Skip to main content Accessibility help
  • Get access
    Check if you have access via personal or institutional login
  • Cited by 7
  • Print publication year: 2015
  • Online publication date: September 2015

11 - Glaciers as water resources

from Part II - Processes
1.Carey, M, Baraer, M, Mark, BG et al., Toward hydro-social modeling: merging human variables and the social sciences with climate-glacier runoff models (Santa River, Peru). Journal of Hydrology, 518(A) (2014), 6070.
2.Viviroli, D, Dürr, HH, Messerli, B, Meybeck, M, Weingartner, R, Mountains of the world, water towers for humanity: typology, mapping, and global significance. Water Resources Research, 43:7 (2007), W07447. 10.1029/2006WR005653.
3.Baraer, M, Mark, BG, McKenzie, JM, et al., Glacier recession and water resources in Peru's Cordillera Blanca. Journal of Glaciology, 58:207 (2012), 134150. 10.3189/2012JoG11J186.
4.Vuille, M, Francou, B, Wagnon, P, et al., Climate change and tropical Andean glaciers: past, present and future. Earth-Science Reviews, 89:3–4 (2008), 7996. 10.1016/j.earscirev.2008.04.002.
5.Pellicciotti, F, Ragettli, S, Carenzo, M, McPhee, J, Changes of glaciers in the Andes of Chile and priorities for future work. Science of the Total Environment, 493: (2013), 11971210.
6.Ruiz, D, Moreno, HA, Gutiérrez, ME, Zapata, PA, Changing climate and endangered high mountain ecosystems in Colombia. Science of the Total Environment, 398:1 (2008), 122132.
7.Chevallier, P, Pouyaud, B, Suarez, W, Condom, T, Climate change threats to environment in the tropical Andes: glaciers and water resources. Regional Environmental Change, 11 (2011), S179S187. 10.1007/s10113-010-0177-6.
8.Buytaert, W, De Bievre, B, Water for cities: the impact of climate change and demographic growth in the tropical Andes. Water Resources Research, 48 (2012). 10.1029/2011wr011755.
9.Masiokas, MH, Villalba, R, Luckman, BH, Le Quesne, C, Aravena, JC, Snowpack variations in the central Andes of Argentina and Chile, 1951–2005: large-scale atmospheric influences and implications for water resources in the region. Journal of Climate, 19:24 (2006), 63346352.
10.Garreaud, R, The Andes climate and weather. Advances in Geosciences, 22:22 (2009), 311.
11.Vicuña, S, Garreaud, RD, McPhee, J, Climate change impacts on the hydrology of a snowmelt driven basin in semiarid Chile. Climatic Change, 105:3–4 (2011), 469488.
12.Gascoin, S, Kinnard, C, Ponce, R, Macdonell, S, Lhermitte, S, Rabatel, A, Glacier contribution to streamflow in two headwaters of the Huasco River, Dry Andes of Chile. The Cryosphere, 5 (2011), 10991113.
13.Favier, V, Falvey, M, Rabatel, A, Praderio, E, Lopez, D, Interpreting discrepancies between discharge and precipitation in high-altitude area of Chile's Norte Chico region (26–32 degrees S). Water Resources Research, 45 (2009). 10.1029/2008wr006802.
14.Ohlanders, N, Rodriguez, M, McPhee, J, Stable water isotope variation in a Central Andean watershed dominated by glacier and snowmelt. Hydrology and Earth System Sciences, 17:3 (2013), 10351050. 10.5194/hess-17-1035-2013.
15.Bury, J, Mark, BG, Carey, M, et al., New geographies of water and climate change in Peru: coupled natural and social transformations in the Santa River Watershed. Annals of the Association of American Geographers, 103:2 (2013), 363374. 10.1080/00045608.2013.754665.
16.FOEN, Effects of Climate Change on Water Resources and Waters: Synthesis Report on the “Climate Change and Hydrology in Switzerland” (FOEN, 2012).
17.BUWAL, BWG, MeteoSchweiz, Auswirkungen des Hitzesommers 2003 auf die Gewässer (Schriften reihe Umwelt, 2004).
18.Köplin, N, Rößler, O, Schädler, B, Weingartner, R, Robust estimates of climate-induced hydrological change in a temperate mountainous region. Climatic Change, 122 (2013), 171184. 10.1007/s10584-013-1015-x.
19.Weingartner, R, Schädler, B, Hänggi, P, Climate change versus Swiss hydro: what happens next? International Water Power & Dam Construction, 64:4 (2012), 3842.
20.Reynard, E, Bonriposi, M, Graefe, O, et al., Interdisciplinary assessment of complex regional water systems and their future evolution: how socioeconomic drivers can matter more than climate. Wiley's Interdisciplinary Reviews: Water, 1:4(2014), 413426. 10.1002/wat2.1032.
21.Fuhrer, J, Beniston, M, Fischlin, A, et al., Climate risks and their impact on agriculture and forests in Switzerland. In Climate Variability, Predictability and Climate Risks, ed. Wanner, H, Grosjean, M, Rothlisberger, R, Xoplaki, E (Springer, 2006), pp. 79102.
22.Immerzeel, WW, van Beek, LP, Bierkens, MF, Climate change will affect the Asian water towers. Science, 328:5984 (2010), 13821385.
23.Bolch, T, Kulkarni, A, Kääb, A, et al., The state and fate of Himalayan glaciers. Science, 336:6079 (2012), 310314. 10.1126/science.1215828.
