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利用2008年89月份吕宋海峡121°E断面上19.5°N~21°N之间4个连续站的CTD资料,讨论了内潮引起的温、盐剖面扰动对地转流诊断计算的影响,指出:在吕宋海峡,内潮引起的温、盐剖面扰动对地转流诊断计算的干扰不可忽略。因此,地转流诊断计算必须剔除温、盐剖面中的"内潮噪声"。另外,本文根据4个连续站时间平均后的温、盐剖面,通过动力计算法得到了吕宋海峡121°E断面上的地转流场,得出结论如下:吕宋海峡地转流速度较大部分多位于350 m以浅,流速最大值出现在表层;黑潮入侵南海主要发生于19.8°N~21°N的上层;在19.5°N~21°N之间,501 700 m深度范围内,海水体积通量呈现"上进下出"的垂向结构,350 m以浅为入流,流量约为2.6 Sv(1 Sv=1×106m3.s-1),350 m以深为出流,流量约为3.1 Sv。同期观测所得121°E断面上的盐度分布验证了本文所得地转流场的合理性。
Abstract:On the basis of CTD data obtained on 4 repeat-observed stations located at 121°E,19.5°N ~21°N in the Luzon Strait of the cruise in the summer of 2008,the role of disturbances caused by internal tides in temperature and salinity profiles in calculating of the geostrophic currents is discussed.The result shows that the role of disturbances caused by internal tides in temperature and salinity profiles in calculating of the geostrophic currents is significant.When we use hydrographic data to calculate the geostrophic currents we have to take measures to remove the disturbances caused by internal tides in temperature and salinity profiles,unless there would be great errors.By using the time-averaged CTD data,the geostrophic currents in the Luzon Strait is calculated.The result reveals that the significant part of the geostrophic currents appear above 350 m.Kuroshio intrusion mainly happens between 19.5°N and 21°N,especially at the upper layer.Between 19.5°N and 21°N,the water volume transport shows a "flowing in at upper layer and flowing out at deeper layer" vertical structure,above 350 m the transport is westward(2.6 Sv) and below 350 m it is eastward(3.1 Sv).The distribution of the geostrophic currents we get is confirmed by the salinity distribution along 121°E Section.
[1]Qu T,Kim Y Y,Yaremchuk M,et al.Can Luzon Strait transportplay a role in conveying the impact of ENSO to the South ChinaSea?[J].Journal of Climate,2004,17:3644-3657.
[2]Qu T,Girton J B,Whitehead J A.Deepwater overflow across Lu-zon Strait[J].Journal of Geophysical Research,2006,111,C01002,doi:10.1029/2005JC003139.
[3]Wyrtki K.Scientific results of marine investigations of the South ChinaSea and the Gulf of Thailand 1959-1961:Physical Oceanography of theSoutheast Asia Waters[R].Naga:Naga Report 2,1961:1-195.
[4]Nitani,H.Beginning of the Kuroshio[M].Tokyo:University ofTokyo Press,1972:353-369.
[5]李立,伍伯瑜.黑潮的南海流套——南海北部环流的探讨[J].台湾海峡,1989,8(1):90-95.
[6]黄企洲.巴士海峡黑潮流速和流量的变化[J].热带海洋,1983,2(1):35-40.
[7]管秉贤.巴士海峡及其附近夏季环流分布特征[J].黄渤海海洋,1990,8(4):1-8.
[8]许建平,苏纪兰.黑潮水入侵南海的水文分析Ⅱ.1994年8~9月期间的观测结果[J].热带海洋,1997,16(2):1-23.
[9]刘秦玉,杨海军,李薇,等.吕宋海峡纬向海流及质量输送[J].海洋学报,2000,22(2):1-8.
[10]Tian J,Yang Q,Liang X,et al.Observation of Luzon Straittransport[J].Geophysical Research Letters,2006,33,L19607,doi:10.1029/2006GL026272.
[11]杨庆轩.吕宋海峡通量及南海混合研究[D].青岛:中国海洋大学,2008.
[12]Metzger E J,Hurlburt H E.Coupled dynamics of the South Chi-na Sea,the Sulu Sea,and the Pacific Ocean[J].Journal of Geo-physical Research,1996,101:12331-12352.
[13]Lebedev K V,Yaremchuk M I.A diagnostic study of the Indone-sian Throughflow[J].Journal Geophysical Research,2000,105:11243-11258.
[14]Metzger E J,Hurburt H E.The nondeterministic nature of Kur-oshio penetration and eddy shedding in the South China Sea[J].Journal of Physical Oceanography,2001,31:1721-1732.
[15]Yaremchuk M,Qu T.Seasonal variability of the large scale cur-rents near the coast of the Philippines[J].Journal of Physical O-ceanography,2004,34:844-855.
[16]赵伟,侯一筠,乐肯堂,等.吕宋海峡水交换季节变化的数值研究[J].海洋与湖沼,2007,38(6):495-503.
[17]袁耀初,楼如云,刘勇刚,等.2002年春季吕宋海峡海流:观测与改进逆模式计算[J].海洋学报,2005,27(3):1-13.
[18]袁耀初,苏纪兰,周伟东.1986年5~6月日本以南海域黑潮流场计算[M].黑潮调查研究论文选(一).北京:海洋出版社,1990:385-396.
[19]卜献卫,袁耀初,刘勇刚.P矢量方法在南海夏季环流诊断计算中的应用[J].海洋学报,2001,23(3):8-17.
[20]Stewart R H.Introduction to physical oceanography[M].Tex-as:Department of Oceanography Texas A&M University,2006.
[21]杨跃红,李立,王肇鼎.南海的平均T-S,S-Z,T-Z特性[J].热带海洋,1988,7(3):54-59.
[22]Emery W J,Dewar J S.Mean TS SZ and TZ curve for the NorthAtlantic and the North Pacific[J].Progress of Oceanography,1982,11:219-305.
[23]李凤岐,李磊.1998年夏、冬季南海的水团及其与太平洋的水交换[J].青岛海洋大学学报,2002,32(3):329-336.
基本信息:
DOI:10.16441/j.cnki.hdxb.2010.02.003
中图分类号:P731.23
引用信息:
[1]高坤,陈学恩,于华明,等.内潮对吕宋海峡地转流动力计算的影响[J].中国海洋大学学报(自然科学版),2010,40(02):9-16.DOI:10.16441/j.cnki.hdxb.2010.02.003.
基金信息:
国家高技术研究发展计划项目(2006AA09A314,2008AA09A402)资助
2010-02-15
2010-02-15