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1.
《应用海洋学学报》2010,(2)
台湾海峡介于台湾岛与大陆之间,是东海与南海的通道.关于台湾海峡范围的划分,海峡之东常以台湾岛两端(北为富贵角,南为鹅銮鼻)为界;海峡之西以大陆的平潭岛等为北界,东山岛或南澳岛为南界.为了更客观和准确地划分台湾海峡范围,本文根据海洋地理学中"海峡"的概念及对世界海峡类似实例的分析,并按照台湾海峡区域地形、地质等特征进行了分界.作者认同台湾海峡北口位于福建省平潭岛至台湾富贵角,但认为其南口应位于广东南澳岛至台湾曾文溪河口南岸.在此南、北口之间为台湾海峡范围.台湾海峡地形、地质等特征明显,与台湾及大陆紧密关联,并具有东海延伸入内的特点.而北口之北的闽东北海底,海峡特征明显消失.此南口为东海与南海的交汇处,其南属于南海的台湾浅滩及其外缘,其地形、地质特征也与海峡的显著不同.本研究结果对于更准确地划分台湾海峡范围及区域海洋研究与实践等方面都具有多方面的意义. 相似文献
2.
关于台湾海峡分界的探讨 总被引:1,自引:0,他引:1
台湾海峡介于台湾岛与大陆之间,是东海与南海的通道.关于台湾海峡范围的划分,海峡之东常以台湾岛两端(北为富贵角,南为鹅銮鼻)为界;海峡之西以大陆的平潭岛等为北界,东山岛或南澳岛为南界.为了更客观和准确地划分台湾海峡范围,本文根据海洋地理学中"海峡"的概念及对世界海峡类似实例的分析,并按照台湾海峡区域地形、地质等特征进行了分界.作者认同台湾海峡北口位于福建省平潭岛至台湾富贵角,但认为其南口应位于广东南澳岛至台湾曾文溪河口南岸.在此南、北口之间为台湾海峡范围.台湾海峡地形、地质等特征明显,与台湾及大陆紧密关联,并具有东海延伸入内的特点.而北口之北的闽东北海底,海峡特征明显消失.此南口为东海与南海的交汇处,其南属于南海的台湾浅滩及其外缘,其地形、地质特征也与海峡的显著不同.本研究结果对于更准确地划分台湾海峡范围及区域海洋研究与实践等方面都具有多方面的意义. 相似文献
3.
一、前言台湾海峡属于东海的一部分,是进行海洋研究、开发海洋资源的一个重要海域。过去,虽作过一些调查,但至今尚无关于台湾海峡海底地形、沉积和构造等方面较完整的资料。根据国民经济建设的需要,我们在开展东海大陆架调查的基础上,为完整东海大陆架的海洋地质地貌资料和统一编绘东海地貌类型图,对台湾海峡的地质地貌资料,进行了搜集和汇编,并编制出版了1:50万台湾海峡地形、底质图。台湾海峡地形图是台湾海峡地貌形态描述的依据,它要求客观地反映海峡地形特征和各种地形形态的分布,如海底浅滩、水道和盆地等。编制海峡地形图也为编制该区其它专业地图提供可靠的工作底图。根据台湾海峡地形图的性质和用途,对该图编制过程中的一些问题进行讨论。 相似文献
4.
本文建立了一个气候态驱动的台湾海峡物理-生态耦合模型(ROMS-NPZD)。与遥感观测数据的比较表明,模型能够较好地模拟出冬、夏季台湾海峡主要的温度和叶绿素分布特征。模型揭示了夏季台湾海峡营养盐输运的东、西通道,与南海次表层水的入侵通道一致;冬季,海峡中的营养盐来源于闽浙沿岸水和通过澎湖水道入侵的南海次表层水。模拟结果表明:夏季,通过海峡流入东海的氮主要为有机氮;冬季,闽浙沿岸流为海峡和南海北部陆架提供了丰富的营养盐,不仅如此,南海次表层水进入海峡的营养盐通量与夏季相当。 相似文献
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6.
