期刊文献+
共找到59篇文章
< 1 2 3 >
每页显示 20 50 100
Nutrient Structure of the Taiwan Warm Current and Estimation of Vertical Nutrient Fluxes in Upwelling Areas in the East China Sea in Summer 被引量:5
1
作者 SHI Xiaoyong LI Hongmei WANG Hao 《Journal of Ocean University of China》 SCIE CAS 2014年第4期613-620,共8页
Based on field data for nutrients collected on the continental shelf of the East China Sea(ECS) during summer 2006, the structure and variations of nutrients in every water mass related to the Taiwan Warm Current(TWC)... Based on field data for nutrients collected on the continental shelf of the East China Sea(ECS) during summer 2006, the structure and variations of nutrients in every water mass related to the Taiwan Warm Current(TWC) were analyzed. The supplementary effect of nutrient of upwelling on harmful algal blooms(HABs) in the ECS was also estimated, based on upwelling data. Then the maintenance contribution of nutrient of upwelling to HABs was assessed. The results showed that N/P ratio is fairly low in both surface and deep layers of the TWC, which possibly controls nutrient structure of the HABs-frequently-occuring areas. In upwelling areas, the rate of phosphate(PO4-P) uptake exceeds that of nitrate(NO3-N) of the TWC. The TWC may relieve PO4-P limitation during the process of HABs. Furthermore, upwelling plays an important role in providing nutrients to HABs. After estimating nutrient fluxes(NO3-N, PO4-P, Si O3-Si) in the upwelling areas along a typical section(S07), the results showed that the nutrient uptake rate is the greatest at 10-20 m below euphotic zone, sustaining the ongoing presence of HABs. The uptake rate of PO4-P is the highest among dissolved inorganic nutrients. Therefore, upwelling is most likely the main source of PO4-P supply to HABs. 展开更多
关键词 nutrient structure FLUX taiwan warm current UPWELLING East China Sea
下载PDF
Seasonal variation of the Taiwan Warm Current Water and its underlying mechanism 被引量:5
2
作者 齐继峰 尹宝树 +2 位作者 张启龙 杨德周 徐振华 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2017年第5期1045-1060,共16页
Based on the historical observed data and the modeling results,this paper investigated the seasonal variations in the Taiwan Warm Current Water(TWCW)using a cluster analysis method and examined the contributions of th... Based on the historical observed data and the modeling results,this paper investigated the seasonal variations in the Taiwan Warm Current Water(TWCW)using a cluster analysis method and examined the contributions of the Kuroshio onshore intrusion and the Taiwan Strait Warm Current(TSWC)to the TWCW on seasonal time scales.The TWCW has obviously seasonal variation in its horizontal distribution,T-S characteristics and volume.The volume of TWCW is maximum(13746 km^3)in winter and minimum(11397 km^3)in autumn.As to the contributions to the TWCW,the TSWC is greatest in summer and smallest in winter,while the Kuroshio onshore intrusion northeast of Taiwan Island is strongest in winter and weakest in summer.By comparison,the Kuroshio onshore intrusion make greater contributions to the Taiwan