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Referencias del artículo

LECOMTE, Karina L; GARCIA, M. Gabriela; FORMICA, Stella M  y  DEPETRIS, Pedro J. Hidroquímica de ríos de montaña (Sierras de Córdoba, Argentina): elementos mayoritarios disueltos. Lat. Am. j. sedimentol. basin anal. [online]. 2011, vol.18, n.1, pp. 43-62. ISSN 1851-4979.

    1. Becker, A., 2005. Runoff processes in mountain headwater catchments: recent understanding and research challenges. En U.M. Huber (Ed.), Global Change and Mountain Regions. Springer: 283-295. Berln. [ Links ]

    2. Berner, R.A., A.C. Lasaga y R.M. Garrels, 1983. The carbonate-silicate geochemical cycle and its effect on atmospheric carbon dioxide over the past 100 millon years. American Journal of Science 284:641-683. [ Links ]

    3. Brown, D.J., K. McSweeney y P.A. Helmke, 2004. Statistical, geochemical, and morphological analyses of stone line formation in Uganda. Geomorphology 62:217-237. [ Links ]

    4. Capitanelli, R.G., 1979. Geomorfologa. En J.B. Vasquez, R.A. Miatello y M.E. Roqu (Eds.), Geografa Fsica de Crdoba. Ed. Boldt: 213-296. Crdoba, Argentina. [ Links ]

    5. Dai, Z. y J. Samper, 2006. Inverse modeling of water flow and multicomponent reactive transport in coastal aquifer systems. Journal of Hydrology 327:447-461. [ Links ]

    6. Demange, M., J.O. lvarez, L. Lpez y J.J. Zarco, 1996. The Achala Batholith (Crdoba, Argentina): a composite intrusion made of five independent magmatic suites. Magmatic evolution and deuterical alteration. Journal of South American Earth Sciences 9(1-2):11-25. [ Links ]

    7. Dorais, M.J., R. Lira, Y. Chen y D. Tingey, 1997. Origin of biotite-apatite-rich enclaves, Achala Batholith, Argentina. Contributions to Mineralogy and Petrology 130:31-46. [ Links ]

    8. Drever, J.I., 1997. The Geochemistry of Natural Waters. Surface and Groundwater Environments, 2a Edicin, Prentice Hall, New Jersey, 436 pp. [ Links ]

    9. Drever, J.I. y J. Zobrist, 1992. Chemical weathering of silicate rocks as a function of elevation in the southern Swiss Alps. Geochimica et Cosmochimica Acta 56:3209-3216. [ Links ]

    10. Dupr, B., C. Dessert, P. Oliva, Y. Goddris, L.F. Viers, R. Millot y J. Gaillardet, 2003. Rivers, chemical weathering and Earth's climate. C.R. Geoscience 335:1141-1160. [ Links ]

    11. Eary, L.E., D.D. Runnels y K.J. Esposito, 2003. Geochemical control on ground water composition at the Cripple Creek Mining District, Cripple Creek, Colorado. Applied Geochemistry 18:1-24. [ Links ]

    12. Galliski, M.A., 1994. La Provincia Pegmattica Pampeana. II: Metalognesis de sus distritos econmicos. Revista de la Asociacin Geolgica Argentina 49(1-2):113-122. [ Links ]

    13. Garca, M. G., K.L. Lecomte, A.I. Pasquini y P.J. Depetris, 2007. Sources of dissolved REE in mountainous streams draining granitic rocks, Sierras Pampeanas (Crdoba, Argentina). Geochimica et Cosmochimica Acta 71:5355-5368. [ Links ]

    14. Garca, M.G, K.L. Lecomte y P.J. Depetris, 2009 Anlisis estacional de la precipitacin pluvial en la ciudad de Crdoba a partir de datos geoqumicos. I Reunin Argentina de Geoqumica de la Superficie Actas:44. Crdoba. [ Links ]

    15. Garrels, R.M. y F.T. Mackenzie, 1967. Origins of the chemical composition of some springs and lakes. In Equilibrium Concepts in Natural Water Systems. Advances in Chemistry Series 67:222-242. [ Links ]

    16. Gibbs, R.J., 1970. Mechanism controlling world water chemistry. Science 170:1088-1090. [ Links ]

    17. Goldsmith, S.T., A.E. Carey, B.M. Johnson, S.A. Welch, W.B. Lyons, W.H. McDowell y J.S. Pigott, 2010. Stream geochemistry, chemical weathering and CO2 consumption potential of andesitic terrains, Dominica, Lesser Antilles. Geochimica et Cosmochimica Acta 74:85-103. [ Links ]

