Environmental Engineering Reference
In-Depth Information
George-Ares A, Lessard RR, Becker KW, Canevari GP,
Fiocco RJ (2001) Modification of the dispersant
Corexit 9500 for use in freshwater. Proceedings of the
2001 international oil spill conference, Tampa, 2001
Golyshin PN, Chernikova TN, Abraham WR, Lunsdorf
H, Timmis KN, Yakimov MM (2002) Oleiphilaceae
fam. nov., to include Oleiphilus messinensis gen. nov.,
sp. nov., a novel marine bacterium that obligately uti-
lizes hydrocarbons. Int J Syst Evol Microbiol 52(Pt
3):901-911
Green DH, Llewellyn LE, Negri AP, Blackburn SI, Bolch
CJ (2004) Phylogenetic and functional diversity of the
cultivable bacterial community associated with the
paralytic shellfish poisoning dinoflagellate
Gymno-
dinium catenatum
. FEMS Microbiol Ecol 47(3):345-
357. doi:10.1016/S0168-6496(03)00298-8
Guerin WF, Boyd SA (1992) Differential bioavailability
of soil-sorbed naphthalene to two bacterial species.
Appl Environ Microbiol 58(4):1142-1152
Harayama S, Kasai Y, Hara A (2004) Microbial communi-
ties in oil-contaminated seawater. Curr Opin Biotech-
nol 15(3):205-214. doi:10.1016/j.copbio.2004.04.002
Head IM, Jones DM, Larter SR (2003) Biological activ-
ity in the deep subsurface and the origin of heavy oil.
Nature 426(6964):344-352. doi:10.1038/nature02134
Head IM, Jones DM, Roling WF (2006) Marine micro-
organisms make a meal of oil. Nat Rev Microbiol
4(3):173-182. doi:10.1038/nrmicro1348
Herrick JB, Stuart-Keil KG, Ghiorse WC, Madsen EL
(1997) Natural horizontal transfer of a naphthalene
dioxygenase gene between bacteria native to a coal
tar-contaminated field site. Appl Environ Microbiol
63(6):2330-2337
ITOPF (2013) Dispersants.
http://www.itopf.com/
Accessed 13 April 2014
Iwabuchi N, Sunairi M, Urai M, Itoh C, Anzai H, Naka-
jima M, Harayama S (2002) Extracellular polysaccha-
rides of
Rhodococcus rhodochrous
S-2 stimulate the
degradation of aromatic components in crude oil by
indigenous marine bacteria. Appl Environ Microbiol
68(5):2337-2343
Jacques RJ, Okeke BC, Bento FM, Teixeira AS, Peralba
MC, Camargo FA (2008) Microbial consortium bio-
augmentation of a polycyclic aromatic hydrocarbons
contaminated soil. Bioresour Technol 99(7):2637-
2643. doi:10.1016/j.biortech.2007.04.047
Kasai Y, Shindo K, Harayama S, Misawa N (2003)
Molecular characterization and substrate preference of
a polycyclic aromatic hydrocarbon dioxygenase from
Cycloclasticus sp
. strain A5. Appl Environ Microbiol
69(11):6688-6697
Knezevich V, Koren O, Ron EZ, Rosenberg E (2006)
Petroleum bioremediation in seawater using Guano as
the fertilizer. Bioremediat J 10:83-91
Kostka JE, Prakash O, Overholt WA, Green SJ, Freyer G,
Canion A, Delgardio J, Norton N, Hazen TC, Huettel
M (2011) Hydrocarbon-degrading bacteria and the
bacterial community response in gulf of Mexico
beach sands impacted by the deepwater horizon oil
do Carmo FL, dos Santos HF, Martins EF et al (2011) Bac-
terial structure and characterization of plant growth
promoting and oil degrading bacteria from the rhizo-
spheres of mangrove plants. J Microbiol 49:535-543
Dutta TK, Harayama S (2000) Fate of crude oil by the
combination of photooxidation and biodegradation.
Environ Sci Technol 34:1500-1505. doi:10.1021/
es991063o
Dyksterhouse SE, Gray JP, Herwig RP, Lara JC, Staley
JT (1995)
Cycloclasticus pugetii
gen. nov., sp. nov.,
an aromatic hydrocarbon-degrading bacterium from
marine sediments. Int J Syst bacteriol 45(1):116-123
Dzantor EK, Chekol T, Vough LR (2000) Feasibility of
using forage grassed and legumes for phytoremedia-
tion of organic pollutants. J Environ Sci Health Part
A 35:1645-1661
Engelhardt MA, Daly K, Swannell RP, Head IM (2001)
Isolation and characterization of a novel hydrocarbon-
degrading, Gram-positive bacterium, isolated from
intertidal beach sediment, and description of
Pla-
nococcus alkanoclasticus
sp. nov. J Appl Microbiol
90(2):237-247
EPA (1999a) Alternative countermeasures for oil spills.
In: Understanding oil spill and oil spill response. EPA
Office of emergency and remedial response, USA
EPA (1999b) The behaviour and effects of oils spills in
aquatic environment. In: Understanding oil spill and
oil spill response. Environmental Protection Agency,
USA
EPA (1999c) Mechanical containment and recovery fol-
lowing an oil spill. In: Understanding oil spill and oil
spill response. Understanding oil spills in freshwater
environments. Environmental Protection Agency,
USA, pp 9-12
ERCO (1982) Ixtoc oil spill assessment. Final report,
executive summary prepared for the US Bureau of
Land Management. (Contract No. AA851-CTO-71)
Fehler SW, Light RJ (1970) Biosynthesis of hydrocarbons
in
Anabaena variabilis
. Incorporation of [methyl-
14C]- and [methyl-2H3]methionine into 7- and
8-methylheptadecanes. Biochemistry 9(2):418-422
Foght J (2010) Nitrogen fixation and hydrocarbon-oxi-
dizing bacteria. In: Timmis KN (ed) Handbook of
hydrocarbon and lipid microbiology. Springer-Verlag,
Berlin, pp 1662-1666
Fox JL (2011) Natural-born eaters. Nat Biotechnol
29(2):103-106. doi:10.1038/nbt.1770
Frey-Klett P, Burlinson P, Deveau A, Barret M, Tarkka
M, Sarniguet A (2011) Bacterial-fungal interactions:
hyphens between agricultural, clinical, environmental,
and food microbiologists. Microbiol Mol Biol Rev
75(4):583-609. doi:10.1128/MMBR.00020-11
Furuno S, Pazolt K, Rabe C, Neu TR, Harms H,
Wick LY (2010) Fungal mycelia allow chemo-
tactic dispersal of polycyclic aromatic hydro-
carbon-degrading bacteria in water-unsaturated
systems. Environ Microbiol 12(6):1391-1398.
doi:10.1111/j.1462-2920.2009.02022.x
Gallego JL, Garcia-Martinez MJ, Llamas JF, Belloch C,
Pelaez AI, Sanchez J (2007) Biodegradation of oil tank
bottom sludge using microbial consortia. Biodegrada-
tion 18(3):269-281. doi:10.1007/s10532-006-9061-y
Search WWH ::
Custom Search