Warm Current Surface Water(TWCSW)than the TSWC for most of the year,except for in the summertime(from June to August),while the Kuroshio Subsurface Water(KSSW)dominate the Taiwan Warm Current Deep Water(TWCDW).The analysis results demonstrate that the local monsoon winds is the dominant factor controlling the seasonal variation in the TWCW volume via Ekman dynamics,while the surface heat fl ux can play a secondary role via the joint ef fect of baroclinicity and relief. 展开更多
关键词 taiwan warm current Water (TWCW) taiwan Strait warm current (TSWC) KUROSHIO East China Sea
原文传递
A numerical study on seasonal variations of the Taiwan Warm Current 被引量:5
3
作者 白学志 胡敦欣 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2004年第3期278-285,共8页
Princeton Ocean Model (POM) is employed to investigate the Taiwan Warm Current (TWC) and its seasonal variations. Results show that the TWC exhibits pronounced seasonal variations in its sources,strength and flow patt... Princeton Ocean Model (POM) is employed to investigate the Taiwan Warm Current (TWC) and its seasonal variations. Results show that the TWC exhibits pronounced seasonal variations in its sources,strength and flow patterns. In summer, the TWC flows northeast in straight way and reaches around 32°N; it comes mainly from the Taiwan Strait, while its lower part is from the shelf-intrusion of the Kuroshio subsurface water (KSSW). In winter, coming mainly from the shelf-intrusion of the Kuroshio northeast of Taiwan, the TWC flows northward in a winding way and reaches up around 30°N. The Kuroshio intrusion also has distinct seasonal patterns. The shelf-intrusion of KSSW by upwelling is almost the same in four seasons with a little difference in strength; it is a persistent source of the TWC. However, Kuroshio surface water (KSW) can not intrude onto the shelf in summer, while in winter the intrusion of KSW always occurs. Additional experiments were conducted to examine effects of winds and transport through the Taiwan Strait on the TWC. In winter, northerly winds enhance the shelf-intrusion of the Kuroshio and spread northward, but hamper the northward inflow from the Taiwan Strait. In summer, the effect of the winds is confined in the surface layer, and less obvious than that of winter. Transport through the Taiwan Strait influences the TWC significantly. With the Taiwan Strait closed in the simulation, the TWC would be dramatically weakened. 展开更多
关键词 taiwan warm current Kuroshio intrusion seasonal variations numerical simulation
原文传递
On the Taiwan Warm Current Water
4
作者 翁学传 王从敏 《中国海洋大学学报(自然科学版)》 CAS CSCD 1989年第S1期500-514,共15页
Using our data from special observation in the source area of the Taiwan Warm Current from 19S2 to 1985) and historical data, the authors conducted studies to clarify the temperature and salinity characteristics, vari... Using our data from special observation in the source area of the Taiwan Warm Current from 19S2 to 1985) and historical data, the authors conducted studies to clarify the temperature and salinity characteristics, variability, and origin of the Taiwan