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利用ARGO资料改进ENSO和我国夏季降水气候预测
Utilizing ARGO Data to Improve the Prediction of ENSO and Short-term Climate Prediction of Summer Rainfall in China
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摘要: 全球海洋ARGO资料的获取为气候预测的研究提供了前所未有的海洋资料。该文首先利用ARGO资料改进次表层参数化方案后的Zebiak-Cane海洋模式, 与统计大气模式耦合, 建立了热带动力海洋-统计大气耦合模式。通过比较应用和未应用ARGO资料改进的海洋模式, 进行了耦合模式的长期回报试验。结果表明:ARGO资料的应用极大地改善了耦合模式对热带太平洋海面温度异常的预测能力, 提前3个月和6个月的回报结果都有很大的改进, 基本上回报出了Niño3.4区海面温度异常的演变特征, 对厄尔尼诺和拉尼娜都能够给出较准确的回报, 回报结果与观测之间的相关性在整个热带太平洋区域明显提高。该文还利用国家气候中心 (NCC) 全球海气耦合模式, 对我国夏季降水进行了个例和多年季度回报模拟试验, 探讨了包含和不包含ARGO观测资料的同化资料作为初始场对我国夏季降水预测的影响, 表明采用带有ARGO观测资料的海洋同化初始场, 回报的我国夏季降水分布形式与观测更一致, 回报结果与观测之间的正相关区域变大, 对我国夏季降水的回报水平比采用没有ARGO观测资料的海洋同化初始场时有明显提高。
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关键词:
- ARGO资料;
- ENSO预测;
- 我国夏季降水气候预测
Abstract: The acquirement of the global ARGO data provides unprecedented ocean data for researches on the climate prediction, a tropical dynamic ocean-statistical atmospheric coupled model is set up. In the coupled model, the atmospheric part is a statistical atmospheric model constructed according to the correlation relationship between observed windstress and sea surface temperature in the tropical Pacific. The ocean part is Zebiak-Cane oceanic model in which the subsurface temperature parameterization scheme is improved based on the ARGO data. The long-term hindcasts are done using the coupled model. In order to understand the performance of the ARGO data in the improvement of the hindcasts, the results of the coupled model are compared using the unimproved and improved ocean models respectively. It is found that the application of the ARGO data in the oceanic model greatly raises the capability of the coupled model in hindcasting the sea surface temperature (SST) in the tropical Pacific. The hindcast of 6 months in advance gives the abnormal variations of the SST in the Niño3.4 region in good agreement with the observation. The El Niño and La Niña events in the hindcasting period are successfully hindcasted. The correlation of SSTs between the hindcasts and the observations is increased substantially in the whole tropical Pacific Ocean.The improvement of the short-term climate prediction of summer rainfall in China is also investigated by using the global atmosphere-ocean coupled model of the China National Climate Center (NCC) using the ARGO data in the Global Ocean Data Assimilation System of NCC (NCC-GODAS). The results of seasonal hindcasts for the summer precipitation in China for the case of the summer of 2002 and also for the summers from 1998 to 2003 are showed respectively. It is found that when the ARGO data is included in the NCC-GODAS, the distribution of the hindcasted summer precipitation in China is closer to the observation. The area of the positive correlation between the hindcasted and the observed summer precipitations is enlarged. It demonstrates that hindcasts for the summer precipitation in China with ARGO data in the NCC-GODAS is much better than those without ARGO data. -
图 1 原ZC模式-统计大气耦合模式 (a) 与改进后的ZC模式-统计大气耦合模式 (b) 提前3个月Niño3.4区 (5°S~5°N, 120°~170°W) 海面温度异常的回报结果
图 5 利用NCC全球海气耦合模式回报的2002年我国夏季降水距平百分率 (单位:%) (a) 不包含ARGO观测资料的同化资料作为初始场, (b) 包含ARGO观测资料的同化资料作为初始场
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[1] WCRP.CLIVAR Science Plan.WCRP Pub No.89, WMO/TD-No.690, Geneva:WMO, 1995. [2] Ji M, Kumar A, Leetmaa A. A multi-seasonal climate forecast system at the National Meteorological Center.Bull Amer Meteor Soc, 1994, 75:569-577. doi: 10.1175/1520-0477(1994)075<0569:AMCFSA>2.0.CO;2 [3] Palmer T, Anderson D L T. The prospects for seasonal forecasting.Quart J Roy Meteor Soc, 1994, 120:755-793. [4] Zeng Qingcun, Yuan Chongguang, Li Xu, et al.Seasonal and extraseasonal prediction of the summer monsoon precipitation by GCMs.Adv Atmos Sci, 1997, 14:163-176. doi: 10.1007/s00376-997-0017-x [5] Carson D J.Seasonal forecasting.Quart J Royal Meteor Soc, 1998, 124:1-26. doi: 10.1002/(ISSN)1477-870X [6] 张人禾, 周广庆, 巢纪平.ENSO动力学与预测.