterogeneity,” Water
Resources Research, 31(10), 2383-2400 (1995).
Haggerty, R. and S.M. Gorelick, "Modeling Mass Transfer Processes in
Soil Columns with Pore-Scale Heterogeneity," Soil Sci. Soc. Am. J., 62(1),
62-74 (1998).
Haggerty, R., M.H. Schroth, and J.D. Istok, "Simplified Method of "Push-Pull" Test
Data Analysis for Determining In Situ Reaction Rate Coefficients," Ground
Water, 36(2), 314-324 (1998).
Hamamura, N., C. Page, T. Long, L. Semprini, and D.J. Arp, "Chloroform
Cometabolism by Butane-Grown CF8, Pseudomonas butanovora, Mycobacterium vaccae
JOB 5, and Methane-Grown Methylosinus trichosporium OB3b," Applied and
Environmental Micro-biology, 63(9), 3607-3613 (1997).
Hamamura, N., R.T. Storfa, L. Semprini, and D.J. Arp, “Diversity in
butane monooxygenases among butane-grown bacteria,” Appl. Environ. Microbiol.
65, 4586-4593 (1999).
Hamamura, N. and D.J. Arp, “Isolation and characterization of alkane-utilizing
Nocardiodes sp. Strain CF8,” FEMS Microbiology Lett. 186, 21-26 (2000).
Hardison, L.K., S.S. Curry, L.M. Ciuffetti, and M.R. Hyman, "Metabolism
of Diethyl Ether and Cometabolism of Methyltert -Butyl Ether by a Filamentous
Fungus, a Graphium sp.," Applied and Environmental Microbiology, 63(8),
3059-3067 (1997).
Harmon, T.C. and P.V. Roberts, “Determining and Modeling Mass Transfer
Rate Limitations in Heterogeneous Aquifers,” Water Science and Technology,
26(1-2), 71-77 (1992).
Harmon, T.C., L. Semprini, and P.V. Roberts, “Simulating Groundwater
Solute Transport Using Laboratory-based Determined Sorption Parameters,” Journal
of Environmental Engineering,” 118(5), 666-689 (1992).
Harmon, T.C. and P.V. Roberts, “Comparison of Intraparticle Sorption
and Desorption Rates for a Halogenated Alkene in a Sandy Aquifer Material,” Environmental
Science and Technology, 28(9), 1650-1660 (1994).
Harmon, T.C. and P.V. Roberts, “The Effect of Equilibration Time on
Desorption Rate Measurements with Chlorinated Alkenes and Aquifer Particles,” Environmental
Progress, 13(1), 1-8 (1994).
Harvey, C.F., R. Haggerty, and S.M. Gorelick, “Aquifer remediation:
A method for estimating mass transfer rate coefficients and an evaluation
of pulsed pumping,” Water Resources Research, 30(7), 1979-1991 (1994).
Haston, Z.C. and McCarty, P.L., "Chlorinated Ethene Half-Velocity Coefficients
(KS) for Reductive Dehalogenation," Environmental Science and Technology,
33(2), 223-226 (1999).
Heider, J., A.M. Spormann, H.B. Beller, and F. Widdel, Anaerobic bacterial
metabolism of hydrocarbons, FEMS Microbiology Review, 22(5) 459-473 (1998).
Henry, S.M. and D. Grbic ´ -Galic ´ , “Influence of Endogenous
and Exogenous Electron Donors and Trichloroethylene Oxidation Toxicity on
Trichloroethylene Oxidation by Methanotrophic Cultures from a Ground Water
Aquifer,” Applied and Environmental Microbiology, 57(1), 236-244 (1991).
Henry, S.M. and D. Grbic ´ -Galic ´ , “Inhibition of Trichloroethylene
Oxidation by the Transformation Intermediate Carbon Monoxide,” Applied
and Environmental Microbiology, 57, 1770-1776 (1991).
Henrysson, T. and P.L. McCarty, “Influence of the Endogenous Storage
Lipid Poly-b-Hydroxybutyrate on the Reducing Power Availability During Cometabolism
of Trichloroethylene and Napthalene by Resting Methanotrophic Mixed Cultures,” Applied
and Environmental Microbiology, 59(5), 1602-1606 (1993).
