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1.
台湾海峡中、北部海域温、盐度特征 总被引:6,自引:1,他引:6
台湾海峡中、北部海域海水温、盐度分布随季风进退而异。东北季风期(10月—翌年5月),进入调查海域的浙闽沿岸水(低温、低盐)顺海域西岸海区南下的同时,在海坛岛外有一分支向东南扩展,其扩展范围随浙闽沿岸水强弱而异,而且在24°30′N,119°30′E附近有海峡暖流水(高温、高盐)向北伸展,它随西南风增强而向北推移。海域温、盐度值自西北向东南递增。西南季风期(6—9月),调查海域基本上为海峡暖流水所控制。在6—8月,海域西岸海区有上升流产生,上升流中心在海坛岛附近。海域盐度值自西北向东南递增,而温度分布趋势与盐度分布相反。 温、盐度的垂直分布大致分均匀型、正梯度型和负梯度型三类。 相似文献
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舟山渔场及其邻近海域水团的季节特征 总被引:5,自引:0,他引:5
根据2001年夏季和2002年冬季两次现场调查所收集的CTD和营养盐资料,利用模糊聚类分析法,对舟山渔场及其邻近海域水团的季节特征进行了分析.结果表明,舟山渔场及其邻近海域水团的配置、分布范围、温盐特性和营养盐含量都有明显的季节特征.其中,冬季在全海域共有3个水团(江浙沿岸水、台湾暖流表层水和黄海混合水),而夏季则存在4个水团(江浙沿岸水、台湾暖流表层水、台湾暖流深层水和黄海混合水);冬季,江浙沿岸水的分布范围较小,温度偏低,盐度略高,营养盐偏高,而夏季,其分布范围较大,温度偏高,盐度偏低,营养盐偏低;冬季,台湾暖流表层水北伸最强,厚度最厚,温度最低,盐度最高,硅酸盐和硝酸盐偏高,而夏季,则北伸最弱,厚度最薄,温度最高,盐度最低,硅酸盐和硝酸盐偏低;台湾暖流深层水是一个季节性水团,它含有较丰富的营养盐;黄海混合水的分布范围和营养盐含量也都呈现出明显的季节特征. 相似文献
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台湾暖流深层水变化特征的分析 总被引:4,自引:0,他引:4
潜居于闽、浙外海深、底层的台湾暖流深层水(又称东海上层水或东海次表层水),是东海陆架西部海域的主要水团之一。台湾暖流深层水的消长变化,对于东海陆架西部海域的水文状况,以及渔业生产的影响非常显著。关于台湾暖流深层水,国内、外海洋学者曾对其温、盐度特性和来源作过一些研究,但对其变化(季节变化和多年变化)特征研究尚少。探讨这一问题,将有助于进一步了解该水团的基本特征。 相似文献
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舟山渔场及其邻近海域水团的气候学分析 总被引:23,自引:1,他引:23
根据多年(1958—1990)月平均温、盐度资料,采用模糊聚类分析法划分了舟山渔场及其邻近海域的水团,并对该海域水团的配置、主要特性及其季节变异特征进行了气候学分析。结果表明,舟山渔场及其邻近海域共存在4个水团,即江浙沿岸水、台湾暖流表层水、台湾暖流深层水和黄海混合水;全年水团的配置可归纳为冬季型、夏季型和过渡型3种类型;江浙沿岸水的主要特征为低盐,其分布范围和盐度的季节变化与长江入海径流密切相关,而温度的季节变化则主要受太阳辐射的影响;台湾暖流表层水具有高温、次高盐特征,其北伸程度和温、盐特性均具有明显的季节变化,即冬季北伸强、温度低、盐度高,夏季北伸弱、温度高、盐度低;台湾暖流深层水以低温、高盐为主要特征,仅存在于4—9月,其温、盐性质较稳定;黄海混合水的主体不在研究海域。 相似文献
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本文采用聚类分析法对浙江近海上升流区夏季水团作了分析,并与T-S分析法作了比较,结果是令人满意的。调查海区大体可分为三个水团,即台湾暖流表层水、台湾暖流深层水和江浙沿岸水。台湾暖流深层水沿海底爬坡涌升是该海区的主要水文特征,在北纬29°断面附近出现最大涌升高度。 相似文献
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台湾海峡西部沿岸上升流的研究 总被引:11,自引:2,他引:11
本文分析了台湾浅滩至闽江口南近海海水的温度、盐度和密度等要素的分布特征,获知夏季海峡西部沿岸存在着上升流。上升流最强的位置有两处:其一在平潭岛附近海域,另一处位于台湾浅滩西北侧东山岛以东海域。文中从底层海流逆坡爬升及风生海流引起的海水涌升等动力学因素方面,对台湾海峡西北部沿岸上升流形成的可能机制进行了探讨,并用等密度线位移估算了平潭岛附近海域上升流的速度为1.6×10~(-3)cm/s。 相似文献
8.