Warm Current Water, and its influence on the expanding direction of the Changjiang Diluted Water.The main results of these studies are briefly given below. (1) The Taiwan Warm Current Water can be divided into two parts:the Surface Water of the Taiwan Warm Current and the Deep Water of the Taiwan Warm Current; the former is formed due to the mixing of the Kuroshio Surface Water flowing northward along the east coast of Taiwan with the Taiwan Strait Water; the latter completed originates from Kuroshio Subsurface Water to the east of Taiwan. It is characterized by lower temperature and higher salinity in summer and the characteristics of temperature and salinity are more stable. The maximum seasonal variational range and maximum secular variational range of 展开更多
关键词 WATER MASS the taiwan warm current Water.
下载PDF
THE RELATIONSHIP BETWEEN THE TAIWAN WARM CURRENT AND TSUSHIMA WARM CURRENT 被引量:4
5
作者 ZHENG Pei-nan WU De-xing LIN Xiao-pei 《Journal of Hydrodynamics》 SCIE EI CSCD 2009年第2期212-218,共7页
The Taiwan Warm Current (TWC) and the Tsushima Warm Current (TSWC) flow northward over the shelf in the East China Sea (ECS), which some previous studies regard as a Taiwan-Tsushima Warm Current (TTWC) System.... The Taiwan Warm Current (TWC) and the Tsushima Warm Current (TSWC) flow northward over the shelf in the East China Sea (ECS), which some previous studies regard as a Taiwan-Tsushima Warm Current (TTWC) System. But the roles of the TWC and TSWC in the formation of the TTWC system have not been clarified. This article will show that the TSWC is more important in the TTWC system. Using a three-dimensional baroclinic model, we conducted several numerical experiments to reveal the dynamic relationship between the TWC and TSWC. The results show that the TWC has little effect on the TSWC, while the TSWC has a significant effect on the TWC. A source-sink driven mechanism along isobaths may be used to explain this phenomenon The perennial northward flow through the Tsushima Strait pumps the response over the northern shelf in the ECS that gives rise to the TWC. Although the TSWC is located at the "downstream" region, it could induce about 0.5 Sv to TWC in annual mean values. 展开更多
关键词 taiwan-Tsushima warm current system POM source-sink driven circulation
原文传递
An estimation of nutrient fluxes to the East China Sea continental shelf from the Taiwan Strait and Kuroshio subsurface waters in summer 被引量:10
6
作者 LI Hongmei SHI Xiaoyong +1 位作者 WANG Hao HAN Xiurong 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2014年第11期1-10,共10页
According to historical mean ocean current data through the field observations of the Taiwan Ocean Research Institute during 1991–2005 and survey data of nutrients on the continental shelf of the East China Sea(ECS... According to historical mean ocean current data through the field observations of the Taiwan Ocean Research Institute during 1991–2005 and survey data of nutrients on the continental shelf of the East China Sea(ECS) in the summer of 2006, nutrient fluxes from the Taiwan Strait and Kuroshio subsurface