International Journal of Marine Science 2015, Vol.5, No.27: 1-11
11
Röling W.F.M., Milner M.G., Jones D.M., Lee K., Daniel F., Swannell R.J.P.,
and Head I.M., 2002, Robust Hydrocarbon Degradation and Dynamics
of Bacterial Communities during Nutrient-Enhanced Oil Spill
Bioremediation, Applied Environmental Microbiology, Nov., 2002:
5537-5548
Santas R., Korda A., Tenente A., Buchholz K., and Santas P.H., 1999,
Mesocosm Assay of Oil Spill Bioremediation with Oleophilic
Fertilizers: Inipol, F1 Or Both? Marine Pollution Bulletin, 38: 44-48
Simon M.A., Bonner J.S., Page C.A., Towsend R.T., Mueller D.C., Fuller C.B.,
and Autenriech
R.L., 2004, Evaluation of two commercial
bioaugmentation product for enhanced removal of petroleum from a
wetland, Ecological Engineering, 22: 263-277
Stallwood B., Shears J., Williams P.A., and Hughes K.A., 2005. Low
Temperature
Bioremediation of Oil Contaminated Soil Using
Biostimulation and
Bioaugmentation with
Pseudomonas
sp. from
Maritime Antartica, Journal of Applied Microbiology, 99: 794-802
Swannell R.P.J., Lee K., McDonagh M., 1996, Field Evaluations of Marine
Oil Spill Bioremediation, Microbiology Review, 60: 342-365
Syakti A.D., Hidayati N.V., Yani M. and Sudiana I.M., 2008,
PAH-degraders marine bacteria isolated from chronically contaminated
sediment by petroleum hydrocarbons, Seminar Nasional Perhimpunan
Mikrobiologi Indonesia (PERMI), Purwokerto, 22-23 Agustus 2008,
Purwokerto, Indonesia, pp.8
Teramoto M., Ohuchi M., Hatmanti A., Darmayati Y., Widyastuti Y.,
Harayama S., Fukunaga Y., 2011,
Oleibacter marinus
gen. nov., sp. nov.,
a Bacterium that Degrades Petroleum Aliphatic Hydrocarbons in a
Tropical Marine Environment. International Journal of Systematic and
Evolutionary Microbiology. Feb;61(Pt 2): 375-380
U.S. EPA, 1999, Monitored natural attenuation of petroleum hydrocarbons,
EPA
600-F-98-021, Office of Research and Development, U.S.
Environmen
tal Protection Agency.
Ueno A., Ito Y., Yumoto I., and Okuyama H., 2007, Isolation and
Characterization of Bacteria from Soil Contaminated with Diesel Oil
and the Possible Use of These in
Autochthonous Bioaugmentation,World
Journal of Microbiology and Biotechnology,
23:1739-1745. doi: 10. 1007/
s11274-007-9423-6 CrossRef
Westlake
D.W.S
.,
1982, Micro-organisms and the degradation of oil under
northern marine conditions, In
J. B. Sprague, Vandermeulen J.H., and
Wells P.G. (eds.), Oil and dispersants in Canadian seas—research
appraisal and recommendations. Publication EPS-3-EC-82-2.
Environmental Protection Service Canada, Ottawa, Canada. p. 47–50.
Xu R., Obbard J.P., and Tang E.T.C., 2003. Effect of Nutrient Amendment
on Indigenous Hydrocarbon Biodegradation in Oil Contaminated
Beach Sediments, Journal of Environmental Quality, 32: 1234-1243
Xu R., Lau A.N.L,. Lim Y.G., and Obbard J.P. 2005. Bioremediation of Oil
Contaminated Sediments on an Inter-Tidal Shoreline Using a
Slow-Release Fertilizer and Chitosan, Marine Pollution Bulletin, 51:
1062-1070
Yakimov M.M., Denaro R., Genovese M., Cappello S., D'Auria G.,
Chernikova T.N,, Timmis K.N., Golyshin P.N., and Giluliano L. 2005.
Natural Microbial Diversity in Superficial Sediments of Milazzo
Harbor (Sicily) and Community Successions during Microcosm
Enrichment with Various Hydrocarbons. Environmental Microbiology,
7(9): 1426-1441
Zhu X., Venosa A., Suidan M.T., and Lee K., 2001. Guidelines for the
bioremediation of marine shorelines and fresh water wetlands. U.S.
Environmental Protection Agency . Cincinnati, OH 45268. pp.156
