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The Grid-point Atmospheric Model of IAP LASG version 2 (GAMIL2) has
been developed through upgrading the deep convection parameterization, cumulus
cloud fraction and two-moment cloud microphysical scheme, as well as changing
some of the large uncertain parameters. In this paper, its performance is
evaluated, and the results suggest that there are some significant improvements
in GAMIL2 compared to the previous version GAMIL1, for example, the components
of the energy budget at the top of atmosphere (TOA) and surface; the geographic
distribution of shortwave cloud radiative forcing (SWCF); the ratio of
stratiform versus total rainfall; the response of atmospheric circulation to
the tropical ocean; and the eastward propagation and spatiotemporal structures
of the Madden Julian Oscillation (MJO). Furthermore, the indirect aerosols
effect (IAE) is -0.94 W m-2, within the range of 0 to -2 W m-2
given by the IPCC 4th Assessment Report (2007). The influence of uncertain
parameters on the MJO and radiation fluxes is also discussed. 相似文献
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The flexible global ocean-atmosphere-land system model, Grid-point Version 2: FGOALS-g2 总被引:3,自引:0,他引:3
李立娟 林鹏飞 俞永强 王斌 周天军 刘利 刘骥平 包庆 徐世明 黄文誉 夏坤 普业 董理 申思 刘屹岷 胡宁 刘咪咪 孙文奇 史湘军 郑伟鹏 吴波 宋米荣 刘海龙 张学洪 吴国雄 薛巍 黄小猛 杨广文 宋振亚 乔方利 《大气科学进展》2013,30(3):543-560
This study mainly introduces the development of the Flexible Global Ocean-Atmosphere-Land System Model: Grid-point Version 2 (FGOALS-g2) and the preliminary evaluations of its performances based on results from the pre-industrial control run and four members of historical runs according to the fifth phase of the Coupled Model Intercomparison Project (CMIP5) experiment design. The results suggest that many obvious improvements have been achieved by the FGOALS-g2 compared with the previous version,FGOALS-g1, including its climatological mean states, climate variability, and 20th century surface temperature evolution. For example,FGOALS-g2 better simulates the frequency of tropical land precipitation, East Asian Monsoon precipitation and its seasonal cycle, MJO and ENSO, which are closely related to the updated cumulus parameterization scheme, as well as the alleviation of uncertainties in some key parameters in shallow and deep convection schemes, cloud fraction, cloud macro/microphysical processes and the boundary layer scheme in its atmospheric model. The annual cycle of sea surface temperature along the equator in the Pacific is significantly improved in the new version. The sea ice salinity simulation is one of the unique characteristics of FGOALS-g2, although it is somehow inconsistent with empirical observations in the Antarctic. 相似文献
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林岩銮 黄小猛 梁逸爽 秦怡 徐世明 黄文誉 徐芳华 刘利 王勇 彭怡然 王兰宁 薛巍 付昊桓 张广俊 王斌 李锐喆 张诚 卢麾 阳坤 罗勇 白玉琪 宋振亚 王敏琦 赵文婕 张峰 徐敬蘅 赵曦 陆春松 骆亦其 陈奕兆 胡勇 唐强 陈德训 杨广文 宫鹏 《气候变化研究进展》2019,15(5):545-550
世界气候研究计划(WCRP)组织实施第六次国际耦合模式比较计划(CMIP6),清华大学联合国内多家单位,通过多年的模式研发,完成联合地球系统模式(CIESM),除了CMIP6的气候诊断、评估和描述试验(DECK)和历史气候模拟试验(Historical),模式拟参与6个CMIP6子计划。通过介绍该模式的基本情况及其参与的试验子计划,为今后模式试验数据使用者提供参考。 相似文献
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Preliminary evaluations of FGOALS-g2 for decadal predictions 总被引:3,自引:0,他引:3
王斌 刘咪咪 俞永强 李立娟 林鹏飞 董理 刘利 刘骥平 黄文誉 徐世明 申思 普业 薛巍 夏坤 王勇 孙文奇 胡宁 黄小猛 刘海龙 郑伟鹏 吴波 周天军 杨广文 《大气科学进展》2013,30(3):674-683
The Flexible Global Ocean-Atmosphere-Land System model, Grid-point Version 2 (FGOALS-g2) for decadal predictions, is evaluated preliminarily, based on sets of ensemble 10-year hindcasts that it has produced. The results show that the hindcasts were more accurate in decadal variability of SST and surface air temperature (SAT), particularly in that of Nin o3.4 SST and China regional SAT, than the second sample of the historical runs for 20th-century climate (the control) by the same model. Both the control and the hindcasts represented the global warming well using the same external forcings, but the control overestimated the warming. The hindcasts produced the warming closer to the observations. Performance of FGOALS-g2 in hindcasts benefits from more realistic initial conditions provided by the initialization run and a smaller model bias resulting from the use of a dynamic bias correction scheme newly developed in this study. The initialization consists of a 61-year nudging-based assimilation cycle, which follows on the control run on 01 January 1945 with the incorporation of observation data of upper-ocean temperature and salinity at each integration step in the ocean component model, the LASG IAP Climate System Ocean Model, Version 2 (LICOM2). The dynamic bias correction is implemented at each step of LICOM2 during the hindcasts to reduce the systematic biases existing in upper-ocean temperature and salinity by incorporating multi-year monthly mean increments produced in the assimilation cycle. The effectiveness of the assimilation cycle and the role of the correction scheme were assessed prior to the hindcasts. 相似文献
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