并引入GLDAS系统提供的两个全球水文模型VIC模型和CLM模型的全球水文数据作为参照,对GRACE估算水储量变化进行了验证。
Two global hydrological models VIC model and CLM model from GLDAS system are introduced as a reference, to verify the GRACE estimates of water storage changes.
越来越多的证据显示,全球暖化已经使水文循环加速,换言之,降雨、落雪、再蒸发的速度越来越快。
There is growing evidence that global warming is speeding up the hydrologic cycle-that is, the rate at which water evaporates and falls again as rain or snow.
盐湖和其他干旱水文因素是全球范围内最普通的沙尘暴源。
Salt pans and other dry water features are among the most common sources of dust in the world.
氚(3H)与其它全球散落放射性产物的不同之处,在于它与水文循环密切关联。
The differences between Tritium (3h) and other global falloff radioactive products lie in its close relation to hydrologic cycle.
土壤水分在全球水资源中所占的比列很小,存储在土壤空隙中的水分仅占全球水资源0.005%,但它是水文模型和气候模型的重要边界条件。
Although soil moisture constitutes only about 0.005 % of the global water resources, it's important as a boundary condition for hydrologic and climate models.
地球大气中的水汽在全球气候系统、天气动力系统、大气环境科学、水文学以及空间大地测量等方面占有非常重要的地位。
Water vapor in earth's atmosphere plays a crucial role for climate, dynamics of weather system, atmosphere environment, hydrology and space geodesy.
地球大气中的水汽在全球气候系统、天气动力系统、大气环境科学、水文学以及空间大地测量等方面占有非常重要的地位。
Water vapor in earth's atmosphere plays a crucial role for climate, dynamics of weather system, atmosphere environment, hydrology and space geodesy.
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