    18. Gupta, H., G.J. Chakrapani, K. Selvaraj y S.J. Kao, 2011. The fluvial geochemistry, contributions of silicate, carbonate and saline-alkaline components to chemical weathering flux and controlling parameters: Narmada River (Deccan Traps), India. Geochimica et Cosmochimica Acta 75:800-824. [ Links ]

    19. Henck, A.C., K.W. Huntington, J.O. Stone, D.R. Montgomery y B. Hallet, 2011. Spatial controls on erosion in the Three Rivers Region, southeastern Tibet and southwestern China. Earth and Planetary Science Letters 303:71-83. [ Links ]

    20. Horton, R.E., 1945. Erosional Development of Streams and their Drainage Basins. Hydrophysical approach to quantitative morphology. Geological Society of American Bulletin 56:275-370. [ Links ]

    21. Hren, M.T., C.P. Chamberlain, G.E. Hilley, P.M. Blisniuk y B. Bookhagen, 2007. Major ion chemistry of the Yarlung Tsangpo- Brahmaputra river: Chemical weathering, erosion, and CO2 consumption in the southern Tibetan plateau and eastern syntaxis of the Himalaya. Geochimica et Cosmochimica Acta 71:2907-2935. [ Links ]

    22. Jacobson, A.D., J.D. Blum, C.P. Chamberlain, D. Craw y P . O . Koons, 2003. Climatic and tectonic controls on chemical weathering in the New Zealand Southern Alps. Geochimica et Cosmochimica Acta 67(1):29-46. [ Links ]

    23. Jarrett, R.D., 1992. Hydraulics of Mountain Rivers. En B.C. Yen (Ed.), Channel Flow Resistance: Centennial of Manning's Formula. Water Resource Publication: 287-298. Littleton. [ Links ]

    24. Kirschbaum, A., E. Martinez, G. Pettinari y S. Herrero, 2005. Weathering profiles in granites, Sierra Norte (Crdoba, Argentina). Journal of South American Earth Sciences 19:479-493. [ Links ]

    25. Lecomte, K.L., 2006. Control Geomorfolgico en la Geoqumica de los ros de Montaa, Sierras Pampeanas, Provincia de Crdoba, Argentina. Tesis Doctoral. CIGeS. Facultad de Ciencias Exactas, Fsicas y Naturales. Universidad Nacional de Crdoba, Argentina, 312 pp. (indito). [ Links ]

    26. Lecomte, K.L., M.G. Garca y P.J. Depetris, 2005a. Fraccionamiento de los elementos qumicos entre la fase soluble (<0,22 m) y coloidal (comprendida entre 0,22 y 0,45 m) en aguas de ros de las sierras de Crdoba, Argentina. XVI Congreso Geolgico Argentino, Tomo III: 737-744. La Plata. [ Links ]

    27. Lecomte, K.L., A.I. Pasquini y P.J. Depetris, 2005b. Mineral Weathering in a Semiarid Mountain River: Its assessment through PHREEQC inverse modeling. Aquatic Geochemistry 11:173-194. [ Links ]

    28. Lecomte, K.L., J.P. Milana, S.M. Formica y P.J. Depetris, 2008. Hydrochemical appraisal of ice- and rock-glacier meltwater in the hyperarid Agua Negra drainage basin, Andes of Argentina. Hydrological Processes. 22(13): 2180-2195. [ Links ]

    29. Lecomte, K.L., M.G. Garca, S.M. Formica y P.J. Depetris, 2009. Influence of geomorphological variables on mountainous stream water chemistry (Sierras Pampeanas de Crdoba, Argentina). Geomorphology 110:195-202. [ Links ]

    30. Leybourne, M.I. y W.D. Goodfellow, 2010. Geochemistry of surface waters associated with an undisturbed Zn-Pb massive sulfide deposit: Water-rock reactions, solute sources and the role of trace carbonate. Chemical Geology 279:40-54. [ Links ]

    31. Lira, R. y A.M. Kirschbaum, 1990. Geochemical evolution of granites from Achala Batholith of the Sierras Pampeanas, Argentina. Geological Society of America, Special Paper 241:67-75. [ Links ]

    32. McLennan, S.M., 2001. Relationships between the trace element composition of sedimentary rocks and upper continental crust. Geochemistry Geophysics and Geosystems: Trabajo nmero 2000GC000109. [ Links ]

    33. Millot, R., J. Gaillardet, B. Dupr y C.J. Allgre, 2003. Northern latitude chemical weathering rates: Clues from the Mackenzie River Basin, Canada. Geochimica et Cosmochimica Acta 67:1305-1329. [ Links ]

    34. Ndeltcheva, T.H., C. Piedallu, J.C. Ggout, J.M. Stussi, J.P. Boudot, N. Angeli y E. Dambrine, 2006. Influence of granite mineralogy, rainfall, vegetation and relief on stream water chemistry (Vosges Mountains, north-eastern France). Chemical Geology 231:1-15. [ Links ]

