Distribution and composition of tintinnids ciliates in the northern South China Sea during summer

Tintinnids were enumerated and identified in samples collected from 36 stations between 18°-22°N, 107°-122 °E in the northern South China Sea （NSCS）. 44 species belonging to 24 genera of tintinnids were recorded. The dominant species were He/icostome/la /onga and Tintinnopsis radix. Tintinnids abundance ranged from 0 to 2 200 cell/L, and mean abundance was 221cell/L in the surface water. Tintinnids abundance and species numbers decreased from coast to offshore. Upwelling and Pearl River discharge influenced the distribution of tintinnids by regulating nutrients supply. Maximum abundance （2 200 cell/L） was found in the surface water of A1. Tintinnids abundance showed positive relationship with chlorophyll a （Chl a） concentration, and no significant relationship was found between tintinnids abundance and temperature.

Distribution of Different Biogeographical Tintinnids in Yellow Sea and Bohai Sea

There were different biogeographical tintinnids in the oceans. Knowledge of their distribution pattern and mixing was important to the understanding of ecosystem functions. Yellow Sea(YS) and Bohai Sea(BS) were semi-enclosed seas influenced by warm water intrusion and YS cold bottom water. The occurrence of tintinnids in YS and BS during two cruises(summer and winter) were investigated to find out: i) whether warm-water tintinnids appeared in YS and BS; ii) whether boreal tintinnids appeared in high summer; iii) the core area of neritic tintinnids and iv) how these different biogeographical tintinnids mixed. Our results showed that tintinnid community was dominated by neritic tintinnid. We confirmed the occurrence of warm-water tintinnids in summer and winter. In summer, they intruded into BS and mainly distributed in the upper 20 m where Yellow Sea Surface Warm Water(YSSWW) developed. In winter, they were limited in the surface water of central deep region(bottom depth >50 m) of YS where were affected by Yellow Sea Warm Water(YSWW). Boreal tintinnids occurred in YS in high summer(August) and in winter, while they were not observed in BS. In summer, the highest abundance of boreal tintinnids occurred in Yellow Sea Bottom Cold Water, indicating the presence of an oversummering stock. In winter, they were concentrated in the north of YSWW. Vertically, neritic tintinnids abundance was high in the bottom layers. Horizontally, high neritic tintinnids abundance in bottom layers occurred along the 50 m isobath coinciding with the position of front systems. Front systems were the core distribution area of neritic tintinnids. High abundance areas of warm-water and boreal tintinnids were clearly separated vertically in summer, and horizontally in winter. High abundance of neritic tintinnids rarely overlapped with that of warm-water or boreal tintinnids.

Tintinnid diversity in the tropical West Pacific Ocean

In order to investigate the tintinnid diversity, vertical distribution and latitudinal variation in the tropical West Pacific Ocean, water samples of different depths from surface to 200 m were collected along four transects. Totally 124 tintinnid species in 39 genera were detected. Most species preferred to live in the surface and subsurface waters. High tintinnid species richness, abundance and diversity index mainly occurred at depths slight shallower than the layer of deep chlorophyll maximum. Species richness, abundance and Shannon＇s diversity index were significant positive correlation with temperature and chlorophyll a in vivo fluorescence, but significant negative correlation with salinity and depth. The correlations between most dominant species and environmental factors were not significant. Tintinnid diversity was extremely high in this area, species richness ranged from 25 to 52 at each station, Shannon＇s diversity indexes were higher than 3 at most sampling positions from surface to 75 m. Proportions of redundant species were high, accounted for 87.90% of species pool and 60.38% of total abundance, indicating high capacity to response to changes in resource composition and predation pressures of tintinnid communities in the tropical West Pacific Ocean.