waters are estimated using a grid interpolation method, which both are the sources of the Taiwan Warm Current. The nutrient fluxes of the two water masses are also compared. The results show that phosphate(PO4-P), silicate(SiO3-Si) and nitrate(NO3-N) fluxes to the ECS continental shelf from the Kuroshio upwelling water are slightly higher than those from the Taiwan Strait water in the summer of 2006. In contrast, owing to its lower velocity, the nutrient flux density(i.e., nutrient fluxes divided by the area of the specific section) of the Kuroshio subsurface water is lower than that of the Taiwan Strait water. In addition, the Taiwan Warm Current deep water, which is mainly constituted by the Kuroshio subsurface water, might directly reach the areas of high-frequency harmful alga blooms in the ECS. 展开更多
关键词 NUTRIENT FLUX taiwan warm current SUMMER East China Sea
下载PDF
Analysis of thermohaline and current distribution characteristics of Zhejiang and Fujian waters in summer 被引量:4
7
作者 DU Panjun ZHANG Hui +2 位作者 XIAO Wenjun KANG Xing GUAN Qinle 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2011年第5期71-83,共13页
This paper analyzed the distribution of thermohaline and circulation characteristics of Zhejiang and Fujian waters,based on the cross-sectional thermohaline data and on current data (up to 30 d duration) at fixed-po... This paper analyzed the distribution of thermohaline and circulation characteristics of Zhejiang and Fujian waters,based on the cross-sectional thermohaline data and on current data (up to 30 d duration) at fixed-point moorings,collected in the summer of 2006.We also performed low-pass filtering and spectrum analysis on the mooring submersible buoy data.Based on that analysis,we discussed the characteristics of low frequency currents and time-variations in these waters.The main conclusions are as follows.(1) There is a low salinity pinnate area near the Hangzhou Bay in summer,and outside the low salinity area,an obvious salinity front is present from surface to bottom near 123 E.There is also a temperature front below the surface at a corresponding position.(2) Bottom water of the Taiwan Warm Current comes from the subsurface of Kuroshio.(3) The direction of low frequency current at fixed anchor stations is N-NE or S,which mainly depends on the interaction of control currents in this waters.(4) Significant spectral peaks at all mooring stations are typically semidiurnal and diurnal tides.Semidiurnal tidal waves are the main ones in these waters,and have more energy closer to the shore.(5) Significant energy spectral peaks of middle period (3 to 8 d) of currents are responses to weather frequency.(6) Significant energy spectral peaks of long periods at the surface or bottom are probably responses to seasonal wind or bottom friction,while,the long period peaks of other depths can reflect cyclical changes of interactions between currents.We conclude that the pulsation period of the Taiwan Warm Current in these waters is 10-17 d. 展开更多
