The Cryosphere Discuss., 6, 4455-4483, 2012
www.the-cryosphere-discuss.net/6/4455/2012/
doi:10.5194/tcd-6-4455-2012
© Author(s) 2012. This work is distributed
under the Creative Commons Attribution 3.0 License.
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This discussion paper has been under review for the journal The Cryosphere (TC). Please refer to the corresponding final paper in TC.
Recent changes in spring snowmelt timing in the Yukon River Basin detected by passive microwave satellite data
K. A. Semmens and J. M. Ramage
Earth and Environmental Sciences Department, Lehigh University, Bethlehem, Pennsylvania, USA

Abstract. Spring melt is a significant feature of high latitude snowmelt dominated drainage basins influencing hydrological and ecological processes such as snowmelt runoff and green-up. Melt duration, defined as the transition period from snowmelt onset until the end of the melt-refreeze, is characterized by high diurnal amplitude variations (DAV) where the snowpack is melting during the day and refreezing at night, after which the snowpack melts constantly until depletion. Determining trends for this critical period is necessary for understanding how the Arctic is changing with rising temperatures and provides a baseline from which to assess future change. To study this dynamic period, brightness temperature (Tb) data from the Special Sensor Microwave Imager (SSM/I) 37 V-GHz frequency from 1988 to 2010 were used to assess snowmelt timing trends for the Yukon River Basin, Alaska/Canada. Annual Tb and DAV for 1434 Equal-Area Scalable Earth (EASE)-Grid pixels (25 km resolution) were processed to determine melt onset and melt-refreeze dates from Tb and DAV thresholds previously established in the region. Temporal and spatial trends in the timing of melt onset and melt-refreeze, and the duration of melt were analyzed for the 13 sub-basins of the Yukon River Basin with three different time interval approaches. Results show a lengthening of the melt period for the majority of the sub-basins with a significant trend toward later end of melt-refreeze after which the snowpack melts day and night leading to snow clearance, peak discharge, and green-up. Earlier melt onset trends were also found in the higher elevations and northernmost sub-basins (Porcupine, Chandalar, and Koyukuk Rivers). Latitude and elevation displayed the dominant controls on melt timing variability and spring solar flux was highly correlated with melt timing in middle (~600–1600 m) elevations.

Citation: Semmens, K. A. and Ramage, J. M.: Recent changes in spring snowmelt timing in the Yukon River Basin detected by passive microwave satellite data, The Cryosphere Discuss., 6, 4455-4483, doi:10.5194/tcd-6-4455-2012, 2012.
 
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