Changes in Tintinnid Assemblages from Subantarctic Zone to Antarctic Zone Along Transect in Amundsen Sea(West Antarctica) in Early Austral Autumn

Tintinnid ciliates are important pelagic microplankton.Most studies previously conducted in the Amundsen Sea have covered a relatively small latitude range and provided minimal information about tintinnid species composition and distribution.The present study was conducted to investigate tintinnid assemblages from the Antarctic zone(AZ)northward through the polar front(PF)to the subantarctic zone(SAZ).A total of 17 tintinnid species belonging to seven genera were collected,and 16 were identified.Results show that nine of the species are endemic to the Southern Ocean and they mainly inhabit the AZ near Antarctic continent with an abundant proportion exceeding 60%of total tintinnid.According to the tintinnid abundance distribution,the species were divided into four groups:Group I includes Acanthostomella norvegica,Codonellopsis glacialis,C.pusilla and Cymatocylis antarctica and mainly occurs in the northern boundary of the PF;Group II includes Cymatocylis convallaria forma calyciformis,an unidentified species,and Amphorellopsis quinquealata and mainly inhabits the PF;Group III includes Salpingella costata,Cymatocylis vanhoeffeni,C.convallaria forma cristallina,C.convallaria forma drygalskii,C.convallaria,Codonellopsis gaussi,and Laackmanniella naviculaefera and mainly occurs in the AZ near the Antarctic continent;and Group IV,which comprises Salpingella sp.and inhabits all zones.The new species of tintinnid(belonging to Group II)primarily inhabit the AZ but also are distributed in the PF,and they have large lorica-oral-diameter(LOD).The distribution ranges of tintinnid assemblages from the AZ to PF were determined,in addition to the different assemblages mixed in the PF.The information provided in this study increases our understanding of tintinnid assemblages from the Antarctic continent in the Antarctic Circumpolar Current and Antarctic waters.

Tintinnid community throughout the Bohai Sea during the spring

As one of the important microzooplankton in marine pelagic habitats,tintinnids are classified as neritic genera,oceanic genera and cosmopolitan genera.Until now,we know little about the interaction between neritic and oceanic genera in continental shelves.Low species richness area was found in the mixing area between neritic and oceanic genera in the East China Sea.In this study,we investigated the spatial distribution of tintinnid community throughout the entire Bohai Sea in May(spring)of 2014 to find out:(1)whether the tintinnid assembalges differed in the three major bays bordering this shallow inland sea;(2)whether there was low species richness area in the Bohai Sea.Three genera and 11 species attributed to neritic and cosmopolitan taxa were reported from this region.Tintinnid abundance averaged(81±216)ind./L(0–1234 ind./L).Tintinnid community differed within the three major bays,with each characterized by different tintinnid taxa.Referring to the average abundance of three bays,tintinnids were most abundant in the Laizhou Bay((328±445)ind./L),and least abundant in the Liaodong Bay((34±57)ind./L).A low species richness area occurred in the central Bohai Sea(20–40 m isobaths),in some stations of which no tintinnid was recorded.Our study demonstrates that tintinnid community varied greatly over small spatial scales,and low species richness area was found in the mixing area between neritic and oceanic genera within this inland sea.

Meso-scale spatial distribution of large tintinnids in early summer in southern Yellow Sea

The spatial distribution of some large tintinnid species (nominally>76 μm) was investigated according to samples collected by vertical towing in cruises to the southern Yellow Sea in summer 2000-2002 and 2004. Eight species were identified: Codonellopsis mobilis, Leprotintinnus netritus, Tintinnopsis karajacensis, T. japonica, T. kiaochowensis, T. butschlii, T. radix, and Parafavella sp. With maximum abundance of 158.2 ind/L in June 2004, C. mobilis was the dominant species, lasting from May to July 2004. Tintinnid communities were patchy and distributed mainly in shallow waters along the shore.

Wintertime meso-scale horizontal distribution of large tintinnids in the southern Yellow Sea

Spatial distribution of some large tintinnid species (nominally > 76 μm) is investigated on samples vertically towed in the southern Yellow Sea in winters of 2001 to 2004. Nine tintinnid species are recorded: Codonellopsis morchella, Stenosemella pacifica, S. steini, Tintinnopsis schotti, T. radix, T. karajacensis, Eutintinnus tenuis, Parafavella sp., Leprotintinnus neriticus, of which C. morchella and T. radix dominated in the warm tongue-shaped zone of the Yellow Sea Warm Current (YSWC), and S. pacifica is the next in abundance. Our study shows that these tintinnids occur repeatedly in certain special distribution patterns.

