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1.
A reduced vertically integrated upper mixed layer model is set up to numerically study the thermodynamic process of the formation of the "Nansha warm water"(NWW) in the Nansha Islands sea areas in spring. According to the numerical experiments, it is shown that, in spring, the formation of the NWW is mainly due to the sea surface net heat flux and the local weak current strength; the contribution from temperature advection transport and warm water exchange with the outer seas (Sulu Sea or south of Sunda shelf) is very little. In the sea areas where the current is strong, the advection may also play an important role in the temperature field. 相似文献
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南沙暖水形成的动力和热动力过程的初步数值研究 总被引:1,自引:0,他引:1
利用一个简化的上混合层垂直积分模式,对南海南部“南沙暖水”形成的动力和热动力过程进行数值研究。结果表明:(1)在春季,南沙暖水的形成主要来自海面净热通量的贡献,而通过热平流、苏禄海或巽它陆架以南的暖水进入的贡献甚小;(2)在冬季,南沙群岛海区流场强度增大,热平流项的贡献大于或等于海面净热通量的贡献,海温的降低幅度也较其他深海区的要大。但由于该海区在此前的季节中初始温度场较高,因而使得该海区的海温仍保持较高的水平;(3)南沙暖水的形成和维持高温的机制是随着季节的变化而变化的。 相似文献
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Composites of warm and cold temperature anomalies were constructed, and the distribution of the recurrence frequency of days with temperature anomalies in the four seasons of the year was evaluated based on satellite measurements data on sea surface temperature. Regions of the formation of cold anomalies in the northwestern part of the sea and warm anomalies in the northern and northeastern parts of sea were distinguished, related to advection by the Black Sea Rim Current. The distribution functions of temperature anomalies and the lifetime of the cold and warm anomalies were estimated. A plausible physical mechanism of the generation of cold anomaly in the southeastern marginal part of the sea related to Ekman pumping of cold water from the thermocline was considered. 相似文献
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The characteristics of sea fog with different airflow over the Huanghai Sea in boreal spring 总被引:2,自引:0,他引:2
Using the observations from ICOADS datasets and contemporaneous NCEP/NCAR reanalysis datasets during 1960-2002, the study classifies the airflows in favor of sea fog over the Huanghai (Yellow) Sea in boreal spring (April-May) with the method of trajectory analysis, and analyzes the changes of proportions of warm and cold sea fogs along different paths of airflow. According to the heat balance equation, we investigate the relationships between the marine meteorological conditions and the proportion of warm and cold sea fog along different airflow paths. The major results are summarized as follows. (1) Sea fogs over the Huanghai Sea in spring are not only warm fog but also cold fog. The proportion of warm fog only accounts for 44% in April, while increases as high as 57% in May. (2) Four primary airflow paths leading to spring