期刊
VADOSE ZONE JOURNAL
卷 8, 期 4, 页码 1013-1030出版社
SOIL SCI SOC AMER
DOI: 10.2136/vzj2008.0183
关键词
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资金
- USDA-CSREES SRGP Award [2005-34552-15828]
- NSF-Idaho EPSCoR
- National Science Foundation [EPS-0447689]
The ability to quantify sail-atmosphere water and energy exchange Is Important in understanding agricultural and natural ecosystems, as well as the earth's climate. We developed a one-dimensional vertical model that calculates solar radiation, canopy energy balance, surface energy balance, snowpack dynamics, soil water flow, and snow-soil-bedrock heat exchange, Including soil water freezing. The processes are loosely coupled (solved sequentially) to limit the computational burden. The model was applied to describe water and energy dynamics for a northeast-facing mountain slope In the Dry Creek Experimental Watershed near Bolse, ID. Calibration was achieved by optimizing the saturated soil hydraulic conductivity. Validation results showed that the model can successfully calculate seasonal dynamics in snow height, soil water content, and soil temperature. Both the calibration and validation years confirmed earlier results that evapotranspiration on the northeast-facing slope consumes approximately 60% of yearly precipitation, while deep percolation from the soil profile constitutes about 40% of yearly precipitation.
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