Biomedical Engineering Reference
In-Depth Information
Cupples AM. 2008. Real-time PCR quantification of Dehalococcoides populations: Methods
and applications. J Microbiol Method 72:1-11.
Da Silva MLB, Alvarez PJJ. 2008. Exploring the correlation between halorespirer biomarker
concentrations and TCE dechlorination rates. J Environ Eng 134:895-901.
Ellis DE, Lutz EJ, Odom JM, Buchanan RJ, Bartlett CL, Lee MD, Harkness MR, Deweerd KA.
2000. Bioaugmentation for accelerated in situ anaerobic bioremediation. Environ Sci
Technol 34:2254-2260.
ESTCP (Environmental Security Technology Certification Program). 2002. Final evaluation of
performance and costs associated with anaerobic dechlorination techniques: Phase 1 site
survey (rev 2). Project ER-200125. 135 p. http://www.serdp-estcp.org/Program-Areas/Envi-
ronmental-Restoration/Contaminated-Groundwater/ER-200125/ER-200125 . Accessed June
12, 2012.
Fletcher KE, Cruz-Garcia C, Ramaswamy NS, Costanza J, Pennell KD, L¨ffler FE. 2011.
Effects of elevated temperatures on Dehalococcoides dechlorination performance and
biomarker gene and transcript quantification. Environ Sci Technol 45:712-718.
He J, Ritalahti KM, Yang K-L, Koenigsberg SS, L¨ffler FE. 2003. Detoxification of vinyl
chloride to ethene coupled to growth of an anaerobic bacterium. Nat 424:62-65.
Hendrickson ER, Payne JA, Young RM, Starr MG, Perry MP, Fahnestock S, Ellis DE, Ebersole
RC. 2002. Molecular analysis of Dehalococcoides 16S ribosomal DNA from chloroethene-
contaminated sites throughout North America and Europe. Appl Environ Microbiol
68:485-495.
Holmes VF, He J, Lee PKH, Alvarez-Cohen L. 2006. Discrimination of multiple Dehalococ-
coides strains in a trichloroethene enrichment by quantification of their reductive dehalo-
genase genes. Appl Environ Microbiol 72:5877-5883.
Johnson R. 2007. Fact sheet: Cryogenic collection of complete subsurface samples for molecular
biological analysis. SERDP project ER-1559. http://www.serdp-estcp.org/Program-Areas/
Environmental-Restoration/Contaminated-Groundwater/Monitoring/ER-1559/ER-1559 .
Accessed June 12, 2012.
Lebr ´ n CA, Acheson C, Dennis P, Druar X,Wilkinson J, Ney E, Major D, Petrovskis EA, Barros N,
Yeager C, L¨ffler FE, Ritalahti K, Hatt J, Edwards E, Duhamel M, and Chan W. 2008.
Literature review report: Standardized procedures for use of nucleic acid-based tools. SERDP
project ER-1561. http://www.serdp-estcp.org/Program-Areas/Environmental-Restoration/
Contaminated-Groundwater/Monitoring/ER-1561/ER-1561 . Accessed December 13, 2011.
Lebr ´ n CA, Petrovskis EA, L¨ffler FE, Henn K. 2011a. Final Report: Application of nucleic acid-
based tools for monitoring monitored natural attenuation (MNA), biostimulation and bioaug-
mentation at chlorinated solvent sites. ESTCP project ER-200518. http://www.serdp-estcp.org/
content/download/10553/130452/file/ER-200518-FR.pdf . Accessed December 13, 2011.
Lebr ´ n CA, Petrovskis E, Loeffler FE, Henn K. 2011b. Guidance Document: Application of
nucleic acid-based tools for monitoring monitored natural attenuation (MNA), biostimula-
tion, and bioaugmentation at chlorinated solvent sites. ESTCP Project ER-200518.
http://www.serdp-estcp.org/content/download/10554/130460/file/ER-200518%20Guidance
%20Protocol.pdf . Accessed December 13, 2011.
Lendvay JM, L¨ffler FE, Dollhopf M, Aiello MR, Daniels G, Fathepure BZ, Gebhard M, Heine
R, Helton R, Shi J, Krajmalnik-Brown R, Major CL Jr, Barcelona MJ, Petrovskis E, Hickey
R, Tiedje JM, Adriaens P. 2003. Bioreactive barriers: Bioaugmentation and biostimulation
for chlorinated solvent remediation. Environ Sci Technol 37:1422-1431.
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