关键词 Zhejiang and Fujian waters thermohaline distribution low-frequency current spectrum analysis taiwan warm current Kuroshio subsurface water
下载PDF
Observed residual currents off the Changjiang (Yangtze) River mouth in wintertime of 1959 and 1982 被引量:3
8
作者 朱建荣 胡敦欣 肖成猷 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2004年第3期244-249,共6页
Data taken in the two large-scale ocean investigations in China in winter 1959 and 1982 are used to analyze the residual current off the Changjiang (Yangtze) River mouth in this paper. The current in wintertime off th... Data taken in the two large-scale ocean investigations in China in winter 1959 and 1982 are used to analyze the residual current off the Changjiang (Yangtze) River mouth in this paper. The current in wintertime off the river mouth consist of the Changjiang runoff, wind-driven current, coastal current, density-driven current and Taiwan Warm Current (TWC). The TWC occurs in wintertime off the mouth. The surface TWC reaches only to the east side of Dinghai, then turns southeastward. The bottom TWC can flow to the area off the Changjiang mouth along west slop of the submerged river valley (SRV) and to the area off the Subei coast. The simulated currents by 3D model are basically consistent with the observed currents, although the model was run with climatological forces and the observations was done in episodic time manner. 展开更多
关键词 Changjiang (Yangtze) River mouth residual current wind runoff coastal current taiwan warm current
原文传递
Observed residual currents off the Changjiang (Yangtze) River mouth in summertime of 1959 and 1982 被引量:1
9
作者 朱建荣 戚定满 肖成猷 《Chinese Journal of Oceanology and Limnology》 SCIE CAS CSCD 2004年第3期250-255,共6页
Data taken in two large scale ocean observations in China in summer 1959 and 1982 were used to analyze the residual current off the Changjiang (Yangtze) River mouth. The currents at surface off the mouth in July 1959 ... Data taken in two large scale ocean observations in China in summer 1959 and 1982 were used to analyze the residual current off the Changjiang (Yangtze) River mouth. The currents at surface off the mouth in July 1959 and 1982 flow northeastward and eastward due to the river discharge, the current speed was larger in1982 than in 1959. All the bottom currents flow landward due to baroclinic effect. The surface current was controlled by the river runoff and the Taiwan Warm Current (TWC). A return current at surface off the mouth was observed in September 1959. In general, the bottom currents were controlled by the TWC in most study area in addition to the runoff near the mouth. Although driven by 3-D model with the monthly averaged forces (river discharge, wind stress, baroclinic effect, open boundary water volume flux and tidal mixing) in August, the simulated circulations were basically consistent with the observed ones with episodic time manner. 展开更多
关键词 off the Changjiang (Yangtze) River mouth observed residual current RUNOFF taiwan warm current
原文传递
An Objective Analysis Method for Surface Residual Current Field in the East China Seas
10
