INTERCOMPARISON AND INTERPRETATION OF SURFACE-ENERGY FLUXES IN ATMOSPHERIC GENERAL-CIRCULATION MODELS

被引：87

作者：

RANDALL, DA

CESS, RD

BLANCHET, JP

BOER, GJ

DAZLICH, DA

DELGENIO, AD

DEQUE, M

DYMNIKOV, V

GALIN, V

GHAN, SJ

LACIS, AA

LETREUT, H

LI, ZX

LIANG, XZ

MCAVANEY, BJ

MELESHKO, VP

MITCHELL, JFB

MORCRETTE, JJ

POTTER, GL

RIKUS, L

ROECKNER, E

ROYER, JF

SCHLESE, U

SHEININ, DA

SLINGO, J

SOKOLOV, AP

TAYLOR, KE

WASHINGTON, WM

WETHERALD, RT

YAGAI, I

ZHANG, MH

机构：

[1] DEPT ENVIRONM, CANADIAN CLIMATE CTR, ATMOSPHER ENVIRONM SERV, 4905 DUFFERIN ST, TORONTO M3H 5T4, ONTARIO, CANADA

[2] COLORADO STATE UNIV, DEPT ATMOSPHER SCI, FT COLLINS, CO 80523 USA

[3] SUNY STONY BROOK, INST TERR & PLANETARY ATMOSPHERES, STONY BROOK, NY 11794 USA

[4] NASA, GODDARD INST SPACE STUDIES, NEW YORK, NY 10025 USA

[5] CTR NATL RECH METEOROL, DIRECT METEOROL, TOULOUSE, FRANCE

[6] ACAD SCI USSR, DEPT NUMER MATH, MOSCOW V-71, USSR

[7] UNIV CALIF LAWRENCE LIVERMORE NATL LAB, PROGRAM CLIMATE MODEL DIAG & INTERCOMPARISON, LIVERMORE, CA 94550 USA

[8] LAB METEOROL DYNAM, PARIS, FRANCE

[9] SUNY STONY BROOK, DEPT MECH ENGN, STONY BROOK, NY 11794 USA

[10] BUR METEOROL RES CTR, MELBOURNE, VIC, AUSTRALIA

[11] VOEIKOV MAIN GEOPHYS OBSERV, ST PETERSBURG, USSR

[12] METEOROL OFF, BRACKNELL, BERKS, ENGLAND

[13] EUROPEAN CTR MEDIUM RANGE WEATHER FORECASTS, READING, BERKS, ENGLAND

[14] PRINCETON UNIV, NOAA, GEOPHYS FLUID DYNAM LAB, PRINCETON, NJ 08544 USA

[15] METEOROL RES INST, IBARAKI, JAPAN

[16] UNIV HAMBURG, INST METEOROL, W-2000 HAMBURG 13, GERMANY

[17] UNIV READING, DEPT METEOROL, READING RG6 2AH, BERKS, ENGLAND

[18] NATL CTR ATMOSPHER RES, DIV CLIMATE & GLOBAL DYNAM, BOULDER, CO 80307 USA

来源：

JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES | 1992年 / 97卷 / D4期

关键词：

D O I：

10.1029/91JD03120

中图分类号：

P4 [大气科学（气象学）];

学科分类号：

0706 ; 070601 ;

摘要：

We have analyzed responses of the surface energy budgets and hydrologic cycles of 19 atmospheric general circulation models to an imposed, globally uniform sea surface temperature perturbation of 4 K. The responses of the simulated surface energy budgets are extremely diverse and are closely linked to the responses of the simulated hydrologic cycles. The response of the net surface energy flux is not controlled by cloud effects; instead, it is determined primarily by the response of the latent heat flux. The prescribed warming of the oceans leads to major increases in the atmospheric water vapor content and the rates of evaporation and precipitation. The increased water vapor amount drastically increases the downwelling infrared radiation at the Earth's surface, but the amount of the change varies dramatically from one model to another.

引用

页码：3711 / 3724

页数：14

共 34 条

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