Abdel-Rahman, M. S., G. A. Skowronski, R. M. Turkall, and A. M. Kadry. 1998. “Dermal bioavailability of phenanthrene aging in soil.” In Contaminated Soils, Volume 3, edited by E. J. Kostecki, P. T. Calabrese, and M. Bonazountas. 153-163. Amherst, MA: Amherst Scientific Publishers.
Alexander, B. H., H. Checkoway, E. M. Faustman, C. Van Netten, C. H. Muller, and T. G. Ewers. 1998. “Contrasting associations of blood and semen lead concentrations with semen quality among lead smelter workers.” American Journal of Industrial Medicine 34 (4):464-469.
Anderson, R. H., D. B. Farrar, and J. M. Zodrow. 2013. “Terrestrial Metals Bioavailability: A Comprehensive Review and Literature-Derived Decision Rule for Ecological Risk Assessment.” Human and Ecological Risk Assessment 19 (6):1488-1513.
ATSDR (Agency for Toxic Substances and Disease Registry). 2007a. “Toxicological Profile for Arsenic.” Agency for Toxic Substances and Disease Registry. http://www.atsdr.cdc.gov/toxprofiles/tp2.pdf.
ATSDR. 2015. “Support Document to the 2015 Priority List of Hazardous Substances that will be the Subject of Toxicological Profiles.” Agency for Toxic Substances and Disease Registry. http://www.atsdr.cdc.gov/SPL/resources/ATSDR_2015_SPL_Support_Document.pdf.
ATSDR 2017. “Substance Priority List.” Agency for Toxic Substances and Disease Registry. https://www.atsdr.cdc.gov/SPL/index.html#content-main
Attanayake, C. P., G. M. Hettiarachchi, A. Harms, D. Presley, S. Martin, and G. M. Pierzynski. 2014. “Field evaluations on soil plant transfer of Pb from an urban garden soil.” Journal of Environmental Quality 43 (2):475-487.
Attanayake, C. P., G. M. Hettiarachchi, S. Martin, and G. M. Pierzynski. 2015. “Potential Bioavailability of Lead, Arsenic, and Polycyclic Aromatic Hydrocarbons in Compost-Amended Urban Soils.” Journal of Environmental Quality 44:930-944.
Aucott, A., and A. Caldarelli. 2011. “Investigation of release, fate and transport of lead from motor vehicle wheel weights.” Trenton, NJ: Office of Science, New Jersey Department of Environmental Protection.
Ballew, C., L. K. Khan, R. Kaufmann, A. Mokdad, D. T. Miller, and E. W. Gunter. 1999. “Blood lead concentration and children’s anthropometric dimensions in the Third National Health and Nutrition Examination Survey (NHANES III), 1988-1994.” Journal of Pediatrics 134 (5):623-630.
BARGE (BioAccessibility Research Group of Europe). 2016. “Unifed BARGE Method (UBM).” http://www.bgs.ac.uk/barge/home.html.
Basta, N. T., J. N. Foster, E. A. Dayton, R.R . Rodriguez, and S. W. Casteel. 2007. “The effect of dosing vehicle on arsenic bioaccessibility in smelter-contaminated soil.” Journal of Environmental Science and Health, Part A 42 (9):1275-1281.
Basta, N. T., J. N. Foster, and K. G. Scheckel. 2007. “Arsenic speciation using extended X-ray absorption fine structure and chemical extraction methods to assess oral bioavailability.” Soil Science Society Annual Meeting, New Orleans, Nov. 5, 2007.
Basta, N. T., and A. L. Juhasz. 2014. “Using In Vivo Bioavailability and/or In Vitro Gastrointestinal Bioaccessibility Testing to Adjust Human Exposure from Soil Ingestion.” In Geochemistry, Mineralogy and Microbiology of Arsenic in Environment, Reviews in Mineralogy and Geochemistry, edited by R. J. Bowell, J. Majzlan and C. N. Alpers. 451-472. Mineralogical Society of America.
Basta, N. T., B. Stevens, S. W. Whitacre, K. G. Scheckel, A. Betts, K. D. Bradham, D. Thomas, and C. Schadt. 2016. “Mechanisms and Permanence of Sequestered Pb and As in Soils: Impact on Human Bioavailability.” SERDP Project ER-1742. Alexandria, VA: Strategic Environmental Research and Development Program.
Beak, D. G., N. T. Basta, K. G. Scheckel, and S. J. Traina. 2006a. “Bioaccessibility of arsenic (V) bound to ferrihydrite using a simulated gastrointestinal system.” Environmental Science & Technology 40:1364-1370.
Beak, D. G., N. T. Basta, K. G. Scheckel, and S. J. Traina. 2006b. “Bioaccessibility of lead sequestered to corundum and ferrihydrite in a simulated gastrointestinal system.” Journal of Environmental Quality 35 (6):2075-2083.
Beak, D. G., N. T. Basta, K. G. Scheckel, and S. J. Traina. 2008. “Linking solid phase speciation of Pb sequestered to birnessite to oral Pb bioaccessibility: Implications for soil remediation.” Environmental Science & Technology 42 (3):779-785.
Beesley, L., E. Moreno-Jiménez, J. L. Gomez-Eyles, E. Harris, B. Robinson, and T. Sizmur. 2011. “A review of biochars’ potential role in the remediation, revegetation and restoration of contaminated soils.” Environmental Pollution 159 (12):3269-3282.
Bogan, B. W., and W. R. Sullivan. 2003. “Physicochemical Soil Parameters Affecting Sequestration and Mycobacterial Biodegradation of Polycyclic Aromatic Hydrocarbons in Soil.” Chemosphere 52 (10):1717-1726.
Borja-Aburto, V. H., I. Hertz-Picciotto, M. R. Lopez, P. Farias, C. Rios, and J. Blanco. 1999. “Blood lead levels measured prospectively and risk of spontaneous abortion.” American Journal of Epidemiology 150 (6):590-597.
Bowell, R. J., and D. Craw. 2014. “The management of arsenic in the mining industry.” In Arsenic: Environmental Geochemistry, Mineralogy, and Microbiology., edited by R. J. Bowell, C. N. Alpers, H. E. Jamieson, D. K. Nordstrom and J. Majzlan, 507-532. Rev. Mineral. Geochem.
Bradham, K. D., G. L. Diamond, K. G. Scheckel, M. F. Hughes, S. W. Casteel, B. W. Miller, J. M. Klotzbach, W. C. Thayer, and D. J. Thomas. 2013. “Mouse assay for determination of arsenic bioavailability in contaminated soils.” Journal of Toxicology and Environmental Health Part A 76:815-826.
Bradham, K. D., C. Nelson, A. L. Juhasz, E. Smith, K. G. Scheckel, D. R. Obenour, B. W. Miller, and D. J. Thomas. 2015. “Independent data validation of an in vitro method for the prediction of the relative bioavailability of arsenic in contaminated soils.” Environmental Science & Technology 49:6313–6318.
Bradham, K. D., K. G. Scheckel, C. M. Nelson, P. E. Seales, G. E. Lee, M. F. Hughes, B. W. Miller, A. Yeow, T. Gilmore, S. M. Serda, S. Harper, and D. J. Thomas. 2011. “Relative bioavailability and bioaccessibility and speciation of arsenic in contaminated soils.” Environmental Health Perspectives 119:1629–1634.
Brändli, R. C., T. Hartnik, T. Henriksen, and G. Cornelissen. 2008. “Sorption of native polyaromatic hydrocarbons (PAH) to black carbon and amended activated carbon in soil.” Chemosphere 73 (11):1805-1810.
Brattin, W. J., J. Drexler, Y. W. Lowney, S. Griffin, G. L. Diamond, and L. Woodbury. 2013. “An in vitro method for estimation of arsenic relative bioavailability in soil.” Journal of Toxicology and Environmental Health, Part A 76 (7):458-478.
Brown, G.E., Jr., and G. A. Parks. 2001. “Sorption of trace elements on mineral surfaces: Modern perspectives from spectroscopic studies, and comments on sorption in the marine environment.” International Geology Review 43:963-1073.
Budinsky, R. A., J. C. Rowlands, S. Casteel, G. Fent, C. A. Cushing, J. Newsted, J. P. Giesy, M. V. Ruby, and L. L. Aylward. 2008. “A pilot study of oral bioavailability of dioxins and furans from contaminated soils: Impact of differential hepatic enzyme activity and species differences.” Chemosphere 70 (1774-1786).
