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1.
南海海面高度和输运流函数: 全球 变网格模式结果 总被引:3,自引:1,他引:3
为了研究南海环流结构和变异及其与外部水域的关系, 我们建立了一个嵌套于全球大洋环流模式中的高分辨率中国近海环流数值模式. 给出模拟所得南海月平均以及年平均的海面高度和流函数分布, 与TOPEX/POSEIDON资料比较表明, 所得海面高度距平与观测十分一致. 基于这些结果, 讨论了南海的环流结构, 尤其是上层环流结构. 结果表明: 对于表层海水来说, 黑潮在冬、春和秋季均通过吕宋海峡入侵南海, 夏季则表层没有入侵. 但对于整个海水而言, 全年均有海水从太平洋通过吕宋海峡进入南海. 这一差异表明, 在夏季, 太平洋的海水是在次表层和中层入侵南海的.南海北部陆坡附近全年受气旋式环流控制. 夏季的南海南部反气旋流圈、越南东南离岸流和冬季的南海南部气旋流圈都得到了很好的再现. 南海海面高度和海面高度距平之间的差异明显. 表明, 在利用卫星高度计资料研究南海的上层环流时, 长期平均海面高度的空间分布有重要意义. 相似文献
2.
南海海面高度、动力地形和环流的周年变化——TOPEX/Poseidon卫星测高应用研究 总被引:15,自引:0,他引:15
用1993~1999年的TOPEX/Poseidon卫星测高资料, 分析了南海海面高度距平场(SSHA)的平均周年变化; 结合历史水文资料, 反演了多年平均的逐月海面动力地形; 探讨了南海动力地形及其所反映的上层环流季节特征和演变规律. 分析表明, 南海大尺度环流的周年演替可分为4个阶段. 冬季(11~2月)南海环流表现为以北部气旋环流为主的气旋型双圈结构, 相关的特征还包括吕宋海峡的黑潮入侵和加里曼丹岛西北外海的东北向离岸流. 春季(3~4 月)气旋型双圈结构解体, 北部的气旋型环流依然维持, 南部环流则向反气旋型演变, 大尺度环流结构呈现偶极子特征. 夏季(5~7 月)和秋季(8~10月)海盆内部不存在明显封闭的大尺度环流, 环流以西南-东北流向的季风急流为主要特征, 但夏、秋流态有较大差别. 5~7 月季风急流贴中南半岛北上, 在海南岛东南18°N附近沿地形折向东形成反气旋型弯曲, 穿越南海后再折向东北. 8~10 月季风急流在13°N附近即离开中南半岛海岸进入海盆中部, 其流态转变为气旋型. 在春、夏、秋三季, 黑潮的入侵都不明显. 上述变化规律显示南海环流的动力调整在季风盛期过后就已经开始. 相似文献
3.
本文从海面高度异常与海洋热含量变化的线性关系出发,利用1992~2004年多颗卫星融合海面高度资料,对南海海域的热含量异常进行了计算.这一计算结果与基于气候态温盐资料计算的热含量季节变化具有很好的一致性.本文得到的结果还显示南海热含量异常具有明显的长周期变化,表现为:1992~1998年基本保持比较稳定的年际变化特征,1998年之后,热含量出现明显的跃变,这一跃变一直维持到2001年,在2002年开始出现热含量的递减趋势.对此时间序列进行谐波分析可以看出,南海热含量异常除了具有显著的年变化周期外,还存在明显的0.5、1.5、2.4、4年和6年的变化周期.进一步分析还发现,南海12月份热含量异常可以作为南海夏季风爆发的一种预报指标. 相似文献
4.
对大气大洋耦合环流作直接的统计动力分析, 即将大气环流风场和大洋上层环流场看作一个整体, 作经验正交函数(矢量)展开, 从而可以得到在统计意义上的海气耦合模态和分析耦合的特征. 应用该方法对5月份热带印度洋区域(含南海)的大气大洋耦合环流进行联合统计动力分析, 得到以下结论: 第1模态是南海夏季风模态, 该模态时间系数序列有明显的两个态, 分别代表季风爆发前、后的大气、大洋环流并与南海夏季风爆发的迟早有密切关系; 在南海夏季风爆发偏早(晚)的年份, 印度洋表层到次表层的海温距平大多呈正(负)IOD形态, 印度洋赤道辐合带的上升运动和在该带南北两侧的动力性补偿下沉运动均偏强(弱); 总的说来该模态中大洋次表层到表层的流与地面风方向一致, 这表明该流是风生流. 第2模态反映ENSO在印度洋的延伸, 其时间系数序列也有两个态, 分别与Niño 3, 4区的海温异常相关较好. 相似文献
5.
