14 resultados para Hindeodus parvus
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
The spatial distribution of stage-specific abundance and reproduction of the copepod Paracalanus parvus were studied from October 2005 to September 2006 in the Jiaozhou Bay. This copepod occurred continuously in this bay throughout the year. The species reached the lowest abundance in April and peaked in June. From October to December, distribution center mainly occurred in offshore water and at the mouth of the bay. In winter, early copepodites and adults gradually decreased and till February, most of the population was only comprised of CIV-CV stages. Overwintering copepodites matured in March and males tended to mature before female. From May to September, each stage occurred in the population and gradually reached high abundance. Temperature and chlorophyll a (Chl-a) concentration in the three stations can't clearly explain the seasonal variation in stage-specific abundance, so we surmised the important effect of the Yellow Sea. Egg production rate (EPR) reached its lowest in winter and peaked in June at 60.8 eggs female(-1) day(-1) in nearshore water. In the warming period, EPR in nearshore water was statistically higher and EPR > 10 eggs female(-1) day(-1) lasted longer than that in offshore water, showing the importance of nearshore water for recruitment of R parvus. Our study showed that EPR was positively related to temperature and total chlorophyll a in offshore water and mouth of the bay. In nearshore water, the relationships between EPR and temperature and Chl-a in three size fractions were not the same as those in offshore water, suggesting complicated ecosystem in such a eutrophic area in warming period. (C) 2008 Elsevier Ltd. All rights reserved.
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During a re-examination of museum specimens of Triplophysa species, some specimens that had been collected from the Jialonghe River in Yunnan Province, China, in April 1975, were identified as a new species. Triplophysa parvus n. sp. can be distinguished
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The genus Sarcocheilichthys is a group of small cyprinid fishes comprising 10 species/sub-species widely distributed in East Asia, which represents a valuable model for understanding the speciation of freshwater fishes in East Asia. In the present study, the molecular phylogenetic relationship of the genus Sarcocheilichthys was investigated using a 1140 bp section of the mitochondrial cytochrome b gene. Two different tree-building methods, maximum parsimony (MP) and Bayesian methods, yielded trees with almost the same topology, yielding high bootstrap values or posterior probabilities. The results showed that the genus Sarcocheilichthys consists of two large clades, clades I and II. Clade I contains Sarcocheilichthys lacustris, Sarcocheilichthys sinensis and Sarcocheilichthys parvus, with S. parvus at a basal position. In clade II, Sarcocheilichthys variegatus microoculus is at a basal position; samples of the widespread species, Sarcocheilichthys nigripinnis, form a large subclade containing another valid species Sarcocheilichthys czerskii. Sarcocheilichthys kiangsiensis is retained at an intermediate position. Since S. czerskii is a valid species in the S. nigripinnis clade, remaining samples of S. nigripinnis form a paraphyly. This speciation process is attributed to geographical isolation and special environmental conditions experienced by S. czerskii and stable environments experienced by the other S. nigripinnis populations. This type of speciation process was suggested to be very common. Samples of Sarcocheilichthys sinensis sinensis and Sarcocheilichthys sinensis fukiensis that did not form their own monophyletic