sea fog are identified. They are originated from the northwest, east, southeast and southwest of the Huanghai Sea, respectively. The occurrence ratios of the warm sea fog along the east and southeast airflow paths are high of 55% and 70%, while these along the southwest and northwest airflow paths are merely 17.9% and 50%. (3) The key physical processes governing the warm/cold sea fog are heat advection transport, longwave radiation cooling at fog top, solar shortwave warming and latent heat flux between airsea interfaces. (4) The characteristics of sea fog along the four airflow paths relate closely to the conditions of water vapor advection, and the vertical distribution of relative humidity. 相似文献
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收集了1963—1996年长江口外海域水温的观测数据,分析了该海域冬、春季表层、10m层、20m层和30m层不同层次水温的季节和年际变化规律,以及其间水温垂向结构的变化。季节变化上,表层多年平均水温在8月最高,3月最低,底层多年平均水温9月最高,3月最低。年际变化上,冬季在1979年存在一个由冷到暖的跃迁;4月水温的年际变化较冬季复杂,表层、10m层、20m层和30m层水温分别在1979、1973、1973和1975年发生从冷到暖的跃迁。水平分布上,冬季除东南角小范围表层水温降低外,沿岸及北部海区表层水温均升高,春季北部和南部中间海域水温升高,升温幅度由表层至30m层逐渐变小。垂向结构上,冬季表底混合均匀,表层与20m层的年际变化相关系数高达0.97,春季表层与20m层的水温差存在10年左右的变化周期。本文将一些可能影响春季水温年际变化的因素与海温进行了比较并发现,在冷期,春季表层海温与长江口外海域气温相关较暖期好,相关指数为0.79;而暖期的春季表层与20m层的水温差与净热通量相关系数较高,为0.65。 相似文献
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2010年2月一次冬季黄海海雾的成因分析 总被引:1,自引:0,他引:1
利用青岛浮标观测、自动气象站观测、Micaps站点观测、L波段雷达等观测数据,New Generation SST,OI-SST和NCEP提供的FNL和CFSR再分析数据。并利用中尺度模式WRF对这次冬季海雾进行诊断分析。得到以下结论:(1)观测表明,这次海雾首先在黄海北部生成,是由于冷暖空气在黄海海域交汇,增大相对湿度,形成混合雾。在22日12:00时(UTC)之后,暖平流北上,冷平流消失。海雾逐渐转成平流冷却雾。青岛出现的海雾是从黄海发展过来的,并且为平流冷却雾。(2)在黄海,冷暖空气混合增大相对湿度,生成混合雾。与后期的平流冷却雾相比,混合雾的高度明显偏低。(3)海温异常偏低。在2010年2月渤海大面积结冰,海温偏低可能与融冰有关系。(4)模式结果表明,混合雾与冷水域的关系密切。平流冷却雾与冷水域的位置基本一致。混合雾和平流冷却雾都受海温影响较大。混合雾雾区变化很大,因为冷空气在移动过程中变性,不利于混合雾生成。冷海面对平流冷却雾起着很关键的作用。这次冬季海雾与春夏季黄海海雾的不同点在:这次海雾的发生机制不同于典型的春夏季黄海海雾。春夏季典型的黄海海雾主要是平流冷却雾,而这次冬季海雾在生成上首先是混合雾,后来转为平流冷却雾。 相似文献
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夏季北冰洋无冰海域次表层暖水结构的形成机理 总被引:1,自引:0,他引:1
在夏季北冰洋的无冰海域,经常可以观测到次表层暖水现象,即在水深20~50m的范围内发生海水温度的极大值。建立了一个一维的热力学解析模式,用于研究夏季北冰洋次表层暖水的形成机制。模式的计算结果表明,太阳辐射作用是形成次表层暖水的关键因素。在北冰洋的开阔水域,大气吸收海洋热量的过程导致了海面温度下降,使温度极大值出现在次表层。海洋垂向湍流热扩散对次表层暖水温度有显著影响;当湍流热扩散较弱时,热扩散的范围较小,有利于形成次表层暖水。次表层暖水的位置随着时间的推移不断加深,温度不断增高。在北极,大气温度低于海面温度是普遍现象,次表层暖水经常发生。虽然当海面气温发生变化时,次表层海水温度结构会发生相应的变化,但次表层暖水结构形成之后,如果不受强烈天气过程的破坏,则会一直存在下去。按照本文的结论,随着北极气候变暖,海冰将进一步减少,次表层暖水现象还会明显增加,海洋对气候变化将有更加强烈的响应和反馈,对全球气候变化产生意义深远的影响。 相似文献
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为探究冬季不同背景风场下黑潮锋影响边界层云的机理,采用高分辨率卫星数据和再分析数据,研究了冬季海面背景风为垂直(西北风)和平行(东北风)东海黑潮海表面温度锋(黑潮锋)条件下,边界层云对黑潮锋的响应。结果表明:背景风垂直黑潮锋情况下,黑潮锋强迫的边界层内次级环流明显,黑潮锋暖水侧海面冷平流强,海气温差增大,海气界面潜热感热通量增大,海气界面不稳定性增大,产生上升运动,云底高度抬升。上升运动在边界层底向南北两侧辐散,在冷水侧产生下沉运动与500 hPa高压下沉叠加,使局地云量明显减少,形成晴空少云区(云洞)。在暖水侧以南的下沉支叠加云顶上的下沉运动和边界层退耦效应共同作用,产生另一个云洞。气压调整机制为次级环流产生的主要原因。背景风平行黑潮锋情况下,海面空气温度平流作用小,暖水侧海气温差较小,虽然海洋仍然加热大气,但海气界面不稳定较弱,湍流增强使云底高度抬升,垂直混合机制为该湍流增强的主要原因。 相似文献
