台湾海峡生态系统对海洋环境年际变动的响应分析

通过比较1985~2001年的海表温度与其间收集的现场营养盐、浮游植物和浮游动物丰度及群落结构变动信号,以及1971~1998年的中上层鱼类渔获量变动信息,发现了台湾海峡生态系统对物理环境年际变动产生的响应迹象.1997 年夏季台湾海峡处于偏冷状态,南部近岸上升流强度减弱;1997年冬季正值一个较强的暖事件发展到顶峰,北上入侵暖水强度增强、浙闽沿岸冷水强度减弱.导致这两个时期营养盐分布特征改变,发生了一系列从浮游植物到浮游动物,从生物量到群落结构的异常响应,暖水性中上层鱼类渔获量则似乎呈现出El Niño年偏高的趋势.根据有限的辅助证据推测,El Niño很可能不是控制台湾海峡海洋环境年际变动的强信号,而台湾海峡的气候海洋生态长期低频变动可能更多地受到东亚季风中国边缘海系统的控制.     

福建罗源湾海水悬浮物的研究

于1986年11月－1987年9月对福建罗源湾海水悬浮的含量的观测结果表明，水动力条件引起的再悬浮过程和生物活分别是罗源湾冬季和夏季悬浮物分布及性质变化的主要影响因素。底部沉积物的再悬浮对水体营养盐的再生和补充及有机碎屑的提供起重要的作用，夏季颗粒有机碳的学降能量一般占水柱浮游植物初级生产量的67－85％，大部分初级生产的有机碳沉降海底。     

赤潮科学中藻菌关系研究的若干进展

水生生态系统中,微型藻类与细菌的关系越来越引起人们的重视。细菌对藻类的影响主要体现在,一方面细菌吸收藻类产生的有机物质,并为藻类的生长提供营养盐和必要的生长因子,从而调节藻类的生长环境;另一方面细菌也可通过直接的或间接的作用抑制藻细胞的生长,甚至裂解藻细胞,从而表现为杀藻效应。而藻类对细菌也有相似的两方面作用。由于这些错综复杂的关系,使人们在研究浮游植物水华和赤潮的发生、发展、衰落与消亡的机理时,不能不考虑细菌的重要性,其中细菌杀藻现象则为利用微生物防治赤潮提供了可能的途径。本文在近年来国内外有…     

海洋浮游生物电子传递系统研究进展

呼吸作用是代谢的中心,有机物转化的枢纽,它提供生命活动所需的能量,为其他化合物合成提供原料。了解呼吸率对定量建立食物链中物质和能量模型是很有必要的。呼吸率同时也是海洋生态学研究的重要参数之一。常规的呼吸率测定方法有Ｗｉｎｋｌｅｒ法、氧电极法、压力测定法、浮沉于法、径流装置法等等。这些方法各有其优缺点,大都要求在密闭容器中并模拟海区环境,且生物在转移过程中生理状态发生了变化,这些方法耗时,灵敏度低,准确度差。与上述常规方法相比,电子传递系统（ＥＴＳ）活力测定法弥补了他们的一些不足,在灵敏度、准确度…     

Numerical modeling of hydrodynamic changes due to coastal reclamation projects in Xiamen Bay, China

Xiamen Bay in South China has experienced extensive coastal exploitation since the 1950s,resulting in some severe environmental problems.Local authorities now have completed or are implementing many environmental restoration projects.Evaluating the cumulative impact of exploitation and restoration activities on the environment is a complicated multi-disciplinary problem.However,hydrodynamic changes in the bay caused by such coastal projects can be characterized directly and definitively through numerical modeling.This paper assesses the cumulative effect of coastal projects on the hydrodynamic setting using a high-resolution numerical modeling method that makes use of tidal current speeds and the tidal prism as two hydrodynamic indices.Changes in tidal velocity and the characteristics of the tidal prism show that hydrodynamic conditions have declined from 1938 to 2007 in the full-tide area.The tidal current speed and tidal prism have decreased by 40% in the western part of the bay and 20% in the eastern part of the bay.Because of the linear relationship between tidal prism and area,the degraded hydrodynamic conditions are anticipated to be restored to 1972 levels following the completion of current and proposed restoration projects,i.e.33% and 15% decrease in the hydrodynamic conditions of 1938 for the western and eastern parts of the bay,respectively.The results indicate that hydrodynamic conditions can be restored to some extent with the implementation of a sustainable coastal development plan,although a full reversal of conditions is not possible.To fully assess the environmental changes in a region,more indices,e.g.,water quality and ecosystem parameters,should be considered in future evaluations.     