Canfield, R. L., C. A. Henderson Jr, D. A. Cory-Slechta, C. Cox, T. A. Jusko, B. P. Lanphear, D. C. Bellinger, K. M. Stiles, and H. L. Needleman. 2003. “Intellectual impairment and blood lead levels.” New England Journal of Medicine 349:500-502.
Casteel, S. W., R. P. Cowart, C. P. Weis, G. M. Henningsen, E. Hoffman, W. J. Brattin, M. F. Starost, J. T. Payne, S. L. Stockham, S. V. Becker, and J. R. Turk. 1996. “A swine model for determining the bioavailability of lead from contaminated media.” In Advances in Swine in Biomedical Research, edited by Tumbleson and Schook, 637-46. New York: Plenum Press.
Casteel, S. W., C. P. Weis, G. M. Henningsen, and W. J. Brattin. 2006. “Estimation of Relative Bioavailability of Lead in Soil and Soil-like Materials Using Young Swine.” Environmental Health Perspectives 114:1162-1171.
Casteel, S. W., C. P. Weis, G. M. Henningsen, E. Hoffman, Brattin W. J., and T. L. Hammon. 1998. “Bioavailability of Lead in a Slag Sample from the Midvale Slag NPL Site, Midvale Utah. Phase II Swine Bioavailability Investigations.” U.S. Environmental Protection Agency, Region 8. Document Control Number 04800-030-0166. Denver, CO.
Casteel, S., C. P. Weis, G. M. Henningsen, E. Hoffman, W. J. Brattin, and T. L. Hammon. 1998. “Bioavailability of Lead in a Soil Sample from the Butte NPL Site.” U.S. Environmental Protection Agency, Region 8. Document Control No. 01800-030-0165. Denver, CO.
Cave, M. R., J. Wragg, I. Harrison, C. H. Vane, T. Van de Wiele, E. de Groeve, C. P. Nathanail, M. Ashmore, R. Thomas, J. Robinson, and P. Daly. 2010. “Comparison of batch mode and dynamic physiologically based bioaccessibility tests for PAHs in soil samples.” Environmental Science & Technology 44 (7):2654−2660.
CCME (Canadian Council of Ministers of the Environment). 2008. “Canadian Soil Quality Guidelines for Carcinogenic and Other Polycyclic Aromatic Hydrocarbons (Environmental and Human Health Effects).” Scientific Supporting Document.
CDC. 2012. “CDC response to advisory committee on childhood lead poisoning prevention recommendations in “low level lead exposure harms children: a renewed call of primary prevention”.” Atlanta, GA: Centers for Disease Control and Prevention. http://www.cdc.gov/nceh/lead/acclpp/cdc_response_lead_exposure_recs.pdf.
CDC. 2013. “Lead Biomonitoring Summary.”. http://www.cdc.gov/biomonitoring/Lead_BiomonitoringSummary.html (accessed October 25, 2016).
Chaney, R. L. , N. T. Basta, and J. A. Ryan. 2008. Element Bioavailability and Bioaccessibility In Soils: What Is Known Now, and what are the Significant Data Gaps? Appendix B. SERDP and ESTCP Expert Panel Workshop on Research and Development Needs for Understanding and Assessing the Bioavailability of Contaminants in Soils and Sediments. Arlington, VA: SERDP and ESTCP.
Chaney, R. L., M. H. Zia, and E. E. Codling. 2011. “Simplified urban soil bioaccessible Pb test correlated with bioavailability of soil-Pb to humans in untreated and phosphate-treated Joplin soils.” International Conference on the Biogeochemistry of Trace Elements, Florence, Italy, July 3-8, 2011.
Charman, W.N., C. J. Porter, S. Mithani, and J. B. Dressman. 1997. “Physicochemical and physiological mechanisms for the effects of food on drug absorption: The role of lipids and pH.” Journal of Pharmaceutical Sciences 86:269-282.
Clausen, J. L., B. Bostick, and N. Korte. 2011. “Migration of Pb in surface water, pore water, and groundwater with a focus on firing ranges.” Critical reviews in Environmental Science & Technology 41 (15):1397-1448.
Commission, Presidential/Congressional. 1997. “Framework for Environmental Health Risk Management.” Final Report, Volume 1. Washington, D. C.: The Presidential/Congressional Commission on Risk Assessment and Risk Management.
Cornelissen, G., O. Gustafsson, T. D. Bucheli, M. T. O. Jonker, A. A. Koelmans, and P. C. M. Van Noort. 2005. “Extensive sorption of organic compounds to black carbon, coal, and kerogen in sediments and soils: Mechanisms and consequences for distribution, bioaccumulation, and biodegradation.” Environmental Science & Technology 39 (18):6881-6895.
Cornelissen, G., H. Rigterink, M. M. A. Ferdinandy, and P. C. M Van Noort. 1998. “Rapidly desorbing fractions of PAHs in contaminated sediments as a predictor of the extent of bioremediation.” Environmental Science & Technology 32 (7):966-970.
Craw, D., and R. J. Bowell. 2014. “The characterization of arsenic in mine waste.” In Arsenic: Environmental Geochemistry, Mineralogy, and Microbiology., edited by R. J. Bowell, C. N. Alpers, H. E. Jamieson, D. K. Nordstrom and J. Majzlan, 473-505. Rev. Mineral. Geochem.
Davis, A., J. W. Drexler, M. V. Ruby, and A. Nicholson. 1993. “Micromineralogy of mine wastes in relation to lead bioavailability, Butte, Montana.” Environmental Science & Technology 27 (7):1415-1425.
Davis, A., M. V. Ruby, and P. D. Bergstrom. 1991. “Geochemical Controls on the Bioavailability of Lead from Mine Waste Impacted Soils.” Proc. of the Hazardous Materials Conference, Hazardous Materials Control Institute, Greenbelt, MD.
Davis, A., M. V. Ruby, M. Bloom, R. Schoof, G. B. Freeman, and P. D. Bergstrom. 1996. “Mineralogic Constraints on the Bioavailability of Arsenic in Smelter-Impacted Soils.” Environmental Science & Technology 30 (2):392-399.
Denys, S., J. Caboche, K. Tack, G. Rychen, J. Wragg, M. Cave, C. Jondreville, and C. Feidt 2012. “In vivo validation of the unified BARGE method to assess the bioaccessibility of arsenic, antimony, cadmium, and lead in soils.” Environmental Science & Technology 46:6252-6260.
Diamond, G. L., K. D. Bradham, W. J. Brattin, M. Burgess, S. Griffin, C. A. Hawkins, A. L. Juhasz, J. M. Klotzbach, C. Nelson, Y. W. Lowney, K. G. Scheckel, and D. J. Thomas. 2016. “Predicting oral relative bioavailability of arsenic in soil from in vitro bioaccessibility.” Journal of Toxicology and Environmental Health, Part A 79 (4):165-173.
DTSC (California Department of Toxic Substances Control). 2011a. “Lead Risk Assessment Spreadsheet 8.” https://www.dtsc.ca.gov/AssessingRisk/LeadSpread8.cfm.
DTSC. 2015. “Human Health Risk (HERO).” California Environmental Protection Agency. http://www.dtsc.ca.gov/assessingrisk/humanrisk2.cfm.
DTSC. 2016a. “Human Health RIsk Assessment Note 3 – DTSC-Modified Screening Levels.” Sacramento, CA: California Environmental Protection Agency. http://www.dtsc.ca.gov/AssessingRisk/upload/HHRA_Note_3_-2016-06.pdf.
DTSC. 2016b. “Human Health Risk Assessment Note 6: Recommended Methodology for Evaluating Site-Specific Arsenic Bioavailability in California Soils.” Sacramento, CA: California Environmental Protection Agency. https://www.dtsc.ca.gov/AssessingRisk/upload/HHRA-Note-6-CAB-Method.pdf
Duan, L., T. Palanisami, Y. Liu, Z. Dong, M. Mallavarapu, T. T. Kuchel, K. T. Semple, and R. Naidu. 2014. “Effects of Aging and Soil Properties on the Oral Bioavailability of Benzo[a]Pyrene Using a Swine Model.” Environment International 70:192-202.
ENVIRON. 2014. Butte Priority Soils Operable Unit, Public Health Study, Phase 1, Butte, Montana. Prepared by ENVIRON International Corporation for Butte Silver Bow County and Atlantic Richfield Company. In Project Number 3032503A.
