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Snow cover controls seasonally frozen ground regime on the southern edge of Altai Mountains
Agricultural and Forest Meteorology ( IF 5.6 ) Pub Date : 2021-02-01 , DOI: 10.1016/j.agrformet.2020.108271 Wei Zhang , Yongping Shen , Xiaoming Wang , Shichang Kang , An'an Chen , Weiyi Mao , Xinyue Zhong
Agricultural and Forest Meteorology ( IF 5.6 ) Pub Date : 2021-02-01 , DOI: 10.1016/j.agrformet.2020.108271 Wei Zhang , Yongping Shen , Xiaoming Wang , Shichang Kang , An'an Chen , Weiyi Mao , Xinyue Zhong
Abstract Snow cover and seasonally frozen ground (SFG) are the key cryospheric elements on the southern edge of Altai Mountains (SEAM). Quantifying the thermal effect of snow cover on the frozen ground remains challenging. Utilizing the datasets observed at Altai Kuwei Snow Station (AKSS) and by National Meteorological Stations of China Meteorological Administration (CMA), we evaluated the thermal effect of snow cover on SFG regime. The results observed by AKSS indicated that the energy exchange between the ground and atmosphere was significantly insulated by snow cover, resulting in a considerable temperature offset between the snow surface and the ground below. This offset reached a maximum of 12.8°C for a snow depth of 50 cm, but decreased for snowpack depths of >70 cm, whereas the snow temperature lapse rate was systematically steeper in the upper snowpack than at depth. Snow cover was the dominating driver of inter-annual differences in the SFG regime, as represented by the annual maximum freezing depth and soil heat flux. The observed average soil heat loss rate increased from 2.68 to 5.86 W/m2 on two occasions when the average snow depth decreased from 61.2 cm to 13.7 cm, resulting in an increase in maximum freezing depth of SFG from 69 cm to >250 cm soil depth. The results observed by CMA also demonstrate how snow cover controlled the SFG regime by warming the ground and inhibiting freezing of the soil column. Snow cover caused a 44.5-cm decline of annual maximum freezing depth during 1961-2015 period. SFG degradation between 1961 and 2015 was accompanied by increases in both air temperature and snow cover, with the former playing the dominant role. The correlation between snow cover and the ground–atmosphere temperature offset provides a new empirical method of evaluating the effective thermal effect of snow cover on SFG.
更新日期:2021-02-01
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