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Referencias:

• Álvarez, M.S., Influence of the Madden Julian Oscillation on precipitation and surface air temperature in South America (2016) Climate Dynamics, 46 (1), pp. 245-262
• Antico, A., Schlotthauer, G., Torres, M.E., Analysis of hydro-climatic variability and trends using a novel empirical mode decomposition: application to the Paraná River Basin (2014) Journal of Geophysical Research: Atmospheres, 119, pp. 1218-1233
• Antico, A., Torres, M.E., Diaz, H.F., Contributions of different time scales to extreme Paraná floods (2016) Climate Dynamics, 46 (11), pp. 3785-3792
• Araneo, D., Villalba, R., Variability in the annual cycle of the Río Atuel streamflows and its relationship with tropospheric circulation (2015) International Journal of Climatology, 35 (10), pp. 2948-2967
• Autret, G., Rémy, F., Roques, S., Multiscale analysis of Antarctic surface temperature series by empirical mode decomposition (2013) Journal of Atmospheric and Oceanic Technology, 30, pp. 649-654
• Beyene, B.S., Investigation of variable threshold level approaches for hydrological drought identification (2014) Hydrology and Earth System Sciences Discussions, 11, pp. 12765-12797
• Boisier, J.P., Anthropogenic and natural contributions to the Southeast Pacific precipitation decline and recent megadrought in central Chile (2016) Geophysical Research Letters, 43 (1), pp. 413-421
• Boninsegna, J., Villalba, R., (2006) Los escenarios de Cambio Climático y el impacto en los caudales. Documento sobre la oferta hídrica en los oasis de riego de Mendoza y San Juan en escenarios de Cambio Climático, , Buenos Aires: Secretaría de Ambiente y Desarrollo Sustentable
• Bruniard, E., La Diagonal Árida Argentina: un límite climático real (1982) Revista Geográfica, 95, pp. 5-20
• Carril, A.F., Impacts of climate change on the oases of the Argentinean cordillera (1997) Climate Research, 9, pp. 121-129
• Castex, V., Morán Tejada, E., Beniston, M., Water availability, use and governance in the wine producing region of Mendoza, Argentina (2015) Environmental Science & Policy, 48, pp. 1-8
• Colominas, M.A., Schlotthauer, G., Torres, M.E., Improved complete ensemble EMD: A suitable tool for biomedical signal processing (2014) Biomedical Signal Processing and Control, 14, pp. 19-29
• Colominas, M.A., Schlotthauer, G., Torres, M.E., An unconstrained optimization approach to empirical mode decomposition (2015) Digital Signal Processing, 40, pp. 164-175
• Compagnucci, R.H., Agosta, E.A., Vargas, W.M., Climatic change and quasi-oscillations in central-west Argentina summer precipitation: main features and coherent behaviour with southern African region (2002) Climate Dynamics, 18, pp. 421-435
• Compagnucci, R.H., Araneo, D.C., Identificación de áreas de homogeneidad estadística para los caudales de ríos andinos argentinos y su relación con la circulación atmosférica y la temperatura superficial del mar (2005) Meteorológica, 30 (1-2), pp. 41-53
• Compagnucci, R.H., Araneo, D.C., Alcances de El Niño como predictor del caudal de los ríos andinos argentinos (2007) Ingeniería Hidráulica En México, 22 (3), pp. 23-35
• Compagnucci, R.H., Vargas, W.M., Interannual variability of Cuyo rivers streamflow in Argentinean Andean Mountains and ENSO events (1998) International Journal of Climatology, 18, pp. 1593-1609
• Contreras, S., Remote sensing estimates of supplementary water consumption by arid ecosystems of central Argentina (2011) Journal of Hydrology, 397, pp. 10-22
• Díaz, E., Identificación y caracterización de sequías hidrológicas en Argentina (2016) Tecnología Y Ciencias Del Agua, 7 (1), pp. 125-133
• Eden, S., Lawford, R.G., Using science to address a growing worldwide water dilemma for the 21st century (2003) Water: science, policy and management: challenges and opportunities, pp. 15-41. , Lawford R.G., (ed), Washington, DC, EstadosUnidos: American Geophysical Union
• Fernández, H.W., Buscemi, N.H., (2000) Análisis y caracterización de sequías hidrológicas en el Centro Oeste de Argentina, , Proceedings of the XVIII Congreso Nacional del Agua (CONAGUA), June, 2000, Termas de Río Hondo, Santiago del Estero: Universidad Nacional de Santiago del Estero
