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1.
《海洋通报(英文版)》2015,(2)
基于2011年12月和2012年6月洪、枯季大潮北港上段河道水域的现场水文观测资料,以及1999、2002、2003、2004、2005、2006、2007、2010年历史水文测验资料,分析潮流历时、流速、优势流和含沙量等水沙现状和变化特征,并探讨近年来该水域水沙变化的主要影响因素。结果表明:(1)目前北港上段河道水域落潮占主导优势;青草沙水库和长江大桥建成后,落潮优势明显增强,洪季大潮涨、落潮垂线平均含沙量减少,枯季大潮涨、落潮垂线平均含沙量增多;(2)流域径流量的季节性变化是造成北港上段河道水域垂线平均流速洪季大、枯季小的主要原因;大型工程的建设是该水域落潮优势增强的主要影响因素;北港上段河道水域含沙量变化可能与近岸工程建设、入海泥沙量减少等因素有关。 相似文献
2.
近期长江河口南汇南滩水域水沙变化特征 总被引:1,自引:0,他引:1
基于南汇南滩水域2011年12月和2012年6月洪、枯季大潮的现场水文观测资料及2003年2月枯季大潮、2004年9月洪季大潮的历史观测资料,分析潮流历时、流速、优势流和含沙量等水沙现状和变化特征,探讨近年来该水域水沙变化的主要影响因素。结果表明:(1)目前,南汇南滩水域洪季大潮落潮流占主导优势,枯季大潮涨潮流占主导优势;(2)东海大桥及其周边促淤围垦工程后,洪季大潮落潮优势增强,涨潮垂线平均含沙量减少,落潮垂线平均含沙量增多;枯季大潮落潮优势减弱,涨、落潮垂线平均含沙量均减少;(3)近岸工程建设是南汇南滩水域洪季落潮优势增强、枯季落潮优势减弱的主要影响因素;涨、落潮垂线平均含沙量的变化主要与工程建设、流域来沙量减少、近岸沙体变迁等作用有关。可为河口河槽治理提供理论依据。 相似文献
3.
长江口枯季水沙特性分析——以2003年为例 总被引:2,自引:0,他引:2
基于2003年2月长江口大面积水沙同步观测资料的分析结果,长江口枯季水沙特性:a)垂线平均流速特性:时间上大潮>小潮,落潮>涨潮;纵向上由徐六泾向口门呈"先减小后增大再减少"的变化;断面上北支>南支,南港>北港,南槽最小.大潮徐六泾垂线平均流速为102cm/s,浑浊带水域北港最大,为128cm/s;口门水域南槽口外最大,为100cm/s.小潮徐六泾为78cm/s;浑浊带水域北槽最大,为83cm/s;口门水域北港口外最小,为36cm/s.b)垂线平均含沙量特性:时间上大潮>小潮,涨潮>落潮;纵向上由徐六泾向口门呈"先增大后减小"的变化;断面上北支>南支,大潮北港>南港,小潮南港>北港,北槽较高,北港大潮较高,小潮最低.大潮徐六泾垂线平均含沙量为0.09kg/m3;浑浊带水域北港最高,为1.14kg/m3;口门水域南槽最高,为0.81kg/m3.小潮时徐六泾为0.06kg/m3,浑浊带水域北槽最高,为0.99kg/m3,口门水域北港最低,为0.09kg/m3.c)无论大小潮,水沙净通量均为北槽>北港>南槽.d)0.4H流速和含沙量能近似表示其对应的垂线平均值.南北槽大、小潮的水动力和含沙量分布均匀,变化较小,北港变化较大.e)流速和含沙量梯度表明,紊动强度大潮>小潮,落潮>涨潮,水体垂向混合的强度大潮>小潮,涨、落潮的水体垂向混合的强度差别较小. 相似文献
4.
涨落潮槽是河口区的重要地貌单元。只有枯季涨潮槽才能表现出涨潮优势。使用ADCP和ENDECO在枯季对长江口典型涨落潮槽进行一个潮周期的同步水文观测。利用本次观测资料和收集以前洪季水动力结果,比较分析了长江口涨落潮槽一个完整洪枯季大小潮水动力特征和输运机制。结果表明:(1)长江河口涨潮槽的水动力极为复杂。不仅存在洪枯季节的水文特征变化,而且存在着洪季大小潮和枯季大小潮的变化;(2)只有枯季大潮表现出较为明显的涨潮优势。涨潮槽的单宽涨落潮量接近,而落潮槽的单宽涨潮量都小于单宽落潮量;(3)洪季大小潮涨潮槽的平均涨潮流速都大于落潮槽,平均落潮流速都小于落潮槽。枯季小潮的平均涨潮流速来说,涨潮槽大于落潮槽;而对于落潮流速来说,涨潮槽上部小于落潮槽,下部大于落潮槽;(4)涨潮槽的欧拉余流要小于落潮槽,涨潮动力减弱对涨潮槽的影响较为明显。 相似文献
5.
