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Environmental geochemistry and health

Davis A, Ruby MV, Bergstrom, PD. 1994. Factors controlling lead bioavailabiltiy in the Butte mining district, Montana, USA. Environmental Geochemistry and Health 16 147-157. [Pg.507]

Reagan PL, Silbergeld EK. 1989. Establishing a health based standard for lead in residential soils. In Hemphill and Cothem, eds. Trace substances in environmental health, Supplement to Volume 12 (1990) Environmental Geochemistry and Health. [Pg.566]

Shea EE. 1996. Lead regulation handbook. Rockville, MD Government Institutes, 240 pages. Sherlock JC. 1987. Lead in food and the diet. Environmental Geochemistry and Health 9 43-47. [Pg.574]

Viverette L, Mielke HW, Brisco M, et al. 1996. Environmental health in minority and other underserved populations Benign methods for identifying lead hazards at day care centers of New Orleans. Environmental Geochemistry and Health 18(l) 41-45. [Pg.583]

Many reviews on ecotoxicological aspects of arsenic in the environment are available, including those by Woolson (1975), NAS (1977), NRCC (1978), Pershagen and Valuer (1979), USEPA (1980, 1985), Hood (1985), Andreae (1986), Sorensen (1987), Eisler (1988,1994), Phillips (1990), ATSDR (1992), Abernathy et al. (1997), Society for Environmental Geochemistry and Health [SEGH] (1998) and the U.S. Public Health Service [USPHS] (1998). These authorities agree on six points ... [Pg.1478]

Society for Environmental Geochemistry and Health (SEGH). 1998. Third Int. Conf. on Arsenic Expos, and Health Effects. San Diego, CA, July 12-15, 1998. Book of Abstracts. 173 pp. [Pg.1541]

Johnson, D. Bretsch, J. 2002. Soil lead and children s BLL Levels in Syracuse, NY, USA. Environmental Geochemistry and Health, 24, 375-385. [Pg.226]

Mielke, H.W., 1994. Lead in New Orleans soils new images of an urban environment. Environmental Geochemistry and Health, 16, 123-128. [Pg.226]

Campanella, R. Mielke, H.W. 2008. Human geography of New Orleans urban soil lead contaminated geochemical setting. Environmental Geochemistry and Health, 30, 531-540. [Pg.243]

Laidlaw, M.A.S., Mielke, H.W., Filippelli, G.M., Johnson, D.L., Gonzales, C.R., 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. Mielke, H.W., Gonzales C., Powell E., Mielke PW, Jr. 2008. Urban soil lead (Pb) footprint Comparison of public and private housing of New Orleans. Environmental Geochemistry and Health, 30, 231-242. [Pg.243]

Ottesen, R.T., Alexander, J., Langedal, M., Haugland, T., Hoygaard, E. 2008. Soil pollution in day-care centers and playgrounds in Norway national action plan for mapping and remediation. Environmental Geochemistry and Health, 30, 623-637. [Pg.243]

Johnson, D., McDade, K., Griffith, D. 1996. Seasonal variation in pediatric blood levels in Syracuse, NY, USA. Environmental Geochemistry and Health, 18, 81-88. Kurkjian R., Dunlap, C., Flegal, R. 2001. Lead isotope tracking of atmospheric response to post-industrial conditions in Yerevan, Armenia. Atmospheric... [Pg.473]

Fuge R. 1996. Geochemistry of iodine in relation to deficiency diseases. In Appleton ID, Fuge R, McCall GJH, eds. Environmental Geochemistry and Health. London Geological Society, 201-212. [Pg.265]

Helios, Rybicka, E. 1996. Environmental impact of mining and smelting industries in Poland. In Appleton, J. D., Fuge, R. McCall, G. J. H. (eds) Environmental Geochemistry and Health. Geological Society, London, Special Publications, 113, 183-193. [Pg.206]

