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华东政法大学学报 2003

热带大西洋年际和年代际变率的时空结构模拟

, PP. 8-19

赵珊珊,杨修群,朱益民

Keywords: 中等复杂程度海洋模式,年际变化,年代际变化,热带大西洋偶极子模态

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Abstract:

使用美国夏威夷大学发展的中等复杂程度海洋模式(IOM)在给定表面强迫条件下模拟了热带大西洋上层海洋年际和年代际变率的时空结构.利用NCEP的41a(1958～1998年)逐月平均表面资料作为强迫场,积分海洋模式41a作为控制试验,并利用模式分别做动量(风应力)通量和热量通量无异常变化的平行试验,与控制试验作比较.对3组试验模拟上层海洋变率状况的比较,并按年际和年代际时间尺度分别分析,揭示表面风应力和热通量异常对海表面温度和温跃层深度变化的影响,并比较了其影响的相对重要性.结果表明模式成功地模拟出了热带大西洋上层海洋的变率.模式模拟的海表面温度年际变化主要表现为弱ENSO型,年代际变化表现为南、北大西洋变化相反的偶极子型.在年际时间尺度上,热力强迫和动力强迫对海表温度变化都有贡献,其中赤道外海表面温度异常(SSTA)变化主要由热通量异常引起,而近赤道SSTA的变化主要由动量异常强迫引起.在年代际时间尺度上,热通量强迫的作用远比动量强迫重要.模式不仅能够模拟SST在年际和年代际时间尺度上的变率,还能够模拟温跃层深度在年际和年代际时间尺度上的变率.年际和年代际时间尺度上,温跃层深度的变率主要由动量异常决定,热通量异常强迫的贡献很小.

