地球大气中的水

M. Quante, V. Matthias
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引用次数: 22

摘要

水是我们在这个星球上生存的关键,它几乎参与了所有的生物、地质和化学过程。地球上的生命在很大程度上依赖于水的非凡特性。淡水的供应对许多地区来说是与全球气候变化有关的主要问题之一。大气中只含有地球上可用水的0.001%。尽管数量很少,但它的水平和垂直分布在全球水循环和地球气候中起着关键作用。大气与大多数其他水库有直接联系,并以平均10天左右的周转时间在它们之间重新分配水。海洋上的蒸发量超过降水,而陆地上的蒸发量仅占到达地面降水的2/3。因此,从海洋到大陆的净通量当然是通过大气,而大气的通量总量最大。水在大气中以固体、液体或气体的形式存在。水蒸气是大气中最重要的温室气体,此外,水相和云辐射相互作用的变化对全球能量循环有重要贡献。水也是其他生物地球化学循环的物理和化学组成部分。虽然近年来已经有了很大的努力和改进,但在量化大气水循环成分方面仍然存在不确定性。目前,全球尺度的观测能力还不能令人满意,但用于全球观测降水和云系统的新卫星的出现以及专门的模拟项目肯定会改善这种情况。迫切需要取得进展,以充分回答全球变暖背景下的一个核心问题:“水文循环是否在加速?”
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Water in the Earth's atmosphere
Water is the key to our existence on this planet and it is involved in nearly all biological, geological, and chemical processes. Life on Earth depends very much on the remarkable properties of water. The availability of freshwater is for many regions one of the key concerns in connection with global climate change. The atmosphere contains only about 0.001% of the water available on our planet. Despite this small amount its horizontal and vertical distribution plays a key role in the global water cycle and the Earth's climate. The atmosphere has direct connections to most of the other reservoirs and steers the redistribution of water between them with an average turnover time of about 10 days. Evaporation over the oceans exceeds precipitation and over land evapotranspiration amounts only to 2/3 of the precipitation reaching the ground. Consequently, there is a net flux of water from the oceans towards the continents, of course via the atmosphere, which has the largest overall volume of fluxes. Water is present in the atmosphere as solid, liquid, or gas. Water vapour is the most important greenhouse gas in the atmosphere and, in addition, changes of water phase and cloud-radiation interaction contribute strongly to the global energy cycle. Water is also a physically and chemically integral part of other biogeochemical cycles. Although there have been large efforts and improvements in recent years, uncertainties in quantifying the components of the atmospheric water cycle still exist. Observational capabilities on the global scale are not satisfactory at present, but the advent of new satellites devoted to the global observation of precipitation and cloud systems along with dedicated modelling projects certainly will improve the situation. Progress is urgently needed to adequately contribute to the answer of one of the central questions in the context of global warming: Is the hydrological cycle accelerating'?
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