MJO与热带风场、海温日变化的关系

作者：徐淑雯1  夏旻慧2  王晓春3  朱天懋1

单位：1. 国家海洋局 南通海洋环境监测中心站, 江苏 南通 226002; 2. 南京信息工程大学大气科学学院, 江苏 南京 210044; 3. 南京信息工程大学海洋科学学院, 江苏 南京 210044

关键词：热带大气季节内振荡 位相 经向风场日变化 海温日增暖 太阳辐射场

分类号：P732

出版年·卷·期（页码）：2018·35·第一期（80-94）

摘要：

利用CCMP的风场、NOAA地表日均太阳辐射通量等资料，研究了MJO与风场和海表温度日变化的关系。结果表明： MJO不同位相时，风场及海表温度日变化有明显不同。当夏季MJO处于发展位相（位相1—4）时，赤道印度洋经向风场的日变化偏弱；而西太平洋经向风场的日变化偏强；当MJO处于成熟位相（位相5—8）时，赤道印度洋和西太平洋的经向风场日变化与发展位相时相反。MJO对于海表温度场日变化的调制，冬季比夏季表现得更加明显。同时使用Dynamo的实测资料证明了在经验公式中赤道地区驱动海温日增暖的主要因子是风场的变化，辐射场对其影响远不如风场的变化。

The relationship between MJO and wind diurnal cycle and sea surface temperature (SST) diurnal warming are analyzed by using CCMP wind field and NOAA surface solar flux. The results are as follows:Wind diurnal cycle and SST diurnal warming are significantly different when MJO in different phases. In summer, when MJO is in phases 1 to 4, the equatorial Indian ocean has strong precipitation and weak solar radiation, meridional wind (v) diurnal cycle becomes weak. V diurnal cycle in the Indian ocean becomes strong when MJO in phases 5-8. The meridional diurnal cycle in the western Pacific has an opposite performance with that in the Indian ocean. The effect of MJO on SST diurnal warming is stronger in winter than that in summer. The Dynamo observation data proves that the main factor causing sst diurnal warming in an empirical formula in the equatorial region is the changes of wind. The effect of radiation is far less than that of wind.

参考文献：

[1] Zhang C. Madden-Julian Oscillation[J]. Reviews of Geophysics, 2005, 43(2):RG2003. [2] 周群, 黄焕卿. MJO对我国南海冬季风异常的影响[J]. 海洋预报, 2016, 33(3):9-17. [3] Chen S S, Houze R A. Diurnal Variation and Life-cycle of Deep Convective Systems Over the Tropical Pacific Warm Pool[J].Quarterly Journal of the Royal Meteorological Society, 1997, 123(538):357-388. [4] Sui C H, Lau K M, Takayabu Y N, et al. Diurnal Variations in Tropical Oceanic Cumulus Convection during TOGA COARE[J]. Journal of the Atmospheric Sciences, 1997, 54(5):639-655. [5] Webster P J, Clayson C A, Curry J A. Clouds, Radiation, and the Diurnal Cycle of Sea Surface Temperature in the Tropical Western Pacific[J]. Journal of Climate, 1996, 9(8):1712-1730. [6] Woolnough S J, Vitart F, Balmaseda M A. The Role of the Ocean in the Madden-Julian Oscillation:Implications for MJO Prediction[J]. Quarterly Journal of the Royal Meteorological Society, 2007, 133(622):117-128. [7] 彭婕, 凌铁军, 王斌. 基于一个海洋混合层模式对中国近海浮标SST日变化的模拟[J]. 海洋预报, 2014, 31(3):1-9. [8] Weller R A, Anderson S P. Surface Meteorology and Air-Sea Fluxes in the Western Equatorial Pacific Warm Pool during the TOGA Coupled Ocean-Atmosphere Response Experiment[J]. Journal of Climate, 1996, 9(8):1959-1990. [9] Sui C H, Lau K M. Multiscale Phenomena in the Tropical Atmosphere over the Western Pacific[J]. Monthly Weather Review, 1992, 120(3):407-430. [10] Tian B, Waliser D E, Fetzer E J. Modulation of the Diurnal Cycle of Tropical Deep Convective Clouds by the MJO[J]. Geophysical Research Letters, 2006, 33(20):L20704. [11] Oh J H, Kim K Y, Lim G H. Impact of MJO on the Diurnal Cycle of Rainfall over the Western Maritime Continent in the Austral Summer[J]. Climate Dynamics, 2012, 38(5-6):1167-1180. [12] Slingo J, Inness P, Neale R, et al. Scale interactions on diurnal toseasonal timescales and their relevanceto model systematic errors[J]. Annals of Geophysics, 2003, 46(1):139-155. [13] 李奎平, 于卫东, 李俐俐. 冬季热带印度洋季节内振荡的物理结构[J]. 海洋科学进展, 2009, 27(2):133-139. [14] 杨洋, Li T, 李奎平, 等. 季节内振荡对热带印度洋SST日变化的调制——一维混合层模式的诊断结果[J]. 海洋学报, 2015, 37(5):34-43. [15] Gentemann C L, Donlon C J, Stuart-Menteth A, et al. Diurnal Signals in Satellite Sea Surface Temperature Measurements[J]. Geophysical Research Letters, 2003, 30(3):1140.

服务与反馈：

【文章下载】【发表评论】【查看评论】【加入收藏】