冬季闽浙沿岸上升流的数值研究

采用a坐标下三维斜压非线性的浅海陆架数值模式,研究风、边界力流(台湾暖流、黑潮、长江冲淡水)及地形等因子对上升流形成的影响。结果表明,风、台湾暖流是影响冬季闽浙沿岸上升流形成的最重要因子,其中风对浙江沿岸上升流的形成影响较大;台湾暖流对福建沿岸及其远海域上升流的形成影响较大;长江冲淡水对长江口附近上升流有一定的影响,对闽浙沿岸上升流影响不大;地形对闽浙沿岸上升流的形成作用显著;潮对闽浙沿岸上升流形成的影响也很显著。M2分潮对近海岸区域及台湾东北附近海域上升流的形成影响较大。     

夏季闽浙沿岸上升流的数值研究

将闽浙沿岸作为研究海区,采用σ坐标下三维斜压非线性的浅海陆架数值模式研究风、边界流(台湾暖流、黑潮、长江冲淡水)、潮及地形等动力因子对上升流形成的影响。结果得出：西南季风是影响夏季闽浙沿岸近海岸区域上升流形成的重要因子;台湾暖流对闽浙沿岸上升流的形成起主要作用：黑潮对台湾岛以东海域上升流的形成影响较大;长江冲淡水不利于夏季闽浙沿岸上升流的形成,尤其是浙江沿岸;地形对闽浙沿岸上升流的形成作用较显著;M^2分潮对闽浙近海岸区域及台湾澎佳屿附近海域上升流的形成影响较大;本文在对夏季闽浙沿岸海区水文结构的模拟中,同样得出夏季沿岸的低温高盐区与本文所计算出的三个较强的上升中心一致。     

2000年8月长江口外海区冲淡水和羽状锋的观测

采用CTD、多参数环境监测系统 YSI等仪器设备 ,于 2 0 0 0年 8月在长江口外海区对长江冲淡水结构、羽状锋等进行了现场观测。 2 0 0 0年 8月长江冲淡水出口门后 ,朝东北偏北流动 ,而当年 8月为长江径流量偏小的月份。通过动力分析指出了近口门段长江冲淡水分布类型与径流量的关系。长江冲淡水主流在近口门附近朝东北偏北扩展后 ,在科氏力作用下朝东南扩展 ,在转向区域为沿水下河谷北上的高盐台湾暖流水。高盐的台湾暖流水和长江冲淡水混合 ,生成口外羽状锋 ,强度大 ,阻挡了长江冲淡水向东扩展 ,并使冲淡水在当年径流量偏小情况下朝东北偏北运动。部分台湾暖流水在中下层能穿越长江口外而向北流动。羽状锋主要存在于长江口外 1 2 2 .6°E附近的 1 5m水层之上。在浙江沿岸、长江口外水下低谷西侧、吕泗近岸存在着上升流现象     

长江口叶绿素分布特征和营养盐来源数值模拟研究

利用POM(Princeton Ocean Model)模型在长江口及其邻近海域建立了三维斜压动力学模式,该模式开边界处考虑了潮汐、潮流、台湾暖流、沿岸流和长江径流。模式成功地模拟了长江口及其邻近海域的潮汐特征和环流特征。此外2004年11月的实测数据分析结果表明在观测区域的水下河谷西侧位置的强表面羽状锋内,存在着高叶绿素a浓度分布。为了分析长江口外存在的高叶绿素浓度分布和长江口的营养盐输入的相关关系,进行了两次数值试验:(1)给定长江口的径流量和径流输入的营养盐,把长江口的输入作为营养盐输入的惟一源;(2)在开边界处,根据实测资料给定营养盐的输入,同时考虑径流营养盐输入。在(1)、(2)两种情况下,把硝酸盐作为保守物质,进行了平流扩散数值试验。模式的模拟结果和实测资料的对比分析表明:沿岸流、台湾暖流的营养盐输入和上升流从底部输入的营养盐是此高叶绿素浓度区营养盐的重要来源。     

