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Titlebook: Energy and Water Cycles in the Climate System; Ehrhard Raschke,Daniela Jacob Conference proceedings 1993 Springer-Verlag Berlin Heidelberg

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书目名称Energy and Water Cycles in the Climate System
编辑Ehrhard Raschke,Daniela Jacob
视频video
丛书名称Nato ASI Subseries I:
图书封面Titlebook: Energy and Water Cycles in the Climate System;  Ehrhard Raschke,Daniela Jacob Conference proceedings 1993 Springer-Verlag Berlin Heidelberg
描述Water is the most effective agent in the climate system to modulate energy transfer by radiative processes, through its exchanges of latent heat and within cascades of chemical processes. It is the source of all life on earth, and once convective clouds are formed, it enables large vertical transports of momentum, heat and various atmospheric constituents up to levels above the tropical tropopause. Water triggers very complex processes at the earth‘s continental surfaces and within the oceans. At last, water in its gaseous phase is the most important greenhouse-gas! Numerical modelling and measurements of the state of the present climate system needs a very thorough understanding of all these processes and their various interactions and forcings. This is a prerequisite for more substantial forecasts of future states in all scales of time, from days to centuries. Therefore, the management of the World Climate Research Programme established in 1988 the new programme GEWEX (Global Energy and Water Cycle Experiment). GEWEX is specifically defined to determine the energy and water transports in the fast components of the climate system with the presently available modelling and measurem
出版日期Conference proceedings 1993
关键词Atmosphäre; Cloud; Computermodelle; Klima; Wasser; Wolken; atmosphere; climate; clouds; computer models; water
版次1
doihttps://doi.org/10.1007/978-3-642-76957-3
isbn_softcover978-3-642-76959-7
isbn_ebook978-3-642-76957-3Series ISSN 1431-7125
issn_series 1431-7125
copyrightSpringer-Verlag Berlin Heidelberg 1993
The information of publication is updating

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Radiation-Cloud-Climate Interaction,hall discuss in this paper preferably those which are based on the complex interplay between clouds and the ambient fields of electromagnetic radiation in the short- and longwave regions of the spectrum. They obtain high attention in present climate research, since several numerical sensitivity stud
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Observation and Analysis of Global Rainfall,rainfall are obvious comparing tropical rain forest and desert areas. The latter also can change drastically after a short rain event, vegetation grows immediately, that means the potential for a vegetation cover exists, but cannot be used due to lack of water. Over the oceans, precipitation is the
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Modelling of Oceans Circulation, large heat capacity (2.5 m of ocean water has the same heat capacity than the total atmospheric column above it) and its weight (the density of ocean water is 1.02 · 10. . . as the air density is 1.2 . .). The sea water has a temperature range within -1.90 to 32 ° . for a salinity of open sea varyi
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