厦门潘涂对虾养殖垦区浮游植物的生态特征

1995年6月至1996年5月对厦门市潘涂对虾养殖垦区的浮游植物进行了调查，鉴定虾池浮游植物82属300种。其中，硅藻229种（底栖种类为主），甲藻30种，绿藻30种，蓝藻5种，隐藻和裸藻各3种。发现虾池浮游植物数量上以硅藻、绿藻和甲藻为主，并且多属于微型和超微型种类、调查虾池浮游植物的生态特征与邻近海区有较大的差别。文中还对浮游植物生态特征及其与保持虾池水质环境稳定性关系方面作了初步探讨。     

舟山海区几种藤壶的食性分析

舟山海区五种藤壶的食性成分分析表明：其胃含物可分为浮游动物、浮游植物、有机碎屑及无机颗粒四类。浮游动物以挠足类为主，浮游植物以硅藻为主。不同大小个体的藤壶摄食偏向有所差别：大个体藤壶较多地摄食大型的烧足类等浮游动物，而小个体藤壶较多地摄食小型的硅藻等浮游植物和有机碎屑。藤壶食物成分种类与其生活海区中的浮游生物种类相一致，并随海区中浮游生物种类和数量变化而变化。通过测定发现，分布于外海的三角藤壶的食物颗粒度明显大于近海虾塘中的纹藤壶的食物颗粒度。     

2007年春季南海西北部陆架区海域浮游植物的群落结构

据2007年春季在南海西北部陆架区海域进行的网采浮游植物调查数据,分析了浮游植物群落的结构特征．此次共鉴定出浮游植物4门318种,其中硅藻类183种,甲藻类128种,蓝藻类5种,金藻类2种．大部分海域浮游植物种类数在40～70种之间,外海区域的种类数稍高于沿岸．浮游植物密度的变化范围为0．22×10。～3683．85×10。eells／m’,平均值（标准偏差）为97．49×10。（±437．38×10。）cel｜s／m。．其高值区主要位于粤西近岸海域,向外海呈递减趋势．调查海域硅藻类的平均密度（标准偏差）最高,为93．82×10。（±434．34×10。）cells／m’;甲藻类的次之,为3．65×10。（±9．08×10。）cells／m’．浮游植物优势种主要有拟旋链角毛藻（Chaetocerospseudocurvisetus）、细弱海链藻（Thalassiosirasubtilis）、中肋骨条藻（Skeletonemacostatum）、劳氏角毛藻（Chaetocerosloren—zianus）和菱形海线藻（Thalassionemanitzschioides）．该调查海域浮游植物多样性指数的变化范围为1．48～6．23,平均值（标准偏差）为4．70（±1．03）,其分布趋势与浮游植物密度的分布趋势大致相反．将站位依等深线划分为粤西近岸海区、琼东南近岸海区和外海海区,应用非度量多维标度（nMDS）和聚类分析法分析这3个海区的浮游植物群落结构差异,并通过ANOSIM和SIMPER进行检验．结果表明3个海区之间浮游植物群落结构具有显著性差异,且粤西近岸海区与外海海区之间差异性较高．近岸种拟旋链角毛藻和中肋骨条藻在粤西近岸海区为最主要的优势种,而外海海区优势种较多,且大部分为大洋暖水性种类．     

斑节对虾节水型养殖期间虾池硫化物含量的变化特征

在斑节对虾节水型养殖期间,观测了虾池底质和海水中硫化物含量的变化.结果表明,投放有益微生物的试验池与未投放有益微生物的对照池相比,底质硫化物含量波动较小,增高的速度较慢、增幅较小.在养殖后期试验池底质硫化物含量只增高了 68%,而对照池的增高了 252%.养殖过程中海水硫化物浓度呈阶段式和波浪式增高,在试验池中其浓度多数时间比对照池中的低.有益微生物能在一定程度上抑制水体和底质中硫化物的积累,但对老化虾池效果较差.由于节水型养殖模式利用有益微生物分解养殖过程中产生的有机物,采用单细胞藻类吸收利用营养盐,使养殖环境质量得到改善.     

