小黄鱼育幼期吕泗渔场的饵料浮游动物特征

根据2008年6月在吕泗渔场(31.90°N-32.10°N、121.70°E-121.95°E)海域生态环境调查资料,分析了该区饵料浮游动物种类分布、优势种、数量分布、多样性等特征。结果表明:该区共出现饵料浮游动物31种(不含浮游幼体和腔肠动物),种类数和丰度均以桡足类占据优势;该区总生物量均值为845.54mg.m-3,其中大潮时为895.58mg.m-3,分布趋势为北部高于南部,小潮时为795.49mg.m-3,分布趋势为中部较高;6月吕泗渔场饵料浮游动物优势种分别是真刺唇角水蚤(Labidocera euchaeta)、中华哲水蚤(Calanus sini-cus)、小拟哲水蚤(Paracalanus parvus)、太平洋纺锤水蚤(Acartia pacifica)、火腿许水蚤(Schmackeria poplesia)、长轴螺(Peraclis reticulata)、长额刺糠虾(Acanthomysis longirostris);大潮时真刺唇角水蚤和中华哲水蚤优势度最高均为0.19,小潮时真刺唇角水蚤优势度最高为0.40;在吕泗渔场,6月饵料浮游动物生物量较高,优势种数较多,反映出该渔场小黄鱼饵料环境的稳定性,为小黄鱼幼体生长提供了良好的饵料条件。     

东黄海秋季浮游动物优势种聚集强度与鲐鲹渔场的关系

一、前言日本鲐鱼(Pneumatophorus japonicus)和蓝圆鲹(Decaterus maruadsi)是东黄海主要中上层鱼类资源。秋季鲐鲹鱼在黄海南部和东海北部(北纬32°00′—33°30′,东经124°00′—128°30′)以及东海中南部(北纬26°30′—29°00′,东经123°00′—126°00′)形成两个索饵渔场,前者简称为北部渔场,后者简称为南部渔场。为了开发和利用东黄海鲐鲹鱼索饵渔场资源,需要对两渔场鲐鲹鱼资源分布的特点进行研究。根据以往国内外的一些报道,鲐鲹鱼是一类以浮游动物为主食的鱼类,其分布特点往往同浮游动物的分布有密切关系。因此,本     

海湾景观生态脆弱性及其对人类活动的响应——以东海区为例

研究围填海影响下海湾景观生态脆弱性,有助于提高海湾生态环境保护意识、加速修复海湾生态系统。基于东海区海湾6期景观数据,分析了围填海影响下东海海湾景观生态脆弱性和人工干扰强度的时空变化特征,并讨论了海湾景观对人类活动的响应程度。结果表明:(1)东海海湾景观脆弱度上升,北部和南部海湾较高和高脆弱区面积呈上升趋势。高等级脆弱区不断扩散,主要由城市到郊区、内地到沿海、陆地到港口等。(2)东海海湾围填海开发利用强度加强。东海北部海湾景观人工干扰强度由低值向高值转变,中强度、较高强度区间和高强度区面积不断增加。南部海湾景观人工干扰强度南北分异显著,呈现出北低南高的特征。人工干扰强度从内陆向河口周边及沿海地区强度逐渐加深。(3)东海海湾景观变化对人类活动响应显著。东海北部海湾景观趋于破碎化、多样化、非均衡化。东海南部海湾逐渐向集约开发方向发展,景观趋于规则化、均衡化。东海海湾景观脆弱度与景观人工干扰强度间存在显著的正相关关系,南部海湾景观脆弱度与人工干扰度之间的拟合度大于北部海湾。     