Hickman, A. B., W. Delinger, R. Helburn. "Calculator -Based Instrumentation:
The Design of a Digital Interface Based on (IC)-C-2 Technology". J. Chem.
Ed. 77(2), 255-257 (2000).
Hopkins, G.D., J. Munakata, L. Semprini, and P.L. McCarty, “Trichloroethylene
Concentration Effects on Pilot Field Scale In-Situ Groundwater Bioremediation
by Phenol-Oxidizing Bacteria,” Environmental Science and Technology,
27, 2542-2547 (1993).
Hopkins, G.D., L. Semprini, and P.L. McCarty, “Microcosm and In Situ
Field Studies of Enhanced Biotransformation of Trichloroethylene by Phenol-Utilizing
Microorganisms,” Applied and Environmental Microbiology, 59, 2277-2285
(1993).
Hopkins, G.D. and P.L. McCarty, “Field Evaluation of in Situ Aerobic
Cometabolism of Trichloroethylene and Three Dichloroethylene Isomers Using
Phenol and Toluene as the Primary Substrates,” Environmental Science & Technology,
29(6), 1628-1637 (1995).
Hyman, M.R., C.L. Page, and D.J. Arp, “Oxidation of Methyl Fluoride
and Dimethyl Ether by Ammonia Monooxygenase in Nitrosomonas europaea,” Applied
and Environmental Microbiology, 60, 3033-3035 (1994).
Hyman, M.R., S.A. Russell, R.L. Ely, K.J. Williamson, and D.J. Arp, “Inhibition,
Inactivation, and Recovery of Ammonia-Oxidizing Activity in Cometabolism of
Trichloroethylene by Nitrosomas europaea,” Applied and Environmental
Microbiology, 61(4), 1480-1487 (1995).
Istok, J.D., M.D. Humphrey, M.H. Schroth, M.R. Hyman, and K.T. O'Reilly,
'Single-Well, "Push- Pull" Test for In Situ Determination of Microbial
Metabolic Activities", Ground Water, 35(4), 619-631 (1997).
Jenal-Wanner, U. and P.L. McCarty, "Development and Evaluation of Semicontinuous
Slurry Microcosms to Simulate In Situ Biodegradation of Trichloroethylene
in Contaminated Aquifers," Environmental Science and Technology, 31(10),
2915-2922 (1997).
Johnson, H. A. and A. M. Spormann, "In vitro Studies on the Initial
Reactions of Anaerobic Ethylbenzene Mineralization," J. Bacteriol., 181,
5662-5668 (1999).
Johnson H. A., D. A. Pelletier, and A. M. Spormann, “Isolation and
Purification of Anaerobic Ethylbenzene Dehydrogenase, a Novel Mo-Fe-S Enzyme.” J.
Bacteriol., 183, 4536-4542 (2001).
Jones, B. D. and Ingle,Jr., J. D. "Evaluation of Immobilized Redox Indicators
as Reversible, In Situ Redox Sensors for Determining Fe(III)-Reducing Conditions
in Environmental Samples," Talanta, 55(4), 699-714 (2001).
Kim, Y, D.J. Arp, and L. Semprini, “A Combined Method for Determining
Inhibiton Type, Kinetic Parameters, and Inhibition Coefficients for Aerobic
Cometabolism of 1,1,1-Trichloroethane by a Butane-Grown Mixed Culture”.
Biotechnology and Bioengineering, 77, 564-576 (2002).
Kim, Y. D.J. Arp, and L. Semprini. “Kinetic and Inhibition Studies
for the Aerobic Cometabolism of 1,1,1-Trichloroethane, 1,1-Dichloroethylene,
and 1,1-Dichloroethane by a Butane-Grown Mixed Culture.” Biotechnology
and Bioengineering, 80(5), 498-508 (2002).
Keller, A.A., P.V. Roberts, and P.K. Kitanidis, "Prediction of Single
Phase Transport Parameters in a Variable Aperture Fracture," Geophysical
Research Letters, 22(11) 1425-1428 (1995).