浙江沿岸春季上升流的数值研究

采用三维斜压非线性数值模式ROMS(Regional Ocean Modeling System),在浙江沿岸特殊地形的基础上综合考虑风场、台湾暖流、潮流以及长江径流等可变因子,对春季浙江沿岸上升流进行了数值研究。研究结果表明,浙江沿岸春季存在上升流,且上升流以带状分布在浙江近岸海域,在渔山列岛附近(28.40°N,122.00°E)以及舟山群岛附近(30.70°N,122.60°~123.00°E)存在2个上升流中心。风、台湾暖流和潮动力是影响浙江沿岸春季上升流的重要因子,其中风和台湾暖流对浙江沿岸整条上升流带均有影响;潮动力仅对28.60°N 纬度线以北至舟山群岛附近的上升流以及2个上升流中心的强度存在影响;长江径流对2个上升流中心、舟山群岛及长江口附近的上升流有一定影响。通过对浙江沿岸海域流场的分析可以发现,舟山群岛附近底层各等深线上水体向岸运动的速度比周围海域的大,跨越底层各等深线向上涌升的趋势更明显,间接反映了舟山群岛附近的上升流强度相对较强。对于舟山群岛附近的上升流而言,30 m深度以浅的海域,科氏力、水平平流作用与垂直粘性力是上升流形成的主要动力, 30 m深度以深的海域,上升流形成的主要动力为科氏力与压强梯度力,此时水平平流作用和垂直粘性力对上升流的影响较弱。     

2007 年长江口邻近海域夏季上升流演变机制研究

研究长江口邻近海域夏季上升流强度和空间分布的变化,对渔业生产和赤潮的防治具有重要的指导意义.采用2007年6~10月高分辨率卫星遥感资料 NGSST 海表温度和 CCMP 风场,通过经验正交函数(EOF)分解和区域海洋数值模式(ROMS)研究了该海域夏季上升流的短期演变机制及其与 SST 异常的关系.结果表明,夏季上升流强度和范围存在明显变化,是引起该海域 SST 异常的重要原因;风场对上升流短期演变起着关键作用,风应力旋度对局地上升流变化的影响与沿岸风应力同等重要;地形变化影响着上升流中心的分布,陡而窄的海底凸起容易在顺流侧形成较强的上升流中心,并在逆流侧诱发下降流.     

东海沿岸潮致上升流的数值模拟

卫星照片显示东海沿岸存在一条狭长的低温水带，这是上升流将外海深层低温海水带到近岸表层所造成的现象。本文从潮汐因素探讨上升流产生的原因。对东海沿岸海域Ｍ２分潮进行三维潮流数值计算，得出的各层水平余流和垂直余流表明，由于潮汐非线性效应和海底地形的影响，能够在中国东海沿岸产生一条狭长的上升流带。此结果与卫星照片显示的海面低温水域的范围基本一致。此外还计算了在不同风速、风向作用下产生的风生上升流，并与潮致上升流进行了比较     

长江口及其邻近海区环流和温、盐结构动力学研究Ⅱ.环流的基本特征

利用POM模型，以研究海区的海面风应力、温度和盐度资料作为海面边界条件，以与外海界面处的温度和盐度资料作为侧向液边界条件，并考虑长江径流、台湾暖流和东海沿岸流的影响，对长江口及其邻近海区各季节的三维斜压环流和温、盐结构进行了数值模拟。环流的数值结果表明，冬季和秋季研究海区的水平环流主要由长江径流、东海沿岸流、台湾暖流、杭州湾环流和沿岸流与台湾暖流之间的气旋和反气旋涡构成；东海沿岸流与长江径流顺岸南下，随着自北往南岸界地形坡度的增大，其流幅变窄，流速增强；台湾暖流沿陡坡及其外缘蜿蜒北上，随着自南往北水深的变浅，其流幅由宽变窄继而又由窄变宽，流速却一直由强变弱。冬季和秋季海区纬度断面垂直环流的总趋势由近岸向外海流动，海底地形变化缓慢区离岸流产生波动，海底地形变化显著的陡坡区离岸流产生剧烈振荡而生成强升降流。春季和夏季研究海区的水平环流主要由长江径流与东海沿岸流汇合流、台湾暖流、杭州湾环流、舟山群岛附近及长江径流和东海沿岸流汇合流与台湾暖流之间的气旋和反气旋涡构成；长江径流和台湾暖流平行北上并在长江口以北产生顺时针偏转。由海区水平环流特征和变化趋势证实，春季长江冲淡水已开始向东北偏转，夏季冲淡水的偏转程度、伸展距离和扩展范围都更甚于春季；春季在长江口近岸存在弱上升流，夏季长江口外的陡坡区出现下降流，而长江口以北和以南的陡坡区出现上升流。     