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P. Swapna Jianping Gan Alexis Lau Jimmy Fung 《Deep Sea Research Part I: Oceanographic Research Papers》2009,56(7):1039-1056
Remote sensing data sets and a high-resolution three-dimensional regional ocean model were utilized to investigate the shifting of warm/cold regime and the associated sea level variation in the South China Sea (SCS) during 2000–2003. Both the altimetry data and the model results showed an increase in the sea level (warm phase) followed by an abrupt decrease (cold phase) in the SCS during 2000–2003. Heat budget calculations performed with the model revealed excess heat advection from the western Pacific warm pool into the SCS during the warm phase than the cold phase. The warm phase, which occurred during La Niña episodes, resulted from the intrusion of abnormally warmer western Pacific water that increased the heat content and thus sea level in the SCS. The cold phase, which occurred during El Niño episodes, was triggered by a reduction in the net atmospheric heat flux followed by cold water advection into the SCS. Decrease in the rate of precipitation minus evaporation (P?E) also accounted for the falling of sea level during cold phase. The present study integrated the available remote sensing data and advanced numerical model to identify the time-dependent three-dimensional dynamic and thermodynamic forcing that are important in governing the warm/cold regime shift in the SCS. 相似文献
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为定量化研究影响中国东部近海逆温层产生和发展过程的主要因素,基于Princeton Ocean Model(POM),通过进行河流和暖流的增减试验,对逆温层的季节变化及其影响因素进行了分析。模拟结果显示,受海表失热影响,逆温层主要出现在9月至翌年3月份,山东半岛北部及东部近海、闽浙沿海为三个主要逆温层发生区域,其中山东半岛北部近海逆温层范围和强度最大。当无河流输入时,整个研究海域无逆温层出现,而河流加倍或减半对逆温层的影响主要体现在长江口邻近海域,出现概率分别增高22%和降低15%。当暖流加倍或减半时,长江口邻近海域逆温层出现概率大幅增高23%和降低69%,山东半岛东部近海次之,分别增高34%和降低25%。当关闭暖流时,长江口外海逆温层消失,山东半岛东部近海逆温层出现概率降低约70%,且变浅76%。以上表明,河流淡水是中国东部近海逆温层形成的必要条件,在保持必要河流淡水输入条件下,暖流的变化对中国东部近海逆温层形成的影响比河流变化大,其中对长江口外海影响最大,山东半岛东部近海次之。暖流流量的增减可引起100 m以浅陆架区的海表面高度异常,影响跨40 m等深线海水交换和温盐锋面的形成,造成逆温层大范围的转移和变化。 相似文献
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黄、东海秋季温、盐度垂直分布类型及其逆转现象成因的初步分析 总被引:5,自引:1,他引:5
用1983年11月在黄、东海调查的水文观测资料,分析了该海区温、盐度 垂直分布类型的地理分布,详细地讨论了秋季温、盐度逆转现象的形成原因。分析 得出,在研究海区内,引起温、盐度逆转现象的原因有:(1)海面失热冷却产生的垂 直对流作用;(2)秋季季风已转变为北风,在北风(特别是北风大风)的驱动下,迫使 表层水向南向外扩张的影响;(3)深层暖平流(台湾暖流和黄海暖流)向岸向北伸展 或切入的影响;(4)在锋区,高温(或低温)高盐(或低盐)水沿等面扩展的影响。 相似文献
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利用调查数据及遥感数据揭示了2013年南沙群岛海域温跃层的季节变化特征,温跃层上界深度平均值春、夏、冬季基本一致,介于45~47 m之间,秋季最大,达60 m;温跃层厚度平均值夏、秋、冬季基本一致,介于85~87 m之间,春季相对较小,为78 m。温跃层强度平均值春、夏、秋、冬季几乎一致,介于0.13~0.15℃/m之间。调查海域温跃层上界深度季节变化的形成机理为:春季西深东浅的原因是西部受净热通量较小、大风速、负的风应力旋度以及中南半岛东部外海的中尺度暖涡和反气旋环流共同作用,东部近岸海域净热通量高值、风速相对较小及风应力旋度引起的Ekman抽吸效应共同控制;夏季深度分布较均匀的原因是10°N以北风致涡动混合强但受Ekman抽吸影响,10°N以南风致涡动混合弱但风应力旋度为负值;秋季深度较其他季节平均加深15 m的原因是南沙群岛海域被暖涡占据,暖涡引起的反气旋式环流使得温跃层上界深度被海水辐聚下压;冬季正的风应力旋度产生的Ekman抽吸和冷涡引起的气旋式环流共同作用,使得温跃层上界深度较秋季平均抬升15 m。 相似文献
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东海浮游介形类生态适应分析 总被引:2,自引:0,他引:2