Keller, A.A., M.J. Blunt, and P.V. Roberts, “Micromodel Observation
of the Role of Oil Layers in Three Phase Flow,” Transport in Porous
Media, 26, 277-297 (1997).
Keller, A. A., "High Resolution, Non-Destructive Measurement and Characterization
of Fracture Apertures," Int. J. Rock Mech. Min. Sci., 35(8), 1037-1050
(1998).
Keller, A.A., P.V. Roberts and M.J. Blunt, "Effect of Fracture Aperture
Variations on Dispersion of Contaminants," Water Resources Research," 35(1)
55-63 (1999).
Keller, A. A., M. J. Blunt and P. V. Roberts, "Behavior of Non-Aqueous
Phase Liquids in fractured porous media under two-phase flow conditions",
Transport in Porous Media, 38(1-2), 1135-1137 (2000).
Khaodhiar, S., M. F. Azizian, and P. O. Nelson, "Copper, Chromium, and
Arsenic Adsorption and Equilibrium Modeling in an Iron-Oxide-Coated Sand,
Background Electrolyte System," Water Air and Soil Pollution, 119(1-4),
105-120 (2000).
Kim, Y., L.S. Watrud, and A. Matin, "A Carbon Starvation Survival Gene
Of Pseudomonas putida is Regulated By s54 ", Journal of Bacteriology,
177(7), 1850-1859 (1995).
Kim, Y., L. Semprini, and D.J. Arp, “Aerobic Cometabolism of Chloroform
and 1,1,1-Trichloroethane by Butane Grown Microorganisms,” Bioremediation
Journal, 1(2), 135-148 (1997).
Kim, Y., D.A. Arp and L. Semprini, “Aerobic Cometabolism of Chlorinated
Methanes, Ethanes, and Ethenes by Butane-utilizing Microorganisms,” J.
Enviro. Engr., 126(10), 934-942 (2000).
Kitanidis, P.K., “Effective Hydraulic Conductivity for Gradually Varying
Flow,” Water Resources Research, 26(6), 1197-1208 (1990).
Kitanidis, P.K., “Orthonormal Residuals in Geostatistics: Model Criticism
and Parameter Estimation,” Mathematical Geology, 23(5), 741-758 (1991).
Kitanidis, P.K., “Analysis of Macrodispersion through Volume-Averaging:
Moment Equations,” Stochastic Hydrology and Hydraulics, 6, 5-25 (1992).
Kitanidis, P.K., “Generalized Covariance Functions in Estimation,” Mathematical
Geology, 25(5), 525-540 (1993).
Kitanidis, P.K., “The Concept of the Dilution Index,” Water Resources
Research, 30(7), 2011-2026 (1994).
Kitanidis, P.K., “Quasi-linear Geostatistical Theory for Inversing,” Water
Resources Research, 30(10), 2411-2419 (1995).
Kitanidis, P.K., "Analytical Expressions of Conditional mean, Covariance,
and Sample Functions in Geostatistics," Journal of Stochastic Hydrology
and Hydraulics, 10(4), 279-294 (1996).
Kitanidis, P.K., "On the geostatistical approach to the inverse problem," Advances
in Water Resources, 19(6), 333-342 (1996).
Kitanidis, P.K. and K.-F. Shen, "Geostatistical Interpolation of Chemical
Concentration," Advances in Water Resources, 19(6), 369-378 (1996).
Kitanidis, P.K., "The minimum structure solution to the inverse problem," Water
Resources Research, 33(10), 2263-2272 (1997).
Kitanidis, P.K., "A Variance-Ratio Test for Supporting a Variable Mean
in Kriging," Mathematical Ecology, 29(3), 335-348 (1997).
Kitanidis, P.K. and B.B. Dykaar, “Stokes flow in a slowly varying two-dimensional
periodic pore,” Transport in Porous Media, 26(1), 89-98 (1997).
Kitanidis, P. K., "How Observations and Structure Affect the Geostatistical
Solution to the Steady-State Inverse Problem", Ground Water, 36(5), 754-763
(1998).
Lang, M.M., P.V. Roberts, and L. Semprini, "Model Simulations in Support
of Field Scale Design and Operation of Bioremediation Based on Cometabolic
Degradation," Ground Water, 35(4), 565-573 (1997).