Horizontal distribution of tintinnids(Ciliophora)in surface waters of the Ross Sea and polynya in the Amundsen Sea(Antarctica)during summer 2019/2020

Information on tintinnid horizontal distribution in the Antarctic Continental Zone is scarce.During the summer of 2019/2020,tintinnid diversity and horizontal distribution in surface waters were investigated in the Ross Sea and Amundsen Sea polynya.Eight tintinnid species were found and the dominant species showed obvious horizontal distribution characteristics.In the Ross Sea,three tintinnid community groups were identified.Cymatocylis cristallina and Laackmanniella prolongata(group I)were dominant species and were mainly distributed in stations closer to the coast than were species in the other two groups.Codonellopsis gaussi(group II)and Cy.convallaria(group III)were mainly distributed in nearshore and offshore stations,respectively.In the Amundsen Sea polynya,the dominant species Cy.cristallina,L.prolongata and Salpingella faurei(group I)were mainly distributed in stations closer to the coast than were species in the other two groups.Cy.convallaria(group III)was mainly distributed in offshore stations.The distribution area where C.gaussi and C.cristallina were found in high abundance and abundance proportion of loricae with protoplasts was divided by the approximate boundary of the Antarctic Slope Front Current and Coastal Current in the Ross Sea.The highest abundance proportion in the Ross Sea was the 32-36μm lorica oral diameter(LOD)size class(75.7%),and the 36-40μm LOD size class(56.0%)was found in the Amundsen Sea polynya.Temperature-salinity-plankton diagrams of the two seas revealed that temperature may be the main reason for species distribution.Our results contribute to a better understanding of horizontal distribution of the microbial food web,and serve as a baseline for future studies of pelagic community change in the Antarctic Continental Zone.

胶州湾中大型砂壳纤毛虫的水平分布

用解剖镜镜检的方法鉴定和分析了2001年2、5、8月,2002年5、8、11月以及2003年2月在胶州湾7个航次中浅海Ⅲ型网垂直拖网样品中的砂壳纤毛虫。结果表明,各个航次优势种(丰度)为:2001年2月,Tintinnopsis brasiliensis1500-23900个/m3;2001年5月,Codonellopsis mobilis80600-624000个/m3,Leprotintinnus neriticus920-13842个/m3,Fav-ella campanula184-2728个/m3,T.kofoidi0-368个/m3;2001年8月,Stenosemella sp.0-982个/m3,T.radix98-19114个/m3,L.neriticus0-5932个/m3,E.panamensis0-1318个/m3,T.gracilis0-317个/m3,L.nordqvisti O-158个/m3;2002年5月,C.mobilis22400-1567500个/m3,L.neriticus900-96300个/m3,C.parvicollis0-75600个/m3;2002年8月,E.panamensis0-2604个/m3,C.mobilis0-992个/m3,T.gracilis0-256个/m3,L.nordqvisti0-102个/m3;2002年11月,C.ostenfeldi0-13003个/m3,L.neriticus0-713个/m3,T.schotti0-316个/m3;2003年1月,砂壳纤毛虫丰度低干50个/m3。下列5种是新记录种:C.ostenfeldi,T.schotti,T.kofoidi,L.neriticus,Stenosemella sp.。

南海北部大型砂壳纤毛虫的水平分布

2007年10月在南海北部设置13个断面(82个站位),调查大型网采(孔径76μm)砂壳纤毛虫的丰度、生物量和种丰富度。调查发现砂壳纤毛虫7属,22种,南海新纪录7种;其中Tintinnopsis(拟铃虫)最多,共10种,Codonellopsis(类铃虫)次之,共6种。砂壳纤毛虫总丰度为0—41 768ind·m-3,平均为(2 851±7 244)ind·m-3,生物量为0—609.92μg·m-3(以碳含量计算,下同),平均为(42.75±110.80)μg·m-3;76.83%站位的砂壳纤毛虫丰度低于1 000ind·m-3。砂壳纤毛虫生物量与丰度分布的总体趋势为近岸高且站位间差异大,远洋低且站位间差异小。所采集种类集中分布于雷州半岛以东的近岸浅水区,此区水文状况为高温低盐,高叶绿素a浓度(Chl a);不同种的分布规律不同,多呈斑块状分布。各站位种的丰富度为0—12,水平分布呈现近岸高远岸低的规律;砂壳纤毛虫的丰度、生物量以及种丰富度与Chl a浓度均为正相关关系;Tintinnopsis schotti和Tintinnopsis radix为优势种。

