References
- 고성환, 이홍금, 김상진, 1998, Hydrocarbon uptake modes에 따른 유류분해 미생물 혼합제의 원유분해능, 한국생물공학회지 13, 606-614.
- 서은영, 송홍규, 1994, 토양미생물군집의 개체수와 활성도에 미치는 경유의 영향, 한국미생물학회지 32, 163-171.
- 류필조, 2001, 소다회 제조과정에서 발생된 폐슬러지 활용방안 연구, 연구결과보고서, 충남환경기술개발센터
- 환경부, 2008, 토양오염공정시험법.
- 한국해양연구원, 2002, 훼손된 해안 생태계 복원기술, 환경부, 153.
- 해양수산부, 2005, 해양환경공정시험법.
- Acton, D. W., Barker, J. F., 1992, In situ biodegradation potential of aromatic hydrocarbons in anaerobic ground waters. J. Contaminant Hydrology 9, 325-52. https://doi.org/10.1016/0169-7722(92)90002-V
- Aelion, C. M., Bradley, P. M., 1991, Aerobic biodegradation potential of subsurface microorganisms from a jet fuel-contaminated aquifer. Applied and Environmental Microbiology, 57(1), 57-63.
- Altas, R. M., Bartha, R., 1992, Hudrocarbon biodegradation and oil spill bioremediation. Adv. Microb. Exol. 12, 287-338. https://doi.org/10.1007/978-1-4684-7609-5_6
- APHA, AWWA, and WPCF, 1985, Azide modification to iodo-metric method for dissolved oxygen determination, Setion 421b. In Standard methods for the examination of water and wastewater, 16th ed., American public Health Association, Washington, D.C., 418-19.
- Barcelona, M. J., Xie, G., 2001, In situ lifetimes and kinetics of a reductive whey barrier and an oxidative ORC barrier in the subsurface, Environment Science and Technology, 35(16), 3378-3385. https://doi.org/10.1021/es001637l
- Bianchi-Mosquera, G. C., Allen-King, R. M., Mackay, D. M, 1994, Enhanced Degradation of Dissolved Benzene and Toluene Using a Solid Oxygen-Releasing Compound, Ground Water Monitoring and Remediation, 120-128.
- Chapman, S. W., Byerley, B. T., Smyth, J. A., Mackay, D. M., 1997, A Pilot Test of Passive Oxygen Release for Enhancement of In Situ Bioremediation of BTEX-Contaminated Ground Water, Ground Water Monitoring and Remediation, 93-105.
- Dutta, T. K., Harayama, S., 2000, Fate of Crude oil by the combination of photooxidation and biodegradation, Environ. sci, Technol., 34, 1500-1504. https://doi.org/10.1021/es991063o
- Koenigsberg, S. S., Sandefur, C. A., 2001, Eficacy Oxygen Release Compounds : A six of review : Sixth AnnuompIn-situ and On-site Bioremediation Conference, San Diego, CA, June 3-7.
- Lyman, W. J., Glazer, A. E., Ong, H., Coons, S. F., 1987, An overview of sediment-sorbed con- taminants tested in the national status & trends program, NOAA technical memorandum, NOAA, Seattle, WA.
- Snoeyink, V. L., Jenkins, D., 1988, Water Chemistry, 2nd ed., John Wiley & Sons, New York.
- Sugawara, K. et al., 1957, Recorvery of precipitated phosphate from lake mud related to sulfate reduction, J. Earth Sci., 5, 60-67.
- Tory, S., Daniel, W., Craig, W., 1999, Oxygen release kintics from solid phase oxygen in Arctic Alaska : Jorunal of Hazardous materials., B64, 157-165.
- Waite, A. J., Bonner, J. S., Autenrieth, R., 1999, Kinetics and stoichiometry of oxygen release from solid peroxides, Environmental Engineering Science, 16(3), 187-199. https://doi.org/10.1089/ees.1999.16.187
- Willkin, R. T., Mcneil, M. S., Adiar, C. J., Willson, J. T., 2001, Field measurement of dissolved oxygen : A comparison of Methods: GWMR, 124-132.
- Wobeser, G., 1997, Avian botulism-anther perspective. J. Wildl. Dis. 33, 181-186. https://doi.org/10.7589/0090-3558-33.2.181