Younger, P. L. 1998. Coalfield abandonment geochemical processes and hydrochemical products. In Nicholson, K (ed), Energy and the Environment. Geochemistry of Fossil, Nuclear and Renewable Resources. Society for Environmental Geochemistry and Health, McGregor Science, Aberdeen, 1-29. [Pg.208]

Bar-Yosef, B., Chang, A.C. and Page, A.L. (2005) Mass balance modeling of arsenic processes in cropland soils. Environmental Geochemistry and Health, 27(2), 177-84. [Pg.201]

Boyle, D.R., Turner, R.J.W. and Hall, G.E.M. (1998) Anomalous arsenic concentrations in groundwaters of an island community, Bowen Island, British Columbia. Environmental Geochemistry and Health, 20(4), 199-212. [Pg.202]

Diawara, D.M., Litt, J.S., Unis, D. et al. (2006) Arsenic, cadmium, lead, and mercury in surface soils, Pueblo, Colorado implications for population health risk. Environmental Geochemistry and Health, 28(4), 297-315. [Pg.206]

Jo, I.S. and Koh, M.H. (2004) Chemical changes in agricultural soils of Korea data review and suggested countermeasures. Environmental Geochemistry and Health, 26(2), 105-17. [Pg.214]

Lee, J.-S., Chon, H.-T., Kim, J.-S. et al. (1998) Enrichment of potentially toxic elements in areas underlain by black shales and slates in Korea. Environmental Geochemistry and Health, 20(3), 135-47. [Pg.216]

Lu, X. and Zhang, X. (2005) Environmental geochemistry study of arsenic in western Hunan mining area, P.R. China. Environmental Geochemistry and Health, 27(4), 313-20. [Pg.217]

Mendoza, O.T., Hern ndez, Ma.A.A., Abundis, J.G. and Mundo, N.F. (2006) Geochemistry of leachates from the El Fraile sulfide tailings piles in Taxco, Guerrero, southern Mexico. Environmental Geochemistry and Health, 28(3), 243-55. [Pg.219]

Pandey, P.K., Sharma, R., Roy, M. et al. (2006) Arsenic contamination in the Ranker district of central-east India geology and health effects. Environmental Geochemistry and Health, 28(5), 409-20. [Pg.223]

Reis, A.P., Sousa, A.J., Da Silva, E.F. and Fonseca, E.C. (2005) Application of geostatistical methods to arsenic data from soil samples of the Cova dos Mouros mine (Vila Verde-Portugal). Environmental Geochemistry and Health, 27(3), 259-70. [Pg.225]

Williams, T.M., Rawlins, B.G., Smith, B. and Breward, N. (1998) In-vitro determination of arsenic bioavailability in contaminated soil and mineral beneflciation waste from Ron Phibun, southern Thailand a basis for improved human risk assessment. Environmental Geochemistry and Health, 20(4), 169-77. [Pg.233]

Xiaoying, Y. (2001) Humic acids from endemic arsenicosis areas in Inner Mongolia and from the blackfoot-disease areas in Taiwan a comparative study. Environmental Geochemistry and Health, 23(1), 27-42. [Pg.233]

Zarcinas, B.A., Ishak, C.F., McLaughlin, M.J. and Cozens, G. (2004) Heavy metals in soils and crops in Southeast Asia. 1. Peninsular Malaysia. Environmental geochemistry and health, 26(4), 343-57. [Pg.234]

Robertson, F.N. (1989) Arsenic in groundwater under oxidizing conditions, south-west United-States. Environmental Geochemistry and Health, 11(3 1), 171-85. [Pg.347]


See other pages where Environmental geochemistry and health is mentioned: [Pg.8]    [Pg.222]    [Pg.430]    [Pg.8]    [Pg.59]    [Pg.222]    [Pg.342]    [Pg.420]    [Pg.421]    [Pg.422]    [Pg.423]   
See also in sourсe #XX -- [ Pg.238 ]




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