《海洋地质与第四纪地质》2015,(1)
对台湾海峡西北部福建平潭岛附近海域337个表层沉积物样品中的有孔虫进行分析鉴定,研究结果表明浮游有孔虫优势种Globigerinoides sacculifer、G.ruber、Globigerina bulloides的分布及底栖有孔虫组合受到不同水团的影响。根据浮游有孔虫上升流指示种G.bulloides、底栖有孔虫组合和高营养盐深水种的分布特征,对研究区受夏季沿岸上升流的影响范围和程度进行评估。研究区沿岸上升流主要分布于东南部水深大于40m的海域及平潭岛东部水深20m附近,最远可达水深低于10m的海湾内部分区域,但强度相对减弱,水深较浅的陆地和岛屿边缘附近未受沿岸上升流影响。平潭岛东北部到南日岛西南部水深10~30m部分区域由于受到冬季浙闽沿岸流的影响,沿岸上升流在该区域的沉积记录缺失。 相似文献
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本文综合分析四个断面16个标准层的因子点聚,表明在整个海区有九个水团,即:黑潮表层水、黑潮次表层水、黑潮中层水、黑潮深层水、大陆沿岸水、台湾暖流水、黄海水、对马暖流水和东海混合水,前6个水团是该海区的主要水团。本文还详细讨论了每个水团的分布特征。 相似文献
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台湾海峡中、北部海域的上升流现象 总被引:6,自引:0,他引:6
1983午5月至1984年5月,我所对台湾海峡中、北部海域(24°30′N—26°00′N、121°00′E以西)进行了综合调查,对所取得的温、盐度及定点测流资料分析得出:6月至8月间,在调查海域西侧近岸海区存在着上升流现象,与上升流现象有关的近表层海水低温、高盐和高密(σ(?))出现在海坛岛附近海区。初步分析,调查海区西侧近岸海区上升流现象的成因,是来自海峡南部的海峡暖流水从海峡南部北上,经过调查海域时,由于受海底地形的影响,使近岸海区水文状况发生变化。 相似文献
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Summertime hydrographic features in the southeastern Hwanghae 总被引:1,自引:0,他引:1
Heung-Jae Lie 《Progress in Oceanography》1986,17(3-4)
CTD casts in the southeastern Hwanghae (Yellow Sea) were made in August 1983 and 1984 to describe the spatial structure of the summertime hydrographic features. Cold coastal water appeared around the southwestern coast of Korea, which was formed by strong tidal stirring. Tidal mixing in the study area seems to have been enhanced by the presence of many small islands. In the deeper region beyond the tidal front, stratification became much stronger and the bottom layer below seasonal thermocline was occupied mostly by the Hwanghae Cold Water characterized by a temperature lower than 10°C and salinity of 32.5–33.0%.The northeastward extension of the Changjiang Diluted Water was shown by a tongue-like plume of relatively warm fresh water, confined to the thin surface layer 10 m thick. There was no evidence for the Hwanghae Warm Current carrying high salinity water into the eastern Hwanghae along the Korean coast. The warm current was found to flow in a narrow band close to the west and north coast of Chejudo (Cheju Island) and then to pass eastward through the Cheju Strait. Thus the eastern part of the cyclonic circulation in the surface layer cannot be considered to be a northward continuation of the Hwanghae Warm Current. The local salinity maximum in the lower layer off Kunsan and the higher salinity on the west side of the central trough than on the east side would imply a northward flow on the west flank of the trough to compensate for the southward intrusion of the Hwanghae Cold Water, from which an anticyclonic circulation could be expected in the lower layer. 相似文献
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台湾海峡中部北部春、夏季温、盐度结构 总被引:1,自引:0,他引:1
本文着重分析了1987年和1988年5~8月的温、盐度观测资料,并与1983年6~8月和1984年5月的观测资料进行对比,结果表明,台湾海峡中、北部海域春、夏季(5~8月)温、盐度结构主要取决于不同季风的影响。季风的转换过程既是海域温、盐结构调整过程,也是海域上升流形成过程。 相似文献
14.