大鹏澳牡蛎养殖对浮游植物种群结构的影响研究

于2013年8、10月及2014年2、5月对大鹏澳牡蛎养殖区及其邻近海域进行了采样调查。利用设置的3个站位(牡蛎养殖区S1、养殖区外S2、靠近湾口S3)的数据研究了牡蛎养殖对海区浮游植物种群结构和丰度的影响。本次考察共鉴定出大鹏澳浮游植物58属144种,丰度为6.15×103—5.94×106cells/L。其中,硅藻36属100种,占种类总数的69.4%,丰度在4.5×103—5.93×106cells/L之间;甲藻15属34种,占总种类的23.6%,丰度范围为1.5×102—4.53×104 cells/L;蓝藻、绿藻、隐藻等共7属10种。在牡蛎养殖期(8月至2月),养殖区内养殖水层浮游植物总丰度低于非养殖区,硅藻丰度占浮游植物总丰度的90%以上,硅藻丰度与总浮游植物细胞丰度的空间分布特征一致;与硅藻空间分布特点不同,养殖区内甲藻丰度显著低于非养殖区。牡蛎收获后的5月,养殖区内的甲藻丰度高于非养殖区。牡蛎养殖区站位S1浮游植物多样性指数平均值为1.35,明显低于非养殖区S2(2.68)和S3(2.69)。与此相似,养殖区内站位S1均匀度J(0.27)明显低于非养殖区站位S2(0.49)和S3(0.51)。本研究表明,大鹏澳牡蛎养殖对浮游植物群落结构造成了一定影响,能够显著降低浮游植物丰度、种类多样性和均匀度。     

深圳湾浮游生物和底栖动物现状调查研究

对深圳湾浮游植物、浮游动物和底栖动物的种类、数量及分布现状进行了研究。结果表明 ,淡水种类占绝对优势 ,藻类5门32属45种 ,其中硅藻12属18种 ,绿藻1属15种 ,蓝藻7属10种 ,裸藻、金藻各1属1种 ;浮游动物共计37种 ,其中原生动物9种,轮虫14种 ,枝角类2种 ,桡足类8种 ,浮游幼虫及其它4种 ;底栖动物20种 ,分别为环节动物的多毛类7种 ,寡毛类2种 ,软体动物8种 ,甲壳动物2种 ,鱼类1种。浮游生物和底栖动物数量和分布的特征是 :藻类细胞密度为2.4×106～1.4×107个/L ,平均6.43×106 个/L。浮游动物为514.0～8049.2个/L,平均1690.8个/L。底栖动物个体数为180～8860个/m2,平均为2364个/m2。这三类生物的种类和数量分布与距深圳河河口的距离有密切关系。因此 ,三类生物多样性指数湾内段与湾口段差异明显,且平均值偏低 ,说明深圳湾水体有一定程度的污染     

凡纳滨对虾高位池细菌数量变化及其与水环境因子的关系

对高位池细菌数量变化及其与水环境因子的关系进行了研究。结果表明,试验虾池水层细菌总数变化在2.31×106～87.2×106cfu/mL之间,平均为29.72×106cfu/mL。异氧菌数变化在0.48×104～61.2×104cfu/mL之间,平均为12.18×104cfu/mL。水层中细菌的水平和水层分布有一定的差异,但不十分显著,水层中细菌数量有明显的昼夜变化。水层细菌数量与水温、COD值之间呈显著的正相关,而与浮游植物生物量之间无明显的相关性。适合于虾池细菌生长的pH值(9.2)偏碱性。     

