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华东政法大学学报 2004

风应力桥梁作用下热带太平洋和热带印度洋相互作用的数值试验

, PP. 33-48

赵珊珊,杨修群

Keywords: 热带海盆相互作用,大气海洋模式,风应力,海表温度异常

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Abstract:

利用中等复杂程度全球热带大气和热带海洋模式的数值试验,模拟分析了热带太平洋和热带印度洋通过风应力桥梁的相互作用过程.利用NCEP再分析的1958～1998年SST强迫大气模式得到的风应力与NCEP再分析的同期热通量共同驱动海洋模式,作为控制试验;和控制试验平行,但强迫大气模式的SST在某一海盆取为多年气候平均值的试验作为敏感性试验.比较控制试验与敏感性试验模拟的SST变率,揭示了热带某海盆SST异常通过风应力桥梁作用对其他海盆SST的影响及其过程.数值试验结果表明:热带某海盆SST暖(冷)异常一般总是引起该海盆上空西部西(东)风异常和东部东(西)风异常;热带太平洋SST暖(冷)异常导致年际尺度上印度洋上空东(西)风异常和年代际尺度上热带印度洋风场辐散(合),该风应力导致热带印度洋年际SST暖(冷)异常以及年代际SST冷(暖)异常,但这种异常均较弱;热带印度洋SST暖(冷)异常导致热带太平洋上空东(西)风异常,该风应力异常在年际和年代际尺度上均导致热带太平洋SST冷(暖)异常,但年代际尺度上异常更明显.考虑到热带印度洋SSTA受热带太平洋SSTA影响大,并且热带太平洋SST暖(冷)异常主要通过表面热通量导致热带印度洋SST变暖(冷)的观测事实,文中揭示的热带印度洋SST暖(冷)异常通过风应力桥梁作用导致热带太平洋SST冷(暖)异常的结果表明,热带印度洋SSTA对于热带太平洋SSTA主要起着一种负反馈作用,并且这种负反馈作用在年代际尺度上更为明显.