References

[1]	SHUKLA J, WALLACE J M. Numerical simulation of the atmospheric response to equatorical Pacific sea surface temperature anomalies [J]. J Atmos Sci, 1983, 40(7): 1 613-1 630.
[2]	MOURA A D, SHUKLA J. On the dynamical basis for the Asian summer monsoon rainfall- El Nino relationship [J]. J Clim, 1981, 7:1 750-1 771.
[3]	SERVAIN J. Simple climatic indices for the tropical Atlantic Ocean and some applications [J]. J Geophys Res, 1991, 96:15 137-15 146.
[4]	FOLLAND C, PALMER T, PARKER T. Sahel rainfall and worldwide sea surface temperatures: 1901-85 [J]. Nature,1986, 320: 602-606.
[5]	MEHTA V M. Variability of the tropical ocean surface temperature at decadal-multidecadal time scales. Part I. The Atlantic Ocean [J]. J Clim, 1998, 11:2 351-2 375.
[6]	CHANG P, JI L, LI H. A decadal climate variation in the tropical Atlantic Ocean from thermodynamic air-sea interactions [J]. Nature, 1997, 385: 516-518.
[7]	HOUGHTON R W, TOURRE Y. Characteristics of low-frequency sea surface temperature fluctuations in the tropical Atlantic [J]. J Clim, 1992, 5 (7): 765-771.
[8]	PHILANDER S G H, PACANOWSKI R C. A model of the seasonal rainfall in the Sahel region of Africa [J]. Nature,1986, 322: 251-253.
[9]	CARTON J A, HUANG B. Warm events in the tropical Atlantic [J]. J Phys Ocean, 1994, 24: 888-903.
[10]	LANZANTE J R. Lag relationships involving tropical sea surface temperatures [J]. J Clim, 1996, 9:2 568-2 578.
[11]	FU X H. Simulation of the tropical Pacific annual cycle with an intermediate ocean - atmosphere - land model[D]. Hawaii:Hawaii University, 1998.
[12]	WANG B, LI Tian-ming. An intermediate model of the tropical Pacific Ocean [J]. J Phys Ocean, 1995, 25:1 599-1 616.
[13]	PHILANDER S G H. El Nino, La Nina and the Southern Oscillation [M]. New York: Academic Press, 1990. 289.
[14]	LATIF M, BARNETT T P. Interactions of the tropical oceans [J]. J Clim, 1995, 8: 952-964.
[15]	HASTENRATH S, HELLER L. Dynamics of climatic hazards in northeast Brazil [J]. Quart J Roy Meteor Soc, 1977,110: 77-92.
[16]	HASTENRATH S, CASTRO L C, ACEITUNO P. The Southern Oscillation in the tropical Atlantic sector [J]. Contriv Atmos Phys, 1987, 60: 447-463.
[17]	SUTTON R T, JEWSON S P, ROWELL D P. The elements of climate variability in the tropical Atlantic region [J]. J Clim, 2000, 13:3 261-3 284.
[18]	SEAGER R, KUSHNIR Y, CHANG P, et al. Looking for the role of the ocean in tropical Atlantic decadal variability [J ].J Clim, 2001, 4: 638-655.
[19]	KIDSON J W. Tropical eigenvector analysis and the Southern Oscillation[J]. Mon Wea Rev, 1975, 103: 187-196.
[20]	BJERKNESSJ. Atlantic air-sea interaction [J]. Adv Geophys, 1964, 10(1): 1-82.
[21]	NOBRE P, SHUKLA J. Variations of sea surface temperature, wind stress, and rainfall over the tropical Atlantic and South America [J]. J Clim, 1996, 9:2 464-2 479.
[22]	CARTON J A, CAO X, GIESE B S, et al. Decadal and interannual SST variability in the tropical Atlantic Ocean [J]. J Phys Ocean, 1996, 26:1 165-1 175.
[23]	XIE S-P, TANIMOTO Y. A pan-Atlantic decadal climate oscillation [J]. Geophys Res Lett, 1998, 25:2 185-2 188.
[24]	DOMMENGETD, LATIF M. Interannual to decadal variability in the tropical Atlantic [J]. J Clim, 2000, 13: 777-792.
[25]	ZEBIAK S E. Air-sea interaction in the equatorial Atlantic region [J]. J Clim, 1993, 6:1 567-1 586.
[26]	RUIZ-BARRADAS A, CARTON J A, NIGAM S. Structure of interannual-to-decadal climate variability in the tropical Atlantic sector [J]. J Clim, 2000, 15:3 285-3 297.
[27]	HUANG B H, SHUKLA J. Characteristics of the interannual and decadal variability in a general circulation model of the tropical Atlantic Ocean [J]. J Phys Ocean, 1997, 27(8): 1 693-1 712.
[28]	ENFIELD D B, MAYER D A. Tropical Atlantic SST variability and its relation to El Nino-Southern Oscillation [ J ]. J Geophys Res, 1997, 102: 929-945.
[29]	CARTON J A, CHEPURIN G, CAO J, et al. A simple ocean data assimilation analysis of the global upper ocean 1950-95. Part Ⅰ. Methodology [J]. J Phys Ocean, 2000, 30: 294-310.
[30]	CARTON J A, CHEPURIN G, CAO J, et al. A simple ocean data assimilation analysis of the global upper ocean 1950-95. Part Ⅱ. Results [J]. J Phys Ocean, 2000, 30: 311-326.
[31]	TRENBERTH K, HURRELL J W. Decadal atmosphere - ocean variations in the Pacific [J ]. Climate Dyn, 1994, 9: 303-319.
[32]	MITCHELL T P, WALLACE J M. ENSO seasonality: 1950-78 versus 1979-92 [J]. J Clim, 1996, 9:3 149-3 161.
[33]	HASTENRATH S. On modes of tropical circulation and climate anomalies [J]. J Atmos Sci, 1978, 35:2 222-2 231.
[34]	ACEITUNO P. On the functioning of the Southern Oscillation in the South American sector. Part Ⅰ. Surface climate [J].Mon Wea Rev, 1988, 116: 505-524.
[35]	HAMEED S, SPERVER K R, MEINSTER A. Teleconnections of the Southern Oscillation in the tropical Atlantic sector in the OSU coupled upper ocean- atmosphere GCM [J]. J Clim, 1993, 6: 487-498.
[36]	KALNAY E M, COAUTHOR S. The NCEP/NCAR 40-year reanlysis project [J]. Bull Amer Meteor Soc, 1996, 77:437-471.

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