福建沿岸不同海区夏季浮游植物的组成与分布

结合福建省“908专项”,于2006年7～8月对福建省沿岸海域水采浮游植物的种属组成、数量分布、生物量进行了大面积科学调查．结果表明,福建沿岸海域浮游植物隶属于6门57属127种,其中硅藻47属107种,甲藻5属15种,蓝藻1属1种,金藻2属2种,隐藻1属1种,裸藻1属1种．硅藻类在种类和数量上均占主导地位,优势种主要是柔弱伪菱形藻（Pseudo—nitzschia delicatissima）、中肋骨条藻（Skeletonema costatum）、旋链角毛藻（Chaetoceros curvisetus）、菱形海线藻（Thalassionema nitzschioides）等．硅藻类广布,甲藻类在闽东海域及东山沿岸分布较多,蓝藻类检出率降低,裸藻类和金藻类检出率增高．表层浮游植物平均细胞密度为3222．59×10^4ind／dm^3,数量分布态势为近岸高、外海低,阂东和闽南高、闽中低．叶绿素a及优势类群的分布与数量分布基本一致．福建沿岸海域赤潮生物种类较多,是引发赤潮的潜在生物因素,一些赤潮生物已在闽南、闽东沿岸局部海域成为优势种．     

大亚湾人工鱼礁区浮游植物的种类组成和生物量研究

于2005年11月、2006年5月及2006年12月,对大亚湾人工鱼礁投放区、拟投放区和对照区浮游植物的种类组成及生物量进行了研究.合计观察到藻类种类67种.主要由硅藻门(48种)和甲藻门(13种)组成,同时还有少量蓝藻、绿藻和着色鞭毛藻门等其他藻类(6种).优势种类主要有尖刺拟菱形藻、菱形海线藻、尖刺菱形藻等硅藻类和又状甲藻、海洋原甲藻及海洋原多甲藻等甲藻类,这些优势种类均为可能引发赤潮的赤潮生物.人工鱼礁区的藻类数量和叶绿素含量均比对照区高,说明人工鱼礁的投放促进了藻类的生长:人工鱼礁区和拟投放区的Shannonweaver多样性指数高于对照区,进一步表明人工鱼礁的投放增加了藻类的生物多样性.综合浮游植物的种类组成、生物量及多样性指数的结果表明:人工鱼礁的投放促进了浮游植物的生长,增加了生物多样性,但藻类的优势类群是可引发赤潮的赤潮生物,对海洋水环境具有极大的潜在威胁.     

浮游动物在贝类筏式养殖区内,外生态特征研究

１９９６年６月～１０月对大李家湾贝类筏式养殖区内,外浮游动物进行了生态调查研究,结果表明,浮游动物种类类组成以小型挠足类为主,浮游动物数量在养殖区内,外具有相同的分布趋势,７月最高,９月次之,１０月最低,浮游动物在养殖区外的数量明显高于养殖区内,前者是后者的１．６～２．３倍,优势种小拟哲水蚤和鸟喙尖头蚤数量分布明显反映出浮游动物数量分布特征,而近缘大眼剑水蚤在养殖区内,外的数量则差异不大。     

Microbial Biomass and Organic Nutrients in the Deep-Sea Sediments of the Central Indian Ocean Basin

In order to assess the impact of deep-sea mining on the in situ benthic life, we measured the microbial standing stock and concentration of organic nutrients in the deep-sea sediments of the Central Indian Ocean Basin in the Indian pioneer area. Sediments were collected using box core and grab samples during September 1996. The total bacterial numbers ranged from 10 10 -10 11 cells per g -1 dry weight sediment. There was a marginal decrease in the number of bacteria from surface to 30 cm depth, though the subsurface section registered a higher number than did the surface. The highest numbers were encountered at depths of 4-8 cm. The retrievable number of bacteria were two orders less in comparison with the direct total counts of bacteria. An almost homogeneous distribution of bacteria, total organic carbon, living biomass, and lipids throughout the depth of cores indicates active microbial and benthic processes in the deep sea sediments. On the other hand, a uniform distribution of total counts of bacteria, carbohydrates, and total organic carbon in all the cores indicates their stable nature and suggests that they can serve as useful parameters for long-term monitoring of the area after the benthic disturbance. Further studies on temporal variability in this region would not only verify the observed norms of distribution of these variables but would also help to understand restabilization processes after the simulated benthic disturbance.     

