Effects of Cloud Vertical Structure on Atmospheric Circulation in the GISS GCM
作者: Junhong Wang , William B. Rossow
DOI: 10.1175/1520-0442(1998)011<3010:EOCVSO>2.0.CO;2
关键词: Atmospheric circulation 、 Radiative cooling 、 Hadley cell 、 Convection 、 Thermodynamic equilibrium 、 Environmental science 、 Atmospheric sciences 、 Circulation (fluid dynamics) 、 Radiative transfer 、 Climatology 、 Transient response
摘要: Abstract Thirteen experiments have been performed using the Goddard Institute for Space Studies General Circulation Model (GISS GCM) to investigate response of large-scale circulation different macroscale cloud vertical structures (CVS). The overall effect clouds, role their geographic variations, and difference between transient equilibrium responses atmospheric are also studied. Clouds act suppress Hadley in response, but intensify it state. Changing CVS affects directly by modifying radiative cooling profile static stability, is opposed, on average, an indirect latent heating produced deep (moist) convection. Different interactions radiation convection with land ocean surfaces mean that this cancellation effects not same at all locations. All three parameters...
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