大气科学, 2003, 27(4):674-688. http://www.cnki.com.cn/Article/CJFDTOTAL-DQXK200304015.htm [7] 周广庆, 曾庆存.IAP ENSO预测系统∥曾庆存, 丑纪范.气候系统的动力理论、模型和预测研究.北京:气象出版社, 2003:168-178. [8] 徐建平.阿尔戈全球海洋观测大探秘.北京:海洋出版社, 2002:1-115. [9] Argo Science Team. On the Design and Implementation of Argo—an Initial Plan for a Global Array of Profiling Floats.International CLIVAR Project Office ICPO Report No.21. GODAE Report No.5.Melbourne:GODAE International Project Office, c/o Bureau of Meteorology, 1998:1-32. [10] Roemmich D, Owens W B.The ARGO Project:global ocean observations for understanding and prediction of climate variability.Oceanography, 2000, 13(2):45-50. doi: 10.5670/oceanog [11] Vidard A, Anderson D L T, Balmaseda M.Impact of Ocean Observation Systems on Ocean Analysis and Seasonal Forecasts. ECMWF, Technical Memorandum, 2005, 460:1-32. doi: 10.1175/MWR3310.1 [12] Zhang S, Harrison M J, Wittenberg A T, et al. Initialization of an ENSO forecast system using a parallelized ensemble filter. Mon Wea Rev, 2005, 133(11):3176-3201. doi: 10.1175/MWR3024.1 [13] 林绍花, 薛惠芬, 陈继香.中国ARGO资料中心网络服务系统.海洋信息技术, 2004, 2:1-5. http://www.cnki.com.cn/Article/CJFDTOTAL-HTXX200402000.htm [14] 张人禾, 刘益民, 殷永红, 等.利用ARGO资料改进海洋资料同化和海洋模式中的物理过程.气象学报, 2004, 62(5):613-622. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB200405008.htm [15] Liu Yimin, Zhang Renhe, Yin Yonghong, et al. The application of ARGO data to the global ocean data assimilation operational system of NCC.Acta Meteor Sinica, 2005, 19(3):355-365. https://www.researchgate.net/publication/241291835_The_Application_of_ARGO_Data_to_the_Global_Ocean_Data_Assimilation_Operational_System_of_NCC [16] Conkright M E, Locarnini R A, Garcia H E, et al.World Ocean Atlas 2001:Objective Analyses, Data Statistics, and Figures, CD-ROM Documentation.National Oceanographic Data Center, Silver Spring, MD, 2002:1-17. [17] Reynolds R W, Rayner N A, Smith T M, et al. An improved in situ and satellite SST analysis for climate.J Climate, 2002, 15:1609-1625. doi: 10.1175/1520-0442(2002)015<1609:AIISAS>2.0.CO;2 [18] Kalnay E M, Kistler Kanamitsu, Collins W.The NCEP/NCAR 40-year reanalysis project.Bull Amer Meteor Soc, 1996, 77:437-471. doi: 10.1175/1520-0477(1996)077<0437:TNYRP>2.0.CO;2 [19] Levitus S, Boyer T P, Antonov J.World Ocean Atlas, Vol 5:Interannual Variability of Upper Thermal Structure. NOAA Atlas NESDIS 5, U.S.Government Printing Office, Washington D C, 1994. [20] Zebiak S E, Cane M A. A model El Nino-Southern Oscillation. Mon Wea Rev, 1987, 115:2262-2278. doi: 10.1175/1520-0493(1987)115<2262:AMENO>2.0.CO;2 [21] Neelin J D, Battisti D S, Hirst A C, et al.ENSO theory.J Geophys Res, 1998, 103:14262-14290. http://linkingweatherandclimate.com/ENSO/theory.php [22] Cane M A, Zebiak S E, Dolan S C.Experimental forecasts of El Niño.Nature, 1986, 321:827-832. doi: 10.1038/321827a0 [23] 李清泉, 丁一汇, 张培群.一个全球海气耦合模式跨季度汛期预测能力的初步检验和评估.气象学报, 2004, 62(6):740-751. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXB200406002.htm [24] 张人禾, 黄荣辉. El Niño事件发生和消亡中热带太平洋纬向风应力的动力作用Ⅰ:资料诊断和理论分析.大气科学, 1998, 22(4):597-609. http://www.cnki.com.cn/Article/CJFDTOTAL-DQXK200102002.htm [25] Wang C, Weisberg R H, Virmani J I. Western Pacific interannual variability associated with El Niño-Southern Oscillation.J Geophys Res, 1999, 104:5131-5149. doi: 10.1029/1998JC900090 [26] 黄荣辉, 张人禾, 严邦良.热带西太平洋纬向风异常对ENSO循环的动力作用.中国科学 (D辑), 2001, 31(8):697-704. http://www.cnki.com.cn/Article/CJFDTOTAL-JDXK200108011.htm [27] 李崇银, 穆明权.厄尔尼诺的发生与赤道西太平洋暖池次表层海温异常.大气科学, 1999, 23(5):513-521. http://www.cnki.com.cn/Article/CJFDTOTAL-DQXK199905000.htm [28] 巢清尘, 巢纪平.热带西太平洋和东印度洋对ENSO发展的影响.自然科学进展, 2001, 11(12):1293-1300. http://www.cnki.com.cn/Article/CJFDTOTAL-ZKJZ200112009.htm [29] 张人禾, 李强.热带海洋变异对东亚季风的影响.气象, 2004, 30(12):22-26. http://www.cnki.com.cn/Article/CJFDTOTAL-QXXX200412004.htm -
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