台湾海峡是我国三大海峡之一,位于我国东海大陆架南部,与南海陆架连接,南北长约380公里,东西平均宽约190公里,属纵长型海峡。台湾海峡海岸漫长曲折,福建沿海岛屿星罗棋布,半岛、港湾鳞次栉比,大小港湾共计有125个。 相似文献
7.
海底沙体是海洋资源开发利用、环境保护、灾害防治和军事行动等必须密切关注的底质类型。台湾海峡沙体面积分布广泛,主要有台湾浅滩、台中浅滩及海峡内受中小型山溪性河流影响的沙体。近年来,台湾浅滩沙体空间分布、大型沙波与小型沙波形态特征及剖面结构研究等领域取得了许多新进展;台中浅滩不同区域的沙体演化对应了地貌发育的不同阶段;而海峡西侧陆架上残留的中小河流沙体地貌也获得了一些新发现。本文归纳了台湾海峡窄陆架上不同沙体的平面分布特征、剖面结构及成因。今后工作的重点应聚焦于进一步获取不同区域高分辨率的地层、地貌证据,并进行对比研究。这些工作能深化对末次盛冰期以来台湾海峡不同地区沙体成因、关联及演化的认识,并有助于了解人类海洋活动与海底沙体演化的响应关系,丰富海底沙体发育和演化理论。 相似文献
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9.
利用ECOM模式模拟南海正压M2、S2、K1、O1分潮, 对南海潮能通量及潮能耗散进行研究.结果显示, M2、S2、K1和O1分潮分别有38.93、5.77、29.73和28.97GW的能通量经吕宋海峡传入南海, 并有2.42、0.36、8.67和7.86GW的能通量由南海经卡里马塔海峡传入爪哇海.由东海及吕宋海峡西北部传入台湾海峡的M2分潮能通量为25.28GW.半日潮进入北部湾和泰国湾的能通量较少(6.52GW), 全日潮则较大(24.74GW).通过民都洛和巴拉巴克海峡断面, 全日潮由南海向苏禄海共输送12.28GW的能通量, 而半日潮则由苏禄海向南海输送1.92GW的能通量.由模式输出结果估计得到的南海各局部海域的底摩擦耗散与净潮能通量存在差异, 为使二者平衡, 可对南海不同海域的底摩擦系数进行调整.依净潮能通量与底摩擦耗散平衡关系计算得到台湾海峡、北部湾、泰国湾及南海深水海域的底摩擦系数分别为0.0023、0.0024、0.0023和0.0021. 相似文献
10.
开放式台湾海峡GIS设计方案 总被引:1,自引:0,他引:1
台湾海峡地理复杂 ,海况典型 ,南北长约333km ,面积大约77000km2,最大水深1400m ,是连接东海和南海的重要通道[1]。作者选择台湾海峡这一典型海区 ,构建一个开放式台湾海峡GIS系统 ,或称为数字台湾海峡 ,并把它定位为中国数字海洋的区域性子系统。本文讨论该系统的结构设计和关键性技术问题。1数字台湾海峡的模式特点从管理模式上 ,数字台湾海峡的数据组织、活动规划、应用范畴等都体现海洋研究与管理的方方面面[2] ,满足和遵循海洋行业管理、海洋综合管理、海洋区域管理的数字海洋总体模式。但它又是一个具区… 相似文献
11.
东海陆架斜坡和台湾海峡是我国东部近海从大洋和南海获取热量、盐量和营养盐的两个主要边界。本文建立了一个不规则分布漂流浮标轨迹的网格化处理方法和跨边界交换估算方法。该方法得到的漂流浮标轨迹累计次数再现了黑潮主轴位置并表明主轴两侧浮标存在显著的跨陆坡交换现象。浮标轨迹的统计结果揭示了东海陆坡上水体交换具有显著的区域性,即陆坡上存在7个主要交换区,3个交换区以入流为主,另4个交换区以出流为主。研究也表明跨东海陆坡交换具有明显的季节变化特征,秋季交换最剧烈且入流最显著,春季最弱。穿越台湾海峡的交换主要以北向入流为主,海峡东侧的交换更加明显,一年之中夏季最显著,春、冬季最弱。 相似文献
12.
