Environmental geology

Roy, W.R., Mravik, S.C., Krapac, I.G., Dickerson, D.R., and Griffin, R.A., Geochemical Interactions of Hazardous Wastes with Geological Formations in Deep-Well Systems, Environmental Geology Notes 130, Illinois State Geological Survey, Champaign, Illinois, 1989. 

Bachu S., Bonijoly D., et al. Screening and ranking of sedimentary basins for sequestration of C02 in geological media in response to climate change. 2003 Environmental Geology 44 277-289. 

Daley T.M., Myer L., et al. Time-lapse crosswell seismic and VSP monitoring of injected C02 in a brine aquifer. 2008 Environmental Geology 54 1657-1665. 

Doughty C., Freifield B., et al. Site characterization of C02 geological storage and vice versa the Frio brine pilot, Texas, USA as a case study. 2008 Environmental Geology 54 1635-1656. 

Merritts D., De Wet A., Menking K. Environmental Geology - An earth systems approach. New York W.H. Freeman Co, 1997. 

Mehnert, E., C. R. Gendron and R. D. Brower, 1990, Investigation of the hydraulic effects of deep-well injection of industrial wastes. Illinois State Geological Survey Environmental Geology 135,100 p. 

Plumlee, G., 1994b, Environmental geology models of mineral deposits. Society of Economic Geologists Newsletter 16,5-6. 

Sherlock, E. J., R. W. Lawrence and R. Poulin, 1995, On the neutralization of acid rock drainage by carbonate and silicate minerals. Environmental Geology 25, 43-54. 

Jambor, J.L., Dutrizac, J.E., Groat, L.A., Raudsepp, M. 2002. Static tests of neutralization potentials of silicate and aluminosilicate minerals. Environmental Geology, 43, 1-17. 

Covelli, S. Fontolan, G. 1997. Application of a normalization procedure in determining regional geochemical baselines. Environmental Geology, 30, 34-45. 

Plumlee, G.S. (1999) The Environmental geology of mineral deposits. In Plumlee, G.S. Logsdon, M.J. (eds.) The Environmental Geochemistry of Mineral Deposits 6A, Society of Economic Geologists, 71-116. 

MOE Biogeology and Environmental Geology Laboratory, China University of Geosciences, Wuhan, 430074... 

McGregor, R.G., Blowes, D.W., Jambor J.L., Robertson W.D. 1998. Mobilization and attenuation of heavy metals within a nickel mine tailings impoundment near Sudbury, Ontario, Canada. Environmental Geology, 36, 305-319. 

Marescotti, P., Carbone, C., De Capitani, L., Grieco, G., Lucchetti, G., Servida, D. 2008. Mineralogical and geochemical characterisation of open pit tailing and waste rock dumps from the Libiola Fe-Cu sulphide mine (eastern Liguria, Italy). Environmental Geology, 53, 1613-1626. 

Mineralogical characterization of microbial ferrihydrite and schwertmannite and non-biogenic Al-sulfate precipitates from acid mine drainage in the Donghae mine area, Korea. Environmental Geology, 42, 19-31. Knorr, K. Blodau, C. 2007. Controls on schwertmannite transformation rates and products. Applied Geochemistry, 22, 2006-2015. 

Liu, Z. Zhao, J. 2000. Contribution of carbonate rock weathering to the atmospheric C02 sink. Environmental Geology, 39, 1053-1058. 

Bowman, J.R. 1998. Stable-isotope systematics of skarn. In Lentz, D.R. (ed.) Mineralized intrusion-related skarn systems, 99-145. Mineralalogical Association of Canada Short Course 26. Choi, S. 1983. Skarn evolution and iron-tungsten mineralization and the associated polymetallic mineralization at the Ulsan mine, Republic of Korea. Unpublished PhD. Dissertation, Waseda University, 271 p. Choi, S., So, C., Youm, S. Kim, M. 1999. Stable isotopeand fluid inclusion studies of iron-tungsten mineralization at Ulsan skarn deposit (Abstract). Economic and Environmental Geology, 32, 148-9. 

Garbe-Schonberg, C. D., Reimann, C., and Pavlov, V. A. (1997). Laser ablation ICP-MS analyses of tree-ring profiles in pine and birch from N Norway and NW Russia -a reliable record of the pollution history of the area Environmental Geology 32 9 16. 

Parkinson RW, Wang TC, White JR, et al. 1993. Distribution and migration of pesticide residues in mosquito control impoundments. St. Lucie County, Florida, USA. Environmental Geology 22 26-32. 

