Strategy for the identification of tailings with environmental risk potencial in a mining district: case study in the Guanajuato Distric, Mexico
- Published: 01 Jan 2006
- Publisher: Instituto de Geología, UNAM
- Universidad de Guanajuato Mexico
ANZECC/ARMCANZ, 2000, Australian and New Zealand Guidelines for Fresh and Marine Water Quality, National Water Quality Management Strategy 4a (en línea): Canberra, Australia, Australian Government, Department of the Environment and Heritage, actualización: 20 de enero de 2005, <http://www. ea.gov.au/>, Publicaciones, acceso libre, consulta: 20 de enero de 2005.
Bigham, J.M., 1994, Mineralogy of ochre deposits formed by sulfide oxidation, in Jambor, J.L., Blowes, D.W. (eds.), Environmental Geochemistry of Sulfide Mine-Wastes: Waterloo, Ontario, Canada, Mineralogical Association of Canada, Short Course Series, 22, 103-132.
Black, C.A., Evans, D.D., White, J.L., Clarck, F.E., Dinauer, R.C., 1965, Methods of Soil Analysis, Part 2, Chemical and Microbiological Properties: Madison, Wisconsin, EEUU, American Society of Agronomy, 1280 p.
Blowes, D.W., Reardon E.J., Jambor J.L., Cherry J.A., 1991, The formation and potential importance of cemented layers in inactive sulfide mine tailings: Geochimica et Cosmochimica Acta, 55, 965-978.
Boulet, M.P., Larocque A.C., 1998, A comparative mineralogical and geochemical study of sulfide mine tailings at two sites in New Mexico, USA: Environmental Geology, 33, 130-142. [OpenAIRE]
Bradshaw A.D., 1997, Restoration of mine-land using natural processes: Ecological Engineering, 7/8, 255-269.
Carrillo-Chávez, A., Morton-Bermea, O., González-Partida E., RivasSolorzano, H., Oesler, G., García-Meza, V., Hernández, E., Morales P., Cienfuegos, E., 2003, Environmental geochemistry of the Guanajuato Mining District, México: Ore Geology Reviews, 23, 277-297.
Chambers, J.C., Sidle, R.C., 1991, Fate of heavy metals in an abandoned Lead-Zinc tailings pond; I. Vegetation: Journal of Environmental Quality, 20, 745-751.
Coffey, P.S., Scott, W.D., Summers, K.J. 1986, The effects of tailing dam profiles on relative wind erosion rates: Journal of Environmental Quality, 15, 168 -172.
Consejo de Recursos Minerales (COREMI), 1992, Monografía GeológicoMinera del Estado de Guanajuato: México D.F., Secretaría de Energía, Minas e Industria Paraestatal, Subsecretaría de Minas e Industria básica, 1ª. edición, 136 p.
Diario Oficial de la Federación (DOF), 2004, Norma Oficial Mexicana NOM-141-SEMARNAT-2003, que establece el procedimiento para caracterizar los jales, así como las especificaciones y criterios para la caracterización y preparación del sitio, proyecto, contrucción, operación y postoperación de presas de jales (en línea): México, Secretaría del Medio Ambiente y Recursos Naturales, publicado el 13 de Septiembre de 2004, <http://www.gobernacion. gob.mx/dof/2004/septiembre/dof_13-09-2004.pdf>
Dobos, R.R., Ciolkosz, E.J., Waltman, W.J., 1990. The effect of organic carbon, temperature, time, and redox conditions on soil color: Soil Science, 150, 506-512.
Dold, B., Fontboté, L., 2001, Element cycling and secondary mineralogy in porphyry cooper tailings as a function of climate, primary mineralogy, and mineral processing: Journal of Geochemical Exploration, 74, 3-55. [OpenAIRE]
Dold, B., Fontboté, L., 2002, A mineralogical and geochemical study of element mobility in sulfide mine tailings of Fe-oxide-Cu-Au deposits from the Punta del Cobre belt, northern Chile: Chemical Geology, 189, 135-163. [OpenAIRE]
Environment Canada-Guidelines and Standards Division (ECGSD), 1996, Soil Quality Guidelines for the Protection of Environmental and Human Health (en línea): Manitoba, Canada, Environment Canada, actualización: 01 de Marzo de 2004, <http://www.ec.gc. ca/CEQG-RCQE/>, Canadian Environmental Quality Guidelines, consulta: 10 de Octubre de 2004.