再议中国近海小黄鱼种群的划分问题

以往认为,中国近海小黄鱼可划分为3个种群.本研究从地理隔离、数量动态、形态解剖,分子遗传学和海洋水文等不同方面,重新审视了我国近海小黄鱼（Larimichthys polyactis Bleeker）种群的划分问题.研究表明：中国近海小黄鱼仅仅存在两个种群,即黄海南部和东海小黄鱼种群及渤海和黄海北部小黄鱼种群.主要证据有三：其一,分析1965年至今小黄鱼不同种群形态解剖学和分子遗传学重要文献,发现这些文献的结果仅仅支持黄海南部和东海小黄鱼是一个种群的结论;其二,依据1971-1982年我国10多个主要渔业公司小黄鱼捕捞统计资料,黄海南部和东海的小黄鱼在地理分布上几乎不存在隔离的现象.在冬季外海,黄海南部和东海小黄鱼栖息于同一个越冬场.进入春季后,它们从该越冬场分别向舟山渔场、鱼山渔场和吕泗渔场产卵洄游.同时,东海南部近海越冬场的小黄鱼向北作产卵洄游,在舟山渔场汇入外海来的小黄鱼鱼群中.从5-8月,黄海南部至东海仅存在一个小黄鱼索饵群体.而黄海北部和渤海小黄鱼群体与上述群体存在明显的地理隔离;其三,黄海南部和东海,近年来小黄鱼产量增长趋势一致,而同期的渤海和黄海北部小黄鱼资源量恢复不大.     

崇明东滩潮间带潮沟浮游动物的种类组成及多样性

为了揭示潮间带潮沟水域浮游动物的多样性, 作者于2008年4–12月在崇明东滩选取6条潮沟共18个站点进行4个季节的浮游动物采样调查。检获到浮游动物44种, 隶属于6个类群, 其中桡足类占绝对优势, 达总种类数的79.5%。分析了浮游动物的种类组成、优势种、群落结构及物种多样性等生态特征参数的季节变化。优势种有9种, 春季以细巧华哲水蚤(Sinocalanus tenellus)优势度最高, 夏季以火腿许水蚤(Schmackeria poplesia)优势度最高, 秋季以火腿许水蚤和中华华哲水蚤(Sinocalanus sinensis)优势度较高, 冬季则以四刺窄腹剑水蚤(Limnoithona etraspina)和中华华哲水蚤的优势度较高。多样性指数显示, Shannon-Wiener指数(H′)值以夏冬季较高, 物种丰富度指数(d)值以夏秋季较高, Pielou均匀度指数(J′)值以冬季最高。与崇明岛附近的长江口北港北支水域已有的研究结果相比, 种类组成差异较大, 仅有6个共有种。浮游动物的生态特征与潮汐关系密切, 涨潮时物种多样性略高于落潮时, 涨潮和落潮时优势种的种类及优势度也均呈现出一定差异。盐度、温度、径流及潮流等环境因素对潮沟浮游动物的时空分布产生了重要影响。     

东海区沙海蜇和浮游动物的分布特征

根据2003—2005年夏、秋季在东、黄海进行的大型水母监测调查资料,分析了沙海蜇及其分布区内浮游动物的数量动态分布特点,研究了浮游动物优势种的生态类型及其种间变化。结果表明:夏季沙海蜇主要分布于29°00′—34°00′N海域,秋季主要分布于31°00′—34°00′N海域;3年间,沙海蜇生物量逐年递减、分布范围逐年变小,但并不影响东海、黄海沙海蜇从夏季至秋季具有由东海北部向黄海逐渐移动的特点;沙海蜇分布海域浮游动物的高生物量密集区一般位于沙海蜇中心区的边缘区域;沙海蜇和浮游动物的生物量在空间分布上存在着明显的负相关关系;浮游动物优势种夏季为中华哲水蚤与长尾类溞状幼体,秋季为中华哲水蚤、肥胖箭虫和小齿海樽。浮游动物与沙海蜇的生物量变化有较好的对应关系,浮游动物生物量大小与主要优势种组成可作为分析年间沙海蛰是否暴发的重要参考。     

东海水母类多样性分布特征

根据1997–2000年东海23°30'–33°00'N、118°30'–128°00'E海域4个季节海洋调查资料,从环境因素与优势种的聚集强度等不同侧面探讨了东海水母类多样性指数(H′)的分布特征及其成因。东海4季共发现水母类103种,主要分布在东海南部和北部外海。大部分水域水母物种多样性较高,且冬夏季高于春秋季,南部高于北部,外海高于近海。分析成因如下:(1)多样性指数与物种数密切相关,但与丰度相关性不显著。优势种的聚集导致个别海区物种多样性降低。春季五角水母(Muggiaeaatlantica)在浙江近海、秋季双生水母(Diphyeschamissonis)在长江口海域聚集,导致春秋季东海近海水母类多样性指数较低。(2)水温是影响多样性指数分布的主要环境因子,盐度是次要因子。冬春季多样性指数值与10m层水温相关,夏季与表层水温相关,秋季与10m层盐度相关。(3)多样性指数的分布还受不同水团的影响。春季、夏季和冬季多样性指数(H′)等值线分布全面反映了东海海流走向和水团的变化,是分析东海水团的良好指标。     

