共查询到10条相似文献,搜索用时 78 毫秒
1.
中国地区云对地-气系统辐射强迫温度效应的气候研究 总被引:4,自引:2,他引:4
文中利用地球辐射平衡试验 (ERBE)和国际卫星云气候计划 (ISCCP)提供的地 气系统行星反射率、射出长波辐射 (OLR)和云量资料 ,计算了中国地区年、月平均总云量对地 气系统短波辐射、长波辐射以及净辐射强迫的温度效应和敏感性系数 ,并讨论了云对各辐射分量强迫的温度效应与总云量的关系。结果表明 :地 气系统云辐射强迫温度效应与总云量间具有较明显的曲线相关。云辐射强迫温度效应及其敏感性系数具有明显的时空变化特点。就中国全国平均而言 ,各月地 气系统云辐射强迫净温度效应一般表现为降温作用。 相似文献
2.
中国地—气系统长波射出辐射(OLR)的气候特征 总被引:1,自引:0,他引:1
根据ERBE和ISCCP资料讨论了云对地—气系统长波射出辐射(OLR)的强迫作用及纬度、大气温度等因子的影响。分析了OLR场与500hPa及地表有效辐射场的相似问题。阐述了OLR在全国的分布特征,指出冬季OLR场大致呈纬向型.夏季为一不对称的鞍形场。年分布与1月的相似。最后还就各区域的OLR年变化特征进行了讨论. 相似文献
3.
Weng Duming 《Acta Meteorologica Sinica》1995,9(2):228-236
ERBE and ISCCP data are used to investigate the cloud forcing and latitude and atmospheric temperature effects on outgoing longwave radiation(OLR) in the earth-atmosphere system,and the similarity of OLR field to 500 hPa and surface effective radiation fields.Also,discussion is taken up of the OLR distribution on a nationwide basis,indicating that the winter(summer) OLR pattern is roughly a zonal type(asymmetrical saddle) with the annual pattern analogous to the January one.In the end the yearly OLR variation features are addressed on a regional basis. 相似文献
4.
翁笃鸣 《Acta Meteorologica Sinica》1995,(2)
ERBE and ISCCP data are used to investigate the cloud forcing and latitude and atmospheric temperature effectson outgoing longwave radiation(OLR)in the earth-atmosphere system,and the similarity of OLR field to 500 hPa andsurface effective radiation fields.Also,discussion is taken up of the OLR distribution on a nationwide basis,indicatingthat the winter(summer)OLR pattern is roughly a zonal type(asymmetrical saddle)with the annual pattern analogousto the January one.In the end the yearly OLR variation features are addressed on a regional basis. 相似文献
5.
Summary Global maps of the monthly mean net upward longwave radiation flux at the ocean surface have been obtained for April, July, October 1985 and January 1986. These maps were produced by blending information obtained from a combination of general circulation model cloud radiative forcing fields, the top-of-the-atmosphere cloud radiative forcing from ERBE and TOVS profiles and sea surface temperature on ISCCP C1 tapes. The fields are compatible with known meteorological regimes of atmospheric water vapor content and cloudiness. There is a vast area of high net upward longwave radiation flux (> 80 W m–2) in the eastern Pacific Ocean throughout most of the year. Areas of low net upward longwave radiation flux (< 40 Wm–2) are the tropical convective regions and extra tropical regions that tend to have persistent low cloud cover. The technique used in this study relies on GCM simulations and so is subject to some of the uncertainties associated with the model. However, all input information regarding temperature, moisture and cloud cover is from satellite data having near global coverage. This feature of the procedure alone warrants its consideration for further use in compiling global maps of the net longwave radiation at the surface over the oceans.With 9 Figures 相似文献
6.
气候模式分辨率作为影响模式模拟结果的重要因素,其对气溶胶与云相互作用的影响尚未全面认识。利用公共大气模型CAM5.3在3种分辨率(2°、1°、0.5°)下,分别采用2000年和1850年气溶胶排放情景进行试验,检验提高分辨率是否能改进气候模式的模拟能力,分析不同分辨率下气溶胶气候效应的异同,探索模式分辨率对气溶胶气候效应数值模拟结果的影响。通过观测资料与模式结果对比发现,提高分辨率可以明显改进模式对总云量、云短波辐射强迫的模拟能力,0.5°分辨率下模拟结果与观测更接近,其他变量并无明显改善。在不同分辨率下,全球平均的气溶胶气候效应较为一致,总云量、云水路径均增加,云短波和长波辐射强迫均加强,而云顶的云滴有效半径和降水均减小,地面气温降低。不同分辨率下,气溶胶增加引起的气溶胶光学厚度、云水路径、地面温度、云短波和长波辐射强迫变化的纬向平均分布相似但大小存在差异;而降水和云量变化的纬向分布与大小均存在较大差异,在区域尺度上还存在较大的不确定性。全球平均而言, 0.5°分辨率下气溶胶的间接辐射强迫相比1°分辨率下的结果降低了2.5%,相比2°分辨率下的结果降低了6.4%。提高模式分辨率可以部分改进模式模拟能力,同时,气溶胶的间接效应随着模式分辨率的提高而减弱。但气溶胶引起的云量、降水的变化在不同分辨率下差异较大,存在较大的不确定性。 相似文献
7.
