共查询到20条相似文献,搜索用时 890 毫秒
1.
本文分析了 1991~1995 年间胶州湾 10 个测站所获海水温、盐度资料,结果表明:胶州湾水温场的空间结构分为冬季型和夏季型两种类型。水温的变化主要受太阳辐射、黄海水入侵及潮流的影响。盐度场的空间结构比温度场单纯,只存在一种类型。盐度变化主要受入海径流、降水、黄海水入侵及潮流的影响。 相似文献
2.
3.
4.
海水淡化排海浓盐水对胶州湾盐度分布影响 总被引:2,自引:1,他引:1
为考察海水淡化产生的浓盐水对胶州湾盐度分布的影响,利用POM模式,建立了胶州湾盐度扩散模型,分别以现有海水淡化量和2010年规划海水淡化量所排放的浓盐水量为输入条件,模拟计算了胶州湾盐度的分布和变化。模拟显示,2010年2月、5月、8月和10月胶州湾整个湾内平均盐度分别为30.9895,30.8040,30.0221和30.2306,较2008年分别增加约0.0276,0.0274,0.0212和0.0205。浓盐水排放位置附近局部海域盐度增加明显,如黄岛浓盐水排放点附近海域,2月大潮涨潮时盐度超过31.55的水域面积较2008年增加0.24 km2,并且出现0.08 km2盐度超过32.00的水域;2月大潮落潮时盐度超过31.55水域面积比2008年增加0.53 km2左右,盐度超过32.00的面积增加约0.16 km2。2月、5月、8月和10月最高值分别达到40.23,36.66,37.94和37.87。结合前期室内实验结果可以看出,2月份的盐度最高值超过对胶州湾浮游植物生长有明显影响的非检测浓度(38.62)。这表明,按2010年规划的海水淡化规模所产生的排海浓盐水尽管对整个胶州湾的盐度分布影响不大,但会导致局部海域盐度明显增加,从而可能会对该海域浮游植物生长造成一定影响。 相似文献
5.
根据1980年的胶州湾水域调查资料,分析了重金属Cd在胶州湾水域的水平分布、垂直分布和季节变化以及来源.研究结果表明:在整个胶州湾水域,1年中Cd质量浓度的变化范围为0.00~0.48 μg/L,都符合国家一类海水水质标准(1.00 μg/L),整个胶州湾水域水质没有受到任何Cd的污染.在胶州湾水域只有1个来源:是湾口外的水域,整个胶州湾水域的Cd表层水平分布展示了海流输送Cd到胶州湾的湾口外、湾口以及湾口内的水域.海流的输入Cd的质量浓度为0.00~0.48 μg/L,胶州湾水域Cd的环境本底值为0.00~0.48 μg/L.Cd垂直分布展示了:在春、夏、秋季,Cd的表、底层都相近;Cd表层、底层质量浓度的季节变化都形成了春、夏、秋季的一个峰值曲线.Cd底层水平分布展示了:在6、7、9和10月,Cd的底层质量浓度都是湾外高,湾内低.而且,在海流输送Cd的过程中,沿着海流进入了胶州湾水域的路径,Cd的表层质量浓度比底层质量浓度高,在海洋输送的路径周围水域,Cd的表层质量浓度一直都比底层质量浓度低. 相似文献
6.
90年代胶州湾海域的温,盐结构 总被引:6,自引:0,他引:6
本文分析了1991 ̄1995年间胶州湾10个测站所获海水温、盐度资料,结果表明,胶州湾水温场的空间结构分为冬季型和夏季型两种类型。水温的变化主要受太阳辐射,黄海水入侵及潮流的影响。盐度场的空间结构比温度场单纯,只存在一种类型。盐度变化主要受入海径流、降水、黄海水入侵及潮流的影响。 相似文献
7.