6.
潮汐河口水沙资料整编原则探讨 总被引:1,自引:1,他引:1
本文分析了潮汐河口水沙资料的习用整编方法的合理性,指明其可能产生的误差与错误。提出了潮汐河口垂线平均流速与含沙量,单宽涨、落潮量与输沙量的统一整编原则及几个有关问题的处理方法,最后还提出了由实测流、沙资料估算断面涨、落潮量与输沙量的简易实用方法,并对其进行了初步的论证。 相似文献
7.
长江河口北槽水沙过程对航道整治工程的响应 总被引:4,自引:3,他引:1
北槽大型航道整治工程确定了南北槽分汊口分流界线, 阻碍了北槽和邻近滩槽的水沙自由交换过程, 使北槽水沙动力过程发生调整。基于工程前后北槽主槽纵向同步水沙观测数据的统计分析表明:入口段落潮优势显著减弱;上段枯季时落潮优势显著减弱, 而洪季时落潮优势有所增强;中段(弯曲段拐点附近)落潮优势略有减弱;下段落潮优势明显加强。北槽主槽水沙纵向输移机制分析表明:欧拉余流、潮泵作用、斯托克斯效应和垂向环流为悬沙输移的主要驱动力, 其中欧拉余流输沙指向海, 斯托克斯输沙和垂向环流输沙指向陆, 而潮泵输沙随着季节而变化。洪季, 欧拉余流输沙和潮泵输沙在工程前后的变化使大潮期河床冲淤由中段和下段普遍落淤转化为中上段集中落淤。枯季, 工程前后稳定的潮流辐散输沙作用使大潮期河床以冲刷为主, 但工程后在入口段和上段潮泵的向上游输沙占优势, 使悬沙在入口段落淤。 相似文献
8.
长江分汊河口涨、落潮悬沙不对称特征及季节性差异 总被引:1,自引:1,他引:0
入海河口由于径流的存在以及河口地貌形态的影响,存在涨、落潮水动力、悬沙以及盐度分布等不对称现象,同时这一不对称现象还存在显著的区域性和季节性差异。根据2013年7月和2014年1月洪、枯季长江口定点准同步水文泥沙调查结果,发现长江口分汊型河槽悬沙浓度在时间上存在洪枯季、大小潮不对称特征,在空间上存在东西向沿程分布、南北向横向分布以及垂向上表底层分布不对称特征。河势演变形成南、北支河口涨、落潮悬沙浓度不对称分布的整体格局;洪、枯季变化影响河口涨、落潮悬沙分布的再分配过程;大潮涨、落潮过程对悬沙分布不对称影响显著大于小潮;季节性风浪作用影响河口最大浑浊带涨、落潮悬沙不对称南北差异;底部高含沙浓度对口门段涨、落潮悬沙不对称性贡献显著。 相似文献
9.
本文基于4次洪枯季同步水文观测资料,着重分析了长江口北支悬沙浓度的潮周期变化、垂向分布、纵向分布和悬沙输移及其时空差异。研究结果显示,悬沙浓度的潮周期变化过程在大中潮期以M型(双峰型)为主,下段主槽内在大潮期多出现V型,上段在枯季可出现涨潮单峰型;小潮期可出现无峰、单峰或双峰型。涨、落潮悬沙浓度峰值及均值,在枯季多涨潮大于落潮,洪季中小潮特别是小潮期易出现落潮大于涨潮;下段主槽内在大潮期易出现落潮大于涨潮。悬沙浓度的垂向分布及其变化特点,在大中潮期与悬沙的潮周期变化型式有关,其中M型存在显著的洪枯季差异。纵向上,最高悬沙浓度在枯季出现于中段灵甸港至三和港之间及附近河段,洪季则在下段三条港附近。潮周期悬沙净输移,枯季大多向陆特别是大中潮期,洪季中上段大多向海,下段大潮期多向陆、中小潮易出现向海;下段主槽内在大潮期易出现向海。 相似文献
10.