Summary Satellite-derived datasets are used to verify the cloud cover and radiation field generated by a T62 (horizontal resolution) version of the operational global model at the National Meteorological Centre (NMC). An ensemble of five day forecasts for July 1985 is used, as well as 30 day climatological forecasts for July 1985, October 1985, January 1986, and April 1986.Monthly averages of radiation fields are compared with Earth Radiation Budget Experiment (ERBE) data. For the four months examined, clear-sky outgoing longwave radiation (clear-sky OLR) and absorbed shortwave radiation (clear-sky SW) tend to agree roughly with ERBE. Model global mean OLR, however, exceeds that of ERBE by 10 W m–2.Comparison of effective cloud cover to corresponding fields cataloged by the International Satellite Cloud Climatology Project (ISCCP C1) reveals deficiencies in the amount of supersaturation cloudiness and the vertical distribution of convective clouds. Large inaccuracies in model radiation fields are closely related to deficiencies in the cloud parameterization. An inventory of model cloudiness, in comparison to satellite data, is conducted.With 18 Figures 相似文献
8.
Eui-Seok Chung Byung-Ju Sohn Johannes Schmetz 《Meteorology and Atmospheric Physics》2009,105(3-4):109-119
Diurnal variations of outgoing longwave radiation (OLR) are examined in conjunction with diurnal variations of high cloud and upper tropospheric humidity (UTH) over the Indian Ocean and surrounding land areas using Meteosat-5 measurements. Most land areas exhibit a significant diurnal variation of OLR with the largest amplitude over the Arabian Peninsula, whereas the diurnal variation of OLR is much weaker over the Indian Ocean. While diurnal maxima of OLR are found in the early afternoon over many regions of the analysis domain following the diurnal cycle of solar heating, convectively active regions of both land and ocean where high cloud and UTH exhibit distinct diurnal variations show OLR maxima before local noon. These results indicate that high cloud development in the afternoon induces a shift in local time of OLR maxima over convective regions. In agreement with earlier studies it is shown that UTH diurnal variations are less important in regard to their impact on the OLR variations. 相似文献
9.
《大气与海洋》2013,51(3):129-139
Abstract Both the earth‐reflected shortwave and outgoing longwave radiation (OLR) fluxes at the top of the atmosphere (TOA) as well as surface‐absorbed solar fluxes from Canadian Regional Climate Model (CRCM) simulations of the Mackenzie River Basin for the period March 2000 to September 2003 are compared with the radiation fluxes deduced from satellite observations. The differences between the model and satellite solar fluxes at the TOA and at the surface, which are used in this paper to evaluate the CRCM performance, have opposite biases under clear skies and overcast conditions, suggesting that the surface albedo is underestimated while cloud albedo is overestimated. The slightly larger differences between the model and satellite fluxes at the surface compared to those at the TOA indicate the existence of a small positive atmospheric absorption bias in the model. The persistent overestimation of TOA reflected solar fluxes and underestimation of the surface‐absorbed solar fluxes by the CRCM under all sky conditions are consistent with the overestimation of cloud fraction by the CRCM. This results in a larger shortwave cloud radiative forcing (CRF) both at the TOA and at the surface in the CRCM simulation. The OLR from the CRCM agrees well with the satellite observations except for persistent negative biases during the winter months under all sky conditions. Under clear skies, the OLR is slightly underestimated by the CRCM during the winter months and overestimated in the other months. Under overcast conditions the OLR is underestimated by the CRCM, suggesting an underestimation of cloud‐top temperature by the CRCM. There is an improvement in differences between model and satellite fluxes compared to previously reported results largely because of changes to the treatment of the surface in the model. 相似文献
10.
Summary The global field of outgoing longwave radiation (OLR) and surface downward flux (SDF) are computed for January and July 1979 (FGGE year). The computation was done by using geophysical parameters retrieved from space in conjunction which a radiation code. The geophysical parameters (such as temperature and humidity profiles, surface/land temperature, and cloud information) are retrieved from analysis of HIRS 2/MSU using the Goddard Laboratory for Atmospheres (GLA) physical retrieval system. The radiation code is a modified version of the Wu-Kaplan radiation code used in the GLA 4th order GCM. Other fluxes (such as clear OLR and clear SDF, and Earth emission) flux divergences (upward flux divergence and net upward flux divergence), flux differences and longwave radiative forcing (clear OLR — cloudy OLR, cloudy SDF — clear SDF, and atmospheric cloud forcing) which have physical meaning but can not be measured directly from space have also been computed and presented.
With 13 Figures 相似文献
Zusammenfassung Die globalen Felder der emitierten langwelligen Strahlung (OLR) und des nach unten gerichteten Flusses (SDF) werden für Januar und Juli des FGGE-Jahres 1979 berechnet. Die Berechnungen wurden mit Hilfe von geophysikalischen Parametern aus Satellitendaten und einem Strahlungsmodell ausgeführt. Die geophysikalischen Parameter (wie Temperatur-und Feuchtprofile, Oberflächen- bzw. Landtemperatur sowie Bewölkung) werden durch Analysen der HIRS 2/MSU-Daten mit Hilfe des GLA-Physical Retrieval System gewonnen. Das Strahlungsmodell ist ein modifiziertes Modell nach Wu-Kaplan, wie es im Modell der allgemeinen Zirkulation des GLA verwendet wird. Andere Flüsse (wie OLR und SDF bei klarem Himmel, sowie die Emission der Erde), Flußdivergenzen (nach oben gerichtete Fluß- und Nettoflußdivergenz), Flußdifferenzen und langwelliger Strahlungsantrieb (OLR bei klarem und bewölktem Himmel, SDF bei klarem und bewölktem Himmel und der Antrieb durch die Bewölkung), die alle physikalische Bedeutung haben, aber nicht direkt aus dem All gemessen werden können, wurden ebenfalls berechnet und werden hier vorgestellt.
With 13 Figures 相似文献