根据2018年1月冬季航次的水文实测资料,详细分析了大亚湾海水温度(T)、盐度(S)的分布特征。整体而言,观测海区海表相对于海底具有高温低盐的特征;同时,无论是表层还是近底层,大亚湾湾内的海水相对于湾外都呈现高温低盐的特征。观测期间,应是受到大亚湾核电站温排水的影响,湾内西侧存在一个高温中心。盐度的差异在近底层更加明显,低盐中心位于大亚湾的湾顶和大亚湾的中部海域,而高盐中心则主要分布于湾口西侧及惠东以东附近海域。太阳辐射和潮流变化是影响大亚湾温度、盐度变化的两大重要因素。其中,太阳辐射的影响主要局限于表层3~4 m,对近底层海水的影响较小;其加热效应使湾内和湾口附近的表层海水都表现出明显的昼夜变化。由潮汐和温度、盐度的对应关系可知,潮流对湾内温度、盐度的影响较大,而对湾外温度、盐度的影响较小。 相似文献
8.
本文利用2011年8月至2014年3月Aquarius卫星盐度产品结合Argo等实测盐度资料,探讨了孟加拉湾海表盐度的季节及年际变化特征。结果显示,Aquarius与Argo盐度呈显著线性正相关,总体较Argo盐度值低,偏差为-0.13,其中在孟加拉湾北部海域负偏差值比南部海域更大,分别为-0.28和-0.10。Aquarius卫星与Argo浮标在表层盐度观测深度上的差别是造成此系统偏差的主因。Aquarius盐度资料清晰显示了孟加拉湾海表盐度具有明显的季节变化特征,包括阿拉伯海高盐水的入侵引起湾南部海域盐度的变化以及湾北部淡水羽分布范围的季节性迁移等主要特征。此外,分析还揭示了2011(2012)年春季整个湾内出现异常高盐(低盐)现象。研究表明,2010(2011)年湾北部夏季降雨减少(增加)导致该海域海水盐度偏高(偏低),并通过表层环流向南输运引起次年春季湾内表层盐度出现异常高盐(低盐)现象,春季风应力旋度正(负)距平通过影响盐度垂直混合过程对同期表层盐度异常高盐(低盐)变化也有影响。 相似文献
9.
2000—2005年莱州湾盐度的变化及其主要影响因素 总被引:8,自引:1,他引:7
基于2000年8月,2002年8月,2004年9月,2005年5月,2005年7月及2005年9月莱州湾的大面观测资料以及黄河利津站2000—2005年入海径流量资料,分析了黄河入海径流对莱州湾盐度分布的影响,通过计算莱州湾的平均盐度发现2003年之后莱州湾平均盐度较2003年之前明显降低。在考虑黄河入海径流量、降水、蒸发及与北黄海的水交换等因素的基础上建立了箱式模型,并以此模型模拟了近年来莱州湾平均盐度的变化,同样看到莱州湾平均盐度的显著降低已在2003年发生,其主要原因是黄河入海径流量的增加。分析模型结果得出近年来黄海入海径流量的变化不仅决定着莱州湾平均盐度的年际变化,而且还主导着莱州湾月平均盐度的变化。 相似文献
10.
胶州湾初级生产力周年变化 总被引:24,自引:6,他引:18
根据2003年5月—2004年4月逐月对胶州湾初级生产力的调查研究,分析讨论了胶州湾初级生产力的周年动态变化特征。结果表明,胶州湾初级生产力存在着明显的季节变化:夏季是一年中的高峰,平均为835.72mgC/(m2.d),春、秋季次之,分别为286.00mgC/(m2.d)和247.81mgC/(m2.d),冬季最低,平均为102.27mgC/(m2.d)。初级生产力平面分布特征为:夏季高值区一般位于湾西北部和东北部近岸水域,秋季至次年春末的高值区一般位于湾东北部近岸水域,湾中部和湾口海域较低。湾外海域除夏末秋初与湾中部水平接近外,其它季节比湾中部和湾口低,呈自湾内向湾外递降的分布趋势。6月下旬记录到7213.48mgC/(m2.d)初级生产力的最高值,位于湾东侧近岸,该高值持续时间很短,在时间上恰巧对应于一周前的一次强降雨过程。温度是影响胶州湾初级生产力季节变化的决定因子。 相似文献
11.