根据1997~2000年东海23°30'~33°N,118°30'~128°E海域4个季节海洋调查资料,用浮游介形类物种丰度和同步表层温、盐度数据进行曲线拟合,构造数学模型,计算介形类分布最适温度和盐度值,并参考其地理分布和生态适应特征分析,确定东海浮游介形类主要物种的生态类型.结果表明:在浮游介形类优势种中,后圆真浮萤(Euconchoecia maimai)、短棒真浮萤(E.Chierchiae)、针刺真浮萤(E.aculeata)、细长真浮萤(E.elongata)和齿形海萤(Cypridina dentata)等为亚热带外海种.这些种具有广泛的分布,如果冬、春季在较低水温出现,与东海北部外海暖流带入有密切的关系.腹突拟浮萤(Paraconchoecia decipiens)、猬刺拟浮萤(P.echinata)、棘刺拟浮莹(P.spinifera)、长拟浮萤(P.oblonga)、大浮萤(Conchoecia magna)和葱萤(Porroecia porrecta)等是热带大洋种,这些种主要分布在黑潮暖流、台湾暖流和台湾海峡水域.同心假浮萤(Pseudocon-choecia concentrica)和Paraconchoecia sp.最适温度较低,但地理分布特征显示前者是亚热带外海种,后者是暖温带外海种.所提到介形类其他物种最适盐度大多超过34,但最适温度在15~20℃之间.依据有关文献,这些种在我国从东海到南沙海域都有分布,分布虽广但数量稀少,难有证据表明这些种分布与暖流有密切的关系,是亚热带外海种. 相似文献
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黄东海大气边界层高度季节变化特征及其成因 总被引:2,自引:0,他引:2
利用CFSR再分析资料,采用EOF的分析方法统计分析了黄东海边界层高度的季节变化特征,探讨了2个模态的分布型以及与之相联系的下垫面热通量和垂直环流,统计了ICOADS资料中近30a逐月低云发生频率和海雾发生频率,揭示了其与边界层高度分布特征的一致性。结果表明:盛行风的平流作用与下垫面特征相结合造成的低空稳定性的变化是黄东海边界层高度时间上夏季低、冬季高,空间上呈现东高西低、南高北低的重要因素。EOF分析中第一模态表现为整个黄东海区域具有一致性,主要是大尺度环流的影响;第二模态为春秋相反的2个分布型,与海洋锋、冷舌以及暖水团的季节变化有着密切关系。黄东海大气边界层高度的最大值出现时间以及其大小在空间上较为一致,而最小值以黄东海海洋锋为界,向北逐渐减小,以南差异性不大,出现时间上有较大的差异。,这主要由黄东海冷舌、暖水团以及海洋锋的季节变化所引起对边界层经向分布影响较大所引起的。春夏季节,南部(西部)低云发生频率高于北部(东部),海雾发生频率低于北部(东部);海雾高频区对应较低边界层高度,而低云高频区对应相对较高边界层高度。 相似文献
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Based on the survey data from the program Multidisciplinary Expedition to Nansha Islands Sea Area, the distribution of dissolved inorganic phosphate ( PO4^3--P ) in the sea water of Nansha Islands Sea Area is comprehensively analyzed in this paper. The results show that PO4^3--P concentration in the sea water of southeastern Nansha Islands Sea Area is commonly higher than that in the other sea areas; the vertical distribution of PO4^3--P concentration varies inconspicuously in different seasons; the concentration of PO4^3--P increases with water depth and changes most greatly in the layer of 50-100m. The diurnal variation of PO4^3--P concentration differs in different seasons and at different observation stations. The distribution and variation of PO4^3--P concentration result from the physical and biological processes together. 相似文献
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Seasonal variability of interannual fluctuations of the heat balance components of the upper quasi-homogeneous ocean layer (UQL) in the North Atlantic is analyzed by processing the reanalysis data set for the period of 1959–2011. It is shown that interannual variations in the components of the UQL heat budget are characterized by pronounced regional features in all seasons. In the tropics and subtropics, heat balance is quasistationary and is determined by the nonlocal processes, such as heat advection and horizontal mixing. In the subpolar latitudes, nonstationarity (in the spring) and heat fluxes at the UQL boundary (in the autumn and in the winter) are