联合卫星重力、卫星测高和海洋资料研究中国南海海平面变化 总被引:3,自引:0,他引:3
利用卫星测高、GRACE(Gravity Recovery and Climate Experiment)卫星重力和海洋实测与模式资料,在季节和年际尺度上,探讨了海水比容变化和海水质量变化对中国南海海平面变化的影响.在季节尺度上,利用测高和ECCO(Estimation of the Circulation and Climate of the Ocean)模式得到的南海海水质量引起的海平面变化的周年振幅和GRACE卫星独立观测的结果在地理分布上有很好的一致性.GRACE卫星观测到海水质量引起的南海平均海平面变化具有明显的季节性变化,其周年振幅为(2.7±0.4)cm;利用另一种独立的方法(测高减比容)得到的平均海平面周年振幅为(2.7±0.3)cm,两者符合得很好.在年际尺度上,南海平均海平面变化表现出明显的年际变化特征,且主要为比容海平面变化的贡献.卫星测高结果表明,1993~2009年的南海平均海平面变化为(5.5±0.7)mm/a,明显高于同期全球平均海平面变化趋势(3.3±0.4)mm/a.GRACE卫星观测到的海水质量变化没有表现出明显的趋势信号,这说明南海整体上与周边海域或陆地水的水循环是平衡的. 相似文献
6.
利用测高数据的一次差分计算海域垂线偏差,有效降低了动力海面地形和系统残差对垂线偏差的影响;然后根据扰动场元间的协方差函数是具有各态历经性的平稳随机函数这一特征,提出了利用垂线偏差精确逼近海域大地水准面的协方差函数. 而海域大地水准面的精确确定,为从测高数据中精确分离动力海面地形提供了条件. 本文还利用Topex/Poseidon、ERS 1/2测高数据计算了全球海域大地水准面和动力海面地形,证明了本文所述方法是科学合理的. 相似文献
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9.
海平面变化是社会经济发展和科学研究的重要内容.利用1993年1月至2012年12月共20年的TOPEX/Poseidon、Jason-1和Jason-2卫星测高数据,研究中国海海平面的时空变化.首先通过三颗卫星伴飞阶段数据得到三颗卫星之间的逐点海面高系统偏差,进行逐点海面高改正,建立了20年的中国海海面高异常时间序列.分析了中国海海面高异常空间分布,给出了1月到12月月均平均海平面异常的空间变化规律.分析了中国海海面高异常的时变规律,分别给出了年、季度和月的海面上升速率.利用小波分析研究了中国海海面高异常周期变化规律,分别给出了渤海、黄海、东海和南海的海面高变化周期.讨论了ENSO对海面高异常的影响. 相似文献
10.
依据Argo的海洋盐度观测及降水、蒸发、海面高度等数据分析了全球海洋表层盐度的平均态和低频变化特征及其与海洋环流和气候变化的关系,并结合前人成果对海洋盐度的研究进行了回顾和展望.蒸发减降水在最低阶上决定了海洋表层盐度的分布,海洋环流动力过程在大部分海域调整了海洋表层盐度的空间结构,并影响了海洋表层盐度的低频变率.全球变暖的情况下,海洋表层盐度表现为盐度高的地方会变得更高、盐度低的地方会变得更低,表征为整个水循环系统的加强.在最近20年全球变暖停滞期,海表盐度变化与全球变暖的趋势不同,更多地体现了对气候系统的年代际及多年代际振荡的响应,此阶段对应着Walker环流加强;西太平洋和东南印度洋海表盐度的反向变化揭示了跨海盆尺度海洋动力过程的重要性,海洋Rossby波和印尼贯穿流的共同作用使得东南印度洋海表盐度显著降低;在东南太平洋和北大西洋更多地体现了全球变暖下的海表盐度单调升高或降低的响应.期待未来的盐度卫星能够提供更高时空分辨率的盐度数据,这将和Argo观测一起,拓展我们在中尺度动力学、区域海洋学以及气候变化等方面的认知. 相似文献
11.