2007年10月南海北部浮游纤毛虫的丰度和生物量

报道2007年10月南海北部海域(21°25.47′N 17°24.95′N,109°28.86′E 113°13.01′E)纤毛虫丰度和生物量的水平分布及砂壳纤毛虫的种丰富度。包括了13个断面的82个站位,Rosette采水器采水,水深低于15 m的站位采0,5 m和10 m;小于30 m站位,采0,10 m和底层;大于30 m的站位,采0,10,30 m和底层。纤毛虫丰度为0 5757 ind./L,平均(848±776)ind./L。无壳纤毛虫占绝对优势,其丰度占纤毛虫总丰度的比例平均为(91.9±9)%;纤毛虫生物量为0 12.09μg C/L,平均是(1.2±1.54)μg C/L,无壳纤毛虫的生物量平均为(0.94±1.27)μg C/L,占纤毛虫总生物量的78.6%。共发现砂壳纤毛虫16个属,49种,拟铃虫最多,具有一定的季节性。纤毛虫水体(40 m到表层)丰度为6.4×1069.1×107ind./m2,平均是(3.6×106±1.4×106)ind./m2;水体生物量3.6 195.8 mg C/m2,平均(48.1±33.7)mg C/m2。纤毛虫多分布于近岸浅水区(高温低盐,高Chl a),最大丰度要高于我国其他海区,不是Chl a最高的地方纤毛虫的丰度也最大,纤毛虫丰度最大时Chl a偏低。

春季和夏季渤海湾近岸海域大型砂壳纤毛虫的群落结构

为了解渤海湾砂壳纤毛虫丰度、生物量及种类组成,于2011年春季和夏季在渤海湾天津近岸海域进行砂壳纤毛虫群落的采样调查。两个季节砂壳纤毛虫丰度、生物量、优势种及群落结构均有显著的不同。春季砂壳纤毛虫丰度的范围为0～1608个/L,生物量为0.00～20.03μg/L;夏季砂壳纤毛虫丰度的范围为2～313个/L,生物量为0.03～4.04μg/L。共鉴定出砂壳纤毛虫5属15种,其中拟铃虫属（Tintinnopsis）种类最多。春季的主要优势种为运动类铃虫（Codonellopsis mobilis,优势度为0.79）,夏季的主要优势种为斯氏拟铃虫（Tintinnopsis schotti,优势度为0.28）和诺氏薄铃虫（Leprotintinnus nordqvisti,优势度为0.28）。春季砂壳纤毛虫群落的物种丰富度、Shannon指数和Pielou指数均明显低于夏季。

渤海1999年4月运动类铃虫的平面分布

研究了1999年4月末用浅海III型网在渤海30个站位采集的浮游生物样品中的砂壳纤毛虫,发现砂壳纤毛虫种类单一,几乎全部为运动类铃虫(CodonellopsismobilisWang1936),丰度为32～10731个/m3,碳生物量为0～1.52mg/m3。

冬季黄、东海一断面表层砂壳纤毛虫群落

于2012年11月18日至12月21日,在黄、东海沿从南向北（26~36°N）一个断面24个站采样调查了表层（4 m）砂壳纤毛虫群落。共发现砂壳纤毛虫17属,32种。各站砂壳纤毛虫种丰富度为2~15种,砂壳纤毛虫总丰度为2478~88550个/m3。整个断面优势种为筒状拟铃虫、白领细壳虫、小领细壳虫和钝囊坎虫。巴西拟铃虫仅出现在青岛近岸（24号站）,但丰度很高（10960个/m3）。砂壳纤毛虫种类多样性从南向北降低,从近岸向远岸增加,黏着壳的比例在近岸水浅处较多,在水深大于50 m 的站位,透明壳所占比例大大增加。不同种类的砂壳纤毛虫有着不同的分布区域,根据分布区域的不同,可分为南方种,北方种和广布种等。聚类分析结果显示,调查区的砂壳纤毛虫可以分为3个群落。