兴化湾浮游动物群落季节变化和水平分布

兴化湾为福建北部最大的海湾,于2006年对该海湾浮游动物群落进行了四季9个站位的调查。共检出浮游动物及幼虫124种,其中春季42种,夏季89种,秋季71种,冬季20种;分属近岸暖温、近岸暖水和广布外海3个生态类群;优势种15种,春季以水母和桡足类占优势,夏季以水母占优势,秋季以水母、桡足类和箭虫占优势,冬季则以桡足类占优势。不同季节兴化湾浮游动物生物量湿重和丰度水平分布特征变化明显,并与温度和盐度呈显著相关。聚类分析显示兴化湾浮游动物群落夏季类群和秋季类群相似度较高;各季节水平分布基本可分为湾口区和湾内区两大类群。与20世纪80年代相比,尽管本次调查浮游动物群落没有表现出显著差异,但随着电厂等大规模工程的投产,兴化湾海域生态系统健康面临着极大威胁,其环境压力需引起持续关注。     

台湾海峡浮游翼足类群聚之季节动态

本研究利用水产试验所研究船“水试一号”于2006年冬(1月)夏(7月)两季在台湾海峡海域进行水文探测及浮游动物采样, 以探讨浮游翼足类群聚组成与丰度之时空分布及其与水文环境的相关性。结果发现浮游翼足类夏季的丰度及多样性指数明显较冬季高, 而种类数则差异不大; 两季间优势种类组成相似但优势排名略有不同, 夏季主要优势种为棒笔帽螺(Creseis clava)、尖笔帽螺(C. acicula)和马蹄螔螺(Limacina trochiformis), 合占所有翼足类丰度的97%, 其中仅棒笔帽螺就占了总丰度的62%; 冬季主要优势种为胖螔螺(Limacina inflata), 占翼足类丰度的72%。翼足类丰度在空间上的分布亦有明显的季节差异, 夏季时以台湾海峡北部较高, 冬季则以南部较高。种类数与物种多样性指数则均以海峡南部较高。由水文站群分析及各站群生物及水文特征结果显示, 台湾海峡季节性水团的消长与翼足类群聚分布有十分密切的关联。     

浙江乐清湾浮游动物空间生态位

基于2016年5月至2017年2月在乐清湾进行的4个航次浮游动物调查数据,计算乐清湾浮游动物优势种的优势度指数(S)、平均拥挤度(X^*)、生态位宽度(B_i)及生态位重叠值(Q_ik )。结果表明: 乐清湾海域浮游动物优势种(S＞0.02)共17种,生态位宽度值差异较大,优势度指数与生态位宽度值呈极显著正相关。浮游动物的生态位重叠值极低,Q_ik＞0.6的种对有25对。冗余分析表明,温度和盐度是影响乐清湾海域浮游动物优势种分布的重要因素,浮游动物优势种在这些环境因子上存在生态分化现象。     