Heung -Jae Lie 《Journal of Oceanography》1985,41(5):291-298
Wintertime temperature-salinity properties of the southeastern Hwanghae (Yellow Sea) were analysed, based on long-term hydrographic data gathered between 1961 and 1980. A strong thermohaline front is formed in the area west of Cheju-do (along 33?40′N in the region bounded by 124? E and 126?20′E) during winter and extends to the bottom. This surface-to-bottom front, running from west to east, divides water properties into two types: one type of low temperature and low salinity to the north of the front and another one of high temperature and high salinity to the south of the front. The existence of the front suggests that there is no northward flow in the study area, a finding which runs counter to the conventional belief that there is the Hwanghae Warm Current carrying waters of high temperature and salinity to the north. T-S diagrams show that in winter the Hwanghae Warm Current Water and the Hwanghae Cold Water are the representative water masses in the study area. 相似文献
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Monthly variations of hydrographic structures and water mass distribution off the Doto area, Japan 总被引:2,自引:2,他引:0
Monthly variations of hydrographic structures and water mass distributions were investigated over a nearly 30-year period (January 1982–March 2011) off the Doto area, Japan, to examine temporal evolutions and devolutions of representative water masses in this area. In the continental shelf area, the Coastal Oyashio Water (COW) was distributed along the coast during January–May, when COW has been modified by relatively higher salinity water, which may have originated from the Oyashio Water (OW) off the Kuril Islands. On the other hand, the Surface COW (S-COW) may have formed with COW heated by solar radiation, simultaneously mixing with the Tokachi River freshwater and OW in the continental shelf area, and the area of this S-COW spread offshoreward during June and July, and stayed in the offshore area during June and October. Although coastal density current structures, probably due to the Modified Soya Warm Current Water (M-SWCW) inflows, were conspicuous in the continental shelf area during August–October, those structures were weak after November. These weakening structures may be due to developed surface mixed layer caused by surface cooling, and decay of volume transport of the Soya Warm Current in the Okhotsk Sea, and such weakening accordingly may lead to weakening of higher salinity water inflows from the upstream regions. M-SWCW was radically replaced by COW during December and January with rapid salinity decreases, which suggest extremely lower salinity water inflows, probably due to influences of the East Sakhalin Current Water. 相似文献
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渤、黄、东海夏季环流的数值模拟 总被引:18,自引:1,他引:18
在POM的基础上 ,建立一个σ坐标系下的三维斜压预报模式 ,考虑了海底地形、外来流、长江径流、海面风应力、海面热交换等多方面因素的影响 ,较好地模拟了夏季东中国海环流的情况。其结果表明 ,黑潮在流经东海时沿东海陆坡流动 ,其途径随陆坡等深线走向而变 ,在其两侧出现一些涡旋。夏季台湾暖流上层水主要来自台湾海峡 ,底层水主要由台湾东面黑潮的次表层水入侵陆架生成。夏季进入朝鲜海峡的对马暖流的来源是多方面的 ,其中有 :台湾暖流、黑潮分支、长江冲淡水与西朝鲜沿岸流的混合水。长江冲淡水在出长江口后 ,很快转向北流动 ,到34°N附近转向东南方向。在长江口东北面存在两个中尺度的涡旋。夏季黄海冷水环流由南北两部分组成 ,表层流速大 ,底层流速小。在青岛 石岛附近还存在一个中尺度的反气旋型涡旋 相似文献
17.
Heung-Jae Lie Cheol-Ho Cho Jae-Hak Lee Suk Lee Yuxiang Tang 《Journal of Oceanography》2000,56(2):197-211
The Cheju Warm Current has been defined as a mean current that rounds Cheju-do clockwise, transporting warm and saline water to the western coastal area of Cheju-do and into the Cheju Strait in the northern East China Sea (Lie et al., 1998). Seasonal variation of the Cheju Warm Current and its relevant hydrographic structures were examined by analyzing CTD data and trajectories of satellite-tracked drifters. Analysis of a combined data set of CTD and drifters confirms the year-round existence of the Cheju Warm Current west of Cheju-do and in the Cheju Strait, with current speeds of 5 to 40 cm/s. Saline waters transported by the Cheju Warm Current are classified Cheju Warm Current water for water of salinity greater than 34.0 psu and modified Cheju Warm Current for water having salinity of 33.5–34.0 psu. In winter, Cheju Warm Current water appears in a relatively large area west of Cheju-do, bounded by a strong thermohaline front formed in a "" shape. In summer and autumn, the Cheju Warm Current water appears only in the lower layer, retreating to the western coastal area of Cheju-do in summer and to the eastern coastal area sometimes in autumn. The Cheju Warm Current is found to flow in the western channel of the Korea/Tsushima Strait after passing through the Cheju Strait, contributing significantly to the Tsushima Warm Current. 相似文献
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根据1978—1980年渤海及北黄海70个测站的表、底层温、盐资料,用预先给定控制临界值的聚类方法,在该海域划分出5个水团。分析结果表明。1.渤黄海暧水团在冬季为高盐特征,夏季为中盐性质;其分布范围在冬—春季较小而夏—秋季较大。2.渤海水团为中温中盐性质:其温、盐度变化较小而冬—春季范围较大。3.黄海冷水团是一个高盐水团,它在5个水团中保守性最强,而从5月至8月范围较大。4.渤海沿岸水是一个不稳定的水团,其盐度较低,温度变化较小,春季和秋季范围较大而夏季和冬季较小。5.江河冲淡水是温度变化较大的低盐水,其范围夏季大而冬季小。水团的分布,在地理位置上是从该海区之东向西,一层套一层,而各水团在不同季节有自己的模式。此外,本文还探讨了水团消长变化和渔场的关系。 相似文献