Annual variation of sea surface height, dynamic topography and circulation in the South China Sea —— A TOPEX/Poseidon satellite altimetry study 总被引:1,自引:0,他引:1
The South China Sea (SCS) is a semi-enclosed deep basin with complex topography includ-ing broad continental shelves, steep slopes, and a large deep basin. It is dominated by prevailing southwest monsoon in summer and by much stronger northeast monsoon in… 相似文献
12.
TOPEX/Poseidon satellite altimetry data from 1993 to 1999 were used to study mean annual variation of sea surface height anomaly
(SSHA) in the South China Sea (SCS) and to reproduce its climatological monthly surface dynamic topography in conjunction
with historical hydrographic data. The characters and rules of seasonal evolution of the SCS dynamic topography and its upper
circulation were then discussed. Analyses indicate that annual variation of the SCS large-scale circulation could be divided
into four major phases. In winter (from November to February), the SCS circulation is mainly controlled by double cyclonic
gyres with domination of the northern gyre. Other corresponding features include the Kuroshio intrusion from the Luzon Strait
and the northeastward off-shelf current in the area northwest off Kalimantan Island. The double gyre structure disassembled
in spring (from March to April) when the northern gyre remains cyclonic, the southern gyre becomes anticyclonic, and the general
circulation pattern shows a dipole. There is no obvious large-scale closed gyre inside the SCS basin in both summer (from
May to July) and autumn (from August to October) when the SCS Monsoon Jet dominates the circulation, which flows northeastward
across the SCS. Even so, circulation patterns of these two phases diverse significantly. From May to July, the SCS monsoon
jet flows northward near the Vietnam coast and bends eastward along the topography southeast off Hainan Island at about 18°N
forming an anticyclonic turn. It then turns northeastward after crossing the SCS. From August to October, however, the monsoon
Jet leaves the coast of Vietnam and enters interior of the basin at about 13°N, and the general circulation pattern becomes
cyclonic. The Kuroshio intrusion was not obvious in spring, summer and autumn. It is suggested from these observations that
dynamic adjustment of the SCS circulation starts right after the peak period of the prevailing monsoon. 相似文献
13.
利用1979—2013年NCEP/DOE再分析资料的大气多要素日平均资料、美国NOAA日平均向外长波辐射资料和ERSST月平均海温资料,分析赤道大气季节内振荡(简称MJO)活动对南海夏季风爆发的影响及其与热带海温信号等的协同作用.结果表明,赤道MJO活动与南海夏季风爆发密切联系,MJO的湿位相(即对流活跃位相)处于西太平洋位相时,有利于南海夏季风爆发,而MJO湿位相处于印度洋位相时,则不利于南海夏季风爆发.赤道MJO活动影响南海夏季风爆发的物理过程主要是大气对热源响应的结果,当MJO湿位相处于西太平洋位相时,一方面热带西太平洋对流加强使潜热释放增加,导致处于热源西北侧的南海—西北太平洋地区对流层低层由于Rossby响应产生气旋性环流异常,气旋性环流异常则有利于西太平洋副热带高压的东退,另一方面菲律宾附近热源促进对流层高层南亚高压在中南半岛和南海北部的建立,使南海地区高层为偏东风,从而有利于南海夏季风建立;当湿位相MJO处于印度洋位相时,热带西太平洋对流减弱转为大气冷源,情况基本相反,不利于南海夏季风建立.MJO活动、孟加拉湾气旋性环流与年际尺度海温变化协同作用,共同对南海夏季风爆发迟早产生影响,近35年南海夏季风爆发时间与海温信号不一致的年份,基本上是由于季节转换期间的MJO活动特征及孟加拉湾气旋性环流是否形成而造成,因此三者综合考虑对于提高季风爆发时间预测水平具有重要意义. 相似文献
14.
