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Environmental Forensics Volume 14, 2013 - Issue 3
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Contributed Articles

Testing for “Organolead”—Is It Truly Organic Lead (Pb)?

Gregory Kipp Geomega, Boulder, CO, USA
,
Andy Davis Geomega, Boulder, CO, USA
,
Kanan Patel-Coleman URS, Los Angeles, CA, USA
&
Leslie Klinchuch Chevron Environmental Management Co., Bakersfield, CA, USA
Pages 204-214 | Published online: 13 Aug 2013

References

  • Agency for Toxic Substances and Disease Registry (ATSDR) . 2007 . Public health statement: Lead , Atlanta , GA : ATSDR .
  • Aiken , G. , McKnight , D. and Wershaw , R. 1985 . Humic Substances in Soil, Sediment, and Water. , New York , NY : John Wiley and Sons .
  • American Society for Testing and Materials (ASTM) . 1984 . “ ASTM D3237-79 ” . In Standard Test Method for Lead in gasoline by Atomic Absorption Spectrometry , West Conshohocken, PA : American National Standard Institute .
  • Birks , L. 1971 . Electron Probe Microanalysis , 2nd ed , New York , NY : Wiley–Interscience .
  • Brady , N. 1990 . Nature and Properties of Soil , 10th ed , New York , NY : Macmillan Publishing .
  • Bruya , J. 2001 . “ Chemical fingerprinting ” . In Practical Environmental Forensics , New York , NY : John Wiley and Sons .
  • Crabtree , R. H. 2005 . Organometallic Chemistry of the Transition Metals , 560 Hoboken, NJ : John Wiley and Sons .
  • Davis , A. , Drexler , J. W. , Ruby , M. V. and Nicholson , A. 1993 . Micromineralogy of mine wastes in relation to lead bioavailability, Butte, Montana . Environmental Science & Technology , 27 ( 7 ) : 1415 – 1425 .
  • Davis , A. , Ruby , M. and Bergstrom , P. 1992 . The bioavailability of arsenic and lead in soils from the Butte mining district . Environmental Science & Technology , 26 ( 3 ) : 461 – 468 .
  • Davis , A. , Ruby , M. V. , Goad , P. , Eberle , S. and Chrysoullis , S. 1997 . A mass balance on surface-bound, mineralogic, and total lead concentrations and their relevance to bioaccessibility in industrial aggregates . Environmental Science & Technology , 31 : 37 – 44 .
  • Department of Toxic Substances Control (DTSC) . 2002 . HML-939-M , Sacramento , CA : California Department of Toxic Substances Control . http://www.cdph.ca.gov/certlic/labs/Documents/ELAP-HML939-M.pdf
  • Drexler , J. W. and Brattin , W. 2007 . An in vitro procedure for estimation of lead relative bioavailability, with validation . Human and Ecological Risk Assessment , 13 ( 2 ) : 383 – 401 .
  • DuPont Petroleum Laboratory. Petroleum Laboratory Method M-111–74 , Du Pont Petroleum Laboratory . Wilmington, PA
  • Freeman , G. , Johnson , J. Killinger , S. 1992 . Relative bioavailability of lead from mining waste soil in rats . Fundamental Applied Toxicology , 19 : 388 – 398 .
  • Gallert , C. and Winter , J. 2003 . Bioremediation of soils contaminated with alkyllead compounds: Laboratory investigations and field trials . Electronic Journal of Environmental, Agricultural and Food Chemistry , : 255–260
  • Gallert , C. and Winter , J. 2004 . Degradation of alkyllead compounds to inorganic lead in contaminated soil . Water Research , 38 : 4204 – 4212 .
  • Gibbs , L. 2010 . Gasoline additives-When and why , Warrendale , PA : Society of Automotive Engineers. SAE Technical Paper Series No. 902104 .
  • Heinrich , K. 1981 . Electron Beam X-Ray Microanalysis , New York , NY : Van Nostrand .
