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Fondo actual de nitrato como metodología en la relación agua superficial – subterránea aplicado en el sudeste Bonaerense, Argentina
Present day background of nitrate as a methodology in the surface water - groundwater interaction applied in southeastern Buenos Aires province, Argentina
DOI:
https://doi.org/10.15446/dyna.v85n207.72543Palabras clave:
arroyo ganador, acuífero freático, contaminación, fertilizantes, lixiviación de nitratos, monitoreo de nitratos (es)gaining creek, phreatic aquifer, contamination, fertilizer, nitrate leaching, nitrate monitoring (en)
Referencias
Edmunds, W.M. and Shand, P., Natural groundwater quality. Wiley-Blackwell, London, 2008.
Sutton, M., Howard, C., Erisman, J., Bleeker, G., Grennfelt, P., Van Grinsven, H. and Grizzetti, B., The european nitrogen assessment sources, effects and policy perspectives. Cambridge University Press, 2011.
Liu, F., Song, X., Yang, L., Han, D., Zhang, Y., Ma, Y. and Bu, H., The role of anthropogenic and natural factors in shaping the geochemical evolution of groundwater in the Subei Lake basin, Ordos energy base, Northwestern China. Science of the Total Environmental, 538, pp. 327-340, 2015. DOI: 10.1016/j.scitotenv.2015.08.057
Kim, K.H., Yun, S.T., Kim, H.K. and Kim, J.W., Determination of natural backgrounds and thresholds of nitrate in South Korean groundwater using model-based statistical approaches. Journal of Geochemical Exploration, 148, pp. 196-205, 2015. DOI: 10.1016/j.gexplo.2014.10.001
L’hirondel, J. and L’hirondel, JL., Nitrate and man. Toxic, harmless or beneficial?. CAB Publishing, Wallingford, United Kingdom, 2001.
Powlson, D.S., Addiscott, T.M., Benjamin, N., Cassman, K.G., de Kok, T.M., van Grinsven, H., L´hirondel, J.L., Avery, A.A. and van Kessel, C., When does nitrate become a risk for humans?. Journal of Environmental Quality, 37, pp. 291–295, 2008. DOI: 10.2134/jeq2007.0177
OMS - Organización Mundial de la Salud. Guidelines for drinking water quality, 1, 3rd ed., Geneva, Switzerland, 2011. ISBN: 92 4 154638 7.
Jordan, C. and Smith, R.V., Methods to predict the agricultural contribution to catchment nitrate loads: designation of nitrate vulnerable zones in Northern Ireland. Journal of Hydrology, 304, pp. 316-329, 2005. DOI:10.1016/j.jhydrol.2004.07.037
Liu, A., Ming, J. and Ankumah, R.O., Nitrate pollution in private wells in rural Alabama, United States. Science of the Total Environmental, 346, pp. 112-120, 2005. DOI: 10.1016/j.scitotenv.2004.11.019
Burkart, M. and Stoner, J., Chapter 7: Nitrogen in groundwater associated with agricultural system. In: Hatfield, J.L. and Follet, R.F., (Eds), Nitrogen in the environment: Sources, problems, and management [Online]. Elsevier Inc., 2008. Available at: http://digitalcommons.unl.edu/usdaarsfacpub/259
Wheeler, D.C., Nolan, B.T., Flory, A.R., Della-Valle, C.T. and Ward, M.H., Modeling groundwater nitrate concentrations in private wells in Iowa. Science of the Total Environmental, 536, pp. 481-488, 2015. DOI: 10.1016/j.scitotenv.2015.07.080
Amano, H., Nakagawa, K. and Berndtsson, R., Groundwater geochemistry of a nitrate-contaminated agricultural site. Environmental Earth Sciences, 75(15), 2016. DOI 10.1007/s12665-016-5968-8.
Valujeva, K., O´Sullivan, L., Gutzler, C., Fealy, R. and Schulte, R.P., The challenge of managing soil functions at multiple scales: An optimisation study of the synergistic and antagonistic trade-offs between soil functions in Ireland. Land Use Policy, 58, pp. 335-347, 2016. DOI: 10.1016/j.landusepol.2016.07.028
Mastchullat, J., Ottenstein, R. and Reimann, C., Geochemical background-can we calculate it? Environmental Geology 39(9), pp. 990-1000, 2000. DOI:10.1007/s002549900084
Manzano, M., Custodio, E. and Nieto, P., El fondo natural de la calidad del agua subterránea. In Basile et al. (Eds.), Primer seminario Hispano Latinoamericano sobre tema
Actuales de la hidrología subterránea, 2, Rosario, Argentina, pp. 607-620, 2003. ISBN: 950-673-395-3.