台湾海峡南部海区1997年8月温度盐度的垂直结构

对台湾海峡南部海区１９９７年８月的ＣＴＤ资料进行子温、盐垂直结构分析。结果表明：大部分调查海域存在温、盐跃层;台湾浅滩南部和东南部海域的温、盐垂直结构较为复杂,这与多种水系在此交汇有关,但下层海水的低温高盐特性仍表明这一海域是上升流区;泉州外海的下层存在低温高盐海水的爬升,但没有影响到表层。     

氮、磷对两种微藻吸附与吸收镍的影响

采用放射性同位素示踪的方法,研究了大量营养盐氮和磷添加对两种微藻:东海原甲藻(Prorocentrum donghaienseLu)和中肋骨条藻(Skeletonema costatum)吸附和吸收重金属镍的影响。结果表明,在短时间(2h)的培养实验中,大量营养盐的添加影响了藻类对重金属的吸附和吸收速率,但氮、磷浓度的增加对藻类吸附和吸收镍的影响有所差异:硝酸盐浓度的添加促进了藻类对镍的吸附和吸收,磷浓度的添加促进了两种藻类对镍的吸附,但对藻类吸收镍的影响不大。在未添加营养盐的条件下,东海原甲藻对镍的吸附量要高于硝酸盐添加组但吸收量则较低,而中肋骨条藻的吸附量和吸收量均较硝酸盐添加组低。当尿素为氮源时,尿素促进了藻类对镍的吸收,其吸收量为同一浓度硝酸盐的1·2倍。本研究结果证明,近海富营养化特别是氮浓度的增加会影响浮游植物对微量金属的吸收,进而可能会影响到金属在整个海洋食物链中的传递。     

The vertical distributions and sources of PAHs in sediment of Xiamen Bay

INTRODUCTIONTheindustrialdevelopmentandrisingpopulationintheXiamencoastalzonearelikelytoresultinincreasingpollutantsloadingwhichcanaffecttheoceanicecosystemsenvironmentthereandthreatenhumanhealth .PAHs ,asgoodenvironmentpollutionindicators(Aizenshat,1 973 ;Randahl,1 983 ) ,arerela tivelystableinairandwater,andarewidelydistributedintheaquaticenvironmentasaresultofhumanactivities.ProposedprimarysourcesofPAHsincludecombustionofvariousfossilfuels,nat uralfires,roadrunoff streetdustaswellas…     

Spatial and temporal variations of Synechococcus and picoeukaryotes in the Taiwan Strait,China

The size-fractionated phytoplankton biomass, and the spatial and temporal variations in abundance of Synechococcus (SYN) and picoeukaryotes (PEUK) were measured in the Taiwan Strait during three cruises (August 1997, February-March 1998, and August 1998). The results show that picophytoplankton and nanophytoplankton dominate the phytoplankton biomass, in average of 38% and 40%, respectively. SYN and PEUK varied over time in abundance and carbon biomass, greater in summer than in winter, in range of (7.70–20...     

Spatial and temporal variations of <Emphasis Type="Italic">Synechococcus</Emphasis> and picoeukaryotes in the Taiwan Strait,China

The size-fractionated phytoplankton biomass, and the spatial and temporal variations in abundance of Synechococcus (SYN) and picoeukaryotes (PEUK) were measured in the Taiwan Strait during three cruises (August 1997, February–March 1998, and August 1998). The results show that picophytoplankton and nanophytoplankton dominate the phytoplankton biomass, in average of 38% and 40%, respectively. SYN and PEUK varied over time in abundance and carbon biomass, greater in summer than in winter, in range of (7.70–209.2)×10⁶ and (0.75–15.4)×10⁶ cells/cm² in the abundance, and 1.93–52.3 and 1.57–32.4 μgC/cm² in the carbon biomass, for SYN and PEUK, respectively. The horizontal distributions of both groups were diurnal but heterogeneous in abundance, depending on the groups and layer of depths. Temperature is the key controlling factor for picophytoplankton distribution (especially in winter) in the Strait. Supported by Natural Science Foundation of China (No.40730846; 40521003)