排序方式: 共有48条查询结果,搜索用时 78 毫秒
31.
This study examines a Kuroshio main path(KMP) cut-off event east of Taiwan Island occurred in fall-winter2013–2014 and its impacts on the South China Sea(SCS) by analyzing satellite altimetry and mooring observations. Satellite altimeter sea level anomaly(SLA) images reveal a complete process that a huge cyclonic eddy(CE) from the Pacific collided with the Kuroshio and the western boundary from 15 October 2013 to 15 January 2014. Mooring observations evidenced that the Kuroshio upper ocean volume transport was cut off more than 82% from 17×106 m~3/s in September to 3×106 m~3/s in November 2013. The KMP cut-off event caused the Kuroshio branching and intruding into the SCS and strengthened the eddy kinetic energy in the northern SCS west of the Luzon Strait. Using the total momentum as a dynamic criterion to determine the role of eddy collision with the Kuroshio reasonably explains the KMP cut-off event. 相似文献
32.
2012年夏季海南岛东岸上升流区的混合观测 总被引:1,自引:0,他引:1
The turbulent mixing in the upwelling region east of Hainan Island in the South China Sea is analyzed based on in situ microstructure observations made in July 2012. During the observation, strong upwelling appears in the coastal waters, which are 3℃ cooler than the offshore waters and have a salinity 1.0 greater than that of the offshore waters. The magnitude of the dissipation rate of turbulent kinetic energy ε in the upwelling region is O(10–9 W/kg), which is comparable to the general oceanic dissipation. The inferred eddy diffusivity K_ρ is O(10–6 m~2/s), which is one order of magnitude lower than that in the open ocean. The values are elevated to K_ρ≈O(10–4 m~2/s) near the boundaries. Weak mixing in the upwelling region is consistent with weak instability as a result of moderate shears versus strong stratifications by the joint influence of surface heating and upwelling of cold water.The validity of two fine-scale structure mixing parameterization models are tested by comparison with the observed dissipation rates. The results indicate that the model developed by Mac Kinnon and Gregg in 2003 provides relatively better estimates with magnitudes close to the observations. Mixing parameterization models need to be further improved in the coastal upwelling region. 相似文献
33.
【目的】采用经验模态分解(EMD)方法,基于SAR图像反演海浪参数。【方法】以东北太平洋两幅RADARSAT-2 SAR图像为例,利用谱方法和C波段地球物理模式函数(CMOD5)反演风场,在此基础上,对SAR图像进行EMD分解,得到5个波段的固有模态,由固有模态波长,结合波浪理论和风浪谱,得出研究海域波浪的主波周期和有效波高。【结果与结论】与浮标实测数据对比,反演主波周期偏差为1.9%和13.2%,有效波高偏差为12.2%和12.8%。SAR图像分解与海浪理论结合,为探测反演远海波浪信息提供了新方法。 相似文献
34.
浪流相互作用对北部湾内波浪、冷水团及冲淡水的影响研究 总被引:1,自引:0,他引:1
Wave-current interaction and its effects on the hydrodynamic environment in the Beibu Gulf(BG) have been investigated via employing the Coupled Ocean–Atmosphere–Wave–Sediment Transport(COAWST) modeling system. The model could simulate reasonable hydrodynamics in the BG when validated by various observations.Vigorous tidal currents refract the waves efficiently and make the seas off the west coast of Hainan Island be the hot spot where currents modulate the significant wave height dramatically. During summer, wave-enhanced bottom stress could weaken the near-shore component of the gulf-scale cyclonic-circulation in the BG remarkably, inducing two major corresponding adjustments: Model results reveal that the deep-layer cold water from the southern BG makes critical contribution to maintaining the cold-water mass in the northern BG Basin.However, the weakened background circulation leads to less cold water transported from the southern gulf to the northern gulf, which finally triggers a 0.2°C warming in the cold-water mass area; In the top areas of the BG, the suppressed background circulation reduces the transport of the diluted water to the central gulf. Therefore, more freshwater could be trapped locally, which then triggers lower sea surface salinity(SSS) in the near-field and higher SSS in the far-field. 相似文献
35.
利用COAWST数值模式就琼州海峡内潮流场对冬季风浪场的影响进行了研究。经实测数据验证,模型可较好的刻画海峡内的强潮流场。选定东、西向最大潮流时刻为典型案例分别就水位场及潮流场对波浪场的作用展开探讨。在琼州海峡东口处,西向最大潮流时刻下的正水位场增加了承载波浪运动的有效水深,有利于波浪能量的西向传播,进而使得当地有效波高增加。东、西向最大潮流均有利于琼州海峡东口处有效波高的增大,但前者主要通过流致辐聚效应实现,而后者主要经由流致波数位移生效。通过流致折射作用,东向(西向)最大潮流可在海峡中轴线以北的海区引起谱峰波向的逆时针(顺时针)旋转,而在以南的海区触发顺时针(逆时针)旋转。 相似文献
36.