Distribution patterns of mesozooplankton biomass in the North Sea

During spring 1986 and winter 1987, zooplankton samples were collected over the entire North Sea by means of a multi-closing net-system. Before taxonomic treatment, wet weight estimates and carbon content conversions were carried out. From this data set, 4 962 522 tons zooplankton biomass (dry weight) were estimated for the whole North Sea during the spring survey. High biomasses (more than 100 mg C/m³) were located in areas between the Orkneys and the Shetlands, off the mouth of the Firth of Forth, the Channel and the river Rhine. Considerable zooplankton biomass was also found parallel to the Danish west coast. Furthermore, a narrow tongue of high biomass (partly greater than 200 mg C/m³) intruded from the north, between 1 °E and 4 °E, into the northern North Sea, turning to the east at 56°N, and continuing into deeper water layers to form a left turning “helix” of high biomass in the central part of the North Sea. During the winter survey the carbon content of the zooplankton stock was a factor 10 lower than in summer. Altogether, 519340 tons of zooplankton biomass (dry weight) were estimated in winter. Centres of relatively high biomass were located off the mouth of the rivers Rhine, Weser and Elbe and off the British east coast moving in a cyclic way across the Dogger Bank into the central North Sea. A further maximum of zooplankton abundance was found in the Skagerrak region. However, an intrusion of zooplankton from the shelf edge into the North Sea was not observed in winter. A qualitative analysis of species composition showed that small copepods dominated the zooplankton in the southern and eastern North Sea. The “eddy” of high biomass in the northern North Sea observed in spring, however, was mostly shaped by the large copepodCalanus finmarchicus (70–90%). The distribution of zooplankton biomass in the North Sea is discussed in relation to the hydrographic conditions and to the biology of the dominant species.     

Phytoplankton distribution in the Caspian Sea during March 2001

Phytoplankton abundance, biomass and species composition of the Caspian Sea were evaluated by using samples collected from the Iranian (southern Caspian Sea) and southern Kazakhstan (eastern Caspian Sea) surface waters in March 2001. A total of 45 taxa were found in the samples (20 diatoms, 17 dinoflagellates and 8 others). Abundance and biomass of diatoms were high at the eastern stations, while dinoflagellates were dominant in terms of both biomass and abundance in the southern region. Average abundance and biomass were 40 000 ± 35 000 cell l⁻¹ and 580 ± 690 μg l⁻¹. The mean biomass value found here for the Middle and southern Caspian Sea in March are difficult to compare with the past due to limited information, but seems higher than previously registered values. Higher chlorophyll values were also apparent from the SeaWIFS images in 2001 compared to those in 1998. This is suggested to be due to decreased grazing of phytoplankton by zooplankton which is voraciously preyed by the recent invasive ctenophore Mnemiopsis leidyi.     

舟山海域夏、秋季浮游动物的分布特征及其与环境因子的关系

为更好地了解舟山海域浮游动物的群落结构、生物量和丰度的时空分布特征及其与主要环境因子的关系,分别于2014年7月和10月进行了夏季、秋季两次生态综合调查,并用多维尺度分析法、典范对应分析法对浮游动物群落结构进行了研究。结果表明:夏季舟山海域调查的浮游动物有13类,64种,优势种为背针胸刺水蚤(Centropages dorsispinatus)、圆唇角水蚤(Labidocera rotunda)、中华哲水蚤(Calanus sinicus)、精致真刺水蚤(Euchaeta concinna)、百陶带箭虫(Zonosagitta bedoti)和真刺唇角水蚤(Labidocera euchaeta);秋季鉴定到浮游动物12类,45种,优势种为背针胸刺水蚤(Centropages dorsispinatus)、百陶带箭虫(Zonosagitta bedoti)、双生水母(Diphyes chamissonis)、瓜水母(Beroёcucumis)和中华哲水蚤。夏季浮游动物平均丰度及平均生物量(144.0 ind/m3和176.3 mg/m~3)都分别高于秋季(21.4个/m3和86.3 mg/m3);Shannon-Wiener多样性指数夏季(3.03)高于秋季(2.82),Pielou均匀度指数则是秋季(0.83)高于夏季(0.64);夏季不同区域浮游动物群落之间具有明显的差异,而秋季大部分站位群落之间差异不显著;温度、盐度、叶绿素a浓度和营养盐含量是影响舟山海域浮游动物分布的主要环境因子;与历史资料相比,舟山海域浮游动物丰度及生物量呈下降趋势,其优势种保持较稳定。     

