Bioaccessibility, release kinetics, and molecular speciation of arsenic and lead in geo-dusts from the Iron King Mine Federal Superfund site in Humboldt, Arizona

Reviews on Environmental Health

Volumn 29, Issue 1-2, 2014, Pages 23-27

  Menka, Nazune ^a   Root, Rob ^a   Chorover, Jon ^a  

^a UNIVERSITY OF ARIZONA   (United States)

Author keywords

Arsenic; Geo dust; Human health; Lead; Mine tailings; Simulated gastric fluid (SGF); Simulated lung fluid (SLF)

Indexed keywords

ARSENIC; LEAD;

ARTICLE; CHEMISTRY; DUST; IN VITRO STUDY; MINING; PARTICLE SIZE; POLLUTANT; UNITED STATES;

ARIZONA; ARSENIC; DUST; ENVIRONMENTAL POLLUTANTS; LEAD; MINING; PARTICLE SIZE;

EID: 84898623414     PISSN: 00487554     EISSN: None     Source Type: Journal    
DOI: 10.1515/reveh-2014-0009     Document Type: Article

References (31)

1. Agency for Toxic Substances and Disease Registry. Piority list of hazardous substances. 2011. Available at: http://www.atsdr.cdc. gov/spl/. Accessed on September 18,2013.
2. Bradham KD, Laird B, Rasmussen PE, Schoof RA, Serda SM, et al. Assessing the bioavailability and risk from metal contaminated soils and dusts. Hum Ecol Risk Assess: An International Journal 2013. DOI: 10.1080/10807039.2013.802633.
3. Naidu R, Smith E, Owens G, Bhattacharya P, Nadebaum P, editors. Managing arsenic in the environment from soil to human health. Victoria, Australia: CSIRO Publishing, 2006:56pp.
4. Lantz RC. Role of oxidative stress in arsenic-induced toxicity. Drug Metab Rev 2006;38:791-804.
5. Whitacre S. Soil controls on arsenic bioaccessibility: arsenic fractions and soil properties. (Electronic Thesis or Dissertation). Retrieved from https://etd.ohiolink.edu/. Accessed on September 18, 2013.
6. Csavina J, Landazuri A, Wonaschutz A, Rine K, Rheinheimer P, et al. Metal and metalloid contaminants in atmospheric aerosols from mining operations. Water Air Soil Poll 2011;221:145-57.
7. Drysdale ME. Application of simulated lung fluid analysis to characterize the influence of smelter activity on the respiratory bioaccessibility of nickel-bearing soils in Kalgoorlie, Western australia. Library and Archives Canada, Bibliothèque et Archives Canada. 2009.
8. Harrington AD, Hylton S, Schoonen MA. Pyrite-driven reactive oxygen species formation in simulated lung fluid: implications for coal workers' pneumoconiosis. Environ Geochem Health 2012;34:527-38.
9. Juhasz AL, Weber J, Smith E, Naidu R, Marschner B, et al. Evaluation of SBRC-gastric and SBRC-intestinal methods for the prediction of in vivo relative lead bioavailability in contaminated soils. Environ Sci Technol 2009;43:4503-9.
10. Kelley ME, Brauning SE, Schoof RA, Ruby MV. Assessing oral bioavailability of metals in soil. Columbus, OH: Battelle Press, 2002.
11. Makris KC, Quazi S, Nagar R, Sarkar D, Dtta R, et al. In vitro model improves the prediction of soil arsenic bioavailability: worst-case scenario. Environ Sci Technol 2008;42:6278-84.
12. Ruby MV, Davis A, Schoof R, Eberle S, Sellstone CM. Estimation of lead and arsenic bioavailability using a physiologically based extraction test. Environ Sci Technol 1996;30:422-30.
13. Takaya M, Shinohara Y, Serita F, Ono-Ogasawara M, Otaki N, et al. Dissolution of functional materials and rare earth oxides into pseudo alveolar fluid. Ind Health 2006;44:639-44.
14. Plumlee G, Ziegler T. Soils and other earth materials. Environ Geochem 2005;9:263.
15. Brown GE, Calas G. Mineral-aqueous solution interfaces and their impact on the environment. Geochem Perspect 2011;1:483-742.
16. Environmental Protection Agency. Standard operating procedures for an in vitro bioaccessibilility for lead in soil No. EPA9200.1-86. 2008.0.
17. World Health Organization. Hazard prevention and control in the work environment: airborne dust. Prevention and Control Exchange (PACE).Geneva: WHO, Department of Protection of the Human Environment, Occupational Environmental Health, WHO/ SDE/OEH/99.14. 1999.
18. Csavina J, Field J, Taylor MP, Gao S, Landázuri A, et al. A review on the importance of metals and metalloids in atmospheric dust and aerosol from mining operations. Sci Total Environ 2012;433:58-73.
19. Fendorf SE, Sparks DL, Page A, Helmke P, Loeppert R, et al. X-ray absorption fine structure spectroscopy. Met Soil Anal. Part 3. Chem Met 1996;377-416.
20. Fendorf S, Eick MJ, Grossl P, Sparks DL. Arsenate and chromate retention mechanisms on goethite. 1. surface structure. Environ Sci Technol 1997;31:315-20.
21. O'Reilly SE, Strawn DG, Sparks DL. Residence time effects on arsenate adsorption/desorption mechanisms on goethite. Soil Sci Soc Am J 2001;65:67-77.
22. Campbell KM, Hering JG. Biogeochemical mechanisms of arsenic mobilization. In: Ahuja S, editor. Arsenic contamination of groundwater: mechanism, analysis, and remediation. Hoboken, NJ: J.S. Wiley & Sons, 2008:95pp.
23. Kumaresan M, Riyazuddin P. Overview of speciation chemistry of arsenic. Curr Sci 2001;80:837-46.
24. Smith E, Naidu R, Alston AM. Arsenic in the soil environment: a review. Adv Agron 1998;64:149-95.
25. Walker SR, Jamieson HE, Lanzirotti A, Andrade CF, Hall GE. The speciation of arsenic in iron oxides in mine wastes from the giant gold mine, n.w.t.: application of synchrotron micro-xrd and micro-xanes at the grain scale. Can Mineral 2005;43: 1205-24.
26. Yokel RA, Lasley SM, Dorman DC. The speciation of metals in mammals influences their toxicokinetics and toxicodynamics and therefore human health risk assessment. J Toxicol Environ Health 2006;9:63-85.
27. Bright DA, Richardson GM, Dodd M. Do current standards of practice in canada measure what is relevant to human exposure at contaminated sites? I: A discussion of soil particle size and contaminant partitioning in soil. Human ecol Risk Assess 2006;12:591-605.
28. Davidson CI, Phalen RF, Solomon PA. Airborne particulate matter and human health: a review. Aerosol Sci Technol 2005;39:737-49.
29. Campbell KM, Root R, O'Day PA, Hering JG. A gel probe equilibrium sampler for measuring arsenic porewater profiles and sorption gradients in sediments: II. field application to haiwee reservoir sediment. Environ Sci Technol 2008;42:504-10.
30. Appleton JD, Fuge R, McCall GJH. Joint Association of Geoscientists for International Development, Society for Environmental Geochemistry and Health, Geological Society of London. Environmental geochemistry and health: with special reference to developing countries. London: Geological Society. 1996.
31. Bradham KD, Scheckel KG, Nelson CM, Seales PE, Lee GE, et al. Relative bioavailability and bioaccessibility and speciation of arsenic in contaminated soils. Environ Health Perspect 2011;119:1629-34.