基于1993-2017年卫星高度计数据得到的中尺度涡追踪产品,分析了1000 m以深南海海盆中尺度涡移动速度C的时空分布特征。结果表明,南海海盆气候态平均的中尺度涡纬向移动速度cx均为西向,经向移动速度cy在海盆西北侧为南向,东南侧为北向。cy随经度的变化与背景经向流的变化一致,相关系数达0.96,而cx的变化与背景纬向流和β效应有关。cx和C存在明显季节变化,夏季最慢,冬季最快。年际变化上,cx和cy的大值多发生在太平洋年代际涛动(PDO)负位相期的La Nina年。中尺度涡在其生命周期的开始和结束阶段(即生成和耗散阶段)移速较快,而在稳定的“中期”阶段移动缓慢。该趋势与涡旋转速呈反相关,相关系数为-0.93。以移速小于1.5 cm/s和大于15.4 cm/s定义的极慢和极快涡旋,分别占总涡旋数量的1.5%和1.9%。移速极慢的涡多出现在海盆的中部,且主要发生在夏季;移速极快的涡多出现在海盆的边缘,且主要发生在冬季。机制分析显示,南海海盆中尺度涡移动速度的时空分布受到大尺度背景流场调制。 相似文献
37.
南海北部陆坡区混合过程观测 总被引:4,自引:0,他引:4
为了解南海北部陆坡区的内部混合过程,2004年4月30日至5月1日,延平2号科考船在该海域利用自由沉降式的微结构剖面仪TurboMAP-Ⅱ进行了一次混合过程的直接观测。观测海区南海次表层水团和南海中层水团形成的特定温盐结构,使得150~500m之间出现盐指现象。通过对观测数据的处理和分析,研究了观测海区的湍动能耗散率、热耗散率和热扩散系数的分布以及盐指现象对混合效率的影响。观测海区的湍动能耗散率为2.0×10-10~7.8×10-7W/kg,最大值出现在上混合层;热耗散率为2.7×10-9~1.5×10-6℃2/s,最大值出现在温跃层附近。层结稳定区混合效率的平均值为0.18,与常用值0.2非常接近,盐指发生区混合效率的平均值为0.76,表明盐指现象的存在提高了混合效率。 相似文献
38.
琼东上升流的年际变化及长期变化趋势 总被引:4,自引:0,他引:4
全球变暖背景下沿岸上升流的年际变化是近年来的研究热点。本文基于1982—2012年的海表面温度和风场资料,分析了琼东上升流的强度和中心位置的年际变化规律以及沿岸风应力及其旋度的作用。结果显示,近30年来,琼东上升流强度总体减弱,相比于沿岸风应力,其变化与减弱的局地风应力旋度相关性更高;琼东上升流强中心位置最大概率发生在19.2°—19.3°N,与最大风应力旋度位置接近,且存在北移趋势。琼东上升流强度和位置的年际变化还存在周期约3年、5年和10年的本征模态,以3年周期变化为主。局地风应力旋度在琼东上升流的年际变化中发挥了重要作用。 相似文献
39.
本文利用OFES模式0.1°×0.1°高分辨率温盐、流速和海面高度(SSH)数据,分析eSQG方法在南海垂向流速诊断中的适用性和南海垂向流速的时空变化特征。结果表明,基于SSH和eSQG的诊断垂向流速ωeSQG与OFES模拟“真值”垂向流速ωOFES整体量级基本相当,为O(10?5 m/s),空间上呈现北强南弱。深海盆(水深大于1 000 m)ωeSQG与ωOFES的水平空间分布的相关系数rs在次表层150 m左右达到最大,高于南海全海域的空间相关系数,表明eSQG在远离边界的深水区更有效。季节上,ωeSQG总体夏强冬弱,与ωOFES的相关系数rs冬季大、夏季小,表明eSQG更适用于冬季南海垂向流速的诊断。eSQG诊断垂向流速在台湾西南部和越南以东适用性更高,与ωOFES的时间相关系数rt超过0.6;海盆南部和西北部陆架区诊断效果较差,时间相关系数rt多小于0.2。同一区域ωeSQG和ωOFES空间相关系数存在18~55 d的周期变化。分析显示,海面高度与海面密度同相位分布时,ωeSQG与“真值”ωOFES更接近。时间分辨率对eSQG诊断效果几乎无影响,空间分辨率降低到0.25°时rs整体增大,说明eSQG在中尺度诊断效果更好。 相似文献
40.
加拿大海盆深层双扩散对流的观测分析 总被引:1,自引:0,他引:1
The Canada Basin(CB) is the largest sub-basin in the Arctic, with the deepest abyssal plain of 3 850 m. The double-diffusive process is the possible passage through which the geothermal energy affects the above isolated deep waters. With the temperature-salinity-pressure observations in 2003, 500-m-thick transition layers and lower1 000-m-thick bottom homogenous layers were found below 2 400 m in the central deep CB. Staircases with downward-increasing temperature and salinity are prominent in the transition layers, suggesting the doublediffusive convection in deep CB. The interface of the stairs is about 10 m thick with 0.001–0.002°C temperature difference, while the thicknesses of the homogenous layers in the steps decrease upward from about 60 to 20 m.The density ratio in the deep central CB is generally smaller than 2, indicating stronger double-diffusive convection than that in the upper ocean of 200–400 m. The heat flux through the deepest staircases in the deep CB varies between 0.014 and 0.031 W/m2, which is one-two orders smaller than the upper double-diffusive heat flux,but comparable to the estimates of geothermal heat flux. 相似文献