强壮箭虫对温度、盐度的耐受性研究   总被引：7，自引：0，他引：7  

刘青  曲晗  张硕 《海洋湖沼通报》2007,(1):111-116

研究强壮箭虫对突变温度、突变盐度和渐变温度、渐变盐度的耐受性.结果表明:水温由15℃突变到1℃时,存活率为75%;水温由15℃突变为30℃时,存活率仅为5%.求得24h急性半致死温度上限为27.2℃.水温从20℃逐渐上升至25、30、35℃,存活率分别为85 %、10 %、0 %;水温从20℃逐渐下降至15、10、5℃,其存活率分别为 100 %、95 %和80 %.盐度从31突变为20、40,箭虫的存活率均为100%,随着盐度突变幅度的增大,强壮箭虫的存活率呈降低趋势.求得24h急性半致死盐度上限为45,24h急性半致死盐度下限为13.3.盐度逐渐从31上升到46、 52,其存活率由90%下降到0%;盐度逐渐从31降到13、6,其存活率由95%下降到0%.求得间隔12h半致死渐变盐度上限为48.7,半致死渐变盐度下限为9.3.根据实验结果,强壮箭虫应属喜冷广温种和近岸广盐种.  相似文献   

Cross-shelf distribution of copepods and the role of event-scale winds in a northern California upwelling zone     

Katherine M. Papastephanou  Stephen M. Bollens  Anne M. Slaughter 《Deep Sea Research Part II: Topical Studies in Oceanography》2006,53(25-26):3078

Cross-shelf distribution and abundance of copepod nauplii and copepodids were measured during three summer upwelling seasons (2000–2002) in a coastal upwelling zone off northern California. These 3 years varied considerably in the intensity of winds, abundance of chlorophyll, and water temperature. The cruises in 2000 were characterized by relaxation conditions, with generally high levels of chlorophyll and high water temperature. The cruises in 2001 and 2002 were dominated by strong and persistent upwelling events, leading to lower chlorophyll and water temperatures. The copepod assemblage was dominated by Oithona spp., Acartia spp. and Pseudocalanus spp., with Metridia pacifica (lucens), Microsetella rosea, Oncaea spp. and Tortanus discaudatus also common during all 3 years. The cross-shelf distribution of copepods was generally shifted offshore during upwelling and onshore during relaxation events, although some variability between species occurred. Abundance of all life stages generally exhibited a negative correlation with cross-shelf transport averaged over at least 1–4 days and lagged by 0–3 days, indicating lower abundances during and immediately after active upwelling. However, copepod nauplii seemed to respond positively to wind events lasting 1–5 days followed by a period of relaxation lasting 6 or 7 days. These rapid rates of change in abundance are probably too great to be due to in situ growth and reproduction alone; physical processes must also play a role. These results suggest a highly dynamic relationship between copepods and upwelling events off northern California, with species-specific responses to upwelling to be expected.  相似文献   

长江口涨、落潮槽底沙输移趋势探讨   总被引：5，自引：0，他引：5  

刘高峰  沈焕庭  王永红  吴加学 《海洋通报》2003,22(4):1-7

选择长江口南港南小泓和南港主槽作为典型涨、落潮槽为研究对象，以2001年9月所采底沙的颗粒分析资料为根据，并结合实测水文、泥沙资料进行水动力分析，运用Gao-Collins粒径趋势分析模型分析了底沙输移趋势，结果表明：南小泓的底沙主要是来自口门附近，由于涨潮流强于落潮流而使底沙向上游输移，即SE—NW方向，而南港主槽的底沙主要来自上游，由于落潮流强于涨潮流而使泥沙向下游输移，即NW—SE方向。  相似文献   

Growth of chum salmon (Oncorhynchus keta) correlated with sea-surface salinity in the North Pacific   总被引：1，自引：0，他引：1  

Morita  Shoko H.; Morita  Kentaro; Sakano  Hiroyuki 《ICES Journal of Marine Science》2001,58(6):1335-1339

