Identifying Global Monsoon Troughs and Global Atmospheric Centers of Action on a Pentad Scale 被引量：18

Identifying Global Monsoon Troughs and Global Atmospheric Centers of Action on a Pentad Scale

下载PDF

导出

摘要 Using two datasets of global pentad grid precipitation and global 850 hPa geopotential height during 1979-2007,this study identified global monsoon troughs and global atmospheric centers of action (ACAs) on a pentad scale.The global monsoon troughs consist of planetary-scale monsoon troughs and peninsula-scale monsoon troughs.Forced by seasonal variations in solar radiation,the inter-tropical convergence zones (ITCZs) represent the planetary-scale monsoon troughs,which are active and shift over the tropical North Pacific,the tropical North Atlantic,and the tropical South Indian oceans.The peninsula-scale monsoon troughs are originated from regional land-sea topography and varied with contrasts in seasonal land-sea surface temperatures and precipitation.During the boreal summer,five peninsula-scale troughs and one planetary-scale trough are distributed in the Asia-Northwest Pacific (NWP) region.In total,22 troughs,nine monsoon troughs,and 19 ACAs in the lower troposphere were identified.Relevant ACAs may be useful in constructing regional monsoon and circulation indices. Using two datasets of global pentad grid precipitation and global 850 hPa geopotential height during 1979-2007, this study identified global monsoon troughs and global atmospheric centers of action （ACAs） on a pentad scale. The global monsoon troughs consist of planetary-scale monsoon troughs and peninsula-scale monsoon troughs. Forced by seasonal variations in solar radiation, the inter-tropical convergence zones （ITCZs） represent the planetary-scale monsoon troughs, which are active and shift over the tropical North Pacific, the tropical North Atlantic, and the tropical South Indian oceans. The peninsula-scale monsoon troughs are originated from regional land-sea topography and varied with contrasts in seasonal land-sea surface temperatures and precipitation. During the boreal summer, five peninsula-scale troughs and one planetary-scale trough are distributed in the Asia-Northwest Pacific （NWP） region. In total, 22 troughs, nine monsoon troughs, and 19 ACAs in the lower troposphere were identified. Relevant ACAs may be useful in constructing regional monsoon and circulation indices.

作者 QIAN Wei-Hong TANG Shuai-Qi

机构地区 Department of Atmospheric Science

出处《Atmospheric and Oceanic Science Letters》 2010年第1期1-6,共6页 大气和海洋科学快报（英文版）

基金 supported jointly by the National Natural Science Foundation of China (40975039) the National Basic Research Program of China (2006CB403602 and 2009BAC51B04)

关键词 monsoon trough planetary scale peninsula scale atmospheric centers of action pentad scale 季风槽全球大气西北太平洋行星尺度海洋表面温度季节性变化太阳辐射北大西洋

分类号 P434 [天文地球—大气科学及气象学] P432

引文网络
相关文献

参考文献38

1Chakraborty, A., R. S. Nanjundiah, and J. Srinivasan, 2009: Impact of African orography and the Indian summer monsoon on the low-level Somali jet, Int..Z Climatol., 29, 983-992. 被引量：1
2Chao, W. C., 2000: -Multiple quasi-equilibria of the ITCZ and the origin of monsoon onset, J. Atmos. Sci., 57, 641-651. 被引量：1
3Gentilli, J., 1971: Australian climatic factors, in: Worm Survey of Climatology, J. Gentilli (Eds.), Elsevier, Amsterdam, 35-52. 被引量：1
4Hu, H. R., and W. H. Qian, 2007: Identification of the northernmost boundary of East Asia summer monsoon, Prog. Natural Sci., 17, 812-820. 被引量：1
5Hurrell, J. W., 1995: Decadal trends in the North Atlantic Oscillation and relationships to regional temperature and precipitation, Science, 269, 676-679. 被引量：1
6Kalnay, E., M. Kanamitsua, R. Kistler, et al., 1996: The NCEP/ NCAR 40-year reanalysis project, Bull. Amer. Meteor. Soc., 77, 437-471. 被引量：1
7Lau, K. M., K. M. Kim, and S. Yang, 2000: Dynamical and boundary forcing characteristics of regional components of the Asian summer monsoon, J. Climate, 13, 2461-2482. 被引量：1
8Li, J. P., and Q. C. zeng, 2002: A unified monsoon index, Geophys. Res. Left., 29, doi: 10.1029/2001GL013874. 被引量：1
9Nicholls, N., J. L. McBride, and R. J. Ormerod, 1982: On predicting the onset of the Australian wet season at Darwin, Mon. Wea. Rev., 110, 14-17. 被引量：1
10Peixoto, J. P., and A. H. Oort, 1992: Physics of Climate, Springer-Verlag New York Inc., 1-520. 被引量：1

