海湾区海水中的溶存甲烷 Ⅱ.浓度、海气交换通量

本文基于日本东京湾、伊势湾和浜名湖的调查资料，详细地比较了这3个海湾海水中的溶存甲烷浓度、饱和度。表层海水中，溶存甲烷浓度以供名湖最高，达95nmol／dm3，伊势湾和东京湾相近，分别为41nmol／dm3和37nmol／dm3；其表层测定浓度是其平衡浓度的13～78倍，并分别计算了这3个海湾中甲烷的海气交换通量；用平均值外推法得出全球海洋环境中总的甲烷海气交换通量为6．3Tg／a。     

The distribution of methane in the Tokyo-wan

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The distribution of methane in the Tōkyō-wan

Eleven stations were occupied in the Tokyo-wan during a study on the distribution of methane in this autrophic coastal environment in August of 1993.The principal features of the observed methane included the following 6 points: (1) Excess methane in the surface layer from 1.5 times to greater than 25 times solubility equilibrium with the atmosphere.(2) The methane concentration in the upper water displayed a maximum wne around Station 5 and the second highest in bottom water at Stations 1 and 2,probably because there was the front resulting from the chemical processes.(3) Cotrelations between methane and other parameters exhibited correspondences and the methane distribution being mainly controlled by physical processes.(4) In some'stations,vertical profiles revealed associations between methane and Chl a and the relationships between methane with Chl a or nitrite have shown good linear cortelations.It is postulated that some methane is formed in situ.(5) The calculated flux of methane acrbss the air-sea interface was about 71 μmol/(m²·d).(6) Some methane might be produced along with the organic matter decomposition in bottom water.Others might be due to the methane fluxes into the bottom water from the anoxic sediment inside the bay,which are believed to be the main methane source.     

Numerical simulation of non-linear regular and focused waves in an infinite water-depth

Inviscid three-dimensional free surface wave motions are simulated using a novel quadratic higher order boundary element model (HOBEM) based on potential theory for irrotational, incompressible fluid flow in an infinite water-depth. The free surface boundary conditions are fully non-linear. Based on the use of images, a channel Green function is developed and applied to the present model so that two lateral surfaces of an infinite-depth wave tank can be excluded from the calculation domain. In order to generate incident waves and dissipate outgoing waves, a non-reflective wave generator, composed of a series of vertically aligned point sources in the computational domain, is used in conjunction with upstream and downstream damping layers. Numerical experiments are carried out, with linear and fully non-linear, regular and focused waves. It can be seen from the results that the present approach is effective in generating a specified wave profile in an infinite water-depth without reflection at the open boundaries, and fully non-linear numerical simulations compare well with theoretical solutions. The present numerical technique is aimed at efficient modelling of the non-linear wave interactions with ocean structures in deep water.     

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基于环境DNA技术的黄河流域下游山区河流大型底栖动物群落多样性特征及其影响要素分析

河流生物群落组成由多种环境因子共同作用形成,但其影响机制尚不清楚。本研究基于环境DNA技术,选择黄河流域下游4条山区河流(锦绣川、锦阳川、锦云川和三川汇合后河流)的10个样点开展大型底栖动物监测。结果发现:不同溪段水质状况有所差异,锦云川盐化程度(以电导率EC表征)和营养盐浓度较高,锦阳川抗生素浓度较高,锦绣川水质较好。山区河流大型底栖动物群落组成差异明显,锦绣川以水生昆虫为主,软体动物占比较低。其中,昆虫纲的大蚊(Tipula abdominalis)、天角蜉(Uracanthella punctisetae)和寡毛纲的顠体虫(Aeolosoma sp.)是造成锦绣川与其他河流大型底栖动物群落结构差异的关键物种。冗余分析和变差分解分析结果表明,盐化、营养盐和抗生素均会对大型底栖动物群落组成产生影响。其中,EC的解释率为22.86%,营养盐中的TP、NH₃-N和TN的解释率分别为20.12%、13.25%和7.81%;此外,盐化可与营养盐和抗生素通过耦合效应对大型底栖动物群落组成产生影响,贡献率分别为21.60%和16.20%;抗生素与营养盐的贡献率为19.60%。逐步判别回归模型结果显示,Margalef指数(d)受盐化(EC)和营养盐(NH₃-N和NO₃^--N)的共同影响;随着河流中EC浓度升高,d 与NH₃-N之间的正响应关系及其与NO₃^--N之间的负响应关系显著增强。因此,多环境因子对水生生物的影响不容忽视,在大型底栖动物生物多样性保护中应关注各类环境因子的影响贡献。     