Environmental geology as defined in the American Geological Institute s Glossary of Geology is as follows ... 

Soller, D. R. and Berg, R. C., 1992, A Model for the Assessment of Aquifer Contamination Potential Based on Regional Geologic Framework Environmental Geology and Water Science, Vol. 19, No. 3, pp. 205-213. 

Mr. Testa has worked as a consultant specializing in the areas of geology, hydrogeology, engineering and environmental geology, and hazardous waste management. 

Clark TP, Piskin R. 1977. Chemical quality and indicator parameters for monitoring landfill leachate in Illinois. Environmental Geology 1 329-340. 

Chou, S.-F.J. and Griffin, R.A. Soil, clay and caustic soda effects on solubility, sorption and mobility of hexachlorocyc-lopentadiene. Environmental Geology Notes 104, Illinois Department of Energy and Natural Resources, 1983, 54 p. 

Brookins, D. G. 1976. Shale as a repository for radioactive waste the evidence from Oklo. Environmental Geology, I, 225 -269. 

Br acre, G., Salah, S. Gauthier-Lafaye, F. 2001. Weathering process at the natural fission reactor of Bangombe. Environmental Geology, 40, 403-408. 

Ghose, M. K. 2001. Management of topsoil for geoen-vironmental reclamation of coal mining areas. Environmental Geology, 40, 1405-1410. 

Puura, E., Neretnieks, I. Kirsimae, K. 1999. Atmospheric oxidation of the pyritic waste rock in Maardu, Estonia. 1. Field study and modelling. Environmental Geology, 39, 1-19. 

Pruess, K. Garcia, J. 2002. Multiphase flow dynamics during CO2 disposal in aquifers. Environmental Geology, 42, 282-295. 

Stanforth, R. Qiu, J. 2001. Effect of phosphate treatment on the solubility of lead in contaminated soil. Environmental Geology, 41, 1-10. 

Roy, W. R., Thiery, R. G., Schuller, R. M. Suloway, J. J. 1981. Coal Fly Ash A Review of the Literature and Proposed Classification System with Emphasis on Environmental Impacts, Environmental Geology Note No.96. Illinois State Geological Survey, Champaign. IL. 

In spite of the excellent capability and advantages (high selectivity and sensitivity) of RIMS for the ultratrace analysis of isotopes with naturally rare abundance in environmental, geological, medical and nuclear samples, no commercial instrumentation is available to date. In contrast to AMS and RIMS as mono-elemental (element-specific) analytical techniques, ICP-MS and LA-ICP-MS possess, in analogy to GDMS and SIMS, have the ability for multi-element analysis and thus could have the widest fields of application. 

Geological and ICP-SFMS (Element) LINA-Spark/1064 nm 37CI/35CI 3 environmental, geology Boulyga ... 

Cozzarelli, I. M.,Eganhouse, R. P. Baedecker, M.J. (1990). Transformation of monoaromatic hydrocarbons to organic acids in anoxic groundwater environment. Environmental Geology and Water Science, 16(2), 133-41. 

Garcfa-Siinchcz, A., Moyano, A. and Mayorga, P. (2005) High arsenic contents in groundwater of central Spain. Environmental Geology, 47(6), 847-54. 

Llorens, J.F., Fern ndez-Turiel, J.L. and Querol, X. (2001) The fate of trace elements in a large coal-fired power plant. Environmental Geology, 40(4-5), 409-16. 

Williams, M. (2001) Arsenic in mine waters international study. Environmental Geology, 40(3), 267-78. 

Abraham, J. (1998) Spatial distribution of major and trace elements in shallow reservoir sediments an example from Lake Waco, Texas. Environmental Geology, 36(3-4), 349-63. 

Al-Hwaiti, M., Matheis, G. and Saffarini, G. (2005) Mobilization, redistribution and bioavailability of potentially toxic elements in Shidiya phosphorites, southeast Jordan. Environmental Geology, 47(3), 431-44. 

Apodaca, L.E., Driver, N.E. and Bails, J.B. (2000) Occurrence, transport, and fate of trace elements, blue river basin, Summit County, Colorado an integrated approach. Environmental Geology, 39(8), 901-13. 

Armienta, M.A., Villasenor, G., Rodriguez, R. et al. (2001) The role of arsenic-bearing rocks in groundwater pollution at Zimapdn valley, Mexico. Environmental Geology, 40(4-5), 571-81. 

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