同被引文献149

1何金海,梁萍,孙国武.延伸期预报的思考及其应用研究进展[J].气象科技进展,2013,3(1):11-17. 被引量：33
2钱维宏,朱亚芬,谢安,叶谦.Seasonal and Interannual Variations of Upper Tropospheric Water Vapor Band Brightness Temperature over the Global Monsoon Regions[J].Advances in Atmospheric Sciences,1998,15(3):55-63. 被引量：2
3朱乾根,杨松.东亚副热带季风的北进及其低频振荡[J].南京气象学院学报,1989,12(3):249-258. 被引量：45
4吴国雄,毛江玉,段安民,张琼.青藏高原影响亚洲夏季气候研究的最新进展[J].气象学报,2004,62(5):528-540. 被引量：123
5邱崇践,丑纪范.天气预报的相似-动力方法[J].大气科学,1989,13(1):22-28. 被引量：43
6左军成,于宜法,陈宗镛.中国沿岸海平面变化原因的探讨[J].地球科学进展,1994,9(5):48-53. 被引量：29
7徐光洁.用欧洲数值预报产品制作中期延伸预报[J].黑龙江气象,1994,11(3):50-52. 被引量：2
8丁一汇.暴雨和中尺度气象学问题[J].气象学报,1994,52(3):274-284. 被引量：238
9寿绍文,姚秀萍.爆发性发展台风合成环境场的诊断分析[J].大气科学,1995,19(4):487-493. 被引量：25
10严中伟,Maire,NP.关于全球冷暖和亚、非夏季风区干湿变迁之联系的一个述评[J].地理学报,1995,50(5):471-479. 被引量：11

引证文献18

1钱维宏.多时间尺度气候变化[J].气象科技进展,2013,3(2):36-40. 被引量：2
2钱维宏,陆波.千年全球气温中的周期性变化及其成因[J].科学通报,2010,55(32):3116-3121. 被引量：15
3QIAN WeiHong LU Bo.Periodic oscillations in millennial global-mean temperature and their causes[J].Chinese Science Bulletin,2010,55(35):4052-4057. 被引量：12
4钱维宏,汤帅奇.全球季风槽[J].热带气象学报,2011,27(4):594-600. 被引量：6
5钱维宏,朱亚芬,汤帅奇.重建千年东亚夏季风干湿分布型指数[J].科学通报,2011,56(25):2075-2082. 被引量：8
6QIAN WeiHong ZHU YaFen TANG ShuaiQi.Reconstructed index of summer monsoon dry-wet modes in East Asia for the last millennium[J].Chinese Science Bulletin,2011,56(28):3019-3027. 被引量：6
7林祥,钱维宏.全球季风和季风边缘研究[J].地球科学进展,2012,27(1):26-34. 被引量：20
8JiangYu Mao,GuoXiong Wu.Diurnal variations of summer precipitation over the Asian monsoon region as revealed by TRMM satellite data[J].Science China Earth Sciences,2012,55(4):554-566. 被引量：21
9毛江玉,吴国雄.基于TRMM卫星资料揭示的亚洲季风区夏季降水日变化[J].中国科学：地球科学,2012,42(4):564-576. 被引量：30
10丑纪范.一个创新研究——大气数值模式变量的物理分解及其在极端事件预报中的应用[J].地球物理学报,2012,55(5):1433-1438. 被引量：8

