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1. U.S. Environmental Protection Agency (EPA), Bioremediation in the Field, EPA/540/N-92/002, Office of Solid Waste, 1992.

3. Raymond, R. L., Jamison, V. W., and Hudson, J. O., Beneficial Stimulation of Bacterial Activity in Ground Waters Containing Petroleum Products, API Publ. 4427, Am. Petroleum Inst., Washington, D.C., 1975.

4. Raymond, R. L., et al., U.S. Patent 4,588,506 (1986).

5. Sinton, G. L., Fan, L. T., Erickson, L. E., and Lee, S. M., Biodégradation of 2,4-D and related xenobiotic compounds, Enzyme Microb. Technol., 8 365 (1986).

6. Stanier, R. Y., Adelberg, E. A., and Ingraham, J., The Microbial World, 4th ed., Prentice-Hall, Toronto, 1976.

7. Dagley, S., Microbial degradation of stable chemical structures: general featurs of metabolic pathways, in Degradation of Synthetic Organic Molecules in the Biosphere, Proc. Conf. San Francisco, Calif, 1971, Nat. Acad. Sci., Washington, D.C., 1972, p. 1.

8. Clarke, P. H., and Ornston, L. N., Metabolic pathways and regulations. I and II, in Genetics and Biochemistry of Pseudomonas (P. H. Clarke and M. H. Richmond, eds.), Wiley, New York, 1975, p. 191.

9. Britten, L., Microbial degradation of aliphatic hydrocarbons, in Microbial Degradation of Organic Compounds (D. T. Gibson, ed.), Marcel Dekker, New York, 1984.

10. Chapman, P J., Degradation mechanisms, in Proc. Workshop, Microbial Degradation of Pollutants in Marine Environments (A. W., Bourquin, and P. H. Pritchard, eds.), EPA-66019-79-012, Environmental Research Laboratory, Gulf Breeze, Fl., 1979, pp. 28-66.

11. Higgins, I. J., and Gilbert, P. D., The bioodegradation of hydrocarbons, in The Oil Industry and Microbial Ecosystems (K. W. A. Chater and H. J. Somerville, eds.), Heyden, London, 1978, pp. 80-117.

12. Jensen, B., Arvin, E., and Gunderson, A. T., The degradation of aromatic hyudrocarbons with bacteria from oil contaminated aquifers, Proc. NWWAIAPI Conf. on Petroleum Hydrocarbons and Organic Chemicals in Ground Water—Prevention, Detection, and Restoration, Nat. Water Well Assoc. Worthington, Ohio, 1986, p. 421.

13. Ratledge, C., Degradation of aliphatic hydrocarbons, in Developments in Biodégradation of Hydrocarbons, Vol. 1 (J. R. Watkinson, ed.), Applied Science Pub., London, 1978, pp. 1-46.

14. Yaniga, P. M., and Mulry, J., Accelerated aquifer restoration: in situ applied techniques for enhanced free product recovery/absorbed hydrocarbon reduction via bioreclamation, Proc. NWWAIAPI Conf. on Petroleum Hydrocarbons and Organic Chemicals in Ground Water—Prevention, Detection, and Restoration, Nat. Water Well Assoc., Worthington, Ohio, 1985, p. 421.

15. Perry, J. J., Microbial metabolism of cyclic hydrocarbons and related compounds, Crit. Rev. Microbiol., 5 387-412 (1977).

16. Dagley, S., New perspectives in aromatic catabolism, in Microbial Degradation of Xenobiotics (T. Leisinger, R. Hutter, A. M. Cook, and J. Nuesch, eds.), Academic, New York, 1981, pp. 181-187.

17. Fewson, C. A., Biodégradation of aromatics with industrial relevance, in Microbial Degradation of Xenobiotics (T. Leisinger, R. Hutter, A. M. Cook, and J. Neusch, eds.), Academic, New York, 1981, pp. 141-152.

18. Gibson, D. T., Biodégradation of aromatic petroleum hydrocarbons, in Fate and Effects of Petroleum Hydrocarbons in Marine Ecosystems and Organisms (D. Wolfe, ed.), Pergamon, New York, 1977, pp. 36-46.

19. Wilson, J. T., and Ward, C. H., Opportunities for bioreclamation of aquifers contaminated with petroleum hydrocarbons, J. Ind. Microbiol., 27, 109 (1987).

20. Pirnik, M. P., Microbial oxidation of methyl branched alkanes, Crit. Rev. Microbiol., 5, 413-422 (1977).

21. Rittman, B. E., and Kobayashi, H., Microbial separation for trace-organic removal, in Detoxification of Hazardous Waste (J. H. Exner, ed.), Ann Arbor Science, Ann Arbor, Mich., 1982, p. 323.