根据浙江舟山野鸭山至螺头山岸段海域4个测点的海流观测和含沙量调查(其中1个测点)资料,含沙量用1/10000感量的电光分析天平称量测定,悬沙粒度用AT 型库尔特计数器测定,底质表层泥样用激光粒度仪测定,使用DS3水准仪(其精度标准为四等)测量岸段潮滩高程,对该岸段所在海域的泥沙与潮流特征进行了对比分析并讨论了岸滩的冲淤变化。结果表明,该海域悬沙浓度由表层往底层逐渐增高,且与流速有一定的线性关系;中潮悬沙浓度低于大潮,冬季悬沙浓度高于春、夏季;大、中潮的落潮输沙量大于涨潮,大潮涨、落潮的输沙量大于中潮涨、落潮,大潮全潮单宽净输沙量大于中潮;冬季平均悬沙粒径比夏季大,春季适中;春、夏、冬季悬沙的分选系数属分选极好;悬沙的运移路径以落潮流流向为净输沙的方向;该海域的潮流为往复流,涨潮流历时短于落潮流历时,春、夏、冬季平均落潮流速大于平均涨潮流速,最大流速为1.82m/s(夏季),平均流速为0.70m/s;历史上野鸭山至螺头山的古海湾一直缓慢淤涨,1987年以来,潮滩仍缓慢淤涨,中潮滩平均淤高值约为3cm/a,岸滩平均淤进速度约为0.38m/a。 相似文献
11.
This paper analyses the global tendency of the sea level rise (SLR) and its long term influence on the sea level upstream drainage cascade based on the example of the level’s variation in the Vistula Lagoon of the Baltic Sea compared to the other lagoons and coastal regions of the southeastern part of the Baltic Sea. A steady positive trend in the water level variations was revealed; its magnitude varies significantly depending on the time period. In general, during the 100–150 year period, the rate of the SLR in the lagoons and coastal areas of the Baltic Sea (1.7–1.8 mm per year) is close to the SLR rate in the World Ocean. In the second half of the 20th century, the increased rate of the SLR in the lagoons and marine areas became stronger (up to 3.6 mm per year in the Vistula Lagoon and in 1959–2006 in the sea and exceeded the rate of global ocean SLR). It dramatically increased at the end of the last century both in the lagoons and in the sea (up to 10.0–15.0 mm per year). This is the response not only to the global climate warming but it is likely that it is also a response to the changes of the climate driving forces that influence the regimes of the local wind and precipitation in the catchment. 相似文献
12.
Distribution of Pacific-origin water in the region of the Chukchi Plateau in the Arctic Ocean in the summer of 2003 总被引:6,自引:1,他引:6
1Introduction Besidestheprecipitationandriverdischarges,the watersinthePacificOceanandtheAtlanticOceanare thesourcesoftheArcticOceanwater.TheAtlantic waterenterstheArcticOceanviatheFramStraitand theBarentsSea.Foritsdenserfeatureduetohigh salinity,mostofitsinkstothenorthofSvaldbardand circulatesinallthedeepbasinsintheArcticOcean, formingthedeepandbottomwatersoftheArcticO- cean(Aagaardetal.,1985;Rudelsetal.,1999).The BeringStraitistheonlychannelforthePacificwater toflowintotheArcticOce… 相似文献
13.
Izvestiya, Atmospheric and Oceanic Physics - The Great Andaman–Sumatra earthquake (GASE) on December 26, 2004, with magnitude Mw of 9.2, occurred in the Indian Ocean near the northwestern... 相似文献
14.
Data on the contents and compositions of the hydrocarbons (HCs)—aliphatic (AHCs) and polycyclic aromatic (PAHs)—are provided
in comparison with the contents of the total organic carbon (Corg), the lipids in the particulates, and the Corg in bottom sediments. Particular attention has been paid to the distribution of the HCs in the water area of the Kravtsov
oil field. It has been established that the concentrations of AHCs in the water are governed by the content of particulates,
and the elevated AHC concentrations are confined to the coastal areas. In the water area of platform D-6, the sandy bottom
sediments were notable for the great variability of the HC concentrations, both laterally and from year to year. In the summer
of 2010, the content of AHCs averaged 40 μg/g (19% in the Corg), and that of PAHs, 23 ng/g. Natural seepage from the sediment mass is considered to be a source of HCs along with oil contamination. 相似文献
15.