东海沿岸海区垂直环流及其温盐结构动力过程研究Ⅱ．温盐结构

对于本研究采用的动力学模型及其垂直环流的模拟结果已在第Ⅰ部分论述。作者将对与垂直环流对应的温、盐结构进行分析。温度和盐度模拟结果表明：冬季东海沿岸海区的温、盐分布均为近岸低、外海高;近岸温、盐呈垂直均匀分布,在外海出现分层,其温度为表层高、底层低,而盐度却为表层和底层高,中层偏低,长江口以南的近表层以下形成自近岸伸向外海的弱低盐水舌;长江冲淡水区及长江口以北和其以南外海的近表层有温、盐跃层生成,深底层温、盐呈均匀分布,且保持低温高盐特征;随着海区自北往南纬度的降低,岸坡和水深的增大及沿岸下降流的增强,温度和盐度自近岸至外海的垂直均匀分布跨度逐渐变窄;外海近表层的温、盐跃层强度自北至长江口逐渐增强,而自长江口至南逐渐减弱,其位置自北往南逐渐上移;冬季沿岸下降流使长江冲淡水区的盐跃层变厚。夏季海区的温度分布为近岸和外海高,近岸稍远出现冷水涌升,垂向上呈现显著分层,盐度分布为近岸低、外海高;长江冲淡水区及杭州湾以南外海的次表层存在温、盐跃层,其跃层以上出现混合层,且保持高温低盐特征,跃层以下温、盐大致呈均匀分布,并保持低温高盐特征;随着海区自南往北纬度的增高、岸坡和水深的减小及沿岸上升流自南至长江口和自长江口至北的增强和继而减弱,长江冲淡水区的温、盐跃层强度自南至长江口逐渐增强,而自长江口至北逐渐减弱,外海次表层的温、盐跃层强度却自南至长江口逐渐减弱,自长江口至北又逐渐增强,其温、盐跃层的位置自南往北逐渐上移;夏季沿岸上升流使长江冲淡水区的盐跃层变薄。     

长江口海域潮流场数值模拟

本文使用二维非线性模式作了长江口海域潮流场数值模拟,该海域系半日潮为主,故仅考虑M₂和S₂两个主要分潮,时间步长为310秒,空间步长为5海里,计算和现场观测值拟合得很好,分析1/12T—T的整个潮流场表明,存在两个不同的潮流系统,即外海(122°E以外)的顺时针向潮流和长江口门附近的往复潮流(122°E以内),涨潮流历时小于落潮.     

Temperature variability caused by internal tides in the coastal waters of east coast of Peninsular Malaysia

