甘肃祁连山西水林区草地土壤水势变化特征研究

Study on the Variation Characteristics of Grassland Vegetation Soil Water Potential in Xishui Forest Area of Qilian Mountains, Gansu

  • 摘要: 以祁连山西水林区草地为研究对象,利用土壤水势测定仪对其不同土层土壤水势进行了野外定位监测,并统计分析了草地在4—10月份土壤水势的时空变化规律和对大气降水的响应。结果表明:因降水量的增加和季节冻土的消融,草地不同土层土壤水势在4—7月份波动增加;由于降水量的减少,加上土壤蒸发和植物蒸腾作用的加强,8—9月份,10 cm土层的在8月份达到了最低值,其他土层在9月份达到了最低值;随气温下降,蒸发量减少,植被生长结束,10月份不同土层土壤水势又上升。草地土壤剖面水势拐点出现在30 cm处,在0~30 cm深度表现为增加,水势值增加了53.43 kPa,在30~60 cm深度表现为减小,水势值减小了32.73 kPa,草地土壤水蒸散发消耗发生在30 cm以下土层。大气降水明显影响草地土壤水势值,当降水量事件为小雨时,其土壤水势在0 kPa附近波动,其后随降水量的增加,土壤水势亦呈不断增加的变化趋势。研究结果可为准确认识祁连山草地土壤水势变化特征和合理保护草地植被生态环境提供参考。

     

    Abstract: This study taking the grassland in the western water forest area of Qilian Mountains as the research object, the soil water potential of different soil layers was monitored in the field by using the soil water potential meter, and the temporal and spatial variation rule of the soil water potential and its response to atmospheric precipitation in April–October were statistically analyzed. The results show that due to the increase of precipitation and the thaw of seasonal permafrost, the fluctuation of soil water potential of grassland in different soil layers increased from April to July; due to the decrease of precipitation and the enhancement of soil evaporation and plant transpiration, the 10 cm soil layer reached the lowest value in August, while the other soil layers reached the lowest value in September; as the temperature drops, evaporation decreases, vegetation growth ends, and soil water potential of different soil layers rises again in October. The water potential inflection point in the grassland soil profile appeared at the depth of 30 cm, which showed an increase at the depth of 0–30 cm, an increase of 53.43 kPa, and a decrease at the depth of 30–60 cm, the water potential value decreased by 32.73 kPa. The evapotranspiration of grassland soil water occurred in the soil layer below 30 cm. Atmospheric precipitation significantly affects the soil water potential value of grassland. When the precipitation event is light rain, the soil water potential fluctuates around 0 kPa. Subsequently, with the increase of precipitation, the soil water potential also shows an increasing trend. The results can provide reference for understanding the characteristics of soil water potential change and protecting the ecological environment of grassland vegetation in Qilian Mountains.

     

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