Author
Marks, Daniel | |
Winstral, Adam | |
Van Vactor, Steve | |
Robertson, David | |
DAVIS, R - USACE CRREL |
Submitted to: Book Chapter
Publication Type: Book / Chapter Publication Acceptance Date: 4/24/2000 Publication Date: 4/20/2001 Citation: Marks, Daniel G., Winstral, Adam H., Van Vactor, Steven S., Robertson, David C., Davis R.E., Topographic and Canopy Controls on Snow Deposition, Snow-Cover Energy Balance and Snowmelt, International Assoc. of Hydrological Sciences, Book Chapter Title - Remote Sensing Hydrology 2000, pp. 129-135, 2001. Interpretive Summary: Significant differences in snow disposition, development of the seasonal snowcover, and the timing of melt occur between two experimental sites located in a head-water sub-drainage of the Reynolds Creek Experimental (RCEW) in the Owyhee Mountains of southwestern Idaho. Snow, climate, and stream discharge data were used to drive a point snow-cover energy and mass balance model, SNOBAL, to evaluate these differences for three water years: 1984, the largest discharge year on record (204 percent of average), 1992, the smallest discharge year on record (36 percent of average), and 1999(140 percent of average). The simulations showed that wind is the most important cause of the snowcover differences between the sites. Though differences do occur in the snowcover energy balance, these are primarily because reduced precipitation causes melt-out to occur earlier at site 176. This analysis shows the importance of understanding and accounting for variable patterns of snow deposition and redistribution of snow in semi-arid regions. Technical Abstract: Significant differences in snow disposition, development of the seasonal snowcover, and the timing of melt occur between two experimental sites located in a head-water sub-drainage of the Reynolds Creek Experimental (RCEW) in the Owyhee Mountains of southwestern Idaho. Snow, climate, and stream discharge data were used to drive a point snow-cover energy and mass balance model, SNOBAL, to evaluate these differences for three water years: 1984, the largest discharge year on record (204 percent of average), 1992, the smallest discharge year on record (36 percent of average), and 1999(140 percent of average). The simulations showed that wind is the most important cause of the snowcover differences between the sites. Though differences do occur in the snowcover energy balance, these are primarily because reduced precipitation causes melt-out to occur earlier at site 176. This analysis shows the importance of understanding and accounting for variable patterns of snow deposition and redistribution of snow in semi-arid regions. |