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1.
珠江伶仃河口湾及邻近内陆架的纵向环流与物质输运分析 总被引:7,自引:0,他引:7
根据实测资料分析了珠江伶仃河口湾与邻近内陆架在不同径流影响下的水体混合空间状态和季节变化特征。主要由河口湾表、中层冲淡水和内陆架底层上溯的高盐补偿流构成了河口湾和内陆架之间的净环流,在高径流量和西南大风的情况下,环流下移向内陆架扩展增强。计算表明,7月纵断面上的净环流输运是盐分纵向净通量的控制因素,输运方向指向上游,而其余季节则以向海的净平流输运为主。悬沙净通量主要受净平流及潮抽吸输运控制,潮抽吸 相似文献
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夏季浙江沿岸陆架区泥沙输运机制 总被引:3,自引:0,他引:3
基于2014年夏季浙江沿岸陆架区的水文、泥沙、底质沉积物等实测资料,运用物质通量分析方法和Gao-Collins粒径趋势分析法,探讨了泥沙的输运通量、输运方向、动力机制及净输运趋势。夏季,近岸含沙量规律性较强,由西至东逐渐降低,由南至北逐渐升高,且与潮流有非常好的对应关系,呈现出明显的潮周期变化特征。研究区净悬沙通量自岸向外海迅速变小,悬沙输运中平流输运占主导地位,其次是垂向净环流对悬沙输运的影响,近岸海域表现为向海输沙,30 m以深海域表现为东北向输沙,同时台湾暖流的屏障作用也影响了悬沙向海扩散。粒径趋势分析显示浙江沿岸陆架表层沉积物的长期输运机制为由东北向西南输运,在流系以及海底地形的影响下,中部海域出现粒径趋势较弱的沉积中心。而在夏季,悬浮泥沙主要为平行岸线向东北输运,估算每天进入研究海域的净悬浮泥沙约为1.9×106 t。 相似文献
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基于2006年夏季和2007年冬季实测温盐数据和悬浮体浓度数据,分析东海内陆架悬浮体水平和垂直分布季节性特征,并结合MIKE3数值模拟海流结果,定量估算东海关键断面悬浮体运移通量,探讨悬浮体输运与泥质区形成和演化的关系。研究表明:东海内陆架悬浮体分布主要受流系控制,且季节变化明显;一般天气条件下,东海内陆架泥质区海域输入悬浮体净通量约为2.24×108t/a,其中夏半年悬浮体向泥质区海域输入净通量约为52.19×106t,贡献约为23.29%,冬半年净通量约为171.87×106t,贡献约为76.71%,浙闽沿岸悬浮体输运净通量均有利于东海内陆架泥质区的发育。本研究将对东海内陆架泥质区物质来源和发育演化研究提供理论支持。 相似文献
4.
为了评价物质入海通量对地区的影响,有必要对入海通量进行统计分析,并对其控制因子进行研究.由于机制分解方法物理概念清晰,采用此方法.从物质平衡入手,分析物质输运机理,描述不同类型河口的特点,并在实测资料的基础上,研究珠江口内伶仃洋河口湾的盐度输运,对比各动力因子对盐度贡献项的大小,结果表明盐度纵向净通量主要是由纵向净平流输运控制,斯托克斯漂移和垂向净环流引起的盐度输运也不容忽视. 相似文献
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伶仃河口湾铜鼓水域水沙净输运分析 总被引:7,自引:1,他引:6
根据对珠江伶仃河口湾铜鼓水域丰水期9个测站大、中、小潮三次同步水文泥沙资料及57个底质样品的分析结果,本文讨论了此水域的水沙净输运趋势。结果表明,铜鼓水域表层余流向海,浅滩测站中底层余流指向河口方向,欧拉余流主要由径流构成。沟槽悬沙输运以净平流作用为主,浅滩区则以向上游的潮抽吸输运为主。沉积物净输运趋势显示铜鼓浅滩是海陆双向底质输运的汇聚地带 相似文献
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珠江黄茅海河口洪季侧向余环流与泥沙输移 总被引:1,自引:1,他引:0
2012年洪季对珠江黄茅海河口湾侧向动力结构与泥沙输移过程进行了系统观测,采用动量平衡和泥沙通量机制分解等方法,分析了河口流、温盐和泥沙侧向分布特征以及泥沙输移过程,探讨了侧向动量平衡与泥沙输移机制。洪季黄茅海河口存在明显的侧向流,西滩和北槽均形成表层向东、底层向西的两层侧向流,拦门沙滩顶呈现表、底层向西、中层向东的三层侧向流,而拦门沙前缘侧向流整体向西。河口湾纵向净泥沙通量表现为北槽向海、西滩向陆,拦门沙滩顶及其前缘均向海;侧向净泥沙通量表现为滩顶及其前缘均向西,西滩向东、北槽向西。这种侧向泥沙辐聚过程是高浓度悬沙聚集于滩槽界面的重要原因,向陆净通量是西滩回淤的重要原因。滩槽间侧向余环流动量平衡主要是侧向斜压梯度力、科氏力和侧向平流作用。欧拉平流输运在侧向泥沙输运中起主要作用,潮泵效应也起重要作用。 相似文献
7.