长江口2005年4个航次中大型砂壳纤毛虫的水平分布

研究了2005年4个季度用浅海III型网在长江口40个站位采集的浮游生物样品,发现砂壳纤毛虫11种:Codonellopsis ostenfeldi,C.parva,Eutintinnus tenuis,Favella panamensis,Leprotintinnus nordqvisti,Leprotintinnus sp.,Tintinnopsis japonica,T.karajacensis,T.mortensenii,T.radix,T.schotti。Leprotintinnus sp.,最大丰度可达32400个/m3,有的种的最大丰度不足200个/m3,如Codonellopsis parva,E.tenuis和T.mortensenii。冬季T.japonica主要分布于长江口外,Leprotintinnus sp.在春、夏、秋季都主要分布于长江口外,其他种的分布没有明显规律。在4个季度长江口内都没有发现砂壳纤毛虫。

夏季南海西部砂壳纤毛虫水平分布

于2007年8—9月在南海西部海域,使用浮游生物Ⅲ型网垂直拖网采集海洋表层(200m以浅)浮游砂壳纤毛虫,共发现7属12种,其中优雅真铃虫(Eutintinnus elegans)和勃兰氏拟平顶虫(Xystonellopsis brandti)为南海新纪录种。砂壳纤毛虫总丰度为0—11622个·m 2,平均(2218±2254)个·m 2。各站种丰富度范围为0—6种。优势种有5种:尖形钟形虫(Cyttarocylis acutiformis)、宽口钟形虫(Cyttarocylis eucecryphalus)、费瓦拟平顶虫(Xystonellopsis favata)、南方类铃虫(Codonellopsis meridionalis)、圆锥条纹虫(Rhabdonella conica)。圆锥条纹虫聚集强度最高,属于适盐、适温范围较窄的浮游动物;尖形钟形虫与宽口钟形虫的聚集性最弱,分布较为均匀。南海西部砂壳纤毛虫群落受南海流系、水团和季风的影响,整体稳定性均较低。大洋铃鼻虫(Codonaria oceanica)、费瓦拟平顶虫、圆锥条纹虫与温度、盐度、深度等呈现相关性,而总丰度、种丰富度与环境因子没有明显相关性。圆锥条纹虫与环境因子的相关性系数高。与南海北部相比,南海西部砂壳纤毛虫类群与南海北部为同一区系,但是种类组成中远洋种占主要部分,丰度大大低于南海北部。圆锥条纹虫的优势度(Y=9.4%)、平均丰度[(1811±1636)个·m 2]和最大丰度值(4809个·m 2)最高,且聚集强度高,与温盐因子的相关性较好。

莱州湾大型砂壳纤毛虫丰度的水平分布

根据2011年5-11月及2012年3-4月在莱州湾进行的每月1次共9个航次的调查资料,通过解剖镜下镜检浮游生物网拖网样品,分析莱州湾3-11月大型砂壳纤毛虫丰度的水平分布。结果显示,砂壳纤毛虫总丰度的水平分布在不同时间呈现不同的特点:3–5月砂壳纤毛虫总丰度在湾底较高,向湾口递减;6-11月砂壳纤毛虫总丰度在湾中及湾口较高,湾底近岸海区较低。各月砂壳纤毛虫丰度较大的区域温度、盐度比较相似,表明砂壳纤毛虫可能有一定的适温性和适盐性。其中,6月砂壳纤毛虫丰度的分布与同期调查的鱼卵和仔稚鱼的分布较一致,表明砂壳纤毛虫可能是仔稚鱼的开口饵料,对鱼类仔稚鱼的成活和发育有帮助。3-11月砂壳纤毛虫种丰富度的变化范围是5-20种,有17个种在不同月份成为优势种。优势种种类数最多的是7、8月(10种),4月最少(2种)。各航次中不同优势种的最大丰度为489×103个/m3(运动类铃虫Codonellopsis mobilis,5月);较小的丰度仅为4×103个/m3(半旋拟铃虫Tintinnopsis hemispiralis,11月)。主要优势种(连续3个月或3个月以上为优势种的种类)有运动类铃虫(C.mobilis)、白领细壳虫(Stenosemella nivalis)、根状拟铃虫(Tintinnopsis radix)、妥肯丁拟铃虫(T.tocantinensis)和半旋拟铃虫(T.hemispiralis)。8月在黄河入海口附近的3个站位发现河口拟铃虫(Tintinnopsis estuariensis),这是在长江口海域发现的砂壳纤毛虫新种。

SHORT TIME DYNAMICS OF CILIATE ABUNDANCE IN THE BOHAI SEA (CHINA)

