The hydrologic cycle of an arctic watershed is dominated by such physical elements as snow, ice, permafrost, seasonally frozen soils, wide fluctuations in surface energy balance, and phase change of snow and ice to water. Hydrologic data collected over a 5-year period (1985-1989) from an arctic watershed in northern Alaska are presented. Processes related to snow accumulation, redistribution, ablation, evaporation and subsequent snowmelt-generated runoff are discussed. The total water content of the snowpack at the end of winter has comprised between 28 and 40% of the annual precipitation. Redistribution of snow on the ground by the wind is a major factor in increasing the snowmelt runoff. Much of the redistributed snow accumulates in the valley bottom along the stream and also along depressions on the hillslopes. These depressions are small surface drainage channels that are referred to as water tracks. Partitioning of the snowmelt into runoff, evaporation and increased soil water storage in the active layer was carried out on the plot and watershed scale. Over a 5-year period, the volume of snowmelt runoff varied from 50 to 66% of the average watershed snowpack, while evaporation varied from 20 to 34% and soil moisture storage increased between 10 and 19%. Much greater variation in these hydrologic components occurred at the plot scale.
Plotstream and subsequent slush flows follow as a channel is carved finally to the headwaters of the basin. Woo and 1974. Lewkowicz, A. G., and H. M. French, The hydrology of small runoff plots in an area of continuous permafrost, Banks Island, in Proceedings Fourth Canadian Permafrost Conference, Calgary, Alberta, edited by H. M. French, pp. 153-162, National Research Council of Canada, Ottawa, Ontario, 1982. Liston, G. E., Seasonal snow cover of the foothills region of Alaska's Arctic Slope: A survey of properties and processes, M.S. thesis, Univ. of Alaska, Fairbanks, 1986. Marsh, P., and M. K. Woo, Annual water balance of small high Arctic basins, in Canadian Hydrology Symposium: 79, Proceedings, Vancouver, British Columbia, Associate Committee on Hydrology, pp. 536-546, National Research Council of Canada, Ottawa, Ontario, 1979. Ohmura, A., Evaporation from the surface of the Arctic tundra on Axel Heiberg Island, Water Resour. Res., 18, 291-300, 1982. Osterkamp, T. E., and M. W. Payne, Estimates of permafrost thickness from well logs in northern Alaska, Cold Reg. Sci. Technol., 5, 13-27, 1981. Rouse, W. R., Microclimate at Arctic tree line, 3, The effects of regional advection on the surface energy balance of upland tundra, Water Resour. Res., 20, 74-78, 1984. Santeford, H. S., Snow soil interactions in Interior Alaska, in Modeling of Snow Cover Runoff, edited by S. Colbeck and M. Ray, pp. 311-318, U.S. Army Cold Regions Research and Engineering Laboratory, Hanover, N.H., 1978.