• Fleig, A.K., A global evaluation of streamflow drought characteristics (2006) Hydrological and Earth System Sciences, 10, pp. 535-552
• Garrote, L., Iglesias, A., Flores, F., Development of drought management plans in Spain (2009) Coping with drought risk in agriculture and water supply systems, pp. 175-186. , Iglesias A., (ed), Springer
• Hisdal, H., Have streamflow droughts in Europe become more severe or frequent? (2001) International Journal of Climatology, 21, pp. 317-333
• Huang, B., Extended reconstructed sea surface temperature version 4 (ERSST.v4). Part I: upgrades and intercomparisons (2015) Journal of Climate, 28, pp. 911-930
• Huang, N.E., The empirical mode decomposition method and the Hilbert spectrum for non-stationary time series analysis (1998) Proceedings of the Royal Society London, 454A, pp. 903-995
• (2010) Censo Nacional de Población, Hogares y Viviendas 2010, , http://www.sig.indec.gov.ar/censo2010/, May
• Krepper, C.M., Zucarelli, V., Climatology of water excess and shortages in the La Plata Basin (2012) Theoretical and Applied Climatology, 102, pp. 13-27
• (2015) La crisis hídrica golpea más a San Juan que a Mendoza, , http://www.diariolaprovinciasj.com/sociedad/2015/3/24/crisis-hidrica-golpea-juan-mendoza-28422.html, [online], Available from, [Accessed, May, 2017
• Lascano Kezic, M.E., Contribución de glaciares al caudal de los ríos en los Andes centrales de la Argentina durante años de sequía extraordinaria (2010) Contribuciones Científicas, 22, pp. 1-10
• Mantua, N.J., A Pacific interdecadal climate oscillation with impacts on salmon production (1997) Bulletin of the American Meteorological Society, 78, pp. 1069-1079
• Masiokas, M., Snowpack variations in the Central Andes of Argentina and Chile, 1951-2005: large-scale atmospheric influences and implications for water resources in the region (2006) Journal of Climate, 19, pp. 6334-6352
• Masiokas, M.H., Snowpack variations since AD 1150 in the Andes of Chile and Argentina (30°–37°S) inferred from rainfall, tree-ring and documentary records (2012) Journal of Geophysical Research, 117, p. D05112
• Masiokas, M.H., Recent snowpack and streamflow variations in the Central Andes of Chile and Argentina (2014) Documenting, Understanding and Projecting Changes in the Hydrological Cycle in the American Cordillera, 47. , Luckman B.H., (ed), October, San Rafael: Inter-American Institute for Global Change Research (IAI)
• McIntyre, O., (2007) Environmental protection of international water courses under international law, , Hampshire: Ashgate Publishing Limited
• McMahon, T.A., A new approach to stochastically generating six-monthly rainfall sequences based on Empirical Mode Decomposition (2008) Journal of Hydrometeorology, 9, pp. 1377-1389
• Montaña, E., Diaz, H.P., Hurlbert, M., Development, local livelihoods, and vulnerabilities to global environmental change in the South American Dry Andes (2016) Regional Environmental Change, 16 (8), pp. 2215-2228
• Morábito, J., (2009) El agua en Mendoza y su problemática ambiental, , Mendoza: Centro Regional Andino, Instituto Nacional del Agua (CRA-INA)
• Prieto, M.R., Araneo, D., Villalba, R., (2012) The great droughts of 1924-25 and 1968-69 in the Argentinean central Andes. Impacts and responses, , Proceedings of the XI Congreso Nacional de Meteorología, 28 May-1 June, Mendoza, Mendoza: Centro Argentino de Meteorólogos (CAM)
• Rivera, J.A., (2014) Aspectos climatológicos de las sequías meteorológicas en el Sur de Sudamérica. Análisis regional y proyecciones futuras, , Thesis (PhD), University of Buenos Aires
• Rivera, J.A., Regional aspects of streamflow droughts in the Andean rivers of Patagonia, Argentina. Links with large-scale climatic oscillations (2017) Hydrology Research
• Rivera, J.A., Penalba, O.C., Trends and spatial patterns of drought affected area in Southern South America (2014) Climate, 2, pp. 264-278
• Rivera, J.A., Penalba, O.C., Bettolli, M.L., Inter-annual and inter-decadal variability of dry days in Argentina (2013) International Journal of Climatology, 33, pp. 834-842