Transports of water and nutrients (N and P) through the Taiwan Strait were calculated using chemical hydrography and currents observed in May and August 1999. The surveys were conducted along a transect across the strait in the middle section. The velocity fields were determined by phase-averaging currents measured using shipboard Acoustic Doppler Current Profiler (ADCP) on two repeats, which were separated by 1.5 cycles of the dominant M2 tide. Nutrient distributions were also derived from phase-averaged data. The volume transports determined from the two surveys were similar (2.0 Sv and 2.2 Sv, respectively). By contrast, the nutrient fluxes obtained in August (1.82 kmol N/s and 0.34 kmol P/s) were significantly higher than those in May (0.96 kmol N/s and 0.16 kmol P/s), apparently due to coastal upwelling under southwest monsoon in summer. The rather low N/P ratios (6.0 and 5.4 by atoms) of the nutrient fluxes were attributed to the widespread N-deficiency in the upper water column of the North Pacific. The nutrient fluxes were fed mainly through a meridional deep channel off southwest Taiwan. The nutrient contributions from the Taiwan Strait to the East China Sea in spring and summer are comparable to the total riverine contributions from the Changjiang (also know as the Yangtze River) and other smaller rivers for nitrogen, but 8–17 times larger than the latter for phosphate. Therefore, the Taiwan Strait inflow may serve as an important supplement for the P-limiting condition in the huge coastal plume in the East China Sea. 相似文献
13.
Chen-Tung Arthur Chen 《Journal of Oceanography》2008,64(5):737-751
Surface maps of nitrate, phosphate and silicate of the East China Sea (ECS) have been constructed and are described. Reports
on exchanges of material between the ECS and the South China Sea (SCS) through the Taiwan Strait are reviewed. Recent advances
seem to have reversed the earlier view that the SCS exports nutrients to the ECS through the Taiwan Strait. This is because
the northward flow of seawater in the summer carries little nutrient. On the other hand, the waters flowing southward along
the coast of China in winter carry orders of magnitude higher nutrient concentrations. The outflow of subsurface waters from
the SCS, however, is the major source of new nutrients to the ECS continental shelves because these subsurface waters flow
out of the Luzon Strait, join the northwardly flowing Kuroshio and enter the Okinawa trough. Around 10% of the nutrients exported
from the SCS through the Luzon Strait upwell onto the ECS shelf. These inputs are larger than the aggregate of all the rivers
that empty into the ECS, contributing 49% of the externally sourced nitrogen, 71% of the phosphorous, and 54% of the silica
for the ECS. 相似文献
14.
台湾海峡盆地的地质构造特征及演化 总被引:4,自引:0,他引:4
分析了台湾海峡盆地形成的区域地质背景,将其纳入东海和南海盆地形成的框架内考虑,研究其区域演化阶段和盆地演化特征。结果表明,以台湾海峡盆地为中心的包括南海北部陆缘和东海在内的中国东南沿海地区在古新世—始新世期间处于统一的边缘海盆构造背景之下,而自晚始新世起,南海北部大陆边缘与其北部的台湾海峡地区、东海逐渐走上了不同的演化道路,前者向非典型的被动大陆边缘演变,而后者则继续其自古新世—始新世以来的演化进程,形成了自古新世至晚中新世间的4个有序分布的裂陷盆地群和相应的盆间弧体系。台湾海峡盆地有两次独特的前陆盆地经历,分别发生于晚渐新世—早中新世和晚中新世末至今,并且以第二次前陆最为强烈。 相似文献
15.
A numerical study of the summertime flow around the Luzon Strait 总被引:3,自引:0,他引:3
Luzon Strait, a wide channel between Taiwan and Luzon islands, connects the northern South China Sea and the Philippine Sea.