Exponent. 2008a. “Bingham-Magna Ditch Site Investigation, Report 4 of 5, Technical Memorandum, Evaluation of Risk-Based Soil Cleanup Levels for the Former Bingham-Magna Ditch. Prepared for Kennecott Utah Copper Corporation, Murray, Utah.” Document # DERR 2008-018021.
FDA (Food and Drug Administration). 2016. “Kohl, Kajal, Al-Kahal, or Surma: By Any Name, a Source of Lead Poisoning.” https://www.fda.gov/cosmetics/productsingredients/products/ucm137250.htm.
Freeman, G. B. , R. A. Schoof, M. V. Ruby, A. O. Davis, S. C. Dill, S. C. Liao, C. A. Lapin, and P. D. Bergstrom. 1995. “Bioavailability of arsenic in soil and house dust impacted by smelter activities following oral administration in cynomolgus monkeys.” Fundamental and Applied Toxicology 28:215-222.
Freeman, G. B., S. C. Liao, P. I. Feder, and J. D. Johnson. 1992. Absolute Bioavailability of Lead Following Intravenous and Dosed Feed Administration Using Sprague-Dawley Rats. In Laboratory ID #SC910144. Columbus, OH: Battelle Columbus Operations.
Gennart, J-P., J-P. Buchet, H. Roels, P. GHyselen, E. Ceulemans, and R. Lauwerys. 1992. “Fertility of male workers exposed to cadmium, lead or manganese.” American Journal of Epidemiology 135 (11):1208-1219.
Girouard, E., and G. J. Zagury. 2009. “Arsenic bioaccessibility in CCA-contaminated soils: Influence of soil properties, arsenic fractionation, and particle size fraction.” Science of the Total Environment 407:2576-2585.
Glorennec, P., C. Peyr, J. Poupon, Y. Oulhote, and B. Le Bot. 2010. “Identifying sources of Pb exposure for children, with Pb concentrations and isotope ratios.” Journal of Occupational and Environmental Hygiene 7 (5):253-260.
Griffin, S., and Y. W. Lowney. 2012. “Final Report: Validation of an In Vitro Bioaccessibility Test Method for Estimation of Bioavailability of Arsenic from Soil and Sediment.” Project ER-200916: Environmental Security Technology Certification Program (ESTCP).
Grimmer, G., H. Brune, G. Dettbarn, U. Heinrich, J. Jacob, E. Mohtashamipur, K. Norpoth, F. Pott, and R. Wenzel-Hartung. 1998. “The Effect of Aging on Pyrene Transformation in Sediments.” Environmental Toxicology and Chemistry 22 (1):40-49.
Gurer-Orhan, H., H. U. Sabır, and H. Özgüneş. 2004. “Correlation between clinical indicators of lead poisoning and oxidative stress parameters in controls and lead-exposed workers.” Toxicology 195 (2):147-154.
Hawaii DOH. 2014. “Section 9. Supplemental guidance for select contaminants of concern.” Technical Guidance Manual for Implementation of the Hawaii State Contingency Plan. Hawaii Department of Health.
Hawthorne, S. B., D. G. Poppendieck, C. B. Grabanski, and R. C. Loehr. 2002. “PAH Release During Water Desorption, Supercritical Carbon Dioxide Extraction and Field Bioremediation.” Environmental Science & Technology 36:4795-4803.
Hemphill, C. P., M. V. Ruby, B. Beck, A. Davis, and P. D. Bergstrom. 1991. “The Bioavailability of Lead in Mining Wastes: Physical/Chemical Considerations.” Chemical Speciation and Bioavailability 3 (314):135-138.
Henderson, R.G., Cappellini, D., Seilkop, S.K., Bates, H.K., Oller, A.R. 2012b. “Oral bioaccessibility testing and read-across hazard assessment of nickel compounds.” Regulatory Toxicology and Pharmacology 63:20–28.
Henry, H., M. F. Naujokas, C. Attanayake, N. T. Basta, Z. Cheng, G. M. Hettiarachchi, M. Maddaloni, C. Schadt, and K. G. Scheckel. 2015. “Bioavailability-based in situ remediation to meet future lead (Pb) standards in urban soils and gardens.” Environmental Science & Technology 49 (15):8948-8958.
Hettiarachchi, G. M., G. M. Pierzynski, F. W. Oehme, O. Sonmez, and J. A. Ryan. 2003. “Treatment of contaminated soil with phosphorus and manganese oxide reduces lead absorption by Sprague–Dawley rats.” Journal of Environmental Quality 32 (4):1335-1345.
Holman, H.-Y. N., R. Goth-Goldstein, D. Aston, M. Yun, and J. Kengsoontra. 2002. “Evaluation of Gastrointestinal Solubilization of Petroleum Hydrocarbon Residues in Soil Using an In Vitro Physiologically Based Model.” Environmental Science & Technology 36 (6):1281-1286.
ICCVAM. 1997. “Validation and Regulatory Acceptance of Toxicological Test Methods: A Report of the Ad Hoc Coordinating Committee on the Validation of Alternative Methods.” NIH Publication 973981. Research Triangle Park, NC: National Institute of Environmental Health Sciences.
ITRC (Interstate Technology & Regulatory Council). 2003. “Characterization and Remediation of Soils at Closed Small Arms Firing Ranges.” SMART-1. Washington, D.C.: Interstate Technology & Regulatory Council, Small Arms Firing Range Team. http://www.itrcweb.org/GuidanceDocuments/SMART-1.pdf.
ITRC. 2015. “Decision Making at Contaminated Sites: Issues and Options in Human Health Risk Assessment.” RISK-3. Washington, D. C.: Interstate Technology & Regulatory Council, Risk Assessment Team. www.itrcweb.org/risk-3.
Jacobs, D. E., R. P. Clickner, J. Y. Zhou, S. M. Viet, D. A. Marker, J. W. Rogers, D. C. Zeldin, P. Broene, and W. Friedman. 2002. “The prevalence of lead-based paint hazards in US housing.” Environmental Health Perspectives 110 (10):A599.
James, K., R. E. Peters, M. R. Cave, M. Wickstrom, E. G. Lamb, and S. D. Siciliano. 2016. “Predicting Polycyclic Aromatic Hydrocarbon Bioavailability to Mammals from Incidentally Ingested Soils Using Partitioning and Fugacity.” Environmental Science & Technology 50 (3):1338-1346.
James, K., R. E. Peters, B. D. Laird, W. K. Ma, M. Wickstrom, G. L. Stephenson, and S. D. Siciliano. 2011. “Human Exposure Assessment: A Case Study of 8 PAH Contaminated Soils Using in Vitro Digestors and the Juvenile Swine Model.” Environmental Science & Technology 45 (10):4586-4593.
Johnson, J. D., G. B. Freeman, S. C. Liao, P. I. Feder, and J. M. Killinger. 1991. Bioavailability of Lead in Mining Waste Soil: A Dosed Feed Study Using Sprague-Dawley Rats. In Laboratory ID # SC9000006. Columbus, OH: Battelle Columbus Operations.
Juhasz, A. L., P. Herde, C. Herde, J. Boland, and E. Smith. 2014. “Validation of the predictive capabilities of the Sbrc-G in vitro assay for estimating arsenic relative bioavailability in contaminated soils.” Environmental Science & Technology 48:12962–12969.
Juhasz, A. L., E. Smith, J. Weber, R. Naidu, M. Rees, A. Rofe, T. Kuchel, and L. Sansom. 2009. “Assessment of four commonly employed in vitro arsenic bioaccessibility assays for predicting in vivo arsenic relative bioavailability in contaminated soils.” Environmental Science & Technology 43:9887-9894.
Juhasz, A. L., E. Smith, J. Weber, M. Rees, A. Rofe, T. Kuchel, L. Sansom, and R. Naidu. 2007. “Comparison of in vivo and in vitro methodologies for the assessment of arsenic bioavailability in contaminated soils.” Chemosphere 69:961-966.
Juhasz, A. L., J. Weber, E. Smith, R. Naidu, B. Marschner, M. Rees, A. Rofe, T. T. Kuchel, and L. Sansom. 2009. “Evaluation of SBRC-gastric and SBRC-intestinal methods for the prediction of in vivo relative lead bioavailability in contaminated soils.” Environmental Science & Technology 43 (12):4503-4509.
