Biomedical Engineering Reference
In-Depth Information
Chang HL, Alvarez-Cohen L. 1995. Transformation capacities of chlorinated organics by mixed
cultures enriched on methane, propane, toluene or phenol. Biotechnol Bioeng 45:440-449.
Connon SA, Tovanabootr A
,
Dolan ME, Vergin K, Giovannoni SJ, Semprini L. 2005. Bacterial
community composition determined by culture independent and dependant methods dur-
ing propane stimulated bioremediation in trichloroethene contaminated groundwater.
Environ Microbiol 7:165-178.
DeFlaun MF, Oppenheimer SR, Streger S, Condee CW, Fletcher M. 1998. Alterations in
adhesion, transport, and membrane characteristics in an adhesion-deficient
Pseudomonad
.
Appl Environ Microbiol 65:759-765.
Duba AG, Jackson KJ, Jovanovich MC, Knapp RB, Taylor RT. 1996. TCE remediation using in
situ resting-state bioaugmentation
.
Environ Sci Technol 30:1982-1989.
ESTCP (Environmental Security Technology and Certification Program). 2005. Bioaugmen-
tation for the Remediation of Chlorinated Solvents: Technology Status and Research
Development-Status-and-Research-Needs
.
Accessed June 20, 2012.
Fox BG, Borneman JG, Wackett LP, Lipscomb JD. 1990. Haloalkene oxidation by the soluble
methane monooxygenase
Methylosinius trichosporium
OB3b: Mechanistic and environ-
mental applications. Biochem 29:6419-6227.
Frascari D, Zannoni A, Fedi S, P¨ Y, Zannoni D, Pinelli D, Nocentini M. 2005. Aerobic
cometabolism of chloroform by butane-grown microorganisms: Long-term monitoring of
depletion rates and isolation of a high performing strain. Biodegradation 16:147-158.
Frascari D, Pinelli D, Nocentini M, Zannoni A, Fedi S, Baleani E, Zannoni D, Farneti A,
Battistelli A. 2006. Long-term aerobic cometabolism of a chlorinated solvent mixture by
vinyl chloride-, methane- and propane-utilizing biomasses. J Hazard Mater B 138:29-39.
Frascari D, Zannoni A, Pinelli D, Nocentini M. 2007. Chloroform aerobic cometabolism by
butane-utilizing bacteria in bioaugmented and non-bioaugmented soil/groundwater micro-
cosms. Process Biochem 42:1218-1228.
Gentry TJ, Rensing C, Pepper IL. 2004. New approaches for bioaugmentation as a remediation
technology. Crit Rev Environ Sci Technol 34:447-494.
Goltz MN, Bouwer EJ, Huang J. 2001. Transport issues and bioremediation modeling for the in
situ aerobic cometabolism of chlorinated solvents. Biodegradation 12:127-140.
Gualandi G, Frascari D, Pinelli D, Nocentini M. 2007. Growth of chlorinated solvent-degrading
consortia in fed-batch bioreactors and the development of a double-substrate high
performing microbial inoculums. Eng Life Sci 7:217-218.
Hanna ML, Taylor RT. 1996. Attachment/detachment and trichloroethylene degradation-
longevity of a resting cell
Methylosinus trichosporium
OB3b filter. Biotechnol Bioengineer
51:659-672.
Hazen TC, Lombard KH, Looney BB, Enzien MV, Dougherty JM, Fiermans CB, Wear J, Eddy
CA. 1994. Summary of in situ bioremediation (methane biostimulation) via horizontal wells
at Savannah River Site Integrated Demonstration Project. In Situ Remediation: Scientific
Basis for Current and Future Technologies. Battelle Press, Richland, Washington, USA,
pp 137-150.
Henrysson T, McCarty PL. 1993. Influence of the endogenous storage of lipid poly-
b
-hydro-
xybutyrate on the reducing power availability during cometabolism of trichloroethylene
and naphthalene by resting methanotrophic mixed cultures. Appl Environ Microbiol
59:1602-1606.
Search WWH ::
Custom Search