东海赤潮高发区春季浮游动物生态特征的研究

根据2002年4～5月东海122°～123°30′E、29°～32°N水域海洋综合调查资料,对东海赤潮高发区浮游动物的数量分布、群落特征、种类组成及优势种等进行了分析．结果表明,在调查区共鉴定出饵料浮游动物128种[不含16种浮游幼虫(体)和仔鱼],分5门12大类,以桡足类占优势(40种,31．25％)．浮游动物群落以广温广盐生态类群为主．中华哲水蚤(Calanus sinicus)为最主要优势种(142．10ind·m-3,68．09％)．总生物量均值为243．80mg-m3(55．53～773．92mg·m-3),最高密集区(>500mg·m-3)位于长江口30°45′～31°15′N、122°45′～123°15′E水域．饵料生物量均值为195．96mg·m13(55．53～496．09mg·m。),呈长江口(30°30′N以北)水域高于舟山岛东南水域、长江口外海(122°45′E以东)高于近海水域的分布趋势．多样性指数(H′)均值为2．12(1．09～3．73)．长江口水域多样度、均匀度和丰富度低,优势度大,反映出浮游动物群落结构不够稳定．采用逐步回归分析得知,影响本区春季浮游动物生态特征值分布的主要因子是水温、硅藻和甲藻．     

Biodiversity variability of macrobenthic in the Yellow Sea and East China Sea between 2001 and 2011

In this study, we compared the biodiversity and ecological status of macrobenthos between 2001 and 2011 in terms of species composition, dominant species, abundance, biomass, diversity, and secondary productivity of macrobenthos in the Yellow Sea and East China Sea. The results indicate that the species abundances, biomass, and diversity in spring 2011 were all lower than those in autumn 2000 and spring of 2001. Most of the dominant species have changed from 2001 to 2011, with the exception of the echinoderm Ophiura sarsii vadicola that was dominant in these years. Small-sized animal species have increased possibly due to gradual environment deterioration such as the pollution and the climate warmer.     

东海中南部外海蟹类群落结构特征

2006年5月（春）、9月（夏）、11月（秋）和2007年2月（冬）对东海中南部外海（26°00′-28°30′ N,121°00′-126°00′ E）海域蟹类资源进行调查,分析了蟹类的种类组成、优势度、多样性和生物量等群落结构特征.结果表明：本次调查共鉴定蟹类49种,隶属于12科30属;春、秋季,调查海域蟹类种数呈北部高、南部低的特征,夏季各站位的蟹类种数分布较均匀,冬季该海域南北地区蟹类种数的差异较小,但调查海域外侧站位的种数较多;调查海域蟹类的优势种为13种,主要包括：双斑蟳、卷折馒头蟹、武士蟳、细点圆趾蟹、长手隆背蟹、光掌蟳和银光梭子蟹等;调查海域夏季的蟹类多样性指数较低,其他3个季节的差别不大;调查海域蟹类平均渔获资源量为5197.62 g·h^-1,夏季（8830.79 g·h^-1）﹥春季（4877.50 g·h^-1）﹥秋季（4268.30 g·h^-1）﹥冬季（2813.87 g·h^-1）.东海中南部外海蟹类可划分为3个生态群落,即广温广盐生态群落、高温广盐生态群落、高温高盐生态群落.     

Spatially structured interactions between a migratory pelagic predator, the Norwegian spring-spawning herring Clupea harengus L., and its zooplankton prey

Spring-spawning herring Clupea harengus was patchily distributed over large parts of the Norwegian Sea in May 1995–2005, during the early phase of the annual feeding migration. Overall, herring tended to be found in areas with intermediate biomasses of zooplankton prey, intermediate water temperatures and relatively high salinities. Herring had more food in their stomachs in areas of relatively low water temperature and high herring abundance. Hydrographical conditions revealed that herring was feeding mainly within Atlantic water masses, and more intensely in western and northern regions of the Norwegian Sea. Zooplankton biomass was patchily distributed, and was generally higher towards the western parts of the Norwegian Sea. Here, zooplankton biomass in year _{i +1} was also negatively associated with herring spawning stock biomass in year _i , while there was no evidence for such an association in the eastern region; indicating that herring may have a geographically structured 'top–down' effect on the recruitment of its zooplankton prey. The fact that herring was not typically associated with the areas containing the greatest zooplankton biomasses may reflect that the fish had not yet reached the most profitable feeding grounds or alternatively that herring was depleting zooplankton biomass.     