用经验正交函数分析方法,对中国近海14年多的测高海平面同化格网资料进行分析,给出了黄海、东海和南海各海平面变化主要主成分的空间变化和时间变化特征.用标准Morlet小波变换方法分析了各海区主成分时间变化序列的时频特征.分析结果表明,各主成分的空间分布特征与当地的海洋环流或洋流特征相对应.时频分析结果显示,中国近海海平面变化的显著周期主要为年周期信号.其次,黄海和东海还显示准2个月的非稳态信号,东海和南海具有较显著的半年周期信号,东海半年周期信号的能量不稳定.此外,在南海及台湾东部海域,首次发现存在较为显著的准540天周期信号,其动力学机制目前尚不明确.坎门和西沙验潮站资料的时频特征分析也验证了该信号的存在.最后本文给出了中国近海海平面在1993~2007年间的平均上升速率和其区域分布特征. 相似文献
15.
Sea surface height and transport stream function of the South China Sea from a variable-grid global ocean circulation model 总被引:8,自引:0,他引:8
The study on the South China Sea (SCS) circulation has a history of more than 40 years. Nevertheless, the SCS circulation is not fully understood compared with the Bohai Sea, Yellow Sea and East China Sea (ECS). Many numerical studies on the SCS circulati… 相似文献
16.
A high resolution (3–8 km grid), 3D numerical ocean model of the West Caribbean Sea (WCS) is used to investigate the variability
and the forcing of flows near the Meso-American Barrier Reef System (MBRS) which runs along the coasts of Mexico, Belize,
Guatemala and Honduras. Mesoscale variations in velocity and temperature along the reef were found in seasonal model simulations
and in observations; these variations are associated with meandering of the Caribbean current (CC) and the propagation of
Caribbean eddies. Diagnostic calculations and a simple assimilation technique are combined to infer the dynamically adjusted
flow associated with particular eddies. The results demonstrate that when a cyclonic eddy (negative sea surface height anomaly
(SSHA)) is found near the MBRS the CC shifts offshore, the cyclonic circulation in the Gulf of Honduras (GOH) intensifies,
and a strong southward flow results along the reef. However, when an anticyclonic eddy (positive SSHA) is found near the reef,
the CC moves onshore and the flow is predominantly westward across the reef. The model results help to explain how drifters
are able to propagate in a direction opposite to the mean circulation when eddies cause a reversal of the coastal circulation.
The effect of including the Meso-American Lagoon west of the Belize Reef in the model topography was also investigated, to
show the importance of having accurate coastal topography in determining the variations of transports across the MBRS. The
variations found in transports across the MBRS (on seasonal and mesoscale time scales) may have important consequences for
biological activities along the reef such as spawning aggregations; better understanding the nature of these variations will
help ongoing efforts in coral reef conservation and maintaining the health of the ecosystem in the region. 相似文献
17.
The circulation of the Southern Ocean is studied in the eddy-resolving model POP (Parallel Ocean Program) by an analysis
of zonally integrated balances. The TEM formalism (Transformed Eulerian Mean) is extended to include topography and continental
boundaries, thus deviations from a zonally integrated state involve transient and standing eddies. The meridional circulation
is presented in terms of the Eulerian, eddy-induced, and residual streamfunctions. It is shown that the splitting of the meridional
circulation into Ekman and geostrophic transports and the component induced by subgrid and Reynolds stresses is identical
to a particular form of the zonally integrated balance of zonal momentum. In this balance, the eddy-induced streamfunctions
represent the interfacial form stresses by transient and standing eddies and the residual streamfunction represents the acceleration
of the zonal current by density fluxes in a zonally integrated frame. The latter acceleration term is directly related to
the surface flux of density and interior fluxes due to the resolved and unresolved eddies. The eddy-induced circulation is
extremely vigorous in POP. In the upper ocean a shallow circulation, reversed in comparison to the Deacon cell and mainly
due to standing eddies, appears to the north of Drake Passage latitudes, and in the Drake Passage belt of latitudes a deep-reaching
cell is induced by transient eddies. In the resulting residual circulation the Deacon cell is largely cancelled and the residual
advection of the zonal mean potential density is balanced by diapycnal eddy and subgrid fluxes which are strong in the upper
few hundred meters but small in the ocean interior. The balance of zonal momentum is consistent with other eddy-resolving
models; a new aspect is the clear identification of density effects in the zonally integrated balance. We show that the wind
stress and the stress induced by the residual circulation drive the eastward current, whereas both eddy species result in
a braking. Finally, we extend the Johnson–Bryden model of zonal transport to incorporate all relevant terms from the zonal
momentum balance. It is shown that wind stress and induction by the residual circulation carry an eastward transport while
bottom form stress and the stress induced by standing eddies yield westward components of transport.
