Abstract
Abstract. Observations of high-elevation meteorological conditions, glacier mass balance, and glacier run-off are sparse in western Canada and the Canadian Rocky Mountains, leading to uncertainty about the importance of glaciers to regional water resources. This needs to be quantified so that the impacts of ongoing glacier recession can be evaluated with respect to alpine ecology, hydroelectric operations, and water resource management. In this manuscript the seasonal evolution of glacier run-off is assessed for an alpine watershed on the continental divide in the Canadian Rocky Mountains. The study area is a headwaters catchment of the Bow River, which flows eastward to provide an important supply of water to the Canadian prairies. Meteorological, snowpack, and surface energy balance data collected at Haig Glacier from 2002 to 2013 were analysed to evaluate glacier mass balance and run-off. Annual specific discharge from snow- and ice-melt on Haig Glacier averaged 2350 mm water equivalent from 2002 to 2013, with 42% of the run-off derived from melting of glacier ice and firn, i.e. water stored in the glacier reservoir. This is an order of magnitude greater than the annual specific discharge from non-glacierized parts of the Bow River basin. From 2002 to 2013, meltwater derived from the glacier storage was equivalent to 5–6% of the flow of the Bow River in Calgary in late summer and 2–3% of annual discharge. The basin is typical of most glacier-fed mountain rivers, where the modest and declining extent of glacierized area in the catchment limits the glacier contribution to annual run-off.
Highlights
Meltwater run-off from glacierized catchments is an interesting and poorly understood water resource
This study focuses on summer melt modelling at Haig Glacier, with the winter snowpack taken as an “input” or initial condition
By late May the snowpack has ripened to the melting point, there is liquid water in FFAWS mb02 mb10 GAWS French Pass Glacier (Bw)
Summary
Meltwater run-off from glacierized catchments is an interesting and poorly understood water resource. Fountain and Tangborn, 1985) This is significant in warm, dry years (i.e. drought conditions) when ice melt from glaciers provides the main source of surface run-off once seasonal snow is depleted In the Rio Santo watershed of the Cordillera Blanca, Peru, Mark and Seltzer (2003) estimate glacier contributions of up to 20 % of the annual discharge, exceeding 40 % during the dry season. Based on historical streamflow analyses and hydrological modelling in the Cordillera Blanca, Baraer et al (2012) report even larger glacier contributions in highly glacierized watersheds: up to 30 and 60 % of annual and dryseason flows respectively. In the Canadian Rocky Mountains, hydrological modelling indicates glacier meltwater contributions of up to 80 % of July to September (JAS) flows, depending on the extent of glacier cover in a basin (Comeau et al, 2009)
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