  • Helal , M. 2006 . Sorption/desorption characteristics of heavy metal on amorphous Al and Fe hydroxides formed in the presence of oxalate, citrate, and tannate ligands . Journal of Agronomy , 5 ( 3 ) : 440 – 450 .
  • Howard , L. and Griffin , L. 1993 . Lignin formation and surface discoloration of minimally processed carrot sticks . Journal of Food Science , 58 ( 5 ) : 1065 – 1067 .
  • Hrudey , S. , Chen , W. and Rousseaux , C. 1996 . Bioavailability in Environmental Risk Assessment. , Boca Raton , FL : CRC Press .
  • Hurst , R. , Davis , T. and Chinn , G. 1996 . The lead fingerprints of gasoline contamination . Environmental Science & Technology , 30 : 304A – 307A .
  • IARC . 2004 . IARC Monographs on the Evaluation of Carcinogenic Risks to Humans. V. 87 Inorganic and Organic Lead Compounds , Lyon , , France : World Health Organization (WHO) .
  • Jarvie , A. , Markall , R. and Potter , H. D. 1981 . Decomposition of organolead compounds in aqueous systems . Environmental Research , 25 : 241 – 249 .
  • Johnston , H. 1964 . The relationship of brown humus to lignin . Plant and Soil , 21 : 191 – 200 .
  • Koshcheev , A. , Livshits , O. and Vizul , M. 1970 . Use of vegetables in therapeutic–preventitive diets of workers in contact with lead [in Russian] . [Work Hygiene and Occupational Diseases] , 14 ( 1 ) : 52 – 54 .
  • Kylander , M. , Cortizas , A. , Raunch , S. and Wiess , D. 2008 . Lead penetration and leaching in a complex temporate soil profile . Environmental Science and Technology , 42 : 3177 – 3184 .
  • Ladonin , D. and Karpukhin , K. 2008 . Effect of the main soil components on the sorption of copper, zinc, and lead by urban soils . Moscow University Soil Science Bulletin , 63 : 33 – 38 .
  • Lamie , P. 2012 . “ Assessing the bioavailability of arsenic in sediments for use in human health risk assessment article ” . In Proceedings of the Annual International Conference on Soil, Sediment, Water, and Energy Vol. 17 , 3
  • Link , T. E. , Ruby , M. V. , Davis , A. and Nicholson , A. D. 1994 . Soil lead mineralogy by microprobe: An interlaboratory comparison . Environmental Science & Technology , 28 : 985 – 988 .
  • Mahaffey , K. 1977 . Quantities of lead producing health effects in humans: Sources and bioavailability . Environmental Health Perspectives , 19 : 285 – 295 .
  • Marinari , S. , Liburdi , K. , Corradini , D. and Gregos , S. 2010 . Reversed-phase high performance liquid chromatographic profile of organic fractions extracted by solvents with different polarity as a tool to evaluate the hydrophobic character of soil under different management . Soil and Tillage Research , 109 : 36 – 40 .
  • National Environmental Laboratory Accreditation Conference (NELAC) . 2003 . 2003 NELAC Standard. EPA/600/R-04/003 , NELAC Institute . Las Vegas, NV
  • Nielsen , O. , O'Farrell , D. and Treacy , J. 1991 . Rate constants for the gas–phase reactions of hydroxylradicals with tetramethyllead and tetraethyllead . Environmental Science & Technology , 25 : 1098 – 1103 .
  • Qin , F. , Wen , B. Shan , X. 2006 . Mechanisms of competitive adsorption of Pb, Cu, and Cd on peat . Environmental Pollution , 144 : 669 – 680 .
  • Rhue , R. D. , Mansell , R. S. , Ou , L. T. , Cox , R. , Tang , S. R. and Ouyang , Y. 1992 . The fate and behavior of lead alkyls in the environment: A review . Critical Reviews in Environmental Control , 22 : 169 – 193 .