Received: 26 June 2001 / Accepted: 2 November 2001 相似文献
18.
Progress on deep circulation and meridional overturning circulation in the South China Sea 总被引:2,自引:0,他引:2
DongXiao Wang JinGen Xiao YeQiang Shu Qiang Xie Ju Chen Qiang Wang 《中国科学:地球科学(英文版)》2016,59(9):1827-1833
The deep overflow through the Luzon Strait drives the cyclonic deep circulation in the South China Sea (SCS). In the mean time, the intruding Pacific deep water transforms and upwells due to enhanced diapycnal mixing in the SCS. Both processes greatly contribute to the SCS meridional overturning circulation (SCSMOC). At the same time, both the deep circulation and meridional overturning circulation are modulated by rough topography in the SCS. Furthermore, the spatial structure of the SCSMOC infers a link between the upper-layer circulation and deep circulation in the SCS. This paper reviews recent advances in the SCS deep circulation and meridional overturning circulation, including the driving mechanism of the SCS deep circulation and its modulation by topography, as well as the spatial structure of the SCSMOC and its dynamical mechanism. 相似文献
19.
Aditya R. Kartadikaria Yasumasa Miyazawa Kazuo Nadaoka Atsushi Watanabe 《Ocean Dynamics》2012,62(1):31-44
An eddy-resolving Indo-Pacific ocean circulation model was applied to highlight the behavior of eddies throughout the Indonesian
seas. The complexity of the topography and coastline at the entrance of the Makassar Strait induce an eddy-type throughflow,
instead of a straightforward flow. A sill and a narrow passage in the Makassar strait creates a barrier and impedes the continuation
of eddies from the Pacific ocean, but the existence of a steep deep basin (>500 m depth) between the Java and Flores seas
indicates a possible area for eddies. Based on our numerical results, we described the presence of a unique eddy structure
north of Lombok Island, which we designated the “Lombok Eddy” and verified it by performing a drifter release field experiment
and reviewing monthly mean climatology data from the World Ocean Atlas 2001 and XBT PX2 track data. NCEP/NCAR reanalysis,
satellite observation data, and mixed layer depth analysis were also used to confirm these processes. By analyzing numerical
simulation results and available temperature datasets, two additional eddies were found. All eddies form primarily due to
eastward local winds correlated with seasonal monsoon winds during the austral summer. These eddies vary synchronously at
an interannual time scale. Together, they are referred to as the Lombok Eddy Train (LET), which affects the surface layer
down to a depth of 60 m, and the intensity of the eddy system is strongly affected by mixed layer depth variability from December
to February. 相似文献
20.
Some aspects of the monsoon circulation and monsoon rainfall 总被引:1,自引:0,他引:1
R. Ananthakrishnan 《Pure and Applied Geophysics》1977,115(5-6):1209-1249
Summary The south Asian summer monsoon from June to September accounts for the greater part of the annual rainfall over most of India and southeast Asia. The evolution of the summer and winter monsoon circulations over India is examined on the basis of the surface and upper air data of stations across India. The salient features of the seasonal reversals of temperature and pressure gradients and winds and the seasonal and synoptic fluctuations of atmospheric humidity are discussed. The space-time variations of rainfall are considered with the help of climatic pentad rainfall charts and diagrams. The rainfall of several north and central Indian stations shows a minimum around mid-August and a maximum around mid-February which seem to be connected with the extreme summer and winter positions of the ITCZ and the associated north-south shifts in the seasonal circulation patterns. Attention is drawn to the characteristic features of the monsoon rainfall that emerge from a study of daily and hourly rainfall of selected stations. Diurnal variations of temperature, pressure, wind and rainfall over the monsoon belt are briefly treated. 相似文献