The ciliate community in the Bohai Sea (China) was studied from 23 September to 7 October 1998. A hurricane struck the study area between the two grid station investigations, which were six days apart. Six tintinnid species (Favella panamensis, Leptotintinnus nordqvisti, Tintinnopsis butschlii, T. karajacensis, T. Radix and Wangiella dicollaria) were identified. Total cililate abundance in the surface layer ranged from 20 to 770 ind/l. In the first grid investigation, Tintinnopsis karajacensis dominated in the warm, low salinity waters at the Huanghe River mouth. Aloricate ciliate sp.1 dominated in the cold, high salinity waters in the northwest of the study area and the Bohai Strait. In the second grid investigation, T. Karajacensis almost disappeared. The abundance of aloricate ciliate sp.1 decreased drastically. The aloricate ciliate sp.2 dominated at the Bohai Strait. The change of ciliate abundance may be due to the disturbance of hurricane.

广西铁山港海域砂壳纤毛虫生态学研究

通过采集广西铁山港海域2010年春夏季8个站点16个样品,依据壳体形态特征对样品中砂壳纤毛虫进行了分类鉴定,对春夏季节砂壳纤毛虫的种类组成、种类的季节分布、丰度、优势种、多样性指数、均匀度指数等进行了生态学描述,并对砂壳纤毛虫群落结构与环境理化因子之间的关系进行了研究。结果表明:该海域共鉴定出砂壳纤毛虫6属15种,其中以拟铃虫属和薄铃虫属为主;春季各站点砂壳纤毛虫的平均丰度值为4 385.6ind/m3,优势种有简单薄铃虫、诺氏薄铃虫、巴拿马网纹虫,夏季各站点砂壳纤毛虫平均丰度值为13 967.3ind/m3,优势种有根状拟铃虫、坚果拟铃虫、简单薄铃虫、诺氏薄铃虫、妥肯丁拟铃虫;砂壳纤毛虫种类数、丰度、多样性指数和均匀度指数等均呈现夏季高于春季的总体态势,其中春季丰度呈现斑块分布,而夏季丰度则呈现出由近岸向远岸逐渐递减的趋势;聚类分析和多维尺度分析将16个站点的砂壳纤毛虫群落分为两组,春季组和夏季组,各自具有明显的季节特征;冗余分析显示,夏季溶解性有机碳、温度和总氮是影响该海域砂壳纤毛虫群落组成的主要环境理化因子,与种群数量有显著的正相关关系,而春季群落结构则受氨氮、碱度和溶解氧的影响较大。

黑潮及相邻海域表层砂壳纤毛虫分布模式:以夏季黄海、东海至西太平洋断面为例

2019年夏季对沿黄、东海至西太平洋跨越黑潮一个断面(122°E~145°E)的表层砂壳纤毛虫群落进行调查,研究了黑潮中砂壳纤毛虫与相邻水体的差异。根据水文环境及各站位所处的空间位置,我们将研究区域划分为大洋边缘区域、黑潮区域和大洋区域。各站位砂壳纤毛虫的丰度范围为3.95~31.94 ind·L^(-1),种丰富度范围为6~24种。共发现砂壳纤毛虫21属42种,有7种优势种,分别为缩短原纹虫(Protorhab-donella curta)、杆状真铃虫(Eutintinnus stramentus)、卢氏真铃虫(E.lusus-undae)、镯形囊坎虫(Ascam-pbelliella armilla)、管状真铃虫(E.tubulosus)、长形旋口虫(Helicostomella longa)和斯廷细瓮虫(Steen-strupiella steenstrupii),其中缩短原纹虫为最优势种类,在每个站位均有检出。根据33种常见种的丰度分布模式,将砂壳纤毛虫划分为4个类群:类群Ⅰ为广布类群,丰度最高;类群Ⅱ主要出现在断面中部,受黑潮影响较大,其中酒杯类管虫(Dadayiella ganymedes)可以作为黑潮的指示种;类群Ⅲ主要出现大洋区域;类群Ⅳ则主要分布于大洋边缘区域,丰度较低。黑潮区域砂壳纤毛虫群落有不同于其他两个区域的种类,种丰富度最高。本研究首次对黑潮及其相邻海域中表层砂壳纤毛虫的分布模式进行分析,该结果有助于理解黑潮对浮游生物地理分布的影响。