also important. A major role in the interannual variability of the UQL temperature in the vicinity of jet currents of the Gulf Stream type is played in all seasons by the fluctuations of horizontal heat advection. However, the contribution of interannual fluctuations of the individual components of the heat budget to variability of the UQL temperature varies considerably in different seasons. The interannual fluctuations of the local variation in the UQL temperature are characterized by the largest variability in the spring and the lowest one in the autumn. The greatest contribution of the variations in the horizontal heat advection to the change in the UQL temperature at the interannual scale is recorded in the winter, and the lowest one is in the summer. The contribution of the interannual variations in the heat fluxes at the UQL upper boundary to the variability of the UQL temperature is the highest in the summer and the lowest in the autumn. Fluctuations of the heat fluxes at the UQL lower boundary do not have a significant impact on the interannual variations in the UQL temperature for the whole water area. The exception is small areas in the region of the formation of the North Atlantic deep water in the autumn–winter period and in the vicinity of the Equatorial Counter Current in the spring–summer period. 相似文献
20.
Rapid changes in the near-bottom water temperature are important environmental factors that can significantly affect the growth and development of species in the bottom culture. The object of this research is to investigate the mechanism causing these rapid changes within a bottom culture area near the Zhangzi Island. The hydrographic transects observations in the North Yellow Sea(NYS) suggest that our mooring station is very close to the tidal mixing front. The horizontal advection of the tidal front has induced the observed tidal change of bottom temperature at the mooring station. Analysis of the mooring near-bottom temperature and current measurements show that the angle between the tidal current horizontal advection and the swing of the tidal front is crucial in determining the variation trend of temperature. When the angle equals 90°, the horizontal tidal current advects along the isotherms so the temperature remains the same. When the angle is between 0° and 90°, the seawater moves from deep water to the warmer coastal zone and the temperature decreases. In contrast, the horizontal tidal advection moves the coastal warm water to the mooring station and the water temperature increases when the angle is between 90° and 180°. The amplitude of the temperature change is proportional to the magnitude of the horizontal temperature gradient and the tidal excursion in the direction of the temperature gradient. This study may facilitate the choice of culture area in order to have a good aquaculture production. 相似文献