OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

华东政法大学学报 2007

东南印度洋各锋位置和走向的季节变化及其与风场变化的关系

, PP. 18-24

贺志刚,董兆乾,蒲书箴

Keywords: 东南印度洋,锋,风场,季节变化,成锋机制

Full-Text Cite this paper Add to My Lib

Abstract:

利用剖面浮标的温盐观测资料和上层温度观测资料以及ECCO风应力数据研究了东南印度洋各主要海洋锋的位置、走向和风场的季节变化,并初步分析了亚热带锋(STF)和亚南极锋(SAF)的成锋机制.季节平均的夏季和冬季厄加勒斯锋(AF)分别可以延伸到80°E和82°E,AF在多数情况下可能与SAF和南亚热带锋(SSTF)汇合共同通过Kerguelen-AmsterdamPassage.在克尔盖伦海台以东海盆区,冬季SAF和PF的路径均比夏季偏南,在其他海域二者路径的季节差别不大.克尔盖伦海台以东的深海盆由北向南正负风应力旋度高值中心交替出现,且位置季节变化很小.85°~105°E之间零风应力旋度线位置冬季比夏季偏北.STF位于辐聚区,埃克曼抽吸导致的表层水辐聚可能是STF产生和维持的原因.SAF位置的季节南北摆动幅度小于风应力零旋度线的季节摆动幅度,夏季SAF位置略偏于风应力正旋度区,而冬季大多位于负旋度区,因此风应力旋度不是SAF形成的直接原因.

References

[1]	PAKR Y-H, GAMBERONI L, CHARRIAUD E. Frontal structure, water masses and circulation in the Crozet Basin[J]. Journal of Geophysical Research,1993, (98):12 361-12 385.
[2]	PARK Y-H, GAMBERONI L, CHARRIAUD E. Frontal structure and transport of the Antarctic Circumpolar Current in the South Indian Ocean sector, 40 -80 E[J]. Marine Chemistry, 1991, (35) : 45-62.
[3]	BELKIN I M, GORDON A L. Southern Ocean fronts from the Greenwich meridian to Tasmania [J]. Journal of Geophysical Research,1996, (101): 3 675-3 696.
[4]	RINTOUL S R, DONGUY J R, ROEMMICH D H. Seasonal evolution of upper ocean thermal structure between Tasmania and Antarctica[J]. Deep Sea Res Ⅰ, 1997, (44): 1 185-1 202.
[5]	SOKOLOV S,RINTOUL S R. Structure of Southern Ocean fronts at 140°E[J]. J Marine System, 2002, (37): 151-184.
[6]	苏玉芬董兆乾.南印度洋夏季的锋区及其水文特征[A]..南极科学考察论文集(第二集)[C].北京:海洋出版社,1984.25-40.
[7]	苗育田于洪华许建平等.斜航普里兹湾断面水温分布及温度锋特征[J].青岛海洋大学学报,1995,25(增刊):383—393.
[8]	侍茂崇苗育田于洪华等.南印度洋110°E夏季锋区特征及其变化规律[J].青岛海洋大学学报,1995,25(增01):394—405.
[9]	高郭平刘齐侍茂崇.印度洋南极极锋位置及下潜南极表层水的分离[J].青岛海洋大学学报,1995,25(增刊):424—431.
[10]	GILLE S T, KELLY K A. Scales of spatial and temporal variability in the Southern Ocean [J]. Journal of Geophysical Research, 1996,101(C4): 8 759-8 773.
[11]	TANSLEY C E, MARSHALL D P. On the Dynamics of Wind-Driven Circumpolar Current[J]. Journal of Physical Oceanography,2001, (31): 3 258-3 273.
[12]	GILLE S T, STEVENS D P, Tokmakian R T, et al. Antarctic Circumpolar Current response to zonally averaged winds[J]. Journal of Geophysical Research, 2001, 106(C2): 2 743-2 759.
[13]	YUAN X, MARTIN.SON D G, DONG Z. Upper ocean thermohaline structure and its temporal variability in the southeast Indian Ocean[J]. Deep-Sea Res, Part Ⅰ, 2004,51: 333-347.
[14]	RODEN G I. On the North Pacific temperature, salinity, sound velocity and density fronts and their relation to the wind and energy fluxes fields[J]. J Geophys Res, 1975, (5): 557-571.
[15]	RODEN G I. Oceanic subarctic fronts of the central North Pacific: structure of and response to atmospheric forcing[J]. J Phys Oceanogr, 1977, (7): 761-778.
[16]	SPARROW M D, HEYWOOD K J. Current structure of the south Indian Ocean[J]. J Geophys Res, 1996, (101): 6 377-6 391.
[17]	DEACON G E R. Physical and biological zonation in the Southern Ocean [J]. Deep-Sea Res, 1982, (29): 1- 15.
[18]	GILLE S T. Mean sea surface height of the Antarctic Circumpolar Current from geosat data: method and application[J]. J Geophys Res, 1994, (99): 18 255-1 8273.
[19]	NAGATA Y, MICHIDA Y, UMIMURA Y. Variation of positions and structures of the oceanic fronts in the Indian Ocean sector of the Southern Ocean in the period from 1965 to 1987 [A]. Sahrhage D. Antarctic Ocean and Resources variability [M]. New York, Springer-Verlag, 1988. 92-98.
[20]	GORDON A L. Southern Ocean Atlas[M]. New York: Columbia University Press, 1982.
[21]	MOORE J K, ABBOTT M R, RICHMAN J G. Location and dynamics of the Antarctic Polar Front from satellite sea surface temperature data [J]. J Geophys Res, 1999, 104(C2) :3 059-3 073.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133