Atlas De Glaciares y Aguas Andinos

Sakakibara, D. et al (2013). Rapid retreat, acceleration and thinning of Glaciar Upsala, Southern Patagonia Icefield, initiated in 2008. Annals of Glaciology 54(63), pp. 131-138. Schauwecker, S. et al (2017). The freezing level in the tropical Andes, Peru: An indicator for present and future glacier extents. Journal of Geophysical Research: Atmospheres 122, pp. 5172-5189. doi:10.1002/2016JD025943. Schubert, C. (1998). Glaciers of Venezuela (I-1) Satellite image atlas of glaciers of the world: U.S. Geological Survey Professional Paper 1386-I (Glaciers of South America). (Williams, R. S., Jr., and Ferrigno, J. G. Eds.) Denver, CO: U.S. Geological Survey. Skvarca, P. et al (2003). Recent behaviour of Glaciar Upsala, a fast-flowing calving glacier in Lago Argentino, Southern Patagonia. Annals of Glaciology 36(1). pp. 184-188. doi:10.3189/172756403781816202. Soruco, A. et al. (2009). Glacier decline between 1963 and 2006 in the Cordillera Real, Bolivia. Geophysical Research Letters, 36, L03502, doi:10.1029/2008GL036238. Thompson, L. G. et al. (2013). Annually Resolved Ice Core Records of Tropical Climate Variability over the Past ~1800 Years. Science 340(6135), pp. 945- 950. doi:10.1126/science.1234210 Veettil, B. K. & Souza, S. F. (2017). Study of 40-Year Glacier Retreat in the Northern Region of the Cordillera Vilcanota, Peru, Using Satellite Images: Preliminary Results. Remote Sensing Letters 8 pp. 78–85. doi:10.1080/21 50704X.2016.1235811. Vergara, W. et al. (2007). Economic Impacts of Rapid Glacier Retreat in the Andes. Eos 88(25) pp. 261-268. Vuille, M. et al (2018). Rapid decline of snow and ice in the tropical Andes – Impacts, uncertainties and challenges ahead. Earth Sciences Review, 176, pp. 195-213. Vuille, M. et al (2008). Climate change and tropical Andean glaciers: Past, present and future. Earth-Science Reviews, 89(3-4), pp. 79-96. Vuille, M. et al (2015). Impact of the global warming hiatus on Andean temperature. Journal of Geophysical Research, 120(9), pp. 3745-3757, doi:10.1002/2015JD023126. Warren, C. R. & Sugden, D. (1993). The Patagonian Icefields: A Glaciological Review. Arctic and Alpine Research 25(4) doi:10.2307/1551915. Willis, M. J. et al. (2012a). Ice loss from the Southern Patagonian Ice Field, South America, between 2000 and 2012. Geophysical Research Letters 39(17) L17501, doi:10.1029/2012GL053136. Willis, M. J. et al (2012b). Ice loss rates at the Northern Patagonian Ice Field derived using a decade of satellite remote sensing. Remote Sensing of Environment 117, pp. 184–198. Zemp, M. et al (2015). Historically unprecedented global glacier decline in the early 21st century. Journal of Glaciology 61(228), pp. 745-762. doi:10.3189/2015JoG15J017 Zubieta, R. & Lagos, P. (2010). Cambios de la super cie glaciar en la cordillera Huaytapallana: Periodo 1976–2006. Libro Cambioclimático en la cuenca del río Mantaro. Balance de 7 anõs deestudio en la cuenca del Mantaro. Lima, Perú: Instituto Geofísico del Perú. Buytaert, W., & Bièvre, B. D. (2012). Water for cities: the impact of climate change and dempgrahic growth in the tropical Andes. Water Resources Research 48(8), W08503. Buytaert, W. et al (2017) Glacier melt content of water use in the tropical Andes. Environmental Research Letters 12(11) 114014. doi:10.1088/1748- 9326/aa926c Carey, M. et al (2012). An integrated socio-environmental framework for glacier hazard management and climate change adaptation: lessons from Lake 513, Cordillera, Blanca, Peru. Climatic Change 112, pp. 733-767. Carey, M. et al. (2017). Impacts of glacier recession and declining meltwater on mountain societies. Annals of the American Association of Geographers 107 (2), pp. 350-359. Drenkhan, F., Carey, M., Huggel, C. Seidel, J. and Oré, M. T. (2015). The changing water cycle: climatic and socio-economic drivers of water-related changes in the Andes of Peru. WIREs Water 2015. Available at: http:// eclim-research.ch/data/glaciares/Drenkhan2015.pdf Deshielo acelerado de los glaciares