    35. Oliva, P. , J. Viers y B. Dupr, 2003. Chemical weathering in granitic environments. Chemical Geology 202:225-256. [ Links ]

    36. Oliva, P. , B. Dupr, F. Martin y J. Viers, 2004. The role of trace minerals in chemical weathering in high-elevation granitic watershed (Estibre, France): Chemical and mineralogical evidence. Geochimica et Cosmochimica Acta 68:2223-2244. [ Links ]

    37. Ollivier, P. , B. Hamelin y O. Radakovitch, 2010. Seasonal variations of physical and chemical erosion: A three-year survey of the Rhone River (France). Geochimica et Cosmochimica Acta 74:907-927. [ Links ]

    38. Parkhurst, D.L. y C.A. Apello, 1999. User's guide to PHREEQC (versin 2) - a computer code program for speciation, bath-reaction, one- dimensional transport and inverse geochemical calculations. United States Geological Survey Water Resource Investigations, Report 99-4259. [ Links ]

    39. Pasquini, A.I., L.B. Grosso, A.P. Mangeud y P.J. Depetris, 2002. Geoqumica de ros de montaa en las Sierras Pampeanas: I. Vertientes y arroyos del Batolito de Achala, provincia de Crdoba, Argentina. Revista de la Asociacin Geolgica Argentina 57:437-444. [ Links ]

    40. Pasquini, A.I., K.L. Lecomte y P.J. Depetris, 2004. Geoqumica de ros de montaa en las Sierras pampeanas: II. El ro Los Reartes, Sierra de Comechingones, provincia de Crdoba, Argentina. Revista de la Asociacin Geolgica Argentina 59:129-140. [ Links ]

    41. Petelet-Giraud, E. y P. Negrel, 2007. Geochemical flood deconvo-lution in a Mediterranean catchment (Hrault, France) by Sr isotopes, major and trace elements. Journal of Hydrology 337:224-241. [ Links ]

    42. Piper, A.M., 1944. A graphic procedure in the geochemical interpretation of water analyses. American Geophysical Union Transactions 25:914-923. [ Links ]

    43. Price, J.R. y M.A. Velbel, 2003. Chemical weathering indices applied to weathering profiles developed on heterogeneous felsic metamorphic parent rocks. Chemical Geology 202:397-416. [ Links ]

    44. Rapela, C.W., 1982. Aspectos geoqumicos y petrolgicos del Batolito de Achala, provincia de Crdoba. Revista de la Asociacin Geolgica Argentina 37:314-330. [ Links ]

    45. Rapela, C.W., E.G. Baldo, R.J. Pankhurst y C.M. Fanning, 2008. The Devonian Achala batholith of the Sierras Pampeanas: F-rich, aluminous A-types granites. VI South American Symposium on Isotope Geology, CD-ROM, extended abstract: 53. San Carlos de Bariloche, Argentina. [ Links ]

    46. Raymo, M.E. y W.F. Ruddiman, 1992. Tectonic forcing of Late Cenozoic climate. Nature 359:117-122. [ Links ]

    47. Sharif, M.U., R.K. Davis, K.F. Steele, B. Kim, T.M. Kresse y J.A. Fazio, 2008. Inverse geochemical modeling of groundwater evolution with emphasis on arsenic in the Mississippi River Valley alluvial aquifer, Arkansas (USA). Journal of Hydrology 350:41-55. [ Links ]

    48. Stallard, R.F. y J.M. Edmond, 1983. Geochemistry of the Amazon 2. The influence of geology and weathering environment on the dissolved load. Journal of Geophysical Research 88:9671-9688. [ Links ]

    49. Strahler, A.N., 1987. Quantitative geomorphology of drainage basins and channel networks. Section 4-II of Handbooks of Applied Hydrology, Mc Graw-Hill Book Co. New York, 585 pp. [ Links ]

    50. Uliana, M.M. y J.M. Sharp, 2001. Tracing regional flow paths to major springs in Trans-Pecos Texas using geochemical data and geochemical models. Chemical Geology 179:53-72. [ Links ]

    51. Wohl, E., 2000. Mountain Rivers. Water Resources Monograph 14. American Geophysical Union, Washington, D.C., 320 pp. [ Links ]

    52. Wolff-Boenisch, D., E.J. Gabet, D.W. Burbank, H. Langner y J. Putkonen, 2009. Spatial variations in chemical weathering and CO2 consumption in Nepalese High Himalayan catchments during the monsoon season. Geochimica et Cosmochimica Acta 73:3148-3170. [ Links ]