The effects of tidal currents (i.e., barotropic and internal tides) are important in the biogeochemistry of a coastal shelf sea. The high-frequency of currents and near-bottom temperatures collected in three consecutive southwest monsoon seasons (May, June, July and August of 2013 until 2015) is presented to reveal the role of the tidal currents to the temperature variability in the coastal shelf sea of the east coast of Peninsular Malaysia (ECPM), south of the South China Sea (SCS). The results of a spectral density and harmonic analysis demonstrate that the near-bottom temperature variability and the tidal currents are influenced by diurnal (O₁ and K₁) and semidiurnal (M₂) tidal currents. The spectral density of residual currents (detided data) at 5, 10 and 16 m depth also shows significant peaks at the diurnal tidal frequency (K₁) and small peaks at the semidiurnal tidal frequency (M₂) indicating the existence of internal tides. The result of the horizontal kinetic energy (HKE) shows a strong intermittent energy of internal tides in the ECPM with the strongest energy is found at 16 m depth during a sporadic cooling event in June and July. A high horizontal cross-shore heat flux (16 m) also indicates strong intrusions of cooler water into the ECPM in June and July. During the short duration of cold pulse water observed in June and July, a cross-wavelet analysis also reveals the strong relationship between the near-bottom temperatures and the internal tidal currents at the diurnal tidal frequency. The intrusion of this cooler water is probably related to the monsoon-induced upwelling in June. It is loosely interpreted that the interaction between the strong barotropic tides and the steep slope in the central basin of the SCS under the stratified condition in southwest monsoon has generated these internal tides. The dissipation of internal tides from the slope area probably has driven the cold-upwelled water into the ECPM coastal shelf sea when the upwelling intensity is the highest in June and July.     

三种叠放形式的圆管型人工鱼礁流场效应数值模拟与PIV试验研究

人工鱼礁单体按不同的数量和排列方式组合投放会产生不同的流场效应。圆管型礁为目前黄渤海区增殖礁的重要礁体型式,为优化该礁体的投放数量与排列方式,选择了3种不同叠放个数(1个、3个和6个)的圆管礁,设定了5个流速梯度(4.5、9.0、13.5、18.0和22.5cm/s),利用PIV粒子图像测速技术和Fluent数值模拟软件对圆管型人工鱼礁的流场进行水槽模型试验和数值模拟。结果表明,数值模拟结果与水槽试验结果基本吻合,误差在20%以下,表明数值模拟能够反映人工鱼礁的流场效应;当礁体叠放个数一定时,最大上升流流速、上升流高度和上升流面积均随来流速度的增加而增大,背涡流面积呈现不规则的变化;当来流速度一定时,最大上升流流速、上升流面积、上升流高度和背涡流面积均随礁体叠放个数的增加而增大。     

Observational characteristics and dynamic mechanism of low-salinity water lens for the offshore detachment of the Changjiang River diluted water in August 2006

The Changjiang River diluted water(CDW) spreads into the East China Sea(ECS) primarily in a plume pattern,although in some years, low-salinity water lenses(LSWLs) detach from the main body of the CDW. In-situ observations indicate that in August 2006, a LSWL detached from the main body of the CDW near the river mouth.In this paper, the effects of winds, tides, baroclinity and upwelling on LSWLs are explored with a threedimensional model. The results show that:(1) winds play a crucial role in these detachment events because windinduced northerly Eulerian residual currents impose an uneven force on the CDW and cut it off, thus forming a LSWL;(2) upwelling carries high-salinity water from the lower layer to the upper layer, truncating the low-salinity water tongue vertically, which is conducive to the detachment and maintenance of LSWLs; and(3) upwelling during the evolution of a LSWL is caused by the combined effects of winds and tides. The influences of windinduced upwelling are mainly near the shore, whereas the upwelling along the 30 m isobath is predominantly affected by tides, with the effect increasing from neap tide to spring tide.     

2006年夏季珠江冲淡水驱动的上升流

根据珠江口及其附近海域2006年夏季（7-8月）航次水文调查资料，发现调查期间，除了西南季风驱动下的冲淡水东向扩散外，粤西珠江口外冲淡水主要呈西向扩散趋势，并且西向扩散的冲淡水下存在上升流。已有的模型研究中，西南季风下珠江口外没有出现上升流，说明西南季风不是珠江口外上升流产生的主导因素。观测的温盐分布、潜标流速时间序列与走航ADCP流态表明，上升流产生的原因是:（1）口门外冲淡水南向扩展驱动了垂向重力环流；（2）密度跃层以下东北向沿岸流的底边界层Ekman效应；（3）口门外冲淡水团之间的气旋型中尺度涡旋作用。     