Relationship between the path of the Kuroshio in the south of Japan and the path of the Kuroshio Extension in the east 总被引:2,自引:0,他引:2
A relationship between paths of the Kuroshio and Kuroshio Extension (KE) is investigated, using the satellite-derived altimetry
dataset of 1993–2008. When the Kuroshio takes the nearshore nonlarge meander path or typical large meander path and resultantly
goes through the deeper channel (about 2500 m) of the Izu-Ogasawara Ridge, the KE path adopts a relatively stable state with
the two quasi-stationary meanders. On the other hand, when the Kuroshio takes the offshore nonlarge meander path and then
passes over the shallower part of the Ridge (about 1000 m), the KE path tends to be convoluted, i.e., an unstable state. 相似文献
16.
1 古新-下渐新统含油气层系 古新-始新统母岩形成于滨海和湖泊沉积环境中,并在大量冲积源的参与之下,促进了含分散有机质混合类型砂-黏土质陆源岩层的堆积。在中国东北诸盆地中,含工业油气的白垩-早第三纪建造形成于开阔的浅水和深水湖泊环境中。与中国的盆地类似,在下第三系下部 相似文献
17.
Causes of the bottom hypoxia in the eastern part of the Gulf of Finland in the baltic sea 总被引:1,自引:0,他引:1
A. A. Maximov 《Oceanology》2006,46(2):185-191
The data on the bottom concentrations of dissolved oxygen in the eastern part of the Gulf of Finland obtained in 1923–1939 and in 1962–1989 were analyzed. No statistically reliable differences were found between the two periods studied. It was found that, during the 20th century, the fluctuations in the oxygen concentration were caused by the interannual variability of the winter severity and water salinity. A strong oxygen deficit in the summer was recorded after cold winters, when early freezing suppressed the vertical mixing, and/or in the years of a significant inflow of salt waters from the Baltic Sea with low oxygen contents. It is likely that the long-term dynamics of the oxygen concentration near the bottom in the open parts of the bay is determined by the large-scale variability of the hydrometeorological parameters. 相似文献
18.
The role of the small-size (SF; 0.1–0.5 mm) and large-size (LF; 0.5–20.0 mm) fractions in the biomass and abundance of mesozooplankton
(0.1–20.0 mm) was assessed using the database of samples obtained during the cruises of RV Akvanavt in the northeastern Black Sea in November 2000 and October 2006. The mesozooplankton was collected by means of Juday nets
(37/50, filtering gauze 160 μm) and Niskin bottles in two areas: (1) the shelf and continental slope (30–1480 m depth) and
(2) the deep sea (depths of more than 1500 m). The plankton net was considerably less effective in collecting the SF of the
mesozooplankton (by a factor of 30–36) than the Niskin bottles. When comparing the SF and LF, we estimated the abundance and
biomass of the SF in the samples obtained with the Niskin bottles. The abundance of the SF in the deep-sea area was 2.5 times
lower compared to the shelf and continental slope, and the LF abundance was 5.0 times lower in the same way. The abundance
of the SF constituted 88% of the total mesozooplankton on the shelf and continental slope, and 78% in the deep-sea area. The
biomass of the SF was higher as well on the shelf and continental slope. Meroplankton played a significant role in the SF
zooplankton abundance (0.5 × 103 + 0.16 ind. m−3) in this area. The SF grazing impact was 10% of the total mesozooplankton grazing on the shelf and continental slope, and
17% in the deepsea area. Appendicularia and nauplii of copepods had the greatest contribution to the mesozooplankton grazing
among the SF group. 相似文献
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20.
Evaluation of the effectiveness of the regulatory regime in the management of oil pollution in Kenya
Boaz O. Ohowa 《Ocean & Coastal Management》2009,52(1):17-21
This paper presents an evaluation of the effectiveness of the regulatory regime in the management of oil pollution on Kenya's marine and coastal environment. The prospect of chronic oil pollution along the Kenyan coastline and the port of Mombasa is discussed. A review of the vulnerable marine and coastal resources, commonly used indicators of effectiveness in oil pollution management and the legislation governing oil pollution is given. The author concludes by emphasising that despite having the right legislation in place, there is need for the establishment of criteria and indicators necessary for evaluation of policy effectiveness. 相似文献