黄海中南部不同断面鱼类群落结构及其多样性

基于2006年9月和12月、2007年3月和5月对黄海中南部不同断面的底拖网调查数据,对黄海中南部不同断面的鱼类群落结构、多样性、单位时间的渔获量分布及其与环境因子的关系进行了分析。结果表明,调查中共捕获鱼类109种,其中鲈形目种类最多(45种,占40.18%),其次是鲉形目(12种,占10.71%)、鲱形目(10种,占8.93%)和鲽形目(10种,占8.93%),主要由暖温种和暖水种组成,并且暖水种和暖温种在各断面渔获量中所占的比例随时间不同而有所差异。各断面主要鱼种除小黄鱼Larimichthys polyactis、带鱼Trichiurus lepturus、银鲳Pampus argenteus等种类外,以小型中上层鱼类(鳀Engraulis japonicus、黄鲫Setipinna taty等)和底层经济价值较低的鱼类(黄鮟鱇Lophius litulon、细纹狮子鱼Liparis tanakai等)为主,各断面优势种渔获量均占其总渔获量的50%以上,主要鱼种渔获量均占其总渔获量85%以上。渔获物的营养级主要分布在4.2—4.5、3.0—3.3和3.6—3.9,各营养级渔获量随时间和断面的不同有所变化。鱼类长度谱主要集中在3—24 cm,由南向北长度谱逐渐增大。各断面鱼类群落多样性指数差异不大,与底层温度和深度关系密切。     

Zooplankton distribution and diversity in a frontal area of the Aegean Sea

This study was carried out in the northern Aegean Sea during late summer and spring. The aim was to examine the spatial and temporal distribution of the zooplankton community across a dynamic frontal area and to investigate how the oceanographic heterogeneity structures the composition of the zooplankton assemblages. The low-salinity and cold Black Sea water coming from the Dardanelles Strait is modified by mixing with the underlying warm and saline Aegean water. These hydrological features result in a pronounced thermohaline front in the northern Aegean Sea throughout the year. In both seasons, zooplankton was collected using both 45 and 200 µm mesh plankton nets. A high abundance of zooplankton was observed in the surface layer at the stations closest to the Dardanelles Strait on the stratified side of the front. The zooplankton distribution and community structure in the northern Aegean Sea were strongly influenced by the hydrological features. The frontal structure acts as a boundary for the zooplankton community. The surface layer at the stratified stations had the lowest copepod diversity, from where it increased with depth and horizontally as the stratification weakened outside of the front. The total abundance of zooplankton collected with the 200 µm net was between two and 20 times lower than samples taken with the 45 µm net. The most pronounced differences were observed for the adults and copepodids of the small genera Oithona, Oncaea and Microsetella. Thus, to manage and understand the transfer of primary production up the food chain in the Aegean Sea, the smaller fraction of copepods should be taken into account in future investigations.     

Responses of Phyto- and Zooplankton Communities to Prymnesium polylepis (Prymnesiales) Bloom in the Baltic Sea

A large bloom of Prymnesium polylepis occurred in the Baltic Sea during the winter 2007 – spring 2008. Based on numerous reports of strong allelopathic effects on phytoplankton exerted by P. polylepis and its toxicity to grazers, we hypothesized that during this period negative correlations will be observed between P. polylepis and (1) main phytoplankton groups contributing to the spring bloom (i.e., diatoms and dinoflagellates), and (2) zooplankton growth and abundance. To test these hypotheses, we analyzed inter-annual variability in phytoplankton and zooplankton dynamics as well as growth indices (RNA∶DNA ratio) in dominant zooplankton in relation to the Prymnesium abundance and biomass. Contrary to the hypothesized relationships, no measurable negative responses to P. polylepis were observed for either the total phytoplankton stocks or the zooplankton community. The only negative response, possibly associated with P. polylepis occurrence, was significantly lower abundance of dinoflagellates both during and after the bloom in 2008. Moreover, contrary to the expected negative effects, there were significantly higher total phytoplankton abundance as well as significantly higher winter abundance and winter-spring RNA∶DNA ratio in dominant zooplankton species in 2008, indicating that P. polylepis bloom coincided with favourable feeding conditions for zooplankton. Thus, primary consumers, and consequently also zooplanktivores (e.g., larval fish and mysids), may benefit from haptophyte blooms, particularly in winter, when phytoplankton is scarce.