24.Immerzeel, W, Petersen, L, Ragettli, S, Pellicciotti, F, The importance of observed gradients of air temperature and precipitation for modeling runoff from a glacierized watershed in the Nepalese Himalayas. Water Resources Research, 50:3(2014), 22122226.
25.Lutz, A, Immerzeel, WW, Shrestha, AB, Bierkens, MF, Increase in High Asia's future runoff confirmed at the large scale. Geophysical Research Letters (in prep).
26.Radić, V, Bliss, A, Beedlow, A, Hock, R, Miles, E, Cogley, J, Regional and global projections of 21st century glacier mass changes in response to climate scenarios from global climate models. Climate Dynamics, (2013). doi: 10.1007/s00382-013-1719-7.
27.Immerzeel, W, Pellicciotti, F, Bierkens, M, Rising river flows throughout the twenty-first century in two Himalayan glacierized watersheds. Nature Geoscience, 6:9 (2013), 742745.
28.Fountain, A, Hoffman, M, Jackson, K, Basagic, H, Nylen, T, Percy, D, Digital outlines and topography of the glaciers of the American West, U.S. Geological Survey Open-File Report, (2007).
29.Moore, RD, Fleming, SW, Menounos, B, et al., Glacier change in western North America: influences on hydrology, geomorphic hazards and water quality. Hydrological Processes, 23:1 (2009), 4261. 10.1002/hyp.7162.
30.Fleming, SW, Comparative analysis of glacial and nival streamflow regimes with implications for lotic habitat quantity and fish species richness. River Research and Applications, 21:4 (2005), 363379.
31.Moore, R, Nelitz, M, Parkinson, E, Empirical modelling of maximum weekly average stream temperature in British Columbia, Canada, to support assessment of fish habitat suitability. Canadian Water Resources Journal, 38 (2013), 135147. 10.1080/07011784.2013.794992.
32.Stahl, K, Moore, R, Influence of watershed glacier coverage on summer streamflow in British Columbia, Canada. Water Resources Research, 42:6 (2006). 10.1029/2006WR005022
33.Hopkinson, C, Young, GJ, The effect of glacier wastage on the flow of the Bow River at Banff, Alberta, 1951–1993. Hydrological Processes, 12:10-11 (1998), 17451762.
34.Comeau, LE, Pietroniro, A, Demuth, MN, Glacier contribution to the North and South Saskatchewan rivers. Hydrological Processes, 23:18 (2009), 26402653.
35.Nolin, AW, Phillippe, J, Jefferson, A, Lewis, SL, Present-day and future contributions of glacier runoff to summertime flows in a Pacific Northwest watershed: implications for water resources. Water Resources Research, 46 (2010). 10.1029/2009wr008968.
36.Jost, G, Moore, R, Menounos, B, Wheate, R, Quantifying the contribution of glacier runoff to streamflow in the upper Columbia River Basin, Canada. Hydrology and Earth System Sciences, 16:3 (2012), 849860.
37.Naz, B, Frans, C, Clarke, G, Burns, P, Lettenmaier, D, Modeling the effect of glacier recession on streamflow response using a coupled glacio-hydrological model. Hydrology and Earth System Sciences, 18 (2014), 787802. 10.5194/hess-18-787-2014.
38.Barrand, N, Sharp, M, Sustained rapid shrinkage of Yukon glaciers since the 1957–1958 International Geophysical Year. Geophysical Research Letters, 37:7 (2010), L07501.
39.Berthier, E, Schiefer, E, Clarke, GK, Menounos, B, Rémy, F, Contribution of Alaskan glaciers to sea-level rise derived from satellite imagery. Nature Geoscience, 3:2 (2010), 9295.
40.Bolch, T, Menounos, B, Wheate, R, Landsat-based inventory of glaciers in western Canada, 1985–2005. Remote Sensing of Environment, 114:1 (2010), 127137.
41.Moore, RD, Fleming, SW, Menounos, B, et al., Glacier change in western North America: influences on hydrology, geomorphic hazards and water quality. Hydrological Processes, 23 (2009). 10.1002/hyp.7162.
42.Demuth, M, Pinard, V, Pietroniro, A, et al., Recent and past-century variations in the glacier resources of the Canadian Rocky Mountains: Nelson River system. Terra Glacialis, 11:248 (2008), 2752.
43.Pelto, M, Skykomish River, Washington: impact of ongoing glacier retreat on streamflow. Hydrological Processes, 25:21 (2011), 33563363.
44.Déry, SJ, Stahl, K, Moore, R, Whitfield, P, Menounos, B, Burford, JE, Detection of runoff timing changes in pluvial, nival, and glacial rivers of western Canada. Water Resources Research, 45:4 (2009).
45.Brabets, TP, Walvoord, MA, Trends in streamflow in the Yukon River Basin from 1944 to 2005 and the influence of the Pacific Decadal Oscillation. Journal of Hydrology, 371:1 (2009), 108119.
46.Stahl, K, Moore, R, Shea, J, Hutchinson, D, Cannon, A, Coupled modelling of glacier and streamflow response to future climate scenarios. Water Resources Research, 44:2 (2008), W02422.
47.Marshall, SJ, White, EC, Demuth, MN, et al., Glacier water resources on the eastern slopes of the Canadian Rocky Mountains. Canadian Water Resources Journal, 36:2 (2011), 109134.