应用模糊聚类法对夏季胶州湾海水类型的初步划分 总被引:1,自引:1,他引:1
自1980年胶州湾被选为水产生产农牧化增养殖实验基地以来,中国科学院海洋研究所及有关单位对该海湾进行了大量的调查研究工作,发表了一些研究成果;但对该海湾海水的基本类型尚未进行过系统的划分。本文拟采用模糊聚类法,利用1981年8月份16个测站的实测资料,对夏季胶州湾的海水类型进行初步分析。 相似文献
12.
渤海及黄、东海近海区水温日变化特点分析 总被引:7,自引:0,他引:7
分析研究海水温度日变化的特点,对海况分析及了解海区水文基本特征具有重要的意义,特别是对水温日变化很显著的浅海区域更为重要.此外,从渔业意义上来看,了解水温日变化对鱼类昼夜分布和移动规律的影响亦极其重要[1,2]. 相似文献
13.
A nocturnal demersal nekton assemblage was sampled fortnightly for two years at five sites in the Labu estuary using a 3 m beam trawl with a 3·2 cm mesh net. Forty-eight species were caught, totalling 31 458 individuals with the five most abundant species comprising over 95% of the catch. Using multiple regression techniques with Fourier transformations, the mean number of species, S, the mean abundance, N, and mean weight, W, were found to conform to a regular annual cycle with maxima in April and May. Seven of the 11 most abundant species demonstrated regular annual cycles of abundance. S, N and W were greatest in the wider, middle sites and lowest in a shallow, stagnant side branch of the estuary. Catch weights and abundances were significantly correlated with physical data.Salinity and temperature values in the estuary exhibited an annual cycle with maxima occurring in February/March. The annual thermal variation of surface water outside the estuary followed a similar cycle. The salinity at the mouth of the Markham River is lowest during January/February, which corresponds with the rainy season in the Markham River catchment. Significant annual variation existed between years in estuarine bottom salinity and salinity values in Labu Bay.Several species exhibited a greater variation in abundance and mass between years than within years. This supports the hypothesis that in the tropics between-year variation in coastal marine biotic communities is greater than within-year variation. 相似文献
14.
V. V. Knysh G. K. Korotaev V. A. Moiseenko A. I. Kubryakov V. N. Belokopytov N. V. Inyushina 《Izvestiya Atmospheric and Oceanic Physics》2011,47(3):399-411
We pioneered a retrospective analysis of Black Sea hydrophysical fields for the period from 1971 to 1993. We describe a reanalysis algorithm based on the assimilation (in a σ-coordinate circulation model) of observed temperature and salinity data obtained on hydrophysical test areas. The thickness of the cold intermediate layer (CIL) and its freezing capacity for 1985 to 1993 were found to be increasing. At the levels of 0, 50, 75, and 100 m, the tendency of variations in annual values of level-averaged temperature is negative. At the level of 200 m and deeper, the linear trends of the interannual course of temperature are positive. We found that the linear trends of interannual variations in salinity are negative in the upper layer of 0 to 50 m and positive at 75 m and deeper. The sea-water circulation in the layer from 0 to 300 m was observed to be maximum in February–March and minimum in September–October. The characteristic of the linear trend of interannual variations in the kinetic energy of currents averaged over the sea surface is negative, while its value is positive in the layer from 50 to 100 m. Some factors responsible for the formation of hydrophysical fields in the sea and their seasonal and interannual variations were indicated. We revealed that there is a qualitative resemblance between seasonal and interannual variations [4, 26] in temperature, salinity, and kinetic energy. 相似文献
15.