Juhasz, A.L., J. Weber, G. Stevenson, D. Slee, D. Gancarz, A. Rofe, and E. Smith. 2014. “In vivo measurement, in vitro estimation and fugacity prediction of PAH bioavailability in post-remediated creosote-contaminated soil.” Science of the Total Environment 473:147-154.
Kang, Y., Pan, W.J., Liang, S.Y., Li, N., Zeng, L.X., Zhang, Q.Y., and Luo, J.W. 2016. Assessment of relative bioavailability of heavy metals in soil using in vivo mouse model and its implication for risk assessment compared with bioaccessibility using in vitro assay. Environmental Geochemistry and Health 38(5):1183–1191.
Khan, B. I., H. M. Solo-Gabriele, B. K. Dubey, T. G. Townsend, and Y. Cai. 2004. “Arsenic Speciation of Solvent-Extracted Leachate from New and Weathered CCA-Treated Wood.” Environmental Science & Technology 38:4527-4534.
Laidlaw, M. A. S., S. Zahran, N. Pingitore, J. Calgue, G. Devlin, and M. P. Taylor. 2014. “Identification of lead sources in residential environments: Sydney Australia.” Environmental Pollution 184:238-246.
Laidlaw, M.A.S., H.W. Mielke, G.M. Filippelli, D.L. Johnson, and C.R. Gonzales. 2005. “Seasonality and children’s blood lead levels: developing a predictive model using climatic variables and blood lead data from Indianapolis, Indiana, Syracuse, New York, and New Orleans, Louisiana (USA).” Environmental Health Perspectives 113:793-800.
Lake, D. L., P. W. W. Kirk, and J. N. Lester. 1984. “Fractionation, characterization, and speciation of heavy metals in sewage sludge and sludge-amended soils: A review.” Journal of Environmental Quality 13:165-183.
Lanphear, B. P., T. D. Matte, J. Rogers, R. P. Clickner, B. Dietz, and R. L. Bornschein. 1998. “The contribution of lead–contaminated house dust and residential soil to children’s blood lead levels. A pooled analysis of 12 epidemiologic studies.” Environmental Research 79:51-68.
Lanphear, B.P., P. Succop, S. Roda, and G. M. Henningsen. 2003. “The effect of soil abatement on blood lead levels in children living near a former smelting and milling operation.” Public Health Reports 118:83-91.
Lombi, E., F. Zhao, G. Zhang, B. Sun, W. Fitz, H. Zhang, and S. P. McGrath. 2002. “In situ fixation of metals in soils using bauxite residue: Chemical assessment.” Environmental Pollution 118:435-443.
Los Angeles Department of Public Health. 2016. “Traditional and Home Remedies Known to Contain Lead.” http://publichealth.lacounty.gov/eh/docs/Lead/FolkRemediesFlyer.pdf (accessed May 31, 2016).
Lowney, Y. W., R. C. Wester, R. A. Schoof, C. A. Cushings, M. Edwards, and M. V. Ruby. 2007. “Dermal Absorption of Arsenic from Soils as Measured in the Rhesus Monkey.” Toxicological Sciences 100:382-391.
Lowney, Y. W., M. V. Ruby, A. Bunge, J. Gomez-Eyles, U. Ghosh, J. Kissel, T. Peckham, S. Roberts, J. Shira, H. Xia, and C. Menzie. 2017. “PAH Interactions with Soil and Effects on Bioaccessibility and Bioavailability to Humans.” SERDP Project ER-11743. Alexandria, VA: Strategic Environmental Research and Development Program.
Luthy, R. G., G. R. Aiken, M. L. Brusseau, S. D. Cunningham, P. M. Gschwend, J. J. Pignatello, M. Reinhard, S. J. Traina, Jr. Weber, W. J., and J. C. Westall. 1997. “Sequestration of Hydrophobic Organic Contaminants by Geosorbents.” Environmental Science & Technology 31 :3341-3347.
Maddaloni, M., N. Lolacono, W. Manton, C. Blum, J. Drexler, and J. Graziano. 1998. “Bioavailability of soilborne lead in adults, by stable isotope dilution.” Environmental Health Perspectives 106 (Suppl. 6):1589-1594.
Mahaffey, K. R., P. S. Gartside, and C. J. Glueck. 1986. “Blood lead levels and dietary calcium intake in 1-to 11-year-old children: Second National Health and Nutrition Examination Survey, 1976 to 1980.” Pediatrics 78 (2):257-262.
MDEQ. 2006. “RRD Operational Memorandum No. 1: Technical Support Document – Attachment 6: Part 201 Soil Direct Contact Criteria and Part 213 Tier I Soil Direct Contact Risk-Based Screening Levels.”: Michigan Department of Environmental Quality.
Meunier, L., S. R. Walker, J. Wragg, M. B. Parsons, I. Koch, H. E. Jamieson, and K. J. Reimer. 2010. “Effects of soil composition and mineralogy on the bioaccessibility of arsenic from tailings and soil in gold mine districts of Nova Scotia.” Environmental Science & Technology 44:2667-2674.
Minca, K. K., N. T. Basta, and K. G. Scheckel. 2013. “Using the Mehlich-3 Soil Test as an Inexpensive Screening Tool to Estimate Total and Bioaccessible Lead in Urban Soils.” Journal of Environmental Quality 42:1518-1526.
Minekus, M. 2015. “The TNO Gastro-Intestinal Model (TIM).” In The Impact of Food Bioactives on Health: in vitro and ex vivo models, edited by Kitty Verhoeckx, Paul Cotter, Iván López-Expósito, Charlotte Kleiveland, Tor Lea, Alan Mackie, Teresa Requena, Dominika Swiatecka and Harry Wichers, 37-46. Cham: Springer International Publishing.
Minhas, J. K., L. Vasiluk, L, J. Pinto, F. A. P. C. Gobas, and M. M. Moore. 2006. “Mobilization of chrysene from soil in a model digestive system.” Environmental Toxicology & Chemistry 25 (7):1729-1737.
Mitchell, V. L. 2014. “Health risks associated with chronic exposures to arsenic in the environment.” In Arsenic – Environmental Geochemistry, Mineralogy, and Microbiology, edited by R. Bowell, C. N. Alpers, D. K. Nordstrom, H. E. Jamieson and J. Majzlan, 435-449.
Moody, R. P., J. Joncas, M. Richardson, and I. Chu. 2007. “Contaminated soils (I): In vitro dermal absorption of benzo[a]pyrene in human skin.” Journal of Toxicology and Environmental Health, Part A 70 (21):1858-1865.
Moody, R. P., A. V. Tytchino, A. Yip, and S. Petrovic. 2011. “A novel “by difference” method for assessing dermal absorption of polycyclic aromatic hydrocarbons from soil at federal contaminated sites.” Journal of Toxicology and Environmental Health, Part A 74:1294-1303.
NEPI (National Environmental Policy Institute). 2000. “Assessing the Bioavailability of Metals in Soil for Use in Human Health Risk Assessments.” Bioavailability Policy Project Phase II Metals Task Force Report: National Environmental Policy Institute.
Newmont. 2013. “Remedial Action Assessment, Historic Mine and Mill Sites, Empire Mine State Historic Park, Grass Valley CA.” https://www.envirostor.dtsc.ca.gov/public/deliverable_documents/4043278336/HMMS_Remedial_Assessment_Report_Jan11.pdf.
Nordstrom, S., L. Beckman, and I. Nordensen. 1979. “Occupational and environmental risks in and around a smelter in northern Sweden: V. Spontaneous abortion among female employees and decreased birth weight in their offspring.” Hereditas 90:291-296.
Northcott, G. L., and K. C. Jones. 2001. “Partitioning, extractability, and formation of nonextractable PAH residues in soil. 1. Compound differences in aging and sequestration.” Environmental Science & Technology 35 (6):1103-1110.
NRC (National Research Council). 1983. “Risk Assessment in the Federal Government: Managing the Process (Red Book).” National Research Council Committee on the Institutional Means for Assessment of Risks to Public Health, Commission on Life Sciences. Washington, D.C.: National Academies Press.
NRC. 2009. “Science and Decisions: Advancing Risk Assessment.” Committee on Improving Risk Analysis Approaches used by the USEPA. Washington, D. C.: National Academies Press. http://www.nap.edu/catalog.php?record_id=12209.
NTP (National Toxicology Program). 2012. “Monograph on health effects of low-level lead.” https://www.ncbi.nlm.nih.gov/pubmed/23964424.