作者 WANG Qiang, WANG CizhenCollege of Marine Environment, Ocean University of China, Qingdao 266003, P.R.China 《Journal of Ocean University of Qingdao》 2003年第2期141-146,共6页
Since the volume transport across the pycnocline is much smaller than that in the mixed layer, the current in the mixed layer can be regarded as non-divergent. An objective analysis method is deduced based on this hyp... Since the volume transport across the pycnocline is much smaller than that in the mixed layer, the current in the mixed layer can be regarded as non-divergent. An objective analysis method is deduced based on this hypothesis. The linear combination method is used to solve the non-divergent component of the current field of an ocean basin containing islands,which is equivalent to a mathematical problem of solving a Poisson equation in a multi-connected domain. The method is applied to the Bohai Sea, the Yellow Sea and the East China Sea (ECS). The modeled result is consistent with the current maps constructed by other oceanographers. 展开更多
关键词 East China Sea (ECS) surface residual current objective analysis KUROSHIO taiwan warm current
下载PDF
短小拟五角蟹的分布新记录
11
作者 宁璇璇 韩庆喜 《海洋科学》 CAS CSCD 北大核心 2023年第6期91-95,共5页
2022年9月作者在浙江宁波象山港海域采集到短小拟五角蟹(Paranursia abbreviata),由此短小拟五角蟹的地理分布记录从中国的海南岛、广东、香港地区和福建扩展到东海北部,即浙江北部的象山港。本文对其形态特征进行了详细的描述,并讨论... 2022年9月作者在浙江宁波象山港海域采集到短小拟五角蟹(Paranursia abbreviata),由此短小拟五角蟹的地理分布记录从中国的海南岛、广东、香港地区和福建扩展到东海北部,即浙江北部的象山港。本文对其形态特征进行了详细的描述,并讨论了其与历史记载的外形差异。由于象山港冬季水温较低,推测短小拟五角蟹在象山港的出现可能是台湾暖流携带幼体定居导致的偶然现象。 展开更多
关键词 新纪录 短小拟五角蟹(Paranursia abbreviata) 五角蟹属(Paranursia) 浙江 台湾暖流
下载PDF
2000年8月长江口外海区冲淡水和羽状锋的观测 被引量:73
12
作者 朱建荣 丁平兴 胡敦欣 《海洋与湖沼》 CAS CSCD 北大核心 2003年第3期249-255,共7页
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... 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。 展开更多
关键词 2000年8月 长江口 长江冲淡水 羽状锋 动力分析 径流量 分布类型 科氏力作用 上升流 台湾暖流
下载PDF
夏季台湾暖流的水文化学特性及其对东海赤潮高发区影响的初步探讨 被引量:19
13
作者 石晓勇 李鸿妹 +2 位作者 王颢 王丽莎 张传松 《海洋与湖沼》 CAS CSCD 北大核心 2013年第5期1208-1215,共8页
依据2006年夏季对东海区水文化学数据的现场调查,对台湾暖流的水文化学特性进行了初步分析,并对台湾暖流自身的水文化学特性对东海赤潮高发区的影响进行了初步探讨。结果表明,夏季,台湾暖流水具有台湾海峡水和黑潮次表层涌升水两个来源... 依据2006年夏季对东海区水文化学数据的现场调查,对台湾暖流的水文化学特性进行了初步分析,并对台湾暖流自身的水文化学特性对东海赤潮高发区的影响进行了初步探讨。结果表明,夏季,台湾暖流水具有台湾海峡水和黑潮次表层涌升水两个来源,分别构成台湾暖流的表层水和深层水。通过亚硝酸盐含量的多少能够对表层水和深层水进行明显的区分。此外,通过对台湾暖流水文特征的分析,发现夏季台湾暖流在浙江沿海出现的上升流给赤潮生物提供了适宜的温度。并通过对台湾暖流的营养盐含量进行分析,发现相对于硝酸盐含量,台湾暖流含有较高的磷酸盐浓度,能够缓解海区"过剩氮"导致的磷限制。 展开更多
关键词 台湾暖流 水文 营养盐 赤潮 夏季
下载PDF
影响长江口毗邻海域低氧区多种时间尺度变化的水文因素 被引量:20
14
作者 周锋 黄大吉 +3 位作者 倪晓波 宣基亮 张经 竺可欣 《生态学报》 CAS CSCD 北大核心 2010年第17期4728-4740,共13页
对2006年6月、8月和10月与1999年8月在长江口向东至125°E、27°30′—33°30′N之间海域(统称长江口毗邻海域)开展的4次多学科综合海洋调查资料进行分析,了解长江口毗邻海域低氧现象的季节变化、年间变化及其与水团变化的... 对2006年6月、8月和10月与1999年8月在长江口向东至125°E、27°30′—33°30′N之间海域(统称长江口毗邻海域)开展的4次多学科综合海洋调查资料进行分析,了解长江口毗邻海域低氧现象的季节变化、年间变化及其与水团变化的关系。研究再次发现该海域存在长江口和浙江近海2处低氧水体、且2处低氧水体具有不同的季节演替和年际变化特征:长江口附近海域低氧水体的溶解氧浓度低、覆盖的面积大,低氧持续时间相对较短、溶解氧浓度的季节变化较大;浙江沿海低氧水体面积较小、溶解氧浓度的季节变化较小、但持续时间较长(6—10月份);2处水体低氧现象的年际变化均很显著。长江口毗邻海域的多种水动力因素及其相互作用导致了水团消长的季节和年际变化,并与该海域低氧现象的季节和年际变化具有较好的关联。季节性跃层的成长是近底层低氧形成的必要条件,而水团迁移和消长过程及其季节和年际变动是导致低氧区不同时间尺度变化的重要物理因素。针对2006年与1999年夏季长江口低氧区的显著变化给出观测证据,提出该时期内长江口的水团结构发生了变化,是导致低氧核心区的位置偏北的主要动力原因。2006年和1999年夏季长江口附近低氧水体的年际变化与同时期叶绿素高浓度区的位置变动是一致的,也为此期间水团消长情况提供了证据。 展开更多