近海潮汐锋的分布和变化,主要受表层风摩擦、底层潮混合、净热通量和浮力平流的影响。基于2017年7、8月份辽东湾东部海域的实测数据,并结合ROMS(Regional Ocean Model System)模拟结果,利用考虑浮力平流效应的Stigebrandt公式对夏季辽东湾潮汐锋的位置变化进行了诊断计算,计算结果与ROMS模拟的潮汐锋位置符合较好,进一步探讨了风、净热通量和浮力平流对锋面位置变化的影响。主要结论如下:(1)位于辽东湾北部和东、西沿岸浅水区的潮汐锋呈"几"字形分布;(2)2017年6-7月潮汐锋位置变动不大,7月份仅在辽东湾东、西两岸潮汐锋位置略微向深水区移动,这主要是净热通量整体略微减小和风场略微增大造成的,浮力平流作用效果不够显著;(3)2017年8月辽东湾潮汐锋位置较7月向深水区大幅移动,最大移动距离约为20km,辽东湾8月份净热通量的大幅减弱起到了重要作用,浮力平流使潮汐锋位置向浅水区偏移,其调节效果比较显著。 相似文献
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象山港盐度分布和水体混合 Ⅱ.混合分析 总被引:5,自引:3,他引:2
利用1981-1990年象山港的实测水文断面资料和盐度通量分析方法定量检验了各种动力因子对象山港水体混合的贡献,探讨了象山港水体混合的控制机理。象山港牛鼻水道至佛渡水道为平流和潮弥散混合区,水体纵向混合较好。象山港狭湾内段的潮混合强度较弱,垂向环流和潮振荡的垂向切变作用突出,水体纵向混合较狭湾外差。象山港湾外段为内段与田外的过渡区,各种混合因子的地位随季节和潮汛而变,水体混合状况介于狭湾内段和口外 相似文献
9.
根据2012年9月在杭州湾口门中部外侧海域岱衢洋主槽内获得的包括大、中、小潮的垂向流速和悬浮泥沙观测资料,利用机制分解方法计算了岱衢洋的水沙输移通量等特征,分析并讨论了各个输沙项对总输沙量的贡献,解释了杭州湾水沙进出外海的输运机制。研究结果表明:研究区域单宽涨潮量大潮为小潮的2.3倍,单宽落潮量大潮为小潮的1.6倍。从小潮到大潮的余流和单宽净输水量由向海变为向陆;单宽涨潮输沙量大潮为小潮的4.5倍,单宽落潮输沙量大潮为小潮的2.7倍。单宽输沙量表现为小潮和中潮向海,大潮向陆的特点,大潮单宽净输沙量约为小潮和中潮的2倍;在各输沙项中,平流输沙主要来自水体净输移(拉格朗日余流决定)对悬沙输移的贡献,平流输沙方向小潮向海,中潮和大潮向陆,其中大潮和小潮时平流输沙在各项中贡献率最大;潮泵输沙小潮和中潮向海,大潮输沙向陆,中潮时潮泵输沙贡献率在各项中贡献率最大;垂向净环流输沙方向均向陆,大中小潮悬沙含量的垂向的差异是导致小潮垂向净环流输沙量大,大潮输沙量小的主要原因;杭州湾中部通过岱衢洋通道与外海泥沙交换的主要形式是大进大出、反复搬运,而在一个完整的半月周期内外海泥沙净进杭州湾的量相对较小。 相似文献
10.