A Review of Some Environmental Issues Affecting Marine Mining

This article reviews information recently available from existing marine and coastal mining for responses to environmental issues affecting marine mining at different depths. It is particularly but not exclusively concerned with those issues affecting seabed biodiversity impact and recovery. Much information has been gathered in the past 10 years from shallow mining operations for construction aggregate, diamonds, and gold, from coastal mines discharging tailings to shallow and deep water, and from experimental deep mining tests. The responses to issues identified are summarized in a series of eight tables intended to facilitate site-specific consideration. Since impacts can spread widely in the surface mixing layer SML, and can affect the biologically productive euphotic zone, the main issues considered arise from the depth of mining relative to the SML of the sea. Where mining is below the SML, the issue is whether it is environmentally better to bring the extraction products to the surface vessel for processing (and waste discharge), or to process the extraction products as much as possible on the seabed. Responses to the issues need to be sitespecific, and dependent on adequate preoperational environmental impact and recovery prediction. For deep tailings disposal from a surface vessel, there are four important environmental unknowns: (1) the possible growth of "marine snow" (bacterial flocs) utilizing the enormous quantities of fine tailings particles (hundreds or thousands of metric tons per day) as nuclei for growth, (2) the possibility that local keystone plankton and nekton species may migrate diurnally down to and beyond the depth of deep discharge and hence be subjected to tailings impact at depth, (3) the burrow-up capability of deep benthos and their ability to survive high rates of tailings deposition, and (4) the pattern and rate of dispersion of a tailings density current through the deep water column from discharge point to seabed. Actions to obtain relevant information in general and site-specifically are suggested.     

Increased Particle Fluxes at the INDEX Site Attributable to Simulated Benthic Disturbance

Particle fluxes were measured 7 m above the sea bottom during the predisturbance, disturbance, and postdisturbance periods by using time series sediment traps attached to seven deep-sea moorings deployed in the INDEX experiment site in the Central Indian Basin. The predisturbance particle fluxes varied between 22.3 to 55.1 mg m -2 day -1 . Increased and variable particle fluxes were recorded by the sediment traps during the disturbance period. The increase observed was 0.5 to 4 times more than the background predisturbance fluxes. The increases in particle fluxes (~4 times) recorded by the sediment trap located in the southwestern direction (DMS-1) were the greatest, which could be the result of preferential movement of resuspended particles generated during the deep-sea benthic disturbance along the general current direction prevailing in this area during the experimental period. Also, the traps located closer to the disturbance area recorded greater fluxes than did the traps far away, across the Deep Sea Sediment Resuspension System path. This variability in recorded particle fluxes by the traps around the disturbance area clearly indicates that physical characteristics such as grain size and density of the resuspended particles produced during the disturbance had an important effect on particle movement. The postdisturbance measurements during ~5 days showed a reduction in particle fluxes of ~50%, indicating rapid particle settlement.     

Assessing the Validity of Seismo-Acoustic Predictor Equations for Obtaining Seabed and Sub-Surface Sediment Physical Properties