Lemmon, T.C., J.C. Westall, and J.D. Ingle, Jr., “Development of Redox
Sensors for Environmental Applications Based on Immobilized Redox Indicators,” Analytical
Chemistry, 68(6), 947-953 (1996).
Lin, J.S. and L.M. Hildemann, “A Nonsteady-State Analytical Model to
Predict VOC Emissions from Landfills,” Journal of Hazardous Materials,
40(3), 271-295 (1995).
Lin, J.S. and L.M. Hildemann, “Analytical Solutions of the Atmospheric
Diffusion Equation with Multiple Sources and Height-Dependent Wind Speed and
Eddy Diffusitivities,” Atmospheric Environment, 30(2), 239-254 (1996).
Lin, J.S. and L. Hildemann, "A Generalized Mathematical Scheme to Analytically
Solve the Atmospheric Diffusion Equation with Dry Deposition," Atmospheric
Environment, 31(1), 59-71 (1997).
Lin, J.-S. and L.M. Hildemann, "Modeling Vertical Spread of Airborne
Pollutants from Sources Near Ground Level - Comparison with Field Measurements," Journal
of Environmental Engineering, 123(12), 1194-1202 (1997).
Lotrario, J.B. and S.L. Woods, "Comparison of the Correlation of MEP
and the Free Energies of Reaction with Nitro Group Reduction of Nitrotoluene
Congeners," Bioremediation, 1(2), 115-122 (1997).
Lowry G.V. and M. Reinhard, "Pd-Catalyzed TCE Dechlorination in Groundwater:
Solute Effects, Biological Control, and Oxidative Catalyst Regeneration,"Environ.
Sci. Technol., 34(15), 3217-3223 (2000).
MacDonald, T.R. and P.K. Kitanidis, “Modeling the Free Surface of an
Unconfined Aquifer Near a Recirculation Well,” Ground Water, 31(5),
774-788 (1993).
MacDonald, T.R., P.K. Kitanidis, P.L. McCarty, P.V. Roberts, “Mass
Transfer Limitations for Macroscale Bioremediation Modeling and Implications
on Aquifer Clogging,” Ground Water, 37(4), 523-531 (1999).
MacDonald, T.R., P.K. Kitanidis, P.L. McCarty, P.V. Roberts, “Effects
of Shear Detachment on Biomass Growth and In Situ Bioremediation,” Ground
Water, 37(4), 555-563 (1999).
Matin, A., C.D. Little, C.D. Fraley, and M. Keyhan, "Use Of Starvation
Promoters To Limit Growth and Selectively Express Trichloroethylene and Phenol
Transformation Activity in Recombinant Escherichia coli," Applied and
Environmental Microbiology, 61(9), 3323-3328 (1995).
McCarty, P.L. and P.V. Roberts, editors, “Contaminants in the Subsurface
Environment,” Water Science and Technology, 22(6), 110 pp. (1990).
McCarty, P.L., “Engineering Concepts for In Situ Bioremediation,” Journal
of Hazardous Materials, 28, 1-11 (1991).
McCarty, P.L., “In Situ Bioremediation of Chlorinated Solvents,” Current
Opinion in Biotechnology, 4(3), 323-330 (1993).
McCarty, P.L. and L. Semprini, “Engineering and Hydrogeological Problems
Associated with In Situ Treatment,” Hydrological Sciences, 38(4), 261-272
(1993).
McCarty, P. L., M. N. Goltz, G. D. Hopkins, M. E. Dolan, J. P. Allan, B.
T. Kawakami, and Carrothers, T. J., "Full-Scale Evaluation of In Situ
Cometabolic Degradation of Trichloroethylene in Groundwater through Toluene
Injection," Environmental Science and Technology, 32(1), 88-100 (1998).
McCarty, P. L., “Novel Biological Removal of Hazardous Chemicals at
Trace Levels,” Water Science and Technology, 42(12), 49-60 (2000).
McNab, Jr., W, R. Ruiz, and M. Reinhard, "In-Situ Destruction of Chlorinated
Hydrocarbons in Groundwater Using Catalytic Reductive Dehalogenation in a
Reactive Well: Testing and Operational Experiences," Environmental Science
and Technology, 34(1) 149-153 (2000).