References

[1]	PAN Y H, OORT A H. Global climate variations connected with SST anomalies in the eastern equatorial Pacific Ocean of1958- 1973 period[J]. Mon Wea Rev, 1983, 111:1 244-1 258.
[2]	PAN Y H, OORT A H. Correlation analyses between sea surface temperature anomalies in the eastern equatorial Pacific and the world ocean[J]. Climate Dyn, 1990, 4: 191-205.
[3]	严邦良,张人禾.热带西太平洋大气气候基本态与厄尔尼诺期间赤道附近西风异常[J].海洋学报,2002,24(3):39-50.
[4]	ALEXANDER M A, BLADE I, NEWMAN M, et al. The atmospheric bridge: the influence of ENSO teleconnections on air-sea interaction over the global oceans[J]. J Clim, 2002, 15:2 205-2 231.
[5]	RASMUSSON E M, CARPENTER T H. Variations in tropical sea surface temperature and surface wind fields associated with the Southern Oscillation/El Nino[J]. Mon Wes Rev, 1982, 110: 354-384.
[6]	KLEIN S A, SODEN B J, LAU N C. Remote sea surface variations during ENSO: evidence for a tropical atmospheric bridge[J]. J Clim, 1999, 12: 917-932.
[7]	NICHOLSON S E. An analysis of the ENSO signal in the tropical Atlantic and western Indian Oceans[J]. Int J Climatol,1997, 17: 345-375.
[8]	TOURRE YM, WHITEWB. ENSO signals in global upper ocesn temperature[J]. J Phys Oceanngr, 1995, 25: 1317-1 332.
[9]	MUTRUDGE R, BUSALACHI A. Interannual variability of the dynamics and thermo-dynamics of the tropical Indian Ocean[J]. J Clim, 1999, 12:2 300-2 326.
[10]	SAJI N H, GOSWAMI B N, VINAYACHANDRAN P N, et al. A dipole mode in the tropical Indian Ocean[J]. Nature,1999, 401: 360-363.
[11]	MEYERS G. Variation of Indonesian through flow and the El Nino-Southern Oscillation[J]. J Geophys Res, 1996, 101:12 255-12 263.
[12]	STEPHEN A, BRIAN K, SODEN J, et al. Remote sea surface temperature variation during ENSO: evidence for a tropical atmospheric bridge[J]. J Clim, 1999, 12: 917-931.
[13]	BEHERA S K, SALVEKAR P S, YAMAGATA T. Simulation of interannual SST variability in the tropical Indian Ocean[J]. J Clim, 2000, 13:3 487-3 499.
[14]	周天军,张学洪.印度洋海气热通量交换研究[J].大气科学,2002,26:161-170.
[15]	ZHANG Y, WALLACE J M, BATTISI D S. ENSOlike interdecadal variability: 1900 - 93[J]. J Clim, 1997, 10:609-625.
[16]	SU H, NEELIN D, CHOU C. Tropical teleconnection and local response to SST anomalies during the 1997 - 1998 El Nino[J]. J Geophys Res-Atmos, 2001, 106 (D17): 20 025-20 043.
[17]	WANG B, LI Tian-ming. A simple tropical atmosphere model of relevance to short-term climate variations[J ]. J Atmos Sci, 1993, 50: 260-284.
[18]	WANG B, LI Tian-ming. An intermediate model of the tropical Pacific ocean[J]. J Phys Oceanogr, 1995, 25:1 599-1 616.
[19]	WANG B. Interdecadal changes in El Nino onset in the last four decades[J]. J Clim, 1995, 8: 267-285.
[20]	蒲书箴,于非,赵新,等.1997/1998厄尔尼诺的发生与发展[J].海洋学报,1998,20(6):124-131.
[21]	徐建军,王东晓.印度洋-太平洋海温的年际、年代际异常及其对亚洲季风的影响[J].海洋学报,2000,22(3):34-43
[22]	LANZANTE J. Lag relationships involving tropical sea surface temperatures[J]. J Clim, 1996, 9:2 568-2 578.
[23]	CADET D L. The Southern Oscillation over the Indian Ocean[J]. Int J Climatol, 1985, 5: 189-212.
[24]	周天军,宇如聪,李薇,等.20世纪印度洋气候变率特征[J].气象学报,2001,59(3):257-270.
[25]	YU L, RIENECKER M M. Mechanisms for the Indian Ocean warming during the 1997～ 1998 El Nino[J]. Geophys Res Lett, 1999, 26: 735-738.
[26]	WEBSTER P J, MOORE A M, LOSCHNIG J P, et al. Coupled ocean-atmosphere dynamics in the Indian Ocean during1997～1998[J]. Nature, 1999, 401: 356-360.
[27]	LAU N C, NATH M J. The role of the atmospheric bridge in linking tropical Pacific ENSO events to extratropical SST anomalies[J]. J Clim, 1996, 9:2 036-2 057.
[28]	VENZKE S, LATIF M, VILLWOCK A. The coupled GCM ECHO- 2. Part II: Indian ocean response to ENSO[J ]. J Clim, 2000, 13:1 384-1 405.
[29]	CHAMBERS D P, TARPLEY B D, STEWART R H. Anomalous warming in the Indian ocean coincident with El Nino[J]. J Geophys Res, 1999, 104:3 035-3 047.
[30]	吴国雄,孟文.赤道印度洋-太平洋海气系统的齿轮式耦合和ENSO事件[J].大气科学,1998,22(4):470-480.
[31]	殷永红,史历,倪允琪.近20年来热带印度洋与热带太平洋海气系统相互作用特征的诊断研究[J].大气科学,2001,25(3):355-371.
[32]	YU J Y, MECHOSO C R, MCWILLIAMS J C, et al. Impacts of the Indian Ocean on the ENSO cycle[J ]. Geophys Res Lett, 2002, 29: 461-464.
[33]	FU X H, WANG B. The role of long wave radiation and boundary layer thermodynamics in forcing tropical surface winds[J]. J Clim, 1999, 12:1 049-1069.
[34]	FU X H. Simulation of the tropical Pacific annual cycle with an intermediate ocean-atmosphere-land model[D]. Hawaii:Hawaii University, 1998.
[35]	KUMAR A, HOERLING M P. Specification of regional sea surface temperatures in the atmospheric general circulation model simulations[J]. J Geophys Res, 1998, 103:8 901-8 907.
[36]	LATIF M, BARNETT T P. Interactions of the tropical oceans[J]. J Clim, 1995, 8: 952-964.
[37]	WANG B, FANG Z. Impacts of shortwave radiation forcing on ENSO: a study with a coupled tropical ocean-atmosphere model[J]. Climate Dyn, 2000, 16: 677-691.
[38]	ZEBIAK S E, CANE M A. A model El Nino-Southern Oscillation[J]. Mon Wea Rev, 1987, 115:2 262-2 278.

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