Reimann, C. and Garrett, R., Geochemical background—concept and reality. Science of the Total Environmental, 350, pp. 12-27, 2005. DOI: 10.1016/j.scitotenv.2005.01.047
Panno, S., Kelly, W., Martinsek, A. and Hackley, K., Estimating background and threshold nitrate concentrations using probability graphs. Ground Water, 44, pp. 697-709, 2006. DOI: 10.1111/j.1745-6584.2006.00240.x
George, W.O. and Hastings, W.W., Nitrate in the ground water of Texas. Transactions American Geophysical Union, 32(3), pp. 450-456, 1951. DOI:10.1111/j.1745-6584.2006.00240.x
Chen, H.H. and Druliner, A.D., Nonpoint-source ground-water pollution - Agricultural chemical pollution of ground water in six areas of the High Plains aquifer, Nebraska. In: Moody, D.W., Carr, J., Chase, E.B. and Paulson, R.W., (Eds.), Hydrologic Events and Ground-Water Quality. United States Geological Survey Water-Supply Paper 2325, Washington D.C., U.S. Government Printing Office, 1998.
Tesoriero, A.J. and Voss, F.D., Predicting the probability of elevated nitrate concentrations in the Puget Sound Basin: Implications for aquifer susceptibility and vulnerability. Ground Water, 35, pp. 1029-1039, 1997. DOI: 10.1111/j.1745-6584.1997.tb00175.x.
Nolan, B.T., Hitt, K.J. and Ruddy, B.C., Probability of nitrate pollution of recently recharged groundwaters in the conterminous United States. Environmental Science and Technology, 36(10), pp. 2138-2145, 2002. DOI: 10.1021/es0113854.
Rossi, P., Lexow, C. and Bonorino, G., Los nitratos en el agua subterránea de la cuenca superior del arroyo Chasicó. Proceedings of 3ras. Jornadas Geológicas Bonaerenses, pp. 201-206, 1992.
Martínez, D.E., Contaminación del agua subterránea por actividades agrícolas en el sudeste bonaerense. Informe diagnóstico, Centro de Geología de Costas y Cuaternario, UNMdP, Mar del Plata, Argentina, 1995.
Bonorino, G., Albouy, R., Lexow, C. and Carrica, J., Nitratos en acuífero zona periserrana de las Sierras Australes. Proceedings of the 2º Congreso Argentino de Hidrogeología. Serie Correlación Geológica, 13, pp. 231-240, 1999. ISSN: 1514-4186
Giuliano-Albo, J., and Blarasin, M., Hidrogeoquímica y estimación del fondo natural de nitratos del agua subterránea en un agroecosistema del [1] Edmunds, W.M. and Shand, P., Natural groundwater quality. Wiley-Blackwell, London, 2008.
Sutton, M., Howard, C., Erisman, J., Bleeker, G., Grennfelt, P., Van Grinsven, H. and Grizzetti, B., The european nitrogen assessment sources, effects and policy perspectives. Cambridge University Press, 2011.
Liu, F., Song, X., Yang, L., Han, D., Zhang, Y., Ma, Y. and Bu, H., The role of anthropogenic and natural factors in shaping the geochemical evolution of groundwater in the Subei Lake basin, Ordos energy base, Northwestern China. Science of the Total Environmental, 538, pp. 327-340, 2015. DOI: 10.1016/j.scitotenv.2015.08.057
Kim, K.H., Yun, S.T., Kim, H.K. and Kim, J.W., Determination of natural backgrounds and thresholds of nitrate in South Korean groundwater using model-based statistical approaches. Journal of Geochemical Exploration, 148, pp. 196-205, 2015. DOI: 10.1016/j.gexplo.2014.10.001
L’hirondel, J. and L’hirondel, JL., Nitrate and man. Toxic, harmless or beneficial?. CAB Publishing, Wallingford, United Kingdom, 2001.
Powlson, D.S., Addiscott, T.M., Benjamin, N., Cassman, K.G., de Kok, T.M., van Grinsven, H., L´hirondel, J.L., Avery, A.A. and van Kessel, C., When does nitrate become a risk for humans?. Journal of Environmental Quality, 37, pp. 291–295, 2008. DOI: 10.2134/jeq2007.0177
OMS - Organización Mundial de la Salud. Guidelines for drinking water quality, 1, 3rd ed., Geneva, Switzerland, 2011. ISBN: 92 4 154638 7.