Nelson, P.O., “Equilibrium Adsorption of Chlorophenols on Granular
Activated Carbon,” Water Environment Research, 67, 892-898 (1995).
Nicholson, D.K., S.L. Woods, J.D. Istok, and D.C. Peek, “Reductive
Dechlorination of Chlorophenols by a Pentachlorophenol-Acclimated Methanogenic
Consortium,” Applied and Environmental Microbiology, 58(7), 2280-2286
(1992).
Papelis, C., “X-ray Photoelectron Spectroscopic Studies of Cadmium and
Selenite Adsorption on Aluminum Oxides,” Environmental Science & Technology,
29(6), 1526-1533 (1995).
Papelis, C., G.E. Brown, G.A. Parks, and J.O. Leckie, “X-ray Absorption
Spectroscopic Studies of Cadmium and Selenite Adsorption on Aluminum Oxides,” Langmuir,
11(6), 2041-2048 (1995).
Papelis, C., P.V. Roberts, and J.O. Leckie, “Modeling the Rate of Cadmium
and Selenite Adsorption on Micro- and Mesoporous Transition Aluminas,” Environmental
Science & Technology, 29(4), 1099-1108 (1995).
Pinto, M.J., H. Gvirtzman, and S.M. Gorelick, "Laboratory-scale analysis
of aquifer remediation by in-well vapor stripping 2. Modeling Results," Journal
of Contaminant Hydrology, 29, 41-58 (1997).
Pinto, M., H. Gvirtzman, and S.M. Gorelick, "Aquifer Remediation by
In-Well Vapor Stripping: 2. Modelling Results," Journal of Contaminant
Hydrology, 29(1), 41-58 (1998).
Reinhard, M., S. Shang, P.K. Kitanidis, E. Orwin, G.D. Hopkins, (Stanford
University), and C.A. LeBron (NFESC), “In Situ BTEX Biotransformation
under Enhanced Nitrate- and Sulfate-Reducing Conditions,” Environmental
Science and Technology, 31(1), 28-36 (1997).
Rosner, B. M., P.L. McCarty, and A.M. Spormann, "In Vitro Studies on
Reductive Vinyl Chloride Dehalogenation by an Anaerobic Mixed Culture," Applied
and Environmental Microbiology, 63(11), 4139-4144 (1997).
Scherer, M.M., J.C. Westall, M. Ziomek-Moroz, and P.G. Tratnyek, "Kinetics
of Carbon Tetrachloride Reduction at an Oxide-Free Iron Electrode," Environmental
Science and Technology, 31, 2385-2391 (1997).
Schreier, C.G. and M. Reinhard, “Transformation of Chlorinated Organic
Compounds by Iron and Manganese Powders in Buffered Water and in Landfill
Leachate,” Chemosphere, 29(8), 1743-1753 (1994).
Schreier, C.G. and M. Reinhard, "Catalytic Hydrodehalogenation of Chlorinated
Ethylenes Using Palladium and Hydrogen for the Treatment of Contaminated Water,” Chemosphere,
31, 3475-3487 (1995).
Schroth, M.H., J.D. Istok, G.T. Conner, M.R. Hyman, R. Haggerty and K.T.
O'Reilly, "Spatial Variability in Aerobic Respiration and Denitrification
Rates in a Petroleum Contaminated Aquifer," Ground Water, 36(6), 924-937
(1998).
Schüth, C., S. Disser, F. Schuth, and M. Reinhard. Tailored Catalyst
for Hydrodechlorinating Chlorinated hydrocarbon Contaminants in Groundwater.” Applied
Catalysis B: Environmental, 28 147-152 (2000).
Semadeni, M., P.-C. Chiu, and M. Reinhard. "Reductive Transformation
of Trichloroethene Catalyzed by Cobalamin: Reactivities of the Intermediates,
Acetylene, Chloroacetylene, and the DCE Isomers," Environmental Science
and Technology, 32(9), 1207-1213 (1998).
