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Journal of Environmental Science and Health, Part A
Toxic/Hazardous Substances and Environmental Engineering
Volume 47, 2012 - Issue 4
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ARTICLES

Aeration prevents methyl mercury production in dental wastewater

Xiuhong Zhao Department of Civil and Materials Engineering, University of Illinois at Chicago, Chicago, Illinois, USA
,
Karl J. Rockne Department of Civil and Materials Engineering, University of Illinois at Chicago, Chicago, Illinois, USA
&
James L. Drummond Department of Bioengineering, University of Illinois at Chicago, Chicago, Illinois, USA
Pages 598-604 | Received 10 Jun 2011, Published online: 29 Feb 2012

References

  • Zhao , X. , Rockne , K. J. , Drummond , J. L. , Hurley , R. K. , Shade , C. W. and Hudson , R. J.M. 2008 . Characterization of methyl mercury in dental wastewater and correlation with sulfate-reducing bacterial DNA . Environ. Sci. Technol , 42 ( 8 ) : 2780 – 2786 .
  • Zhao , X. 2009 . Methyl mercury in dental wastewater. , Chicago : University of Illinois at Chicago .
  • Drummond , J. L. , Liu , Y. , Wu , T. Y. and Cailas , M. D. 2003 . Particle versus mercury removal efficiency of amalgam separators . J. Dent , 31 ( 1 ) : 51 – 58 .
  • Drummond , J. L. , Cailas , M. D. and Croke , K. 2003 . Mercury generation potential from dental waste amalgam . J. Dent , 31 ( 7 ) : 493 – 501 .
  • Arenholt-Bindslev , D. and Larsen , A. H. 1996 . Mercury levels and discharge in waste water from dental clinics . Water Air Soil Pollut , 86 : 93 – 99 .
  • Drummond , J. L. , Cailas , M. D. , Ovsey , V. , Stone , M. , Roddy , W. C. , Francis , B. M. , Babka , M. A. , Perry , R. P. , Toepke , T. R. , Cohen , M. E. and Ralls , S. A. 1995 . Dental waste water: Quantification of constituent fractions . Acad. Dent. Mater. Trans , 8 : 112
  • Tchobanoglous , G. , Burton , F. L. and Stensel , H. D. 2003 . Wastewater engineering treatment and reuse. , New York : McGraw-Hill Company, Inc. .
  • Viana , P. , Yin , K. and Rockne , K. J. 2008 . Modeling active capping efficacy I: Metal and organometal contaminated sediment remediation . Environ. Sci. Technol , 42 ( 23 ) : 8922 – 8929 .
  • Goldstone , M. E. , Atkinson , C. , Kirk , P. W.W. and Lester , J. N. 1990 . The behaviour of heavy metals during wastewater treatment iii. Mercury and arsenic . Sci. Total Environ , 95 : 271 – 294 .
  • Wu , J. S. and Hilger , H. 1985 . Chemodynamic behavior of mercury in activated sludge process . Am. Inst. Chem. Eng , 81 : 109
  • Pavlogeorgatos , G. D. , Lekkas , T. , Georgiou , V. , Spachos , G. , Stefanoulis , C. and Tridimas , P. 1999 . Examination of mercury's effects during the process of the activated sludge . Toxicol. Environ. Chem , 69 ( 1&2 ) : 171 – 181 .
  • Pavlogeorgatos , G. D. , Thomaidis , N. S. , Nikolaou , A. D. and Lekkas , T. D. 2006 . Determination of methyl mercury in a pilot-scale activated sludge wastewater treatment plant . Global NEST J , 8 ( 1 ) : 61 – 67 .
  • Gilmour , C. C. and Bloom , N. S. 1995 . A case study of mercury and methylmercury dynamics in a Hg-contaminated municipal wastewater treatment plant . Water, Air, Soil Pollut , 80 ( 1–4 ) : 799 – 803 .
