【半干旱地区土壤水分蒸发的影响因素和变化特征】Zhang Q Wang S Wang SS Zhao YD Wen XM. Influence factors and variation characteristics of water vapor absorption by soil in semi-arid region. SCIENCE CHINA Earth Sciences 59(11) 2240-2251(2016); 10.1007-s11430-015-5531-5
Abstract
The adsorption of water vapor by soil is one of the crucial contributors to non-rainfall water on land surface particularly over semi-arid regions where its contribution can be equivalent to precipitation and can have a major impact on dry agriculture and the ecological environment in these regions. However due to difficulties in the observation of the adsorption of water vapor research in this area is limited. This study focused on establishing a method for estimating the quantitative observation of soil water vapor adsorption (WVA) and exploring the effects of meteorological elements (e.g. wind temperature and humidity) and soil environmental elements (e.g. soil temperature soil moisture and the available energy of soil) on WVA by soil over the semi-arid region Dingxi by combining use of the L-G large-scale weighing lysimeter and meteorological observation. In addition this study also analyzed the diurnal and annual variations of WVA amount frequency and intensity by soil how they changed with weather conditions and the contribution of WVA by soil to the land surface water budget. Results showed that WVA by soil was co-affected by various meteorological and soil environmental elements which were more likely to occur under conditions of relative humidity of 6−50% and the diurnal variation of relative humidity was large inversion humidity wind velocity of 3−4 m-s lower soil water content low surface temperature and slightly unstable atmospheric conditions. There was a negative feedback loop between soil moisture and the adsorption of water vapor and moreover the diurnal and annual variations of WVA amount and frequency were evident—WVA by soil mainly occurred in the afternoon and the annual peak appeared in December and the valley in June with obvious regional characteristics. Furthermore the contribution of WVA by soil to the land surface water budget obviously exceeded that of precipitation in the dry season.
【植物及生态系统对干旱的响应】Megan K. Bartletta12 Tamir Kleinb Steven Jansenc