NTP. 2014. “Report on Carcinogens, Thirteenth Edition.” Research Triangle Park, NC: U.S. Department of Health and Human Services, Public Health Service. https://ntp.niehs.nih.gov/results/pubs/index.html.
Obrycki, J. F., N. T. Basta, K. Scheckel, A. Juhasz, B. N. Stevens, and Minca. K. K. 2016. “Phosphorus amendment efficacy on soil Pb depends upon bioaccessible method conditions.” Journal of Environmental Quality 45 (1):37-44.
Oen, A. M. P., B. Beckingham, U. Ghosh, M. E. Kruså, R. G. Luthy, T. Hartnik, T. Henriksen, and G. Cornelissen. 2012. “Sorption of Organic Compounds to Fresh and Field-Aged Activated Carbons in Soils and Sediments.” Environmental Science & Technology 46 (2):810-817.
Ohio EPA. 2009. “Application of Bioavailability in the Assessment of Human Health Hazards and Cancer Risk.” Columbus, OH: Ohio EPA. http://www.epa.state.oh.us/portals/30/rules/Application%20of%20Bioavailability
Oulhote, Y., B. Le Bot, J. Poupon, J. P. Lucas, C. Mandin, A. Etchevers, D. Zmirou-Navier, and P. Glorennec. 2011. “Identification of sources of Pb exposure in French children by Pb isotope analysis: a cross-sectional study.” Environmental Health 10 (1):75.
Peckham, T. K., J. H. Shirai, A. L. Bunge, Y. W. Lowney, M. V. Ruby, and Kissel. J. C. 2016. “Dermal absorption of benzo[a]pyrene into human skin from soil: Effect of artificial weathering, concentration and exposure duration.” Journal for Exposure Science and Environmental Epidemiology 00:1-8.
Peters, R. E., K. James, M. Cave, M. Wickstrom, and S. D. Siciliano. 2016. “Is received dose from ingested soil independent of soil PAH concentrations?—Animal model results.” Environmental Toxicology and Chemistry 35 (9):2261-2269.
Peters, R. E., M. Wickstrom, and S. D. Siciliano. 2015. “The bioavailability of polycyclic aromatic hydrocarbons from different dose media after single and sub-chronic exposure in juvenile swine.” Science of The Total Environment 506:308-314.
Pu, X., L. S. Lee, R. E. Galinsky, and G. P. Carlson. 2004. “Evaluation of a rat model versus a physiologically based extraction test for assessing phenanthrene bioavailability from soils.” Toxicology Science 79:10-17.
Raes Harms, A. M., D. R. Presley, G. M. Hettiarachchi, C. Attanayake, S. Martin, and S. J. Thien. 2014. “Harmony Park: A Decision Case on Gardening on a Brownfield Site.” Natural Sciences Education 43:33-41.
Rahman, A., J. A. Barrowman, and A. Rahimtula. 1986. “The influence of bile on the bioavailability of polynuclear aromatic hydrocarbons from the rat intestine.” Canadian Journal of Physiology and Pharmacology 64 (9):1214-1218.
Rahman, M. A., and H. Hasegawa. 2011. “High levels of inorganic arsenic in rice in areas where arsenic-contaminated water is used for irrigation and cooking.” The Science of the Total Environment 409 (22):4645-4655.
Ramesh, A., S. A. Walker, D. B. Hood, M. D. Guillén, K. Schneider, and E. H. Weyand. 2004. “Bioavailability and risk assessment of orally ingested polycyclic aromatic hydrocarbons.” International Journal of Toxicology 23:301-333.
Redwine, J. C. , N. T. Basta, J. S. Richey, and R. Donahue. 2010. “Bioaccessibility of Arsenic in Soil: Method Evaluation and Comparison to In Vivo Primate Data.” Electric Power Research Institute and Southern Company Services, Inc. http://www.epri.com/abstracts/Pages/ProductAbstract.aspx?ProductId=000000000001019851.
Reid, B. J., J. D. Stokes, K. C. Jones, and K. T. Semple. 2000. “Nonexhaustive Cyclodextrin-Based Extraction Technique for the Evaluation of PAH Bioavailability.” Environmental Science & Technology 34 (15):3174-3179.
Reimann, C., D. B. D. B. Smith, L. G. Woodruff, and B. Flem. 2011. “Lead-concentrations and Lead-isotope ratios in soils collected along an east–west transect across the United States.” Applied Geochemistry 26 (9):1623-1631.
Richardson, G. M., D. A. Bright, and M. Dodd. 2006. “Do Current Standards of Practice in Canada Measure What is Relevant to Human Exposure at Contaminated Sites? II: Oral Bioaccessibility of Contaminants in Soil.” Human and Ecological Risk Assessment: An International Journal 12 (3):606-616.
Roberts, S. M., J. W. Munson, Y. W Lowney, and M. V. Ruby. 2007. “Relative Oral Bioavailability of Arsenic from Contaminated Soils Measured in the Cynomolgus Monkey.” Toxicological Sciences 95 (1):281-288.
Roberts, S.M., J.W. Munson, M.V. Ruby, and Y. W. Lowney. 2016. “Effects of Source and Concentration on Relative Oral Bioavailability of Benzo (a) pyrene from Soil.” Environmental Science & Technology 50 (20):11274-11281.
Rodriguez, R. R., N. T. Basta, S. W. Casteel, F. P. Armstrong, and D. C. Ward. 2003. “Chemical extraction methods to assess bioavailable As in contaminated soil and solid media.” Journal of Environmental Quality 32:876-884.
Rodriguez, R.R., N. T. Basta, S. W. Casteel, and L. W. Pace. 1999. “An in vitro gastrointestinal method to estimate bioavailable arsenic in contaminated soils and solid media.” Environmental Science & Technology 33:642-649.
Rotard, W., W. Christmann, W. Knoth, and W. Mailahn. 1995. “Determination of absorption availability of PCDD/PCDF from ″Kieselrot″ (red slag) in the digestive tract, Simulation of the digestion of technogenic soil.” Umweltwiss. Schadst.-Forsch 7 (1):3-9.
Roy, T. A., A. J. Krueger, B. B. Taylor, D. M. D.M. Mauro, and L.S. Goldstein. 1998. “Studies estimating the dermal bioavailability of polynuclear aromatic hydrocarbons from manufactured gas plant tar contaminated soils.” Environmental Science & Technology 32 (20):3113-3117.
Roy, T. A., and R. Singh. 2001. “Effect of soil loading and soil sequestration on dermalbioavailability of polynuclear aromatic hydrocarbons.” Bulletin Environmental Contaminant Toxicology 67:324-331.
Ruby, M. V., A. Davis, J. H. Kempton, J. W. Drexler, and P. D. Bergstrom. 1992. “Lead Bioavailability: Dissolution Kinetics Under Simulated Gastric Conditions.” Environmental Science & Technology 26 (6):1242-1248.
Ruby, M. V., A. O. Davis, R. A. Schoof, S. Eberle, and C. M. Sellstone. 1996. “Estimation of lead and arsenic bioavailability using a physiologically based extraction test.” Environmental Science & Technology 30:422-430.
Ruby, M. V., and Y. W. Lowney. 2012. “Selective soil particle adherence to hands: implications for understanding oral exposure to soil contaminants.” Environmental Science & Technology 46 (23):12759-12771.
Ruby, M. V., Y. W. Lowney, A.L . Bunge, S. M. Roberts, J. L. Gomez-Eyles, U. Ghosh, J. Kissel, P. Tomlinson, and C. A. Menzie. 2016. “Oral Bioavailability, Bioaccessibility, and Dermail Absorption of PAHs from Soil – State of the Science.” Environmental Science & Technology 50 (5):2151-2164.
Ruby, M. V., R. A. Schoof, W. J. Brattin, M. Goldade, G. Post, M. Harnois, and D. E. Mosby. 1999. “Advances in evaluating the oral bioavailability of inorganics in soil for use in human health risk assessment.” Environmental Science & Technology 33 (21):3697-3705.
Ryan, J. A., K. G. Scheckel, W. R. Berti, S. L. Brown, S. W. Casteel, R. L. Chaney, J. Hallfrisch, M. Doolan, P. Grevatt, M. Maddaloni, and D. Mosby. 2004. “Reducing children’s risk from lead in soil.” Environmental Science & Technology 38 (1):18A-24A.