Jordan, C. and Smith, R.V., Methods to predict the agricultural contribution to catchment nitrate loads: designation of nitrate vulnerable zones in Northern Ireland. Journal of Hydrology, 304, pp. 316-329, 2005. DOI:10.1016/j.jhydrol.2004.07.037
Liu, A., Ming, J. and Ankumah, R.O., Nitrate pollution in private wells in rural Alabama, United States. Science of the Total Environmental, 346, pp. 112-120, 2005. DOI: 10.1016/j.scitotenv.2004.11.019
Burkart, M. and Stoner, J., Chapter 7: Nitrogen in groundwater associated with agricultural system. In: Hatfield, J.L. and Follet, R.F., (Eds), Nitrogen in the environment: Sources, problems, and management [Online]. Elsevier Inc., 2008. Available at: http://digitalcommons.unl.edu/usdaarsfacpub/259
Wheeler, D.C., Nolan, B.T., Flory, A.R., Della-Valle, C.T. and Ward, M.H., Modeling groundwater nitrate concentrations in private wells in Iowa. Science of the Total Environmental, 536, pp. 481-488, 2015. DOI: 10.1016/j.scitotenv.2015.07.080
Amano, H., Nakagawa, K. and Berndtsson, R., Groundwater geochemistry of a nitrate-contaminated agricultural site. Environmental Earth Sciences, 75(15), 2016. DOI 10.1007/s12665-016-5968-8.
Valujeva, K., O´Sullivan, L., Gutzler, C., Fealy, R. and Schulte, R.P., The challenge of managing soil functions at multiple scales: An optimisation study of the synergistic and antagonistic trade-offs between soil functions in Ireland. Land Use Policy, 58, pp. 335-347, 2016. DOI: 10.1016/j.landusepol.2016.07.028
Mastchullat, J., Ottenstein, R. and Reimann, C., Geochemical background-can we calculate it? Environmental Geology 39(9), pp. 990-1000, 2000. DOI:10.1007/s002549900084
Manzano, M., Custodio, E. and Nieto, P., El fondo natural de la calidad del agua subterránea. In Basile et al. (Eds.), Primer seminario Hispano Latinoamericano sobre tema
Actuales de la hidrología subterránea, 2, Rosario, Argentina, pp. 607-620, 2003. ISBN: 950-673-395-3.
Reimann, C. and Garrett, R., Geochemical background—concept and reality. Science of the Total Environmental, 350, pp. 12-27, 2005. DOI: 10.1016/j.scitotenv.2005.01.047
Panno, S., Kelly, W., Martinsek, A. and Hackley, K., Estimating background and threshold nitrate concentrations using probability graphs. Ground Water, 44, pp. 697-709, 2006. DOI: 10.1111/j.1745-6584.2006.00240.x
George, W.O. and Hastings, W.W., Nitrate in the ground water of Texas. Transactions American Geophysical Union, 32(3), pp. 450-456, 1951. DOI:10.1111/j.1745-6584.2006.00240.x
Chen, H.H. and Druliner, A.D., Nonpoint-source ground-water pollution - Agricultural chemical pollution of ground water in six areas of the High Plains aquifer, Nebraska. In: Moody, D.W., Carr, J., Chase, E.B. and Paulson, R.W., (Eds.), Hydrologic Events and Ground-Water Quality. United States Geological Survey Water-Supply Paper 2325, Washington D.C., U.S. Government Printing Office, 1998.
Tesoriero, A.J. and Voss, F.D., Predicting the probability of elevated nitrate concentrations in the Puget Sound Basin: Implications for aquifer susceptibility and vulnerability. Ground Water, 35, pp. 1029-1039, 1997. DOI: 10.1111/j.1745-6584.1997.tb00175.x.
Nolan, B.T., Hitt, K.J. and Ruddy, B.C., Probability of nitrate pollution of recently recharged groundwaters in the conterminous United States. Environmental Science and Technology, 36(10), pp. 2138-2145, 2002. DOI: 10.1021/es0113854.
Rossi, P., Lexow, C. and Bonorino, G., Los nitratos en el agua subterránea de la cuenca superior del arroyo Chasicó. Proceedings of 3ras. Jornadas Geológicas Bonaerenses, pp. 201-206, 1992.
Martínez, D.E., Contaminación del agua subterránea por actividades agrícolas en el sudeste bonaerense. Informe diagnóstico, Centro de Geología de Costas y Cuaternario, UNMdP, Mar del Plata, Argentina, 1995.
Bonorino, G., Albouy, R., Lexow, C. and Carrica, J., Nitratos en acuífero zona periserrana de las Sierras Australes. Proceedings of the 2º Congreso Argentino de Hidrogeología. Serie Correlación Geológica, 13, pp. 231-240, 1999. ISSN: 1514-4186
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