  • Bisogni , J. J. and Lawrence , A. W. 1975 . Kinetics of mercury methylation in aerobic and anaerobic aquatic environments . J. W. P. C. F , 47 ( 1 ) : 135 – 152 .
  • Shade , C. W. and Hudson , R. J.M. 2005 . Determination of methyl-Hg in environmental sample matrices using hg-thiourea complex ion chromatography with on-line cold vapor generation and atomic fluorescence spectrometric detection . Environ. Sci. Technol , 39 : 4974 – 4982 .
  • Shade , C. W. and Hudson , R. J.M. Analysis of mercury containing samples 2003, U.S. Patent number 171461.
  • Vermillion , B. R. and Hudson , R. J.M. 2007 . Thiourea catalysis of methyl-Hg ligand exchange between natural dissolved organic matter and a thiol-functionalized resin: A novel method of matrix removal and methyl-Hg preconcentration for ultratrace Hg speciation analysis in freshwaters . Anal Bioanal Chem , 388 ( 2 ) : 341 – 352 .
  • Viana , P. , Yin , K. , Zhao , X. and Rockne , K. J. 2007 . Active sediment capping for pollutant mixtures: Control of biogenic gas production under highly intermittent flows . Land Contamination & Reclamation , 15 ( 4 ) : 413 – 425 .
  • Clesceri , L. S. , Greenberg , A. E. and Eaton , A. D. 2005 . Standard methods for the examination of water and wastewater. Washington , DC
  • Stumm , W. and Morgan , J. J. 1996 . Aquatic chemistry. Chemical equilibria and rates in natural waters. , New York : Wiley Interscience .
  • Gray , J. E. , Hines , M. E. , Pablo , L. H. , Adatto , I. and Lasorsa , B. K. 2004 . Mercury speciation and microbial transformations in mine wastes, stream sediments, and surface waters at the Almadén mining district, Spain . Environ. Sci. Technol , 38 ( 16 ) : 4285 – 4292 .
  • Ekstrom , E. B. , Morel , F. M.M. and Benoit , J. M. 2003 . Mercury methylation independent of the acetyl-coenzyme a pathway in sulfate-reducing bacteria . Appl. Environ. Microbiol , 69 ( 9 ) : 5414 – 5422 .
  • King , J. K. , Harmon , S. M. , Fu , T. T. and Gladden , J. B. 2002 . Mercury removal, methylmercury formation, and sulfate-reducing bacteria profiles in wetland mesocosms . Chemosphere , 46 ( 6 ) : 859 – 870 .
  • King , J. K. , Kostka , J. E. , Frischer , M. E. , Saunders , F. M. and Jahnke , R. A. 2001 . A quantitative relationship that demonstrates mercury methylation rates in marine sediments are based on the community composition and activity of sulfate-reducing bacteria . Environ. Sci. Technol , 35 ( 12 ) : 2491 – 2496 .
  • Choi , S.-C. , ChaseTheodore , J. R. and Bartha , R. 1994 . Enzymatic catalysis of mercury methylation by Desulfovibrio desulfuricans ls . Appl. Environ. Microbiol , 60 ( 4 ) : 1342 – 1346 .
  • Choi , S.-c. , Chase Theodore , J. R. and Bartha , R. 1994 . Metabolic pathways leading to mercury methylation in Desulfovibrio desulfuricans ls . Appl. Environ. Microbiol , 60 ( 11 ) : 4072 – 4077 .
  • Shor , L. M. , Kosson , D. S. , Rockne , K. J. , Young , L. Y. and Taghon , G. L. 2004 . Combined effects of contaminant desorption and toxicity on risk from PAH contaminated sediments . Risk Anal , 24 ( 5 ) : 1109 – 1120 .
  • Viana , P. , Yin , K. and Rockne , K. J. 2008 . Modeling Active Capping Efficacy I: Metal and Organometal Contaminated Sediment Remediation . Environ. Sci. Technol. , 42 ( 23 ) : 8922 – 8929 .

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