  相似文献   

Hydrodynamic modeling of flushing time in a small estuary of North Bay, Florida, USA   总被引：1，自引：0，他引：1  

Wenrui Huang   《Estuarine, Coastal and Shelf Science》2007,74(4):722

Freshwater fraction method is popular for cost-effective estimations of estuarine flushing time in response to freshwater inputs. However, due to the spatial variations of salinity, it is usually expensive to directly estimate the long-term freshwater fraction in the estuary from field observations. This paper presents the application of the 3D hydrodynamic model to estimate the distributions of salinity and thus the freshwater fractions for flushing time estimation. For a case study in a small estuary of the North Bay in Florida, USA, the hydrodynamic model was calibrated and verified using available field observations. Freshwater fractions in the estuary were determined by integrating freshwater fractions in model grids for the calculation of flushing time. The flushing time in the North Bay is calculated by the volume of freshwater fraction divided by the freshwater inflow, which is about 2.2 days under averaged flow conditions. Based on model simulations for a time series of freshwater inputs over a 2-year period, a power regression equation has been derived from model simulations to correlate estuarine flushing time to freshwater inputs. For freshwater input varying from 12 m³/s to 50 m³/s, flushing time in this small estuary of North Bay changes from 3.7 days to 1.8 days. In supporting estuarine management, the model can be used to examine the effects of upstream freshwater withdraw on estuarine salinity and flushing time.  相似文献   

Determining the age of water and long-term transport timescale of the Chesapeake Bay   总被引：5，自引：0，他引：5  

Jian Shen  Harry V. Wang 《Estuarine, Coastal and Shelf Science》2007,74(4):585-598

The concept of age of water (AW) is applied to the Chesapeake Bay to investigate the long-term transport properties for dissolved substances. A real-time calibrated hydrodynamic Chesapeake Bay model in 3 Dimensions (CH3D), employing a boundary-fitted curvilinear grid, is used for the study. The long-term transport properties, represented by AW, are investigated under the conditions of low river inflow of 1995 and high river inflow of 1996, as well as for constant mean inflows. The influences of freshwater, density-induced circulation, and wind-induced transport on age distribution have been investigated. Model results show that river inflows, wind stress, and density-induced circulation play important roles in controlling the long-term transport in the Bay. The model results shows that it requires 120–300 days for a marked change in the characteristics of the pollutant source discharged into the Bay from the Susquehanna River to affect significantly the conditions near the mouth under different hydrodynamic conditions. An increase of river discharge results in increases of downstream residual current and gravitational circulation, and thus reduces AW. The density-induced circulation contributes to the transport substantially. The dissolved substances discharged into the Bay are transported out of the Bay more rapidly when the estuary becomes more stratified. Southeasterly and southwesterly winds have strong impacts on the transport compared to the northeasterly and northwesterly winds. The former increases lateral and vertical mixing significantly. Consequently, the gravitational circulation is reduced and the transport time is increased by 50%. The model results provide useful information for understanding the long-term transport processes in the Bay.  相似文献   

海南岛博鳌港沉积物的沿岸输送   总被引：19，自引：0，他引：19  

高建华  高抒  陈鹏  葛晨东  朱大奎 《海洋地质与第四纪地质》2002,22(2):41-48

分析了博港沿岸沉积牧粒度参数的沿岸变化，并应用沉积物粒径趋势分析模型（GSTA模型）对沉积物运动趋势进行了分析。GSTA模型结果表明，博鳌港沿岸的泥沙在横向上表现为：万泉河口以北岸段为由海向岸运动，近期处于淤积状态；万泉河口以南岸段即玉带滩大致以NNE走向到NE走向的转折点为界，北部主要是由岸向海运动，是侵蚀岸段，而南部则主要为由海向岸运动，有少量的淤积，博鳌港沿岸泥沙输送在纵向上表现为：万泉河口以北由南向北运动，万泉河口以南，北部是由北向南运动，南部是由南向北运动，其次还运用了经验公式对GSTA结果进行了验证，得到了通过万泉河口南部（玉带滩）3个断面的沿岸漂沙量，其沿岸漂沙方向主要为南北向，以上两种分析方法得出的结果和当地的许多地貌证据基本符合，而GSTA模型在玉带滩北部泥沙纵向输运方向与经验公式计算结果所表现出的一些差异，主要是由于研究时间尺度和所用的资料特征的差异性造成的。  相似文献   