The interdependence between the seismo-acoustic properties of a marine sediment and its geotechnical/physical parameters has been known for many years, and it has been postulated that this should allow the extraction of geotechnical information from seismic data. Though in the literature many correlations have been published for the surficial layer, there is a lack of information for greater sediment depths. In this article, a desktop study on a synthetic seafloor model illustrates how the application of published near-surface prediction equations to subsurface sediments (up to several tens of meters burial depth) can lead to spurious predictions. To test this further, acoustic and geotechnical properties were measured on a number of sediment core samples, some of which were subjected to loading in acoustically-equipped consolidation cells (oedometers) to simulate greater burial depth conditions. For low effective pressures (representing small burial depths extending to around 10 meters subsurface), the general applicability of established relationships was confirmed: the prediction of porosity, bulk density, and mean grain size from acoustic velocity and impedance appears generally possible for the investigated sedimentary environments. As effective pressure increases through, the observed relationships deviate more and more from the established ones for the near-surface area. For the samples tested in this study, in some instances increasing pressure even resulted in decreasing velocities. There are several possible explanations for this abnormal behavior, including the presence of gas, overconsolidation, or bimodal grain size distribution. The results indicate that an appropriate depth correction must be introduced into the published prediction equations in order to obtain reliable estimates of physical sediment properties for greater subsurface depths.     

Geoacoustic Inversion via Genetic Algorithm and Its Application to Manganese Sediment Identification

An acoustic inversion method using a wide-band signal and two near field receivers is proposed and applied to multiple layered seabed models including a manganese sediment. The inversion problem can be formulated into a probabilistic model comprised of signals, a forward model, and additive noise. The forward model simulates wide-band signals, such as chirp signals, and is chosen to be the source-waveletconvolution plane wave modeling method. The wavelet matching technique, using weighted least-squares fitting, estimates the sediment sound-speed and thickness on which determination of the possible numerical ranges for a priori uniform distribution is based. The genetic algorithm is applied to a global optimization problem to find a maximum a posteriori solution for determined a priori search space. Here the object function is defined by an L 2 norm of the difference between measured and modeled signals. Not only the marginal pdf but also its statistics are calculated by numerical evaluation of integrals using the samples selected during importance sampling process of the genetic algorithm.     

海上大直径钢管桩打桩过程中桩周土强度弱化研究

海上大直径钢管桩打桩过程中,桩周土体受到强烈扰动而发生强度弱化,掌握桩周土体强度弱化规律对于准确预测打桩过程、保证工程安全具有重要意义。为研究土体强度弱化规律,开展了环剪试验模拟打桩对桩周土体的扰动,测试土体强度随剪切速率的变化规律,建立了描述土体强度弱化规律的拟合公式,引入到打桩分析软件中。研究结果表明：土体的强度折减程度不仅与土体本身的性质有关还受到土体的埋深和剪切速率的影响,埋深越深土体强度折减程度越低,剪切速率越高土体强度折减越高,在打桩分析中可采用这里推荐的线性折减方法来模拟不同深度处土体强度的折减规律。     

Determination of In Situ Sediment Shear Strength from Advanced Piston Corer Pullout Forces

The advanced piston corer (APC) has been used by the Ocean Drilling Program since 1985 for recovering soft sediments from the ocean floor. The pullout force measured on extracting the core barrel from the sediment is shown to correlate with the average shear strength of the sediment core measured in the ship's laboratory. A simple rule of thumb is derived relating the shear strength of the sediment to the pullout force. Multiple APC holes at individual sites allow the consistency of the pullout measurements to be assessed. The effects of different operational procedures during APC coring are also explored. Although generally applicable, the correlation between pullout force and laboratory measurements of shear strength breaks down for some APC holes, possibly because of the disturbance of some sediment types during the APC coring process. A better understanding of the physical process of APC coring, and its effect on the properties of the sediment both inside and immediately outside the core barrel, would indicate what confidence can be put on the measurement of pullout force as a way of evaluating the in situ shear strength of deep sea sediments.     

Interannual Sea Level Variations and Annual Tides in the Northwestern Pacific

Specific properties of the interannual sea level variations and annual tides in the Northwestern Pacific were studied. Several tide stations were monitored. The monthly mean sea level for the year of 1995 was analyzed at each tide station. A seismic event in 1995, some tectonic activity around the subject area, and the Kuroshio (the oceanic western boundary current) may possibly contaminate results which would have occurred from the astronomical annual tide alone.     

《Acta Oceanologica Sinica》Vol. 33(2014) contents

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