弱动力浅海中的悬沙输运机制:以天津港附近海域为例 总被引:3,自引:1,他引:2
根据在天津港附近海域获取的水动力和浊度数据,分析了悬沙输运特征和输运机制,结果表明:天津港附近海域受不规则半日潮控制呈低流态往复流特征,但涨潮流强于落潮流;涨潮期间底部悬沙浓度与垂线平均流速呈显著线性相关,存在显著的再悬浮作用;潮周期内的悬沙输运呈典型的不对称特征,形成向岸的净输运趋势。输运机制分析结果显示:潮泵效应(尤其是潮汐捕捉效应)是天津港附近海域悬沙输运的主要贡献项,其次是拉格朗日平流输运项,前者比后者高一个量级;垂向剪切作用最小。涨落潮期间流速与悬沙浓度的显著不对称是造成潮汐捕捉效应占主导的基本条件。在潮下带这种悬沙输运格局可能和潮间带发生的细颗粒沉积物捕集(堆积)作用有关。 相似文献
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长江口深水航道三期工程后北槽洪枯季水沙运动特征研究 总被引:1,自引:0,他引:1
利用长江口深水航道三期整治工程前后,北槽洪枯季各测点水沙资料初步探讨了北槽洪枯季水沙运动特征。研究结果表明,北槽洪枯季潮周期平均含沙量分布自上而下总体呈"低-高-低"的分布态势,中段含沙量较高。洪季北槽各测点潮周期平均含沙量与潮周期平均流速相关性较差,北槽泥沙输运以平流输移为主。枯季两者相关较好,北槽泥沙运动则以起悬输运为主。北槽悬沙输运主要以欧拉输运为主,洪季北槽悬沙净输运率要明显大于枯季。洪季北槽中段潮泵及垂向环流作用最为明显,枯季,除北槽上段外,潮泵及垂向环流作用较小,水沙输运方向较为相近。造成洪季北槽中段潮泵作用及垂向环流输沙较大的原因是由于北槽中段滩槽泥沙交换频繁,涨潮流经南槽拦门沙及九段沙滩面后,挟带一定高含沙水体进入北槽,进而造成北槽中段潮泵及垂向环流输沙明显。 相似文献
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AbstractBased on hydrological data obtained during the 7th to 9th Chinese National Arctic Research Expeditions in the summers of 2016–2018, the main water structure on the shelf of the northern Bering Sea and the volume and heat fluxes of the Bering Strait throughflow were analyzed. Distinct variability was identified in the three Pacific water masses feeding the strait - Anadyr Water (AW), Bering Shelf Water (BSW) and Alaskan coastal water (ACW). Overall, the temperature and salinity of the entire section increased each year, with 2018 showing significant anomalies, i.e., a temperature anomaly of up to 1?°C and a maximum salinity anomaly of 2. From 2016 to 2018, the extent of the ACW gradually narrowed in the eastern part of this section, while the AW expanded eastward each year. The net volume transport through each of the three sections increased poleward from 1.65?Sv to 2.76?Sv, with the AW increasing from 0?Sv to 1.03?Sv, the BSW varying between 0.52–1.65?Sv, and the ACW gradually decreasing from 1.04?Sv to disappearing completely. The net heat fluxes were also poleward, varying between 25.77 TW and 61.50 TW, and showing a significant increase. Significant variations in magnitude and extent were observed in each water mass of the Bering Strait throughflow, which could produce widespread effects in the Arctic Ocean and the global ocean beyond. 相似文献
15.
Emilie Strady Grard Blanc Jrg Schfer Alexandra Coynel Aymeric Dabrin 《Estuarine, Coastal and Shelf Science》2009,83(4):550-560
Understanding trace metal behaviour in estuarine environments requires sampling strategies and analytical methods adapted to strong physical and geochemical gradients. In this study, we present a specific sampling strategy covering a wide range of hydrological conditions during nine cruises in 2003–2007 to characterise the behaviour of three dissolved metals (uranium, vanadium and molybdenum) in surface and bottom water along the salinity gradient of the highly turbid macrotidal Gironde Estuary using a solid–liquid extraction. Uranium behaved conservatively whatever the water discharges observed. The slight dissolved U depletion compared to the theoretical dilution line between the fluvial and marine end-members occasionally observed in the low salinity range (0–3) was attributed to the mixing of different water bodies of the Gironde tributaries. In contrast, dissolved V behaviour was largely influenced by the hydrological conditions, showing increasingly pronounced addition with decreasing freshwater discharges, (i.e. increasing residence times of water and particles in the estuary). This addition of dissolved V in the low- to mid-salinity range was attributed to desorption processes observed in the Maximum Turbidity Zone (MTZ). The distribution of dissolved Mo concentrations along the salinity gradient was highly variable. Apparent conservative, and non-conservative behaviours were observed and were related to the concomitance of desorption from SPM, inputs from sediments for additive distribution and biological uptake and removal into sediments for subtractive distribution. Based on the whole database (2003–2007), annual net fluxes to the coastal ocean were estimated for dissolved U (15.5–16.6 t yr−1) and V (31.3–36.7 t yr−1). 相似文献
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东海北部陆架区温、盐度逆转现象的分析 总被引:1,自引:0,他引:1