Semprini, L., G.D. Hopkins, P.L. McCarty, and P.V. Roberts, “In-Situ
Transformation of Carbon Tetrachloride and Other Halogenated Compounds Resulting
from Biostimulation Under Anoxic Conditions,” Environmental Science
and Technology, 26(12), 2454-2461 (1992).
Semprini, L., G.D. Hopkins, P.V. Roberts, and P.L. McCarty, “Pilot
Scale Field Studies of In-Situ Bioremediation of Chlorinated Solvents,” Journal
of Hazardous Materials, 32, 145-162 (1992).
Semprini, L., P.K. Kitanidis, D.H. Kampbell, and J.T. Wilson, “Anaerobic
transformation of chlorinated aliphatic hydrocarbons in a sand aquifer based
on spatial chemical distributions,” Water Resources Research, 31(4),
1051-1062 (1995).
Semprini, L., "Strategies for the aerobic co-metabolism of chlorinated
solvents," Current Opinion in Biotechnology, 8, 296-308 (1997).
Semprini, L., O.S. Hopkins, and B.R. Tasker. “Laboratory, Field and
Modeling Studies of Radon-222 as a Natural Tracer for Monitoring NAPL Contamination” Journal
of Transport in Porous Media Media , 38( 1 / 2) 223-240 (2000).
Sharma, P. and P.L. McCarty, “Isolation and Characterization of a Facultative
Bacterium that Reductively Dehalogenates Tetrachloroethene to cis-1,2-dichloroethene,” Applied
and Environmental Microbiology, 62(3), 761-765 (1996).
Siantar, D.P., C.G. Schreier, C.S. Chou, and M. Reinhard, "Treatment
of 1,2-Dibromo-3-Chloropropane and Nitrate-Contaminated Water with Zero-Valent
Iron or Hydrogen/Palladium Catalysts," Water Research, 30, 2315-2322
(1996).
Smith, C. A., K. T. O’Reilly, and M. R. Hyman, Characterization of
the Initial Reactions during the Cometabolic Oxidation of Methyl tert-Butyl
Ether by Propane-Grown Mycobacterium vaccae JOB5, Applied and Environmental
Microbiology, 69(2), 796-804 (2003).
Smith, L. H., P.K. Kitanidis, and P.L. McCarty, “Numerical Modeling
and Uncertainties in Rate Coefficients for Methane Utilization and TCE Cometabolism
by a Methane Oxidizing Mixed Culture,” Biotechnology and Bioengineering,
53(3), 320-331 (1997).
Smith, L.H. and P.L. McCarty, “Laboratory Evaluation of a Two-Stage
Treatment System for Cometabolism by a Methane-Oxidizing Mixed Culture,” Biotechnology
and Bioengineering, 55(4), 650-659 (1997).
Smith, L. H., P. L., McCarty, and P. K. Kitanidis, "Spreadsheet Method
for Evaluation of Biochemical Reaction Rate Coefficients and Their Uncertainties
by Weighted Nonlinear Least-Squares Analysis of the Integrated Monod Equation," Applied
and Environmental Microbiology, 64(6), 2044-2050 (1998).
Snodgrass, M.F. and P.K. Kitanidis, "A geostatistical approach to contaminant
source identification," Water Resources Research, 33(4), 537-546 (1997).
Snodgrass, M. F., and P. K. Kitanidis, "A Method to Infer In-Situ Reaction
Rates From Push-Pull Experiments," Ground Water, 36(4), 645-650, (1998).
Staudinger, J. and P.V. Roberts, "A Critical Review of Henry's Law Constants
for Environmental Applications," Critical Reviews, Environmental Science
and Technology, 26(3), 205-297 (1996).
Stuart, S.L. and S.L. Woods, "Kinetic Evidence for Pentachlorophenol-dependent
Growth of a Dehalogenating Population in a Pentachlorophenol- and Acetate-fed,
Methanogenic Culture," Biotechnology and Bioengineering, 57(94), 420-429
(1998).
Stuart, S.L., S.L. Woods, T.L. Lemmon, J.D. Ingle, "The Effect of Redox
Potential Changes on Reductive Dechlorination of Pentachlorophenol and the
Degradation of Acetate by a Mixed, Methanogenic Culture," Biotechnology
and Bioengineering, 63(1), 69-77 (1999).