22. Cerniglia, C. E., Microbial transformations of aromatic hydrocarbons, in Petroleum Microbiology (R. M. Atlas, ed.), Macmillan, New York, 1984, pp. 99-152.

23. Bauer, J. E., and Capone, D. C., Degradation and mineralization of the polycyclic aromatic hydrocarbons anthracene and naphthalene in intertidal marine sediments, Appl. Environ. Microbiol., 50, 81-90 (1985).

24. Herbes, S. E., and Schwall, L. R., Microbial transformations of polycyclic aromatic hydrocarbons, Appl. Environ. Microbiol., 35, 306-316 (1978).

25. Bouwer, E. J., and McCarty, P. L., Modeling of trace organics biotransformations in the subsurface, Ground Water, 22, 433 (1984).

26. Kosson, D. S., Agnihotri, G. C., and Ahlert, R. C., Modeling and simulation of a soil-based microbial treatment process, J. Hazardous Mater., ¡4, 191 (1987).

27. Windowson, M. A., Molz, J. F., and Benefield, L. D., A numerical transport model for oxygen-and nitrate-based respiration linked to substrate and nutrient availability in porous media, Water Rsources Res., 24, 1553 (1988).

28. Molz, F. J., Windowson, M. A., and Benefield, L. D., Simulation of microbial growth dynamics coupled with nutrient and oxygen transport in porous media, Water Resources Res., 22, 1207 (1986).

29. Baveye, P., and Valocchi, A., An evaluation of mathematical models of the transport of biologically reacting solutes in saturated soils and aquifers, Water Resources Res., 25, 1413 (1987).

30. Kuhlmeier, P. D., Biodégradation of acetone in soil, Proc. Purdue Univ. Industrial Waste Conf, 43, 71-79 (1988).

31. Monod, J., Recherches sur la croissance des cultures bactériennes, Hermann, Paris, 1942.

32. Beltrame, P., Beltrame, P. L., Carniti, P., Guardione, D., and Lanzetta, C., Inhibiting action of chlorophenols on biodégradation of phenols and its correlation with structural properties of inhibitors, Biotechnol. Bioeng., 31, 821 (1988).

33. Haldane, J. B. S., Enzymes, Longmans, London, 1930.

34. Alexander, M., Environmental and microbiological problems arising from recalcitrant molecules, Microb. Ecol., 2, 17 (1975).

35. Kuhlmeier, P. D., and Sunderland, G. L., Biotransformation of petroleum hydrocarbons in deep unsaturated sediments, Proc. Petroleum Hydrocarbons and Organic Chemicals in Groundwater, NWWA, Nov. 15, 1986, Houston, Tex. pp. 86-98.

36. Lee, M. D., and Ward, C. H., Microbial ecology of a hazardous waste disposal site: enhancement of biodégradation, Proc. 2nd Int. Conf. on Groundwater Res. Quality Res. (N. N. Durham and A. E. Redelfs, eds.), Oklahoma State Univ. Printing Services, Stillwater, Okla., 1985, p. 25.

37. Kuhn, E. P., Colberg, P. J., Schnoor, J. L., Warner, O., Zehnder, A. J. B., and Schwarzenbach, R. P., Microbial transformation of substituted benzenes during infiltration of river water to ground water: laboratory column studies, Environ. Sci. Technol., 19, 961 (1985).

38. Wilson, B. H., and Rees, J. F., Biotransformation of gasoline hydrocarbons in methanogenic aquifer material, Proc. NWWA/AP1 Conf. on Petroleum Hydrocarbons and Organic Chemicals in Ground Water—Prevention, Detection, and Restoration, Nat. Water Well Assoc., Worthington, Ohio, 1986, p. 128.

39. Kuhlmeier, P. D., Threhold limited kinetics of aromatic hydrocarbons in shallow soil systems, Proc. Environmental Remediation '91, U.S. DOE, Richland, Wash., 1991, pp. 651-657.

40. Alexander, M., Biodégradation of organic chemicals, Environ. Sci. Technol., 18, 106 (1985).

41. Wilson, J. T., McNabb, J. F., Balkwill, D. L., and Ghiorse, W. C., Enumeration and characterization of bacteria indigenous to a shallow water-table aquifer, Ground Water, 21, 134 (1983).