Community succession of zooplankton in marine derived saline lakes in antarctic continental margin 总被引:2,自引:0,他引:2
Ecological research has been made for quite a long period in some marine-derived saline lakes in the Vest-fold Hills, Antarctica. The results show distinct succession of zooplankton community in those lakes. The change in community structure of zooplankton is related directly to environmental evolution in nature and the variation of lake conditions, such as physical and chemical factors as well. In the Burton Lake, there is a rather stable annual fluctuation in both temperature and salinity, and the community has probably been in the stage of climax succession. The Fletcher Lake is still undergoing a process by unregular tide flood from nearby bay, so that zooplankton community has been changing due to variance in temperature and salinity. 相似文献
16.
根据1987年6,8,11月和1988年2月4个航次珠江口伶汀洋的调查资料,分析了溶解氧的特征。结果表明:溶解氧含量表层均高于底层,周年变化呈现从夏季到冬季逐渐上升,且明显受珠江径流的影响,溶解氧(基本上是不饱和状态)与盐度成负相关。有机物和营养盐均影响溶解氧,但水温仍为溶解氧主要影响因素。 相似文献
17.
Wang Xianmin 《海洋学报(英文版)》1988,7(4):632-632
Trachidermus fasciatus is a species of catadromous fish in China. In order to elucidate the phenomenon of their seaward propagation, comparative studies of kidney histological structure of this species collected from fresh-water (salinity 10), sea-water (salinity 32) and artificial sea-water (salinity 17.5, 22.5) have been made. 相似文献
18.
19.
Kern E. Kenyon 《Journal of Oceanography》1983,39(2):73-81
Hydrographic data taken at 25 equally spaced stations along 35°N in April 1976 and again in July 1977 are compared for the longitude range 139–163° W and the depth range 0–1,000 m. A continuous subsurface layer is found, centered at 100 m and extending more than 2,000 km in the east-west direction, in which the temperature and salinity were significantly lower and the density and concentrations of oxygen and three nutrients were higher in the summer of 1977 than in the spring of 1976. In the upper 50 m the temperature and salinity were higher and the density and concentrations of oxygen and nutrients were lower in the summer of 1977 than in the spring of 1976. These relationships are concluded to be due to an annual variation by association with other existing data sets in the same region. The annual variation of hydrographic properties in the upper 200 m can be qualitatively explained by an annual variation in the north-south component of the permanent circulation, which is caused by an annual variation in the large-scale north-south pressure gradient (related to the northward temperature gradient). The observations are consistent with a northward current near the surface and a southward current near 100 m which are both faster in summer than in winter (and spring). 相似文献
20.
盐度对鱼类生态生理学特征的影响 总被引:5,自引:0,他引:5
盐度对鱼类生态生理学作用的直接效应是引起鱼体对渗透压的调节,间接影响则表现为对鱼体与环境间物质交换与能量流动的影响(De Silva et al.,1976)。自上世纪50年代末开始,盐度一直是鱼类生理学和实验生物学的重要指标。为此,众多专家就广盐性洄游种类鲑鱼生长与盐度的关系(Ott,1971; Shaw et al.,1975; Macleod,1977; Brett,1979; Mckay et al.,1985; Mccormick et al.,1989; Morgan et al.,1991) 、耐低盐洄游性种类对海洋环境的适应(Peters et al.,1972; Hettler, 1976; Gut,1985; Malloy et al.,1991),以及狭盐性种类在变化盐度水域中生长率与死亡率等方面进行了大量的研究。已有的研究结果显示,盐度对鱼类生长的影响效果不尽一致,甚至发生冲突(Brett, 1979),但有关盐度对鱼类生态生理学特征的影响还未见综合比较分析报道。作者就盐度对鱼类生态生理学特征的影响在前人的基础上作了进一步分析研究,为今后开展这方面的工作提供了科学依据。 相似文献