2015年夏季海南岛东部沿岸物理结构及浮游植物群落

琼东上升流（EHU）是南海北部最强劲的上升流系统之一。它的水动力过程已经被很多研究所揭示，但是它的浮游植物群落依然不清楚。通过利用卫星遥感数据和2015年上升流季节的航次数据，我们首次阐明了琼东上升流区域（EHU）和其临近区域雷州半岛东部上升流区（ELPU）浮游植物生物量和群落的空间结构。在夏季季风的驱动下，我们在琼东沿岸发现了一个显著的低温高盐冷舌。由于雷州半岛东部大陆架宽广平缓，ELPU比EHU相对较弱。在EHU,由于受潮汐和风浪混合的影响，高溶解氧浓度 (>6.0 mg/l)几乎从表层延伸到30米深度。其次，低溶解氧的海水(<6.0 mg/l, 缺氧)被上升流从底层抽吸到上层。ELPU和EHU相比有更差的DO状况，在EHU，底层DO浓度由于大量的消耗，浓度甚至低于3.5 mg/l。在EHU，浮游植物生物量最大值出现在30米水层而不是在表层，约为1.5 mg/m³。这表明了上升流对于浮游植物生长和DO分布的影响范围。由于营养物质输入丰富， ELPU处的浮游植物生物量比EHU高很多。在EHU处，浮游植物生物量最大值可以达到4.0 mg/m³。浮游植物生物量在EHU和ELPU的沿岸区域则降低到了大约0.2~0.3 mg/m³，而这个值与远海接近。在EHU的近岸，浮游植物群落结构被硅藻所主宰，大约占了浮游植物生物量的50%。原核生物（大约40%）、绿藻（大约20%）、原绿球藻（大约20%）组成了EHU的近岸的主要群落。在ELPU,硅藻大约占了浮游植物生物量的80%，其次是绿藻，这表明与EHU相比，这个区域是一个相对不同的生态系统。     

Ecological features of harmful algal blooms in coastal upwelling ecosystems

Upwelling regions are the most complex habitats in which dinoflagellates produce red tides, but the flora is not unique. Many species also bloom in nutrient-enriched, non-upwelling systems, share the collective dinoflagellate trait of low-nutrient affinity, and can achieve relatively fast growth rates. Blooms occur over the range of nutrient – mixing – advection combinations found in upwelling habitats, rather than being restricted to the high-nutrient high-irradiance low-turbulence conditions posited by Margalef's classical Mandala and its Bowman et al. and Pingree versions. The bloom species are primarily ruderal strategists (R-species), which typify "mixing – drift" life-forms adapted to the velocities associated with frontal zones, entrainment within coastal currents, and vertical mixing during upwelling relaxations. Collectively, dinoflagellates appear capable of surviving fairly high turbulence spectra formed at representative Kolmogorov length scale – wind speed conditions. This biophysical protection might be the result of cell size-facilitated entrainment within the micro-eddies formed during turbulent energy dissipation. The swimming speeds of 71 clones of dinoflagellates are compared and related to reported rates of vertical motion in coastal upwelling systems. There are slow and fast swimmers; many exhibit motility rates that can exceed representative in situ vertical and horizontal water mass movements. At least four dinoflagellates from upwelling systems form chains leading to increased swimming speeds, and may be an adaptation for growth in coastal upwelling habitats. Red tides are frequent and fundamental features of upwelling systems, particularly during intermittent upwelling relaxations, rather than dichotomous (sometimes catastrophic) interruptions of the diatom blooms characteristically induced by upwelling. Successional sequences and the "red tide" zone may differ between upwelling and non-upwelling systems. In the latter, red tides diverge from the main sequence and are appropriately positioned in the Mandala's ecological space of high nutrients and low turbulence. An amended Mandala based on Pingree's S-kh model and the Smayda and Reynolds life-form model is presented to accommodate the range of red tide development and their successional routing found in coastal upwelling systems. Ecophysiological data support the Pitcher and Boyd seeding mechanism model, which can lead to red tides in upwelling systems. Nutrients, phyto-stimulation and grazing pressure as triggering factors in upwelling-system red tides are considered. Some red tides may be stimulated by nutrients and growth promoting factors excreted by migrating shoals and "boils" of c1upeoid stocks, with selective zooplankton grazing contributory. Substantial collapses in grazing pressure may be essential in anoxic red tide events. The mass mortalities that accompany anoxia, common to the Benguela and Peru upwelling systems, may be a trophic control mechanism to maintain biogeochemical balance and regional homeostasis, which are vital to upwelling ecosystem dynamics. Some traditional concepts of phytoplankton ecology may not completely apply to dinoflagellate bloom events in coastal upwelling systems.     