关键词 长江冲淡水 台湾暖流 层化 水团 低氧
下载PDF
长江口叶绿素分布特征和营养盐来源数值模拟研究 被引量:9
15
作者 杨德周 尹宝树 +2 位作者 俞志明 白涛 刘兴泉 《海洋学报》 CAS CSCD 北大核心 2009年第1期10-19,共10页
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... 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。 展开更多
关键词 POM 长江口 台湾暖流 叶绿素A
下载PDF
东海内陆架泥质区夏季悬浮体的分布特征及影响因素分析 被引量:12
16
作者 刘升发 石学法 +3 位作者 刘焱光 杨刚 李朝新 方习生 《海洋科学进展》 CAS CSCD 北大核心 2011年第1期37-46,共10页
通过对2007年夏季东海内陆架泥质区悬浮体的测定,探讨了该区悬浮体的分布特征及其影响因素,结果表明悬浮体的平面分布特征为近岸远高于远岸,闽江、瓯江等河流的河口位置浓度最大,等值线基本上平行于海岸线;垂向上悬浮体质量浓度随着水... 通过对2007年夏季东海内陆架泥质区悬浮体的测定,探讨了该区悬浮体的分布特征及其影响因素,结果表明悬浮体的平面分布特征为近岸远高于远岸,闽江、瓯江等河流的河口位置浓度最大,等值线基本上平行于海岸线;垂向上悬浮体质量浓度随着水深的加大而增加,高值区大多出现在海底地势凸起的位置。研究区悬浮体的分布主要受陆源入海沉积物和东海流系格局的影响,其中近岸区域主要受控于河流入海物质和闽浙沿岸流;而台湾暖流、闽浙沿岸上升流则对远岸区域影响较大。研究区悬浮体质量浓度和海水浊度的相关性分析显示两者相关系数达0.91,这为通过水体浊度来反演区域的悬浮体质量浓度提供了基础。 展开更多
关键词 东海内陆架泥质区 悬浮体质量浓度 浊度 台湾暖流 沿岸流 上升流
下载PDF
夏季长江冲淡水扩展的数值模拟 被引量:30
17
作者 朱建荣 肖成猷 沈焕庭 《海洋学报》 CAS CSCD 北大核心 1998年第5期13-22,共10页
建立一个σ坐标系下三维非线性斜压陆架模式,研究夏季径流量、台湾暖流、黄海冷水团、风场对长江冲淡水扩展的影响。数值试验基本再现了夏季长江冲淡水低盐水舌伸向东北的现象和渤、黄、东海的环流结构。长江径流量只影响近口门附近冲... 建立一个σ坐标系下三维非线性斜压陆架模式,研究夏季径流量、台湾暖流、黄海冷水团、风场对长江冲淡水扩展的影响。数值试验基本再现了夏季长江冲淡水低盐水舌伸向东北的现象和渤、黄、东海的环流结构。长江径流量只影响近口门附近冲淡木朝东南方向扩展势力和整个冲淡水扩展范围的大小。台湾暖流深受底形的影响,流动路径稳定,且不受自身强度的影响,又主流远离长江口,对长江冲淡水扩展的影响不大。黄海冷水团产生的余流在长江口海区阻碍着冲淡水沿岸向南扩展,在远离长江口海区诱导冲淡水向东南运动。总的黄海冷水团的作用是使长江冲淡水低盐水舌伸向东北.黄海冷水团越强,这种作用就越明显。夏季风场在冲淡水转向东北的过程中作用显著。 展开更多
关键词 陆架模式 长江冲淡水 径流量 台湾暖流 数值模拟
下载PDF
基于个体模型的东海鲐鱼渔场形成机制研究 被引量:11
18
作者 李曰嵩 潘灵芝 +1 位作者 严利平 陈新军 《海洋学报》 CAS CSCD 北大核心 2014年第6期67-74,共8页
鲐鱼Scomber japonicus资源丰富,在我国近海渔业中占有重要地位。其渔场的形成受海洋环境的制约,本文确定鲐鱼运动和物理环境之间的响应关系,建立起了基于个体的东海鲐鱼生长洄游模型。结果显示,鲐鱼集群分布与捕捞生产渔场基本吻合,鲐... 鲐鱼Scomber japonicus资源丰富,在我国近海渔业中占有重要地位。其渔场的形成受海洋环境的制约,本文确定鲐鱼运动和物理环境之间的响应关系,建立起了基于个体的东海鲐鱼生长洄游模型。结果显示,鲐鱼集群分布与捕捞生产渔场基本吻合,鲐鱼聚集主要受台湾暖流、大陆沿岸水、黑潮影响,往往集群在一定温度范围内并在冷暖交汇区温盐梯度大偏暖水一侧。在台湾暖流和沿岸水交汇的锋面附近、台湾暖流暖水舌前端、黑潮与中国大陆沿岸水形成的潮境区域均有大量的鲐鱼聚集,并形成渔场。产卵位置的变动使偏西产卵位置的鲐鱼由于受台湾暖流影响较大,鲐鱼会呈长带状大量聚集在台湾暖流和沿岸水的锋面附近,并使在台湾暖流暖水舌前端的聚集数量增多,而偏东的产卵的鲐鱼受黑潮影响较大,聚集分布范围较大,会使黑潮形成的锋面附近聚集数量增多,而使台湾暖水舌的前端的聚集量减少。正常产卵位置在生存率方面是最佳产卵位置。研究表明鲐鱼所处空间位置不同,会影响其集群的位置,用数值模型验证了物理环境会对鲐鱼的洄游和渔场的形成产生影响。 展开更多
关键词 基于个体模型 东海鲐鱼 渔场 台湾暖流和黑潮 补充量
下载PDF
台湾暖流变化特征及机制研究进展 被引量:13
19
作者 王建丰 司广成 于非 《海洋科学》 CAS 北大核心 2020年第5期141-148,共8页
台湾暖流携带高温高盐的大洋水体入侵到东海陆架区,其向岸分支可入侵到长江口外,对我国近海温、盐与环流产生重要影响。前人针对台湾暖流上游区域开展了大量研究,对其来源、温盐特征及入侵机制取得重要研究成果,而对台湾暖流下游,即向... 台湾暖流携带高温高盐的大洋水体入侵到东海陆架区,其向岸分支可入侵到长江口外,对我国近海温、盐与环流产生重要影响。前人针对台湾暖流上游区域开展了大量研究,对其来源、温盐特征及入侵机制取得重要研究成果,而对台湾暖流下游,即向岸分支流轴及前锋的变化认识模糊。台湾暖流向岸分支入侵流轴及前锋的变化可能对长江口海域低氧和藻华等生态灾害的发生和分布具有重要影响,因此,开展台湾暖流向岸分支路径变化的研究具有重要的物理和生态学意义。通过分析积累的温、盐数据和潜标长时间观测,我们初步发现,台湾暖流向岸分支存在季节尺度和天气尺度的变化,流轴存在摆动,前锋的北界也存在变化,但对其详细特征和变化机制尚不清楚,需要通过进一步调查和研究予以阐明。 展开更多
关键词 台湾暖流 入侵路径 变化机制
下载PDF
浙闽海域余流特征分析 被引量:11
20
作者 张慧 堵盘军 郑晓琴 《海洋通报》 CAS CSCD 北大核心 2011年第2期151-157,共7页
根据2006年8月—2007年12月期间在浙闽海域进行的连续观测长达40天的逐季海流资料,深入分析该海域余流的分布特征及季节变化规律,为浙闽海域的物质输运做出铺垫。研究结果表明:浙闽海域南侧(以28°N为界)余流值大于北侧。近岸区域... 根据2006年8月—2007年12月期间在浙闽海域进行的连续观测长达40天的逐季海流资料,深入分析该海域余流的分布特征及季节变化规律,为浙闽海域的物质输运做出铺垫。研究结果表明:浙闽海域南侧(以28°N为界)余流值大于北侧。近岸区域余流受长江冲淡水、浙闽沿岸流控制,余流分布季节特征明显;外海余流受台湾暖流控制,余流流向终年指向E-NE。 展开更多
关键词 浙闽海域 余流 长江冲淡水 台湾暖流 浙闽沿岸流
下载PDF
上一页 1 2 3 下一页 到第
使用帮助 返回顶部