42. Jhaveri, V., and Mazzacca, A. J., Bio-reclamation of ground and groundwater. A case history, Proc. 4th Natl. Conf. on Management of Uncontrolled Hazardous Waste Sites, Washington, D.C., October 1983, p. 242.

43. Suflita, J. M., and Miller, G. D., Microbial metabolism of chlorophenolic compounds in ground water aquifers, Environ. Toxicol. Chem., 4, 751 (1985).

44. Alexander, M., Soil Microbiology, Wiley, New York, 1977, p. 467.

45. Hambrick, G. A., III, DeLaune, R. D., and Patrick, W. H., Jr., Effect of estuarine sediment pH and oxidation-reduction potential on microbial hydrocarbon degradation, Appl. Environ. Microbiol., 40, 365 (1980).

46. Bartholomew, G.* W., and Pfaender, F. K., Influence of spatial and temporal variation on organic pollutant biodégradation rates in an estuarine environment, Appl. Environ. Microbiol., 45, 103 (1983).

47. Atlas, R. M., Effects of temperature and crude oil composition on petroleum biodégradation, Appl. Microbiol., 30, 396 (1975).

48. Lee, M. D., Wilson, J. T., and Ward, C. H., In situ restoration techniques for aquifers contaminated with hazardous wastes, J. Hazardous Mater., 14, 71 (1987).

49. Means, J., Wood, S., Hassett, J., and Banwart, W., Sorption of polynuclear aromatic hydrocarbons by sediments and soils. Environ. Sei. Tech., 14 (72), 1525-1529 (1980).

50. Hassett, J. J., and Banwart, W. L., in Reactions and Movement of Organic Chemicals in Soils (B. L. Sawhney and K. Brown, eds.), Am. Soc. Agronomy, Madison, Wise., 1989, pp. 31-44.

51. Peters, R. W., Montemagno, C. D., and Shem, L., Surfactant Screening of diesel contaminated soil, Haz. Waste and Haz. Matls., 9 (2), 113 (1992).

52. Liu, Z., Laha, S., and Luthy, R., Surfactant solubilization of polycyclic aromatic hydrocarbons in soil/water suspensions, Water Sei. Technol., 475, 23 (1991).

53. Rosenberg, E., CRC Crit. Rev. Biotechnol., 3, 109-132 (1986).

54. Kuhlmeier, P. D., Vapor phase trichloroethylene recovery from hydrogen peroxide stimulated soils, Proc. Nat. R&D Conf. on the Control of Hazardous Materials, HMCRI, San Francisco, Calif., 1992, pp. 232-236.

55. Nash, J. H., and Traver, R. P., Field evaluation of in-situ washings of contaminated soils with water/surfactants, Proc. 12th Annual Res. Symp., EPA/600/9-86/022, Cincinnati, Ohio, 1985.

56. McDermott, J. B., Two strategies for PCB soil remediation: biodégradation and surfactant extraction, AIChE Meeting, New Orleans, La, Spring 1988.

57. Rosen, M. J., Surfactants and Interfacial Phenomena, 2nd ed., Wiley, New York, 1989.

58. Mukerjee, P., and Mysels, K. J., CriticalMicelle Concentrations of Aqueous Surfactant Systems, NSRDS-NBS 36, U.S. Depart, of Commerce, Washington, D.C., 1971.

59. Attwood, D., and Florence, A. T., Surfacant Systems: Their Chemistry, Pharmacy and Biology, Chapman and Hall, New York, 1983.

60. Goldstein, R. M., Mallory, L. M., and Alexander, M., Reasons for possible failure of innoculation to enhance biodégradation, Appl. Environ. Microbiol., 50, 977 (1985).

61. Walter, M. V., Barbour, J., McDowell, M., and Seidler, R. J., A method to evaluate survival of genetically engineered bacteria in soil extracts, Curr. Microbiol., 15, 193-197 (1987).

62. Bossert, I., Kachel, W. M., and Bartha, R., Fate of hydrocarbons during oily sludge disposal in soil, Appl. Environ. Microbiol., 47, 763-767 (1984).

63. Huddleston, R. L., and Cresswell, L. W., Environmental and nutritional constraints of microbial hydrocarbon utilization in the soil, Proc. 1975 Eng. Foundation Conf.: The Role of Microorganisms in the Recovery of Oil, NSF/RANN, Washington, D.C., 1976, pp. 71-72.

64. Kuhlmeier, P. D., and Sunderland, G. A., Biodegradation of petroleum hydrocarbons in deep unsaturated sediments, Proc. Petroleum Fate in Unsaturated Environments, IAHS Symp. Ser., 1984.

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