The Kuroshio, South China Sea gyre, monsoon and local topography influence circulation in the Luzon Strait area. In addition,
the fact that the South China Sea is a fairly isolated basin accounts for why its water property differs markedly from the
Kuroshio water east of Luzon. This work applies a numerical model to examine the influence of the difference in the vertical
stratification between the South China Sea and Kuroshio waters on the loop current of Kuroshio in the Luzon Strait during
summer. According to model results, the loop current’s strength in the strait reduces as the strongly stratified South China
Sea water is driven northward by the southwest winds. Numerical results also indicate that Kuroshio is separated by a nearly
meridional ridge east of Luzon Strait. The two velocity core structures of Kuroshio can also be observed in eastern Taiwan.
Moreover, the water flowing from the South China Sea contributes primarily to the near shore core of Kuroshio. 相似文献
16.
东海与邻近海域水、热、盐通量的季节变化研究 总被引:1,自引:0,他引:1
本文基于高分辨率的区域海洋数值模式对东海及邻近海域进行温、盐、流的数值模拟,模拟结果与实测结果拟合较好。结果表明:东海与邻近海域的水交换过程具有显著的季节变化特征。从流量的角度看,台湾海峡、台湾-西表岛之间水道和西表岛-冲绳岛之间水道是外海水流入东海的3个主要水道,而冲绳岛-奄美大岛、吐噶喇海峡、大隅海峡、济州岛东部和黄东海断面是海水流出东海的水道;其年平均体积输运值分别为1.06×106 m3/s、20.49×106 m3/s、3.20×106 m3/s、-0.92×106 m3/s、-20.59×106 m3/s、-0.30×106 m3/s、-2.37×106 m3/s和-0.37×106 m3/s(向内为正)。对比发现,东海与邻近海域之间各水道的体积、热量和盐量输运均具有相似的季节变化趋势,其最大值往往出现在夏季(7月或8月),最小值往往出现在冬季(1月或2月)。从7月到11月整个东海是流量净流出的过程,而从12月到翌年6月是流量净流入的过程,全年流量基本上保持平衡状态。东海终年存在向黄海的净输入,其体积、热量和盐量的年平均输运值分别为0.37×106 m3/s,0.027×1015 W和12.7×106 kg/s。 相似文献
17.
渤海海峡是渤黄海物质交换的重要通道,同时也是黄河入海泥沙向黄海搬运的必经路径。本文以2006—2009年渤海海峡8个站位四个季节的悬浮体、CTD数据为基础,将标准层悬浮体浓度数据与浊度数据对比获得高垂直分辨率的悬浮体浓度数据,分析其季节变化特征,并结合日均风场驱动的高精度数值模型模拟的渤海海峡流场,计算了四个季节渤海海峡悬浮体通量。结果表明,北黄海冷水团的入侵和退缩是渤海海峡温盐及其季节变化的重要特征之一,四季节流场特征均为"北进南出";渤海海峡中上层悬浮体浓度分布为海峡南部浓度高、北部浓度低,夏季海峡北部下层北黄海冷水团控制海域悬浮体浓度高于周围水体。春季、夏季、秋季、冬季悬浮体浓度依次增高。观测期间渤海海峡悬浮体的年净通量约为251.63万吨,其中输往黄海方向的悬浮体通量约占黄河年平均输沙量的4.27%。 相似文献
18.
Spatiotemporal characteristics of interannual temperature variations in the Tsushima Strait are investigated on the basis
of historical hydrographic data applying the same procedures as Senjyu et al. (2006). Empirical orthogonal function (EOF) analysis revealed that the most energetic mode of variation (the EOF first mode),
which accounts for about 31.5% of the total variance, is the in-phase temperature change for the entire strait. The wintertime
temperature variation described by the first mode is associated with the wintertime heat flux in the northern East China Sea,
while they are poorly correlated in other seasons. The large standard deviation in the time coefficient of the first mode
in August suggests a relationship with the horizontal heat advection in summer in the northern East China Sea. On the other
hand, the EOF second mode, which explains about 12.6% of the total variance, is associated with the stratification and baroclinicity
in the strait. The time coefficient of the EOF second mode negatively correlates with the baroclinic volume transport through
the strait in summer. Comparison of temporal variations among the leading EOF modes for temperature and salinity shows no
significant correlations. This indicates that the principal modes of variation in temperature and salinity vary independently
within an interannual timescale. 相似文献