Sabbioni, E., M. Fischbach, G. Pozzi, R. Pietra, M. Gallorini, and J. L. Piette. 1991. “Cellular retention, toxicity and carcinogenic potential of seafood arsenic. I. Lack of cytotoxicity and transforming activity of arsenobetaine in the BALB/3T3 cell line.” Carcinogenesis 12 (7):1287-1291
Saha, U.K., S. Taniguchi, and K. Sakarai. 2001. “Adsorption behavior of cadmium, zinc and lead on hydroxyaluminum and hydroxyaluminosilicate-montmorillonite complexes.” Soil Science Society of America Journal 65:694-703.
Scheckel, K. G. , G. L. Diamond, M. F. Burgess, J. M. Klotzbach, M. Maddaloni, B. W. Miller, C. R. Partridge, and S. M. Serda. 2013. “Amending soils with phosphate as means to mitigate soil lead hazard: a critical review of the state of the science.” Journal of Toxicology and Environmental Health-Part B-Critical Reviews 16 (6):337-380.
Schroder, J.L., Basta, N.T., Si, J., Casteel, S.W., Evans, T., and Payton, M. 2003. In vitro gastrointestinal method to estimate relative bioavailable cadmium in contaminated soil. Environmental Science & Technology 2003:1365–1370
Schroder, J. L., N. T. Basta, S. W. Casteel, T. J. Evans, M. E. Payton, and J. Si. 2004. “Validation of the in vitro gastrointestinal (IVG) method to estimate relative bioavailable Pb in contaminated soils.” Journal of Environmental Quality 33 (2):513-521.
Schroder, J. L., N. T. Basta, J. Si, S. W. Casteel, T. Evans, and M. Payton. 2003. “In vitro gastrointestinal method to estimate relative bioavailable cadmium in contaminated soil.” Environmental Science & Technology 37:1365-1370.
Schultz, L. F., M. Young, and R. M. Higashi. 1999. “Sorption-desorption Behavior of Phenanthrene Elucidated by Pyrolysis – Gas Chromatography-Mass Spectrometry Studies of Soil Organic Matter.” Environmental Toxicology and Chemistry 18:1710-1719.
Schwartz, R., A. Z. Belko, and E. M. Wien. 1982. “An in vitro system for measuring intrinsic dietary mineral exchangeability; alternative to intrinsic isotopic labeling.” Journal of Nutrition 112:497-504.
Semple, K. T., M. J. Riding, L. E. McAllister, F. Sopena-Vazquez, and G. D. Bending. 2013. “Impact of Black Carbon on the Bioaccessibility of Organic Contaminants in Soil.” Journal of Hazardous Materials 261:808-816.
Shalat, S. L., H. M. Solo-Gabriele, L. E. Fleming, B. T. Buckley, K. Black, M. Jimenez, T. Shibata, M. Durbin, J. Graygo, W. Stephan, and G. Van De Bogart. 2006. ” A Pilot Study of Children’s Exposures to CCA-Treated Wood from Playground Equipment.” Science of the Total Environment 367:80-88.
Shock, S. S., B. A. Bessinger, Y. W. Lowney, and J. L. Clark. 2007. “Assessment of the Solubility and Bioaccessibility of Barium and Aluminum in Soils Affected by Mine Dust Deposition.” Environmental Science & Technology 41 (13):4813-4820.
Siciliano, S. D., K. James, G. Zhang, A. N. Schafer, and D. Peak. 2009. “Adhesion and enrichment of metals on human hands from contaminated soil at an artic ruban brownfield.” Environmental Science & Technology 43 (16):6385-6390.
Siciliano, S. D., B. D. Laird, and C. L. Lemeieux. 2010. “Polycyclic aromatic hydrocarbons are enriched but bioaccessibility reduced in brownfield soils adhered to human hands.” Chemosphere 80:1101−1108.
Smith, D. B., W. F. Cannon, L. G. Woodruff, F. Solano, J. E. Kilburn, and D. L. Fey. 2013. “Geochemical and mineralogical data for soils of the conterminous United States.” U.S. Geological Survey Data Series 801: U.S. Geological Survey. http://pubs.usgs.gov/ds/801/.
Smith, E., I. M. Kempson, A. L. Juhasz, J. Weber, A. Rofe, D. Gancarz, R. Naidu, R. G. McLaren, and M. Gräfe. 2011. “In vivo–in vitro and XANES spectroscopy assessments of lead bioavailability in contaminated periurban soils.” Environmental Science & Technology 45 (14):6145-6152.
Sneddon, J., R. Clemente, P. Riby, and N. W. Lepp. 2009. “Source-pathway-receptor investigation of the fate of trace elements derived from shotgun pellets discharged in terrestrial ecosystems managed for game shooting.” Environmental Pollution 157 (10):2663-2669.
Spalt, E. W., J. C. Kissel, J. H. Shirai, and A. L. Bunge. 2009. “Dermal absorption of environmental contaminants from soil and sediment: a critical reivew.” Journal of Exposure Science and Environmental Epidemiology 19:119-148.
SRC, Inc. 2014. “Technical Memorandum: Preliminary Remediation Goals (PRGs) for the Barker-Hughesville and Carpenter Snow Creek Superfund Sites.” From SRC, Inc. to EPA, Region 8 dated May 15, 2014. EPA Review Draft.
Stanek, E. J., E. J. Calabrese, R. M. Barnes, J. M. C. Danku, Y. Zhou, P. T. Kostecki, and E. Zillioux. 2010. “Bioavailability of arsenic in soil: Pilot study results and design considerations.” Human and Experimental Toxicology 29 (11):945-960.
Sterckeman, T., F. Douay, D. Baize, H. Fourrier, N. Proix, and C. Schvartz. 2004. “Factors affecting trace element concentrations in soils developed on recent marine deposits from northern France.” Applied Geochemistry 19 (1):89-103.
Strawn, D. G., and D. L. Sparks. 2000. “Effects of soil organic matter on the kinetics and mechanisms of Lead (II) sorption and desorption in soil.” Soil Science Society of America Journal 64 (1):144-156.
Stroo, H. F., R. Jensen, R. C. Loehr, D. V. Nakles, A. Fairbrother, and C. B. Liban. 2000. “Environmentally acceptable endpoints for PAHs at a manufactured gas plant site.” Environmental Science & Technology 34 (18):3831-3836.
Stroo, H. F., T. A. Roy, C. B. Liban, and J. P. Kreitingerzz. 2005. “Dermal Bioavailability Of Benzo[A]Pyrene On Lampblack: Implications For Risk Assessment.” Environmental Toxicology and Chemistry 24:1568-1572.
Turkall, R. M., M. S. Abdel-Rahman, and G. Skowronski. 2010. Effects of soil matrix and aging on the dermal bioavailability of hydrocarbons and metals in the soil: Dermal bioavailability of soil contaminants, [email protected] Amherst. Amherst, MA.
URS Corporation. 2008. “Bingham – Magna Ditch Site Investigation, Report 1 of 5 Final Characterization Report, Prepared for Kennecott Utah Copper Corporation.” Document # DERR-2008-017958. http://eqedocs.utah.gov/.
USACE (United States Army Corps of Engineers). 2016. “Draft Final PAH Bioavailability Study Report, Former Foster Air Force Base Skeet Range Site, Victoria, TX.” Prepared for the United States Army Corps of Engineers, Fort Worth District: prepared by Pika/Arcadis JVC.
USEPA (United States Environmental Protection Agency). 1989a. “Review of the National Ambient Air Quality Standards for Lead Exposure Analysis Methodology and Validation.” EPA-450/2-89-011. Research Triangle Park, NC: USEPA Office of Air Quailty Planning and Standards.
USEPA. 1989b. “Risk Assessment Guidance for Superfund. Volume I: Human Health Evaluation Manual (Part A). Interim Final.” EPA/540/1-89/002. Washington, D.C.: Office of Emergency and Remedial Response. U.S. Environmental Protection Agency.
USEPA. 1991b. “Risk Assessment Guidance for Superfund: Volume I – Human Health Evaluation Manual (Part B, Development of Risk-based Preliminary Remediation Goals).” EPA/540/R-92/003. Washington, D. C.: Office of Emergency and Remedial Response.
USEPA. 1991c. “Update on OSWER Soil Lead Cleanup Guidance. Memo from Don R. Clay, Assistant Administrator.” Washington, D.C.: U.S. Environmental Protection Agency, Office of Solid Waste and Emergency Response. https://semspub.epa.gov/work/05/205247.pdf
USEPA. 1992b. “Supplemental Guidance to RAGS: Calculating the Concentration Term.” Intermittent Bulletin Volume 1 Number 1, Publication 9285.7-08I. Washington, D. C. : U. S. Environmental Protection Agency.
