摘要
为探讨半干旱区流动沙丘土壤水分对降雨的响应,采用AV-3665R型雨量传感器、ECH2O-5土壤水分传感器同步监测毛乌素沙地东北缘流动沙丘2013年降雨及0~200cm深度土壤体积含水量动态,分析土壤水分含量变化特征、降雨入渗特征及降雨对土壤水的补给作用。结果表明:5—11月累积降雨399.4mm,显著(p【0.01)影响0~200cm深度土壤水分含量;且0~200cm深度土壤体积含水量较低(6.49%±1.12%)时53.8mm降雨、较高(10.22%±1.96%)时24.2mm降雨湿润锋能够到达200cm;试验期间399.4mm累积降雨对土壤水有一定补给作用,其中45.7±14.1mm降雨蓄存在0~200cm深度土壤中,占同期降雨的(11.4%±3.5%,且随着时间的延长,蓄存水大部分将渗漏到200cm以下补给深层土壤水。
To investigate soil water content to response time for rainfall in the semi-arid area of the mobile dunes.The AV-3665R-type rain sensor and ECH2O-5soil moisture sensor to quantitative monitor precipitation,soil water for 0-200 cm deep in the mobile dune of the Mu Us Sandy Land northeastern margin in2013.Analysis of soil moisture variations,infiltration of rainfall and soil water recharges characteristics for rainfall.The results showed that cumulative rainfall 399.4 mm was significantly(p<0.01)affect 0-200 cm soil moisture in the mobile dune when lower average moisture of 0-200 cm(6.49%±1.12%),53.8mm rainfall was able to infiltration into the 200 cm soil,when higher average moisture of 0-200 cm(10.22%±1.96%),this value was 24.2 mm.Cumulative rainfall 399.4 mm have recharge the following soil moisture of 200 cm during the test,which45.7±14.1 mm moisture accumulated in the soil,account for11.4%±3.5% of the rainfall,and with the time increasing most of the soil accumulate water will leak into200 cm and then recharge deep soil water.
出处
《中国沙漠》
CSCD
北大核心
2015年第2期400-406,共7页
Journal of Desert Research
基金
国家重点基础研究发展计划项目(2013CB429901)
国家自然科学基金项目(31170667)
国家科技支撑计划项目(2012BAD16B0104)
关键词
毛乌素沙地
流动沙丘
土壤体积含水量
降雨
湿润峰
Mu Us Sandy Land
mobile dunes
soil volume water content
rainfall
wetting front
