Soil frost effects on soil water and runoff dynamics along a boreal transect: 2. Simulations期刊界 All Journals 搜尽天下杂志传播学术成果专业期刊搜索期刊信息化学术搜索

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Soil frost effects on soil water and runoff dynamics along a boreal transect: 2. Simulations

Authors:	Manfred Sthli Lars Nyberg Per‐Erik Mellander Per‐Erik Jansson Kevin H Bishop

Institution:	Manfred Stähli,Lars Nyberg,Per‐Erik Mellander,Per‐Erik Jansson,Kevin H. Bishop

Abstract:	A physically based SVAT‐model was tested with soil and snow physical measurements, as well as runoff data from an 8600 m² catchment in northern Sweden in order to quantify the influence of soil frost on spring snowmelt runoff in a moderately sloped, boreal forest. The model was run as an array of connected profiles cascading to the brook. For three winter seasons (1995–98) it was able to predict the onset and total accumulation of the runoff with satisfactory accuracy. Surface runoff was identified as only a minor fraction of the total runoff occurring during short periods in connection with ice blocking of the water‐conducting pores. Little surface runoff, though, does not mean that soil frost is unimportant for spring runoff. Simulations without frost routines systematically underestimated the total accumulated runoff. The possibility of major frost effects appearing in response to specific combinations of weather conditions were also tested. Different scenarios of critical initial conditions for the winter, e.g. high water saturation and delayed snow accumulation leading to an increased frost penetration, were tested. These showed that under special circumstances there is potential for increased spring runoff due to soil frost. Copyright © 2001 John Wiley & Sons, Ltd.

Keywords:	soil frost boreal forest snowmelt runoff SVAT‐model

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