  • Roderer , G. 1984 . On the toxic effects of tetraethyl lead and its derivatives on the chrysophyte Poterioochromonasmalhamensis-V. Electron microscopical studies . Environmental and Experimental Botany , 24 : 17 – 30 .
  • Ruby , M. W. , Davis , A. , Link , T. E. , Schoof , R. , Chaney , R. L. , Freeman , G. B. and Bergstrom , P. 1993 . Development of an in vitro screening test to evaluate the in vivo bioaccessibility of ingested mine-waste lead . Environmental Science & Technology , 27 : 2870 – 2877 .
  • Ruby , M. V. , Davis , A. and Nicholson , A. 1994 . In situ formation of lead phosphates in soils as a method to immobilize lead . Environmental Science & Technology , 28 : 646 – 654 .
  • Saar , R. A. and Weber , J. H. 1980 . Lead(II) complexation by fulvic acid: How it differs from fulvic acid complexation of copper(II) and cadmium(II) . Geochim Cosmochim Acta , 44 : 1381 – 1384 .
  • Seyferth , D. 2003 . The rise and fall of tetraethyllead . Organometallics , 22 : 5154 – 5178 .
  • Strawn , D. and Sparks , D. 2000 . Effects of soil organic matter on the kineteics and mechanisms of Pb(II) sorption and desorption in soil . Soil Science Society of America Journal , 64 : 114 – 156 .
  • Teeling , H. and Cypionka , H. 1997 . Microbial degradation of tetraethyl lead in soil monitored by calorimetry . Applied Microbiology and Biotechnology , 48 : 275 – 279 .
  • Town , R. , Chakraborty , P. and van Leewen , H. 2009 . Dynamic DGT speciation analysis and applicability to natural heterogeneous complexes . Environmental Chemistry , 6 : 170 – 177 .
  • Town , R. and Filella , M. 2002 . Implications of natural organic matter binding heterogeneity on understanding lead(II) complexation in aquatic systems . Science of the Total Environment , 300 : 143 – 154 .
  • United States Environmental Protection Agency (US EPA) . 1999 . Short Sheet: IEUBK Model Bioavailability Variable. OSWER 9285. 7–32 , Washington , DC : US EPA .
  • United States Environmental Protection Agency (US EPA) . 2002 . User's Guide for the Integrated Exposure Uptake Biokinetic Model for Lead in Children (IEUBK). Windows 32-Bit Version , Washington , DC : US EPA. . [EPA 9285. 7–42]
  • United States Environmental Protection Agency (US EPA) . 2004 . Hazardous Waste SW-846 Test Methods for Evaluating Solid Waste Physical/Chemical Methods , Washington , DC : US EPA .
  • United States Environmental Protection Agency (US EPA) . 2007 . Estimation of relative bioavailability of lead in soil and soil-like materials using in vivo and in vitro methods. OSWER 9285. 7-77 , Washington , DC : US EPA .
  • United States Environmental Protection Agency (US EPA) . 2009 . Validation assessment of in vitro lead bioaccessibility assay for predicting relative bioavailability of lead in soils and soil-like materials at Superfund sites. OSWER 9200. 3-51 , Washington , DC : US EPA .
  • Yamamura , Y. , Arai , F. and Yamauchi , H. 1981 . Urinary excretion pattern of triethyl lead, diethyl lead and inorganic lead in the tetraethyl lead poisoning . Industrial Health , 19 : 125 – 131 .
  • Young , T. , Weber and Jr , W. 1995 . A distributed reactivity model for sorption by sails and sediments. 3. Effects of diagenetic processes on sorption energetics . Environmental Science & Technology , 29 : 92 – 97 .
  • Zhang , P. and Ryan , J. 1999 . Transformation of Pb(II) from cerussite to chloropyromorphite in the presence of hydroxyapatite under varying conditions of pH . Environmental Science & Technology , 33 : 625 – 630 .

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