Sule, P.A., and J.D. Ingle, Jr., "Determination of the Speciation of
Chromium with an Automated Two-column Ion-exchange System," Analytica
Chimica Acta, 326, 85-93 (1996).
Thierrin, J. and P.K. Kitanidis, “Solute dilution at the Borden and
Cape Cod groundwater tracer tests,” Water Resources Research, 30(11),
2883-2890 (1994).
Tiedeman, C. and S.M. Gorelick, “Analysis of Uncertainty in Optimal
Groundwater Contaminant Capture Design,” Water Resources Research, 29(7),
2139-2154 (1993).
Van Lent, T., and P.K. Kitanidis, "Effects of first-order approximations
on head and specific discharge covariances in high contrast log-conductivity,
Water Resources Research, 32(5), 1197-1207 (1996).
Workman, D., S.L. Woods, Y.A. Gorby, J.K. Frederickson, and M.J. Truex, “Microbial
Reduction of Vitamin B12 by Shewanella alga strain BrY with Subsequent Transformation
of Carbon Tetrachloride,” Environmental Science and Technology, 31(8),
2292-2297 (1997).
Woods, S.L., D.J. Trobaugh, and K.J. Carter, "Polychlorinated Biphenyl
Reductive Dechlorination by Vitamin B12s: Thermodynamics and Regiospecificity," Environmental
Science and Technology, 33(6), 857-863 (1999).
Yang, Y. and P.L. McCarty, "Competition for Hydrogen within a Chlorinated
Solvent Dehalogenating Mixed Culture," Environmental Science and Technology,
32(24), 3591-3597 (1998).
Yang, Y. and McCarty, P.L., "Response to “Comment on Competition
for Hydrogen within a Chlorinated Solvent Dehalogenating Mixed Culture," Environmental
Science and Technology, 33(12), 2128 (1999).
Yang, Y. and McCarty, P. L., Biomass, Oleate, and Other Possible Substrates
for Chloroethene Reductive Dehalogenation, Bioremediation Journal, 4(2), 125-133
(2000).
Yang, Y. and P. L. McCarty, Biologically Enhanced Dissolution of Tetrachloroethene
DNAPL, Environmental Science & Technolgy, 34(14), 2979-2984 (2000).
Yang, Y., and McCarty, P. L., "Comparison of Donor Substrates for Biologically
Enhanced Tetrachloroethene (PCE) DNAPL Dissolution," Environmental Science & Technology,
36(15), 3400-3404 (2002).
Yang, Y., and McCarty, P. L., "Response to Comment on ‘Comparison
of Donor Substrates for Biologically Enhanced Tetrachloroethene (PCE) DNAPL
Dissolution’," Environmental Science & Technology, 37(11), 2620-2621
(2003).
Yeager, C. M., P. J. Bottomley, D. J. Arp, and M. R. Hyman., Mechanism-based
inactivation of toluene 2-monooxygenase in Burkholderia cepacia G4 by alkynes.
Appl. Environ. Microbiol. 65, 632-637 (1999).
Yeager, C.M., P.J. Bottomley, and D.J. Arp., Cytotoxicity associated with
trichloroethylene oxidation in Burkholderia cepacia G4., Appl. Environ. Microbiol.
67, 2107-2115 (2001)
Yeager, C. M., P. J. Bottomley, and D. J. Arp. Requirement of DNA repair
mechanisms for survival of Burkholderia cepacia G4 upon degradation of trichloroethylene.
Appl. Environ. Microbiol. 67, 5384-5391 (2001).
Yu, S., and Semprini, L., “Comparison of Trichloroethylene Reductive
Dehalogenation by Microbial Communities Stimulated on Silicon-based Organic
Compounds as Slow-release Anaerobic Substrates.” Water Research, 36(20),
4985-4996 (2002)
Zhou, D., L.A. Dillard, and M.J. Blunt, "A Physically Based Model of
Dissolution of Nonaqueous Phase Liquids in the Saturated Zone," Transport
in Porous Media, 39(2) 227-255 (2000).
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