二级引证文献229

1郭煜,周勍,钱鹏,冯佳玮.镇江地区ECMWF模式高温预报订正方法研究[J].陕西气象,2020(2):38-42.
2李依婵,李育,彭思敏.副热带季风边缘区降水变化及其影响因素[J].兰州大学学报（自然科学版）,2020(6):765-773. 被引量：1
3钱维宏.瞬变涡扰动法在极端天气事件预报中的应用[J].气象科技进展,2012,2(5):44-48. 被引量：4
4钱维宏.多时间尺度气候变化[J].气象科技进展,2013,3(2):36-40. 被引量：2
5龚志强,王晓娟,任福民,封国林.亚欧中纬度关键区正位势高度距平场配置与中国冬季区域性极端低温事件的联系[J].大气科学,2013(6):1274-1286. 被引量：18
6钱维宏,陆波,梁浩原.年际和年代际冷暖变化是人类活动碳排放量增减的诱因[J].科学通报,2011,56(1):68-73. 被引量：3
7周锐.“全球气候变化”及其教学参考全球气候变化的两个关键性问题[J].中学地理教学参考,2011(3):4-6. 被引量：1
8QIAN WeiHong LU Bo LIANG HaoYuan.Changes in fossil-fuel carbon emissions in response to interannual and interdecadal temperature variability[J].Chinese Science Bulletin,2011,56(3):319-324. 被引量：2
9刘禹,蔡秋芳,宋慧明,安芷生,LINDERHOLM Hans W..青藏高原中东部2485年来温度变化幅度、速率、周期、原因及未来趋势[J].科学通报,2011,56(25):2042-2051. 被引量：11
10LIU YU,CAI QiuFang,SONG HuiMing,AN ZhiSheng,Hans W. LINDERHOLM.Amplitudes, rates, periodicities and causes of temperature variations in the past 2485 years and future trends over the central-eastern Tibetan Plateau[J].Chinese Science Bulletin,2011,56(28):2986-2994. 被引量：24

1WANG Pinxian.Global Monsoon and Long-Term Climate Changes[J].Bulletin of the Chinese Academy of Sciences,2009,23(4):220-221.
2CHEN Huo-Po,SUN Jian-Qi.How Large Precipitation Changes over Global Monsoon Regions by CMIP5 Models?[J].Atmospheric and Oceanic Science Letters,2013,6(5):306-311. 被引量：2
3冯瑞权,王安宇,吴池胜,林建恒,古志明,林文实,谭志文.THE CLIMATIC CHARACTERISTICS OF SUMMER MONSOON ONSET OVER THE SOUTH CHINA SEA I.40-YEAR AVERAGE[J].Journal of Tropical Meteorology,2002,8(1):10-19. 被引量：1
4WANG PinXian.Global monsoon in a geological perspective[J].Chinese Science Bulletin,2009,54(7):1113-1136. 被引量：27
5TIAN Zhi-Ping,JIANG Da-Bang.Mid-Holocene Ocean Feedback on Global Monsoon Area and Precipitation[J].Atmospheric and Oceanic Science Letters,2015,8(1):29-32. 被引量：3
6王黎娟,管兆勇,何金海,徐海明.Comparison of the Double Summer Monsoon Troughs over East Asia[J].Acta meteorologica Sinica,2007,21(1):75-86. 被引量：1
7DING Yihui,LIU Yanju,SONG Yafang,ZHANG Jin.From MONEX to the Global Monsoon:A Review of Monsoon System Research[J].Advances in Atmospheric Sciences,2015,32(1):10-31. 被引量：17
8ZHANG Lixia,ZHOU Tianjun.An Assessment of Improvements in Global Monsoon Precipitation Simulation in FGOALS-s2[J].Advances in Atmospheric Sciences,2014,31(1):165-178. 被引量：14
9黄海军,杜廷芹,郜昂.Modern changes of tidal troughs among the radial sand ridges in northern Jiangsu coastal zone[J].Chinese Journal of Oceanology and Limnology,2009,27(3):658-666.
10张秀芝,魏敏.THE STUDY ON THE RELATIONS BETWEEN MOISTURE FLUX IN EAST ASIA AND THE SOUTH CHINA SEA SUMMER MONSOON[J].Acta meteorologica Sinica,2003,17(S1):46-56. 被引量：1

Atmospheric and Oceanic Science Letters

2010年第1期

浏览历史

内容加载中请稍等...

Identifying Global Monsoon Troughs and Global Atmospheric Centers of Action on a Pentad Scale 被引量：18

参考文献38

同被引文献149

引证文献18

二级引证文献229

相关作者

相关机构

相关主题

浏览历史