海洋固氮蓝藻Calothrix sp.与Lyngbya sp.固氮生理的研究     

张燕英  董俊德  张偲  王友绍  王汉奎  黄良民 《热带海洋学报》2006,25(4):46-50

研究盐度、昼夜变化、温度及阿特拉津(光合系统Ⅱ抑制剂)对2种海洋固氮蓝藻Calothrixsp.strain(代号为MCT1)和Lyngbyasp.strain(代号为MCT6)固氮活性的影响。结果表明,MCT1在盐度10—48范围内具有相对较高的固氮活性,在盐度为30时固氮活性最高,达到0.687 2μmolC2H2.(g.h)-1;而MCT6随盐度改变固氮活性变化幅度较大,盐度为24时具有最高固氮活性,其活性为0.876 8μmolC2H2.(g.h)-1。MCT1和MCT6固氮活性的昼夜变化明显不同,具有异型胞的海洋固氮蓝藻MCT1白天的固氮活性明显高于夜晚;而无异型胞的MCT6最高固氮活性发生在晚上,白天固氮活性较低。一定浓度的阿特拉津通过抑制光合作用阻断能量和还原剂的提供,使藻体在较短时间内丧失固氮能力。加入阿特拉津后2种藻体的固氮活性与对照组相比有明显的变化,实验第3天开始MCT1的所有经阿特拉津处理的样品固氮活性丧失;MCT6经(50—1 000)×10-6阿特拉津处理的样品从实验第3天开始固氮活性完全消失。  相似文献   

吕宋海峡输送年际变异数值研究   总被引：1，自引：0，他引：1  

姜涛  黄洪辉  王文质 《热带海洋学报》2006,25(5):13-20

利用MITgcm数值模式1980—2001年的常规模拟输出数据,研究了吕宋海峡22年平均的体积、热量和盐量输送随深度的变化,并利用小波变换分别分析了吕宋海峡3个层次(0—145、145—915、915—1 837m)体积和热量输送的年际变化,主要结果如下。(1)在吕宋海峡1 837m层以下,仍有一定数量的西北太平洋海水(体积和盐)西向输送到南海;(2)915—1 615m层的年际体积输送的变化趋势与上两个层次(0—145m、145—915m)类似,但是在某些ENSO时期(如1985、1987、1991—1995年),其年际变化与145—915m层年际变化的位相相反;(3)吕宋海峡年际体积(热量)输送的小波谱图较明显地反映出ENSO现象对吕宋海峡不同层次的输送均产生一定影响。145—915m层次的吕宋海峡年际体积输送与ENSO现象相关性显著。  相似文献   

盐度和昼夜节律对菲律宾蛤仔摄食率的影响   总被引：16，自引：0，他引：16  

吴桂汉  陈品健  江瑞胜  杨圣云  沈锦兰 《台湾海峡》2002,21(1):72-77

在实验室条件下，用流水系统测定盐度和昼夜节律对菲律宾蛤仔摄食率的影响。分别对15、20、25、30、35这5个盐度梯度，以及连续24h的00：00、04：00、08：00、12：00、16：00、20：00这6个时间点下菲律宾蛤仔的摄食率进行了测定。结果表明：在15-25的盐度范围内，蛤仔的摄食率随着盐度的升高而增大，在盐度25时达到最大，而在25-35盐度范围内随盐度的增加而减小；在一个昼夜里，蛤仔的摄食率存在显著的差异，夜间的摄食率明显高于白昼，00：00和12：00分别是两个极值；菲律宾蛤仔是一个有着明显昼夜节律性的底栖动物，并且对盐度有一个适应范围，盐度25-30是其最适的盐度。本实验为以后进一步研究菲律宾蛤仔在贝类混养虾池中的作用奠定了基础。  相似文献