Columbia (4.10.2010), Peruvians Fight for Their Right to Water. By Kate Horner. https://blogs.ei.columbia.edu/2010/10/04/peruvians-fight-for- their-right-to-water/ Doornbos, B. (2009). Medidas Probadas en el Uso y la Gestión del Agua: Una Contribución a la Adaptación al Cambio Climático en los Andes (Tried and Tested Measures for Water Use and Management: A Contribution to Climate Change Adaptation in the Andes). Quito, Ecuador: ASOCAM. Economist (10.2.2000), Water war in Bolivia. https://www.economist.com/ the-americas/2000/02/10/water-war-in-bolivia . Accessed September 2018 IAI (2010) Melting the ice – receding glaciers in the American Cordillera. Inter- American Institute (IAI) For Global Change Research, Comminqué 2. Garreaud, R., et al. (2017). The 2010-2015 mega drought in Central Chile: Impacts on regional hydroclimate and vegetation. Hydrological Earth System Science. Available at: http://www.dgf.uchile.cl/rene/PUBS/hess- 2017-191.pdf Heikkinen, A. (2017). Climate Change in the Peruvian Andes: A case study on small-scale farmers´ vulnerability in the Quilcay River Basin. Iberoamericana Nordic Journal of Latin American and Caribean Studies, 46(1), pp. 77- 88. Hunt, A. and Watkis, P. (2011). Climate change impacts and adaptation in cities: a review of the literature. Climatic change 104, pp. 13-49. Intergovernmental Panel on Climate Change (IPCC), 2007. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. (Parry, M. L., Canziani, O. F., Palutikof, J. P., van der Linden, P. J., Hanson, C. E. Eds.), Cambridge, U.K. Kaenzig, R. (2015). Can glacial retreat lead to migration? A critical discussion on the impact of glacier shrinkage upon population mobility in the Bolivian Andes. Population and Environment 36, pp. 480-496. La Republica (19.12.2016) Proyecto de irrigación Majes Siguas II generaría un nuevo paro indefinido en Espinar. By Elizabeth Prado. https://larepublica. pe/politica/1155829-proyecto-de-irrigacion-majes-siguas-ii-generaria-un- nuevo-paro-indefinido-en-espinar Montaña, E. et al. (2016). “Development, local livelihoods, and vulnerabilities to global environmental change in the South American Dry Andes”. Regional Environmental Change 16, pp.2215-2228. Moench, M., & Stapleton, S. (2007). Water, climate, risk and adaptation (Working Paper 2007-01). Delft, Nederlands: Institute for Social and Environmental Transition (ISET). New Yorker (8.4.2008) Leasing the Rain. By William Finnegan. https://www. newyorker.com/magazine/2002/04/08/leasing-the-rain Perez, S. I. et al. (2017). Domestication and human demographic history in South America. American Journal of Physical Anthropology 163(1), pp. 1-9. doi:10.1002/ajpa.23176 Ragettli, S. et al (2016). Contrasting climate change impact on river ows from high-altitude catchments in the Himalayan and Andes Mountains. Proceedings of the National Academy of Sciences of the United States of America 113, pp. 9222–9227. Rasmussen, P. F. (2016). Assessing the impact of climate change on the frequency of floods in the Red River basin. Canadian Water Resources Journal / Revue canadienne des ressources hydriques, 41(1-2), pp. 331- 342, doi:10.1080/07011784.2015.1025101. Schaner, N. et al (2012). The contribution of glacier melt to streamflow. Environmental Research Letters, 7(3) doi:10.1088/1748-9326/7/3/034029. Soruco, A. et al. (2015). Contribution of glacier runoff to water resources of La Paz city, Bolivia (16° S). Annals of Glaciology 56(70) pp. 147-154. doi:10.3189/2015AoG70A001. Vergara, W. et al (2007). Economic Impacts of Rapid Glacier Retreat in the Andes. EOS, Transactions American Geophysical Union 88(25), pp. 261-264. Young, K. R. & Lipton, J. K. (2006). Adaptive governance and climate change in the tropical highlands of Western South America. Climatic Change 78(1), pp. 63-102. Wolf, A. T. et al (2005). Managing water conflict and cooperation. In State of the World 2005: Redefining Global Security, pp. 80-99. The Worldwatch Institute. Vuille, M. et al (2018) (Invited Review): Rapid decline of snow and ice in the tropical Andes – Impacts, uncertainties and challenges ahead. Earth Sciences Review, 176, pp. 195-213.

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