东海陆架区的温、盐度逆转现象,有关研究已作了一些论述(苏育嵩等,1989;蓝淑芳等,1984; Nakao,1977),指出东海陆架区存在两个温、盐度逆转结构出现频率高的海区:一个位于江苏、浙江近海的狭长海区内;另一个位于东海北部济州岛西南海区,即东海北部底层冷水及其附近海域(蓝淑芳等,1993)。翁学传(1984)、曹欣中等(1982)利用常规调查资料,曾分别对第一高频区的中层冷水和温度逆转现象作了初步分析;丁宗信(1994,1995)利用常规调査资料和CTD资料,对黄海、东海春、夏、秋、冬四季温、盐度垂直分布类型及逆转现象的成因进行了研究。本文根据中国科学院海洋研究所1984年和1985年6月在东海北部陆架区进行的大面水文调査资料(该资料由“科学一号”调査船使用Mark-Ⅲ CTD 探测仪获取),以及国家海洋局1975-1980年在东海取得的标准断面BT观测资料,对东海北部陆架区,特别是上述第二高频区的温、盐度逆转现象和成因作进一步研究。
由于该海区的温、盐度逆转现象与水团的配置及交汇密切相关,所以首先讨论该海区的水团。 相似文献
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《Oceanologica Acta》1998,21(2):179-190
The annual cycle of temperature, salinity and nutrients of surface waters (up to 100 m depth) was studied from June 1991 to December 1995 in a cross-shelf section over the continental shelf waters off Santander (southern Bay of Biscay). The time series showed that the temperature followed the expected seasonal warming and cooling pattern, which determines a seasonal process of stratification and mixing of the water column. The stratification period occurs annually between May and October in a layer of about 50 m depth from the neritic station beyond to the shelf-break. In the period between November and April the water column remained mixed. During spring and summer low salinity values were found in the surface due to continental runoff and advection from oceanic waters. In late autumn and winter, the salinity pattern was governed by an influx of salty water associated with the poleward current. As in other temperate latitudes, nitrates showed the highest values in winter throughout the water column and the lowest values at the surface during the stratified period. Wind-induced upwelling events were observed mainly in summer, which are characterised by low temperatures (< 12°C), high salinity and nutrient concentrations. The inter-annual variability of temperature showed a warming trend in the upper layers but this sign was not found at 100 m depth. In salinity a decreasing trend was observed throughout the water column, and this feature corresponds to the relaxing of the high salinity anomaly detected in the North Atlantic at the beginning of the 1990s. Both trends were coherent in the cross-shelf section from the coast to the slope. 相似文献
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The relative impacts of tidal (neap, spring) and river discharge (including a flood event) forcing upon water and sediment circulation have been examined at the rock-bound Guadiana estuary. Near-bed and vertical profiles of current, salinity, turbidity, plus surface suspended sediment concentrations (SSC, at some stations only), were collected at the lower and central/upper estuary during tidal and fortnightly cycles. In addition, vertical salinity and turbidity profiles were collected around high and low water along the estuary. Tidal asymmetry produced faster currents on the ebb than on the flood, especially at the mouth. This pattern of seaward current dominance was enhanced with increasing river flow, due to horizontal advection that was confined within the narrow estuarine channel. The freshwater inputs and, at a degree less, the tidal range controlled the vertical mixing and stratification importance. Well-mixed (spring) and partially stratified (neap) conditions alternated during periods of low river flows, with significant intratidal variations induced by tidal straining (especially at the partially stratified estuary). Highly stratified conditions developed with increasing river discharge. Intratidal variability in the pycnocline depth and thickness resulted from current shear during the ebb. A salt wedge with tidal motion was observed at the lower estuary during the flood event. Depending on the intensity of turbulent mixing, the residual water circulation was dominantly controlled either by tidal asymmetry or gravitational circulation. The SSC was governed by cyclical local processes (resuspension, deposition, mixing, advection) driven by the neap-spring fluctuations in tidal current velocities. More, intratidal variability in stratification indicated the significance of tidal pumping at the partially and highly stratified estuary. The estuary turbidity maximum (ETM) was enhanced with increasing current velocities, and displaced downstream during periods of high river discharge. During the flood event, the ETM was expelled out of the estuary, and the SSC along the estuary was controlled by the sediment load from the drainage basin. Under these highly variable river flow conditions, our observations suggest that sand is exported to the nearshore over the long-term (>years). 相似文献