台湾海峡西部沿岸上升流的中心位置和共同特征探讨

台湾海峡有多个上升流区存在，其中西部海区的海坛岛东，东山岛东南和台湾浅滩南部外区三处上升流最活跃和持续时间最长。本文依据１９８３至１９８９年期间在台湾海峡西部和中部的三次海洋综合调查资料，着重探讨了上述三处上升流出现和消失的时间冷水中心位置，指出它们共同特征是每年出现的或消失的时间基本稳定不变，并随北向海流和风要素的变化而长消。     

Diagnoses of vertical transport in a three-dimensional finite element model of the tidal circulation around an island

A three-dimensional finite element model is used to investigate the formation of shallow-water eddies in the wake of Rattray Island (Great Barrier Reef, Australia). Field measurements and visual observations show that stable eddies develop in the lee of the island at rising and falling tides. The water turbidity downstream of the island suggests the existence of strong upwelling that would be responsible for carrying bed sediments up to the sea surface. We first propose to look at the upwelling velocity and then use the theory of the age to diagnose vertical transport. The water age is defined as the time elapsed since particles of water left the sea bottom, where the age is prescribed to be zero. Two versions of this diagnosis are considered. Although the model predicts upwelling within the eddies, it is not sufficiently intense to account for vertical transport throughout the water column during the life span of the eddies. As mesh resolution increases, this upwelling does not intensify. However, strong upwelling is then resolved off the island's tips, which is confirmed by the results obtained with the age. This study also shows that the finite element method, together with unstructured meshes, performs well for representing three-dimensional flow past an island.     

夏季琼州海峡表层海水二氧化碳分压时空变化

采用船载海?气CO₂连续观测系统于2011年和2014年夏季在琼州海峡开展了现场观测，分析研究了表层海水二氧化碳分压(pCO₂)时空变化及其影响因子。2011年和2014年夏季pCO₂分别为(516±29) μatm和(533±15) μatm，海?气CO₂交换通量分别为(8.4±1.7) mmol/(m2·d)和(4.5±0.4) mmol/(m2·d)，均是大气CO₂的强源，高于相邻及相似海域，主要受控于东口海域上升流和海峡中部狭管效应。2011年夏季东口上升流增大pCO₂的同时也促进了浮游植物繁殖，光合作用吸收水体CO₂，降低了pCO₂，而且受其影响，西口口门附近叶绿素a和溶解氧含量陡增，pCO₂突降。2014年夏季东口海域上升流较弱，且观测海域垂直混合作用显著，pCO₂和溶解氧分布特征与2001年夏季明显不同。海峡中部狭管效应造成水体输运速率大、混合作用强，浮游植物“来不及”生长，pCO₂较高。     

南极普里兹湾及其邻近海域的水文结构特征和底层水的来源

利用中国第九次南大洋考察中南极普里兹湾及其邻近海域的CTD资料,分析研究了调查海域的水文结构特征及其该区南极底层水(AABW)的来源.研究结果表明,在研究海域,深水洋区近表层流由西向东流,而在普里兹湾内存在一个气旋型涡.水文结构中最明显的海洋学特征是:(1)绕极深层水(CDW)的涌升现象明显,涌升最强的位置是麦克罗伯逊地以北海域,最明显的深度是50～200m层,暖水涌升将冬季冷水分隔成南北两部分,并在其中形成孤立的暖水块;(2)陆缘水边界明显,这是绕极深层水与南极冷水之间形成的锋面,一般处在次表层水中,大致位于64°～66°S之间;(3)存在着双跃层结构.观测期间,普里兹湾以北探水海域存在着南极底层水,其来源可能有二:一为当地形成,二为源于威德尔海和罗斯海.