• Sang, Y.-F., Wang, Z., Liu, C., Comparison of the MK test and EMD method for trend identification in hydrological time series (2014) Journal of Hydrology, 510, pp. 293-298
• Schwerdtfeger, W., The atmospheric circulation over Central and South America (1976) Climates of Central and South America, pp. 2-12. , Amsterdam/Oxford/New York: Elsiever Scientific Publishing Company
• (2015) Tercera Comunicación Nacional de la República Argentina a la Convención Marco de las Naciones Unidas sobre Cambio Climático. Cambio climático en Argentina; tendencias y proyecciones, , Buenos Aires: Secretaría de Ambiente y Desarrollo Sustentable de la Nación
• Shukla, S., Wood, A.W., Use of a standardized runoff index for characterizing hydrologic drought (2008) Geophysical Research Letters, 35, p. L02405
• Stahl, K., (2001) Hydrological drought - A study across Europe, , Thesis (PhD), Albert-Ludwigs-Universität
• Tallaksen, L.M., Hisdal, H., Regional analysis of extreme streamflow drought duration and deficit volume (1997) International Association of Hydrological Sciences, 246, pp. 141-150
• Tallaksen, L.M., Madsen, H., Clausen, B., On the definition and modelling of stream-flow drought duration and deficit volume (1997) Hydrological Sciences Journal, 42 (1), pp. 15-33
• Tallaksen, L.M., van Lanen, H.A.J., Hydrological drought: processes and estimation methods for streamflow and groundwater (2004) Developments in water science, , Amsterdam: Elsevier Science B.V
• van Lanen, H.A.J., Hydrological drought across the world: impact of climate and physical catchment structure (2013) Hydrology and Earth System Sciences, 17, pp. 1715-1732
• van Loon, A.F., Hydrological drought explained (2015) WIREs Water 2015, 2, pp. 359-392
• van Loon, A.F., Hydrological drought types in cold climates: quantitative analysis of causing factors and qualitative survey of impacts (2015) Hydrology and Earth System Sciences, 19, pp. 1993-2016
• van Loon, A.F., How climate seasonality modifies drought duration and deficit (2014) Journal of Geophysical Research: Atmospheres, 119, pp. 4640-4656
• van Loon, A.F., van Lanen, H.A.J., A process-based typology of hydrological drought (2012) Hydrology and Earth System Sciences, 16, pp. 1915-1946
• Vicente-Serrano, S.M., Accurate computation of a streamflow drought index (2012) Journal of Hydrologic Engineering, 17 (2), pp. 318-332
• Vich, A.I.J., López, P.M., Schumacher, M.C., Trend detection in the water regime of the main rivers of the Province of Mendoza, Argentina (2007) GeoJournal, 70, pp. 233-243
• Vich, A.I.J., Norte, F.A., Lauro, C., Análisis regional de frecuencias de caudales de ríos pertenecientes a cuencas con nacientes en la Cordillera de los Andes (2014) Meteorologica, 39 (1), pp. 3-26
• Villalba, R., Cambio climático y recursos hídricos. El caso de las tierras secas del oeste argentino (2016) Ciencia Hoy, 25 (149), pp. 48-55
• Walker, F.R., Douglas, E.M., Identifying hydrologic variability and change for strategic water system planning and design (2003) Water: science, policy and management: challenges and opportunities, pp. 267-284. , Lawford R.G., (ed), Washington, DC: American Geophysical Union
• Wang, W., Propagation of drought: from meteorological drought to agricultural and hydrological drought (2016) Advances in Meteorology, , ID 6547209
• Wong, G., van Lanen, H.A.J., Torfs, P.J.J.F., Probabilistic analysis of hydrological drought characteristics using meteorological drought (2013) Hydrological Sciences Journal, 58 (2), pp. 253-270
• (2008) Manual on Low-flow Estimation and Prediction, , Geneva: WMO, No. 1029
• Wu, H., Trend analysis of streamflow drought events in Nebraska (2008) Water Resources Management, 22 (2), pp. 145-164
• Wu, Z., Huang, N.E., Ensemble empirical mode decomposition: a noise-assisted data analysis method (2009) Advances in Adaptive Data Analysis, 1 (1), pp. 1-41
• Yevjevich, V., (1967) An objective approach to definition and investigation of continental hydrologic droughts, , Fort Collins, CO: Colorado State University

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