USEPA. 1993. “Provisional Guidance for Quantitative Risk Assessment of Polycyclic Aromatic Hydrocarbons.” EPA/600/R-93/089. Washington, D.C.: United State Environmental Protection Agency, Office of Research and Development.
USEPA. 1994b. “Baseline Risk Assessment for Lead, Expedited Response Action, Priority Soils Operable Unit, Silver Bow Creek/Butte Area NPL Site, Butte, Montana.” Prepared by CDM Federal Programs Corporation for U.S. Environmental Protection Agency, Region VIII, Montana Office.
USEPA. 1994d. “Guidance Manual for the Integrated Exposure Uptake Biokinetic Model for Lead in Children.” 9285.7-15-1. EPA/540/R-93/081. Washington, D. C.: U.S. Environmental Protection Agency, Office of Emergency and Remedial Response. https://nepis.epa.gov/Exe/ZyPURL.cgi?Dockey=2000WN4R.TXT
USEPA. 1996a. “Recommendations of the Technical Review Workgroup for Lead for an Interim Approach to Assessing Risks Associated with Adult Exposure to Lead in Soil.” Technical Review Workgroup for Lead.
USEPA. 2000a. “Short Sheet: TRW Recommendations for Sampling and Analysis of Soil and Lead (Pb) Sites.” EPA 540-F-00-010; OSWER 9285.7-38. . Washington, D.C.: U.S. Environmental Protection Agency, Office of Solid Waste and Emergency Response.
USEPA. 2000b. “Supplementary Guidance for Conducting Health Risk Assessment of Chemical Mixtures.” EPA/630/R-00/02. Washington, D.C.: Risk Assessment Forum Technical Panel. U.S. Environmental Protection Agency.
USEPA. 2003a. “Final Human Health Risk Assessment, Walkerville Residential Site, Butte-Silver Bow County, Montana.” TDD No. 0009-0061: Prepared by URS Operating Services, Inc. for U.S. Environmental Protection Agency, Region VIII.
USEPA. 2003b. “Recommendations of the Technical Review Workgroup for Lead for an Approach to Assessing Risks Associated with Adult Exposures to Lead in Soil. Final ” EPA-540-R-03-001. Washington, D.C.: Technical Review Workgroup for Lead. https://semspub.epa.gov/work/06/199244.pdf
USEPA. 2004. “Risk Assessment Guidance for Superfund (RAGS) Volume 1, Human Health Evaluation Manual (Part E), Supplemental Guidance for Dermal Risk Assessment.” EPA 540/R/99/005. Washington, D. C.: United States Environmental Protection Agency. http://www2.epa.gov/risk/risk-assessment-guidance-superfund-rags-part-e.
USEPA. 2006a. “Guidance on Systematic Planning Using the Data Quality Objectives Process.” EPA QA/G-4; EPA/240/B-06/001. Washington, D. C.: United States Environmental Protection Agency. http://www2.epa.gov/quality/guidance-systematic-planning-using-data-quality-objectives-process-epa-qag-4.
USEPA. 2006b. “Record of Decision: Butte Priority Soils Operable Unit, Silver Bow Creek/Butte Area NPL Site.” Prepared by U.S. Environmental Protection Agency, Region VIII in consultation with and partial concurrence from Montana Department of Environmental Quality.
USEPA. 2007b. “Estimation of relative bioavailability of lead in soil and soil-like materials using in vivo and in vitro methods.” OSWER 9285.7-77. Washington, D.C.: Office of Solid Waste and Emergency Response. https://semspub.epa.gov/work/HQ/175416.pdf
USEPA. 2007c. “Guidance for Evaluating the Oral Bioavailability of Metals in Soils for Use in Human Health Risk Assessment.” 9285.7-80. Washington, D.C.: Office of Solid Waste and Emergency Response. https://semspub.epa.gov/work/HQ/175333.pdf.
USEPA. 2008. “Region 8 and Utah Division of Environmental Response and Remediation Notice of Acceptance Letter, RE: Review of the risk assessment document entitled Bingham-Magna Ditch Site Investigation Report 4 of 5, Technical Memorandum Evaluation of Risk-Based Soil Cleanup Levels for the Former Bingham-Magna Ditch.”
USEPA. 2009a. “Region 8 and Utah Division of Environmental Response and Remediation Technical Memorandum: Technical conclusions on appropriateness to leave Bingham Magna Ditch sediment with elevated concentrations of arsenic at depth below current surface grade.
USEPA. 2009b. “Relative Bioavailability of Arsenic from Soil Barber Orchard Superfund Site Waynesville, North Carolina.” Prepared for U.S. Environmental Protection Agency, Region 4 by Center for Environmental & Human Toxicology, University of Florida. (available through U.S. EPA Region 4 Administrative Record Index for the Barber Orchard (Explanation of Significant Differences) NCSDN0406989).
USEPA. 2009c. “Validation assessment of in vitro lead bioaccessibility assay for predictive relative bioavailability of lead in soils and soil-like materials at Superfund sites.” OSWER 9200.3-51. Washington, D. C.: Office of Solid Waste and Emergency Response.
USEPA. 2010a. “Baseline Human Health Risk Assessment for the Barker Hughesville Mining District Superfund Site in Judith Basin County, Montana.” Prepared by U.S. Environmental Protection Agency, Region 8, Denver, CO, with technical assistance from SRC, Inc. External Review Draft.
USEPA. 2010b. “Bioavialbility of Dioxin and Dioxin-like Compounds in Soil, Final Report.” Las Vegas, NV: Office of Superfund Remediation and Technology Innovation, U.S. Environmental Protection Agency. https://semspub.epa.gov/work/HQ/174554.pdf.
USEPA. 2010c. “Development of a relative potency factor (RPF) approach for polycyclic aromatic hydrocarbon(PAH) mixtures. External Review Draft.” EPA/625/r-08/12A. Washington, D.C.: U.S. Environmental Protection Agency. https://cfpub.epa.gov/ncea/iris_drafts/recordisplay.cfm?deid=194584.
USEPA. 2010d. “Integrated Exposure Uptake Biokinetic Model for Lead in Children, Windows version (IEUBK win v1.1 build 11).” http://epa.gov/superfund/lead/products.htm#user.
USEPA. 2010e. “Region 8 Recommendations for Quantifying the Bioavailability of Lead and Arsenic in Soil for Use in Human Health Risk Assessment.” http://www.epa.gov/region8/r8risk/hh_rba.html.
USEPA. 2011a. “Final Report Bioavailability of Dioxins and Dioxin-Like Compounds in Soil.” West Las Vegas, NV U.S. Environmental Protection Agency, Office of Superfund Remediation and Technology Innovation, Environmental Response Team.
USEPA. 2011b. “Reusing Potentially Contaminated Landscapes: Growing Gardens in Urban Soils.” EPA Document No. 542/F-10/011. Washington, D.C.: USEPA. https://clu-in.org/download/misc/urban_gardening_fact_sheet.pdf.
USEPA. 2012a. “Compilation and Review of Data on Relative Bioavailability of Arsenic in Soil.” OSWER 9200.1-113. Washington, D.C.: USEPA. https://www.epa.gov/superfund/soil-bioavailability-superfund-sites-guidance#arsenic.
USEPA. 2012c. “Memorandum Compilation and Review of Data on Relative Bioavailability of Arsenic in Soil and Recommendations for Default Value for Relative Bioavailability of Arsenic in Soil Documents.” OSWER Directive 9200.1-113. Washington, D.C.: USEPA. https://www.epa.gov/superfund/soil-bioavailability-superfund-sites-guidance#arsenic.
USEPA. 2012d. “Recommendations for Default Value for Relative Bioavailability of Arsenic in Soil.” OSWER 9200.1-113. Washington, D.C.: USEPA. https://www.epa.gov/superfund/soil-bioavailability-superfund-sites-guidance#arsenic.
USEPA. 2012e. “Standard operating procedure for an in vitro bioaccessibility assay for lead in soil.” OSWER 9200.1-86. Washington, D.C.: USEPA. https://semspub.epa.gov/work/HQ/174533.pdf.