日本海及中国东北地震的深度分布及其应力状态

本文分析了日本海及中国东北的地震深度分布。证实了日本本州北部至中国东北的贝尼奥夫带(Benioff)基本是连续的,该带的倾向约为北85°西,倾角约为29°,深度在150公里以下贝尼奥夫带厚度约为20公里。研究了日本本州北部至中国东北的震级M_b≥5.0地震的震源机制解,发现中国东北地壳应力场与日本海地壳的应力场方向一致,来源于太平洋板块的挤压。在俯冲带上,深度在100公里到200公里之间的情况较为复杂,大多数地震显示的主压应力方向与贝尼奥夫带的倾向、倾角一致,有的T轴取向与贝尼奥夫带的倾向、倾角一致,有的特征方向与贝尼奥夫带倾向、倾角均不一致。深度在200公里至500公里之间,主压应力方向近于水平,并与贝尼奥夫带走向垂直,张应力轴相对集中。深度大于500公里时,主压应力方向与贝尼奥夫带的倾向、倾角一致,张应力轴相对集中     

东海海水中的溶存甲烷

基于1994年秋季航次在东海的调查资料,较详细地分析了溶存甲烷在水体中的分布规律、成因和来源.表层水中溶存甲烷呈过饱和状态,饱和度127%～254%,温跃层以上水体中,甲烷的断面分布不同于营养盐的分布,各站测值相近,没有显示出受长江冲淡水的影响,而呈现的舌状分布,在陆架底层水中有明显的高浓度甲烷水体,表明甲烷从沉积物中迅速扩散进入底层水.黑潮次表层水的涌升过程稀释了陆架边缘底层水中的甲烷.在陆架和大洋区测站上,甲烷的垂直分布不同,前者主要受物理混合过程所控制;后者呈大洋区分布特征,在温跃层附近出现甲烷的次表层最大,这可能是陆架底层高浓度甲烷沿等密度面的输送所致.

     

乳山湾外邻近海域氮和磷的分布与收支过程研究

基于2009年6–9月,2014年5月,2014年7–8月在乳山湾外邻近海域的综合调查资料,分析了该开放海域水体与沉积物中氮、磷营养盐的组成和分布,并在潮汐潮流数值模式计算水通量的基础上分析了近岸开放区域无机氮(DIN)和无机磷(DIP)的循环与收支的主要过程,量化了潮汐潮流、初级生产的消耗与转化、底界面过程与内部循环等过程对氮和磷营养盐循环与收支的影响。结果表明,夏季乳山湾外邻近海域水体DIN和DIP的浓度与分布受陆源输入和潮汐潮流的共同影响,高值均出现在湾口区域;沉积物-水界面存在DIN和DIP从沉积物向上覆水释放的现象,使得底层水体的氮、磷营养盐浓度高于表层水体。氮的收支表明,研究海域水体内部循环过程是初级生产所需DIN的主要来源,占初级生产总消耗量的86%,其次是水交换作用(11%),底界面扩散对初级生产的贡献相对较小(3%);水体DIN的移出主要是通过埋藏、向外海的输送和水体反硝化作用,其比例分别为80%、16%和4%。磷的收支显示,研究海域水体内部循环过程贡献了初级生产所需DIP的91%,其次是水交换作用(9%),底界面扩散对初级生产的贡献小于1%;水体DIP支出主要是通过沉积埋藏和向外海的输送,其比例分别为67%和33%。研究结果表明内部循环过程是近海水体氮和磷获得补充的主要途径,不过外部来源的氮、磷营养盐结构与系统内部具有显著的差异,且系统内磷的埋藏效率要高于氮,其必将对乳山湾外邻近海域营养盐结构和初级生产产生长远的影响。