基于关键要素分布特征的长江口及其邻近海域分区研究

利用主成分分析法(PCAM)和梯度法,对1999-2006年长江口及邻近海域的常规水质监测数据进行了研究,确定了影响该海域环境的关键要素,分析了关键要素在表层海域的分布特征,比较了基于不同关键要素得到的过渡区的差异性.结果表明:(1)影响长江口及邻近海域环境的关键要素为硝酸盐氮(NO3-N)、盐度(S)和悬浮物(Z).(2)NO3-N和S要素的分布特征均为舌状平行等值线由长江口内、杭州湾内向外海延伸,在延伸过程中,NO3-N质量浓度不断降低,而S不断升高;Z要素的分布特征为舌状平行等值线由杭州湾向东北海域延伸,在延伸过程中,其质量浓度不断降低.(3)基于NO3-N和S要素确定的过渡区差异较小,过渡区位置和分布特征表明该区受长江河口径流、潮流的动力作用及其物质输运作用的影响显著;基于Z要素确定的过渡区较NO3-N(或S)要素差异较大,其过渡区的位置和分布特征表明该区可能受大型海洋工程的影响.由3种关键要素确定的过渡区的差异性表明,在根据不同的监测目标和管理需求进行海洋环境监测时,需要结合海区特征对监测方案设计进行优化.     

香港及大亚湾邻近水域的钩虾类(甲壳动物:端足目)

作者于1989年7月和11月分别收到黄宗国先生采自大亚湾附着物试板和香港大学张佩珊女士采自香港潮间带的一批标本,还有严文侠先生于1990年6月采自珠江口浮标的标本,共计37号,经整理鉴定为8科12属15种。其中8种为中国近海的首次纪录。 以上材料大部分取自附着物试板和浮标,小部分采自潮间带。     

Research on Characteristics of Density Current Under the Action of Waves

In this paper,the characteristics of density current under the action of waves are describedwith the help of flume experiment and theoretical analysis.The study shows that turbid water under the ac-tion of the waves can present three types of motion,i.e.significant stratification,fragile stratification andstrong mixing.The motion of turbid water presents significant stratification when(H/D)/△ρ/ρ~(1/2)≤4.5,generally this state is known as density current.The formulas of motionvelocity,thickness,and discharge of density current moving on horizontal bottom are derived by use of ba-sic equations such as momemtum equation,equation of energy conservation and continuity equation offluid.The time-average velocity and the thickness of density current under the action of waves have a rela-tionship with such parameters as relative density(△ρ/ρ),wave height(H),and water depth(D).Whenthese parameters are determined,the time-average thickness and motion velocity of density current are al-so determined.The relat     

液体中光声信号吸收衰减的研究

研究水的声吸收所引起的光声脉冲幅度的变化。脉冲声波由激光通过光击穿机制产生。文中给出了光声脉冲峰值声压与传播距离和声吸收系数之间的理论关系式。实验测量结果和理论曲线所描述的变化规律相符合。     

热带海洋对南亚季风和太平洋信风强迫的几种响应模态

应用动力学分析和数值计算的方法讨论了热带海洋对南亚季风和太平洋信风强迫的几种响应模态。结果表明：对于行星尺度的海洋系统,大气风应力可以激发出比较稳定的风生洋流：而对于天气尺度以下的海洋系统,大气风应力则主要激发出几种不同周期的海洋波动。上述结果既同一些经典理论研究有相似之处,也提出了一些新的观点和看法。     

Research on the spectral analysis and test method of period signals in monthly mean sea level

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海上平台桶基负压沉贯阻力与土体稳定数值计算研究

用有限元分析方法对桶形基础负压沉贯过程中流场进行动态模拟,提出桶形基础沉贯阻力计算方法和土体稳定有限计算方法,提出桶内土体稳定性判断准则,计算结果表明所提方法是合理的,并具有工程实用性。     

东平原狭蚌虫外壳的组织学研究

本文对东平原狭蚌虫外壳的组织结构进行了研究。外壳由内外角质层、内外上皮层和皮下结缔组织共同组成。外角质层厚,较规则。上皮细胞有柱状细胞和具有胞突的锥形细胞两种形态。同侧及相对两侧的上皮胞突相连接,构成了许多具有血细胞的血腔隙。     

Distribution and invasion of Spartina alterniflora within the Jiaozhou Bay monitored by remote sensing image

Spartina alterniflora as an alien invasive plant, poses a serious threat to the ecological functions of the coastal wetland of the Jiaozhou Bay. As of 2019, the distribution area of S. alterniflora in the Jiaozhou Bay has reached more than 500 hm². For this reason, combined with field surveys, remote sensing monitoring of the invasion S.alterniflora in the Jiaozhou Bay has been carried out. To accurately identify S. alterniflora within the Jiaozhou Bay coastal wetland, we used a new m...     

Observations and modelling of the travel time delay and leading negative phase of the 16 September 2015 Illapel,Chile tsunami

The systematic discrepancies in both tsunami arrival time and leading negative phase (LNP) were identified for the recent transoceanic tsunami on 16 September 2015 in Illapel, Chile by examining the wave characteristics from the tsunami records at 21 Deep-ocean Assessment and Reporting of Tsunami (DART) sites and 29 coastal tide gauge stations. The results revealed systematic travel time delay of as much as 22 min (approximately 1.7％ of the total travel time) relative to the simulated long waves from the 2015 Chilean tsunami. The delay discrepancy was found to increase with travel time. It was difficult to identify the LNP from the near-shore observation system due to the strong background noise, but the initial negative phase feature became more obvious as the tsunami propagated away from the source area in the deep ocean. We determined that the LNP for the Chilean tsunami had an average duration of 33 min, which was close to the dominant period of the tsunami source. Most of the amplitude ratios to the first elevation phase were approximately 40％, with the largest equivalent to the first positive phase amplitude. We performed numerical analyses by applying the corrected long wave model, which accounted for the effects of seawater density stratification due to compressibility, self-attraction and loading (SAL) of the earth, and wave dispersion compared with observed tsunami waveforms. We attempted to accurately calculate the arrival time and LNP, and to understand how much of a role the physical mechanism played in the discrepancies for the moderate transoceanic tsunami event. The mainly focus of the study is to quantitatively evaluate the contribution of each secondary physical effect to the systematic discrepancies using the corrected shallow water model. Taking all of these effects into consideration, our results demonstrated good agreement between the observed and simulated waveforms. We can conclude that the corrected shallow water model can reduce the tsunami propagation speed and reproduce the LNP, which is observed for tsunamis that have propagated over long distances frequently. The travel time delay between the observed and corrected simulated waveforms is reduced to <8 min and the amplitude discrepancy between them was also markedly diminished. The incorporated effects amounted to approximately 78％ of the travel time delay correction, with seawater density stratification, SAL, and Boussinesq dispersion contributing approximately 39％, 21％, and 18％, respectively. The simulated results showed that the elastic loading and Boussinesq dispersion not only affected travel time but also changed the simulated waveforms for this event. In contrast, the seawater stratification only reduced the tsunami speed, whereas the earth's elasticity loading was responsible for LNP due to the depression of the seafloor surrounding additional tsunami loading at far-field stations. This study revealed that the traditional shallow water model has inherent defects in estimating tsunami arrival, and the leading negative phase of a tsunami is a typical recognizable feature of a moderately strong transoceanic tsunami. These results also support previous theory and can help to explain the observed discrepancies.