USEPA. 2013c. “Lead at Superfund Sites: Risk Assessments.” https://www.epa.gov/superfund/lead-superfund-sites-risk-assessment
USEPA. 2015b. “Inorganic Arsenic – Toxicological Review for IRIS.” USEPA. https://yosemite.epa.gov/sab/sabproduct.nsf/fedrgstr_activites/Rev%20Tox%20Review%20Inorg%20Arsenic!OpenDocument&TableRow=2.0.
USEPA. 2016a. “All-Ages Lead Model (ALM) version 1.05 (External Draft Report).” https://cfpub.epa.gov/ncea/risk/recordisplay.cfm?deid=139314.
USEPA. 2016d. “ProUCL Software, Version 5.1.” https://www.epa.gov/land-research/proucl-software.
USEPA. 2016f. “Regional Screening Levels for Chemical Contaminants at Superfund Sites User’s Guide.” May 2016. https://www.epa.gov/risk/regional-screening-levels-rsls-generic-tables-june-2017.
USEPA. 2016g. “Remedial Investigation Report for the Barker Hughesville Mining District Superfund Site.” Report prepared for U.S. Environmental Protection Agency, Region VIII, Montana Office, by CDM Federal Programs Corporation.
USEPA. 2017a. “ALM spreadsheets (MS Excel). Calculations of Blood Lead Concentrations (PbBs) and Risk in Nonresidential Areas, Calculations of Preliminary Remediation Goals (PRGs) for Soil in Nonresidential Areas.” Version date 06/14/2017. http://www.epa.gov/superfund/health/contaminants/lead/products.htm#alm.
USEPA. 2017b. “Memorandum: Transmittal of Update to the Adult Lead Methodology’s Default Baseline Blood Lead Concentration and Geometric Standard Deviation Parameters and the Integrated Exposure Uptake Biokinetic Model’s Default Maternal Blood Lead Concentration at Birth Variable.” OLEM Directive 9285.6-56. Washington, D.C.: USEPA Office of Land and Emergency Management. https://www.epa.gov/superfund/lead-superfund-sites-guidance.
USEPA. 2017d. “Regional Screening Levels (RSLs) – Users Guide “. U. S. Environmental Protection Agency. https://www.epa.gov/risk/regional-screening-levels-rsls-users-guide-june-2017.
USEPA. 2017g. “Validation Assessment of In Vitro Arsenic Bioaccessibility Assay for Predicting Relative Bioavailability of Arsenic in Soils and Soil-like Materials at Superfund Sites.” OLEM 9355.4-29. Washington, D.C.
USEPA. 2017h. “Regional Screening Levels (RSLs) – Generic Tables (June 2017)” https://www.epa.gov/risk/regional-screening-levels-rsls-generic-tables-june-2017
USEPA. n.d. “Memorandum from Christopher P. Weis, PhD, DABT, Regional Toxicologist to Stan Christensen, RPM Midvale Slag Site.” Evaluation of risk-based PRGs for commercial/industrial development of the slag piles at the Midvale Slag NPL site, Midvale, UT. Ref: 8EPR-PS.
USGS (United States Geological Survey). 2008. “National Geochemical Survey, Geochemistry by County.” https://mrdata.usgs.gov/geochem/doc/averages/countydata.htm.
USGS. 2014. “Geochemical and mineralogical maps for soils of the conterminous United States.” https://pubs.usgs.gov/of/2014/1082/.
Van de Wiele, T. R., K. M. Peru, W. Verstraete, S. D. Siciliano, and J. V. Headley. 2004. “Liquid chromatographic-mass spectrometric screening of polycyclic aromatic hydrocarbon hydroxylates formed in a simulator of the human gastrointestinal tract.” Journal of Chromatography B 806:245-253.
Vasiluk, L., L. J. Pinto, Z. A. Walji, W. S. Tsang, F. A. P. C. Gobas, C. Eickhoff, and M. M. Moore. 2007. “Benzo[a]pyrene bioavailability from pristine soil and contaminated sediment assessed using two in vitro models.” Environmental Toxicology and Chemistry 26 (3):387-393.
Walraven, N., M. Bakker, B. J. H. van Os, G. T. Klaver, J. J. Middleburg, and G. R. Davies. 2015. “Factors controlling the oral bioaccessibility of anthropogenic Pb in polluted soils.” Science of the Total Environment 506:149-163.
Washington State Department of Ecology. 2007. “Science Advisory Board Issue Paper on Bioavailability.” http://www.ecy.wa.gov/programs/tcp/SAB/SAB_mtg_info/Mtg_070319/SAB-Issue-Paper-Bioavailability-070307.pdf.
Wester, R. C., H. I. Maibach, D. A. W. Bucks, L. Sedik, J. Melendres, C. L. Laio, and S. DeZio. 1990. “Percutaneous Absorption of [14C]DDT and [14C]Benzo(a)pyrene from Soil.” Fundamental and Applied Toxicology 15 (5):510-516.
Whitacre, S., N. Basta, B. Stevens, V. M. Hanley, R. H. Anderson, and K. Scheckel. 2017. “Modification of an Existing In vitro method to predict relative bioavailable arsenic in soils.” Chemosphere 180:545-552.
WHO (World Health Organization). 1999. “Hazard Prevention and Control in the Work Environment: Airborne Dust ” WHO/SDE/OEH/99.14, Occupational and Environmental Health. Geneva: Department of Protection of the Human Environment. WHO.
WHO. 2001. “Safety Evaluation of Certain Food Additives and Contaminants (PCDDs, PCDFs, PCBs).” Food Additive Series 48: World Health Organizaiton. http://www.inchem.org/documents/jecfa/jecmono/v48je20.htm.
WHO. 2002. “Safety Evaluation of Certain Food Additives and Contaminants.” WHO Technical Report Series 909: World Health Organization. http://whqlibdoc.who.int/trs/WHO_TRS_909.pdf.
Woudneh, M. B., J. P. Benskin, R. Grace, M. C. Hamilton, B. H. Magee, G. C. Hoeger, N. D. Forsberg, and J. R. Cosgrove. 2016. “Quantitative determination of hydroxy polycylic aromatic hydrocarbons as a biomarker of exposure to carcinogenic polycyclic aromatic hydrocarbons.” Journal of Chromatography A 1454:93-100.
Wragg, J. , M. Cave, N. T. Basta, E. Brandon, S. W. Casteel, S. Denys, C. Gron, A. Oomen, K. J. Reimer, K. Tack, and T. Van de Wiele. 2011. “An inter-laboratory trial of the unified BARGE bioaccessibility method for arsenic, cadmium and lead in soil.” Science of the Total Environment 409 (19):4016-4030.
Xia, H., J. L. Gomez-Eyles, and U. Ghosh. 2016. “Effects on Polycyclic Aromatic Hydrocarbon Source Materials and Soil Components on Partitioning and Dermal Uptake.” Environmental Science & Technology 50 (7):3444-3452.
Yang, J., T. A. Roy, A. J. Krueger, W. Neil, and C. R. Mackerer. 1989. “In vitro and in vivo percutaeous absorption of benzo[a]pyrene from petroleum crude–fortified soil in the rat.” Bulletin of Environmental Contamination and Toxicology 43:207-214.
Zagury, G. J., S. Dobran, S. Estrela, and L. Deschênes. 2008. “Inorganic arsenic speciation in soil and groundwater near in-service chromated copper arsenate-treated wood poles.” Environmental Toxicology and Chemistry 27 (4):799-807.
Zahran, S., M. A. Laidlaw, S. P. McElmurry, G. M. Filippelli, and M. P. Taylor. 2013. “Linking source and effect: Resuspended soil Pb, air Pb, and children’s blood Pb levels in Detroit, Michigan.” Environmental Science & Technology 47 (6):2839-2845.
Zhang, W., G. G. Zhang, and H. Z. He. 1994. “Early health effects and biological monitoring in persons occupationally exposed to tetraethyllead.” International Archives of Occupational and Environmental Health 65:395-399.
Zhang, Y., J. J. Pignatello, S. Tao, and B. Xing. 2015. “Bioaccessibility of PAHs in fuel soot assessed by an in vitro digestive model with absorptive sink: Effect of food ingestion.” Environmental Science & Technology 49:14641−14648.
Zia, M. H., E. E. Codling, K. Scheckel, and R. L. Chaney. 2011. “In vitro and in vivo approaches for the measurement of oral bioavailability of lead (Pb) in contaminated soils: a review.” Environmental Pollution 159 (10):2320-2327.