groups suggest an early stage of speciation and support their sub-species status. Molecular clock analysis indicates that the two major lineages of the genus Sarcocheilichthys, clades I and II diverged c. 8.89 million years ago (mya). Sarcocheilichthys v. microoculus from Japan probably diverged 4.78 mya from the Chinese group. The northern-southern clades of S. nigripinnis began to diverge c. 2.12 mya, while one lineage of S. nigripinnis evolved into a new species, S. czerski, c. 0.34 mya. (C) 2008 The Authors Journal compilation (C) 2008 The Fisheries Society of the British Isles.
Resumo:
The genus Yunnanilus Nichols, 1925 is revised; Eonemachilus Berg, 1938 is a junior subjective synonym. Yunnanilus includes at least nine described species and five undescribed species. The status of Y; salmonides Chaudhuri is still incertae sedis. Six new species are described: Y. parvus, Y: altus, Y; pachycephalus, X niger, Y. macrogaster and Y. paludosus. The last three species occur sympatrically in a small endorheic basin of eastern Yunnan; they developed different feeding specializations which allowed them to use different niches. Other species also have peculiar specializations. The diversity of feeding habits and related adaptations in Yunnanilus is greater than in the whole subfamily Nemacheilinae and is one more example of supralimital specialization. Speciation of fishes on the Yunnan Plateau is discussed. Several species are endangered or possibly extinct. Introduction
Resumo:
裂腹鱼类起源鳃亚科鱼类的观点得到了多数学者的支持。但是,鱼巴亚科鱼类是一个非常庞杂的类群,裂腹鱼类究竟起源于鳃亚科的哪一个小类群或裂腹鱼类与哪个小类群更为接近?这样的小类群又怎样随着急剧隆起的青藏高原峥演化发展成为现今的裂腹鱼类?不同的学者从不同的研究领域出发,得出了较为不一致甚至是相互对立的结论。裂腹鱼类(我国有11属,76种和亚种)均为小型鳞片的鱼类,与鳃亚科中一些具有小型鳞片的属种较为相似,即,妒鲤属(凡rCO~)的3个亚种、似鳃属(Lztciocyprinus)的2个种,金线纪属(Sinocyclocheilus)的26种或亚种,本文将这些具细小鳞片的鳃亚科鱼类统称为细鳞鳃鱼类(small-scaledbarbids)。为了探讨细鳞鱼巴类和裂腹鱼类的系统发育关界本文应用分支系统学的方法和原理,选择小裂腹鱼S.(R)parvus、中甸叶须鱼P.c.chunglienensis、松藩裸鲤。Gp.potanini、单纹似鳡L.langsoni、花妒鲤P.pingiregani、抚仙金线鱼巴s.师分别作为裂腹鱼类和细鳞鱼巴类中各分类:阶元的代,作为内a为了确考险状的进化极向并进一步探讨细鳞鱼巴各分类阶元与其他纪亚科和鲤亚科鱼类的系统关系,又选择了鳃亚科中的保山四须纪B.baoshanensis、云南四作为内群,并以螂鱼C.auratus、祀麓鲤C.(C)chilia作为外类群,用来对裂腹鱼类和细鳞鳃类进行性状的极化和系统发育分析。通过对12种24尾标本的外部形态和骨骼特征的全面观察,选择了63个性状进行描述和比较,并构建了供系统发育分析的特征矩阵。应用PAUP程序对特征矩阵进行运算,得出了包括外类群在内最简约的系统发育分支图。主要研究结论如下:(l)鲤亚科与包括裂腹鱼类在内的鳃亚科鱼类之间在很多特征方面存在着比较明显的差异,除了臀鳍最末一根不分枝鳍条坚硬、具锯齿;背鳍分枝多于1。根;第一椎体横突退化等特征外,还有镖的前后比例、前鳄骨的特征、尾舌骨的形状,基枕骨的骨质盘特征等诸多特征存在着显著差异。支持了陈湘舞等(1984)将鲤亚科和纪亚科分别作为独立亚科的观点。卿通过选取不同的外类群,在各种不同的条件下对特征数据矩阵进行运算和分析,除极少数(1个)结果外(当以祀麓鲤为唯一外群时,由34来看,它们都是第三纪末期以来由原始的鳃亚科鱼类演化而来的,适应过共同的寒冷环境(青藏高原的急剧隆升导致的寒冷气候和河川急流和青藏高原的大幅度隆起,引起了地貌环境的急剧改变,云贵高原一带也发生了差异性的升降运动。同时,全球性气温下降,常年性冰盖由北向南大幅度推进的寒冷气候环境)(曹文宣等,1981;王大忠等,2000)。裂腹鱼类和似鳃、妒鲤的起源时间可能稍晚一些。可以设想,第三纪末期的鳃亚科鱼类物种分化不是很多,相互之间的亲缘关系较近,分布于'青藏高原的原始鳃亚科鱼类和分布于云贵高原的原始鳃亚科鱼类分布经历了各自独特的地质、气候等环境条件,演化成为当今的裂腹鱼类和金线纪鱼类。至于似媳和妒鲤,除了经历与鳃亚科鱼类和金线鳃鱼类共同的寒冷水环境外,它们还向着肉食性的方向进行演化。(3)裂腹鱼类的3个代表种都聚在一起,其内部关系和与其他种的关系都较为稳定,为鳃亚科鱼类中较为特化的一支。与陈湘舞等(1984)、曹文宣等(1981)的观点较为一致,即,裂腹鱼类起源于纪亚科鱼类。晗(4)似媳和妒鲤之间的亲缘关系最近,它们很可能起源于最近的共同祖先。尽管二者作为一个单系的支持率并不是很高(大于50%,小于60%),但它们在个别特征(咽喉齿的排列方式、咽骨的形态特征)上表现其他鲤科鱼类所不具有的独特特征(附图1的。(5:)裂腹鱼类与妒鲤+似鳃的系统关系最近,这意味着裂腹鱼类和妒鲤+似鳃有最近的共同祖先或它们之间的关系较它们与金线鳃鱼类的关系更a(e)应用特征分析和系统发育分析所得的结论,综合对鳃系鱼类染色体特征的分析,认为裂腹鱼类和细鳞鳃鱼类在染色体分组组成、哪值等方面的相似特征,极有可能是在进化过程中经历了类似的寒冷水环境。它们之间的核型特征相似,只是说明了它们之间较近的系统发育关系,不支持妒鲤和金线靶是鳃亚科和裂腹鱼亚科之间的中间演化类型的观点。染色体的进化和外部形态特征的进化在纪系鱼类中存在着不平行的现象。(7)通过国内外鱼类学者对鲤科鱼类和纪亚科鱼类各分类单元定义的比较,结合本文的研究结果,认为国外学者的一些分类系统仍然存在一些尚待解决的问题,故建议目前暂不宜将之引入到我国的鱼类分类系统中。
Resumo:
本文研究了胶州湾内1988年5月至1989年5月,小拟哲水蚤[Paracalanus parvus(Claus)]、双刺纺锤水蚤[Acartia bifilosa (Giesbrecht)]、太平洋纺锤水蚤(A. pacifica steuer)和1982年5月至1983年4月中华哲水蚤(Calanus sinicus Brodsky)的种群结构和种群数量的季节变化。双剌纺锤水蚤和太平纺锤水蚤在胶州湾是季节性出现的种类,它们能产生休眠卵,本文对其休眠卵数量的季节变化以及影响休眠卵产生和孵化的因素进行了初步的探讨。本文还研究了体长的季节变化以及温度和食物条件对体长的影响。
Resumo:
浮游动物是河口生态系统的重要组成部分,在食物网中,浮游动物是浮游植物捕食者,对浮游植物有摄食压力,所以控制浮游植物数量的增长。同时,浮游动物还是鱼类的饵料,从而影响渔业资源的数量。长江口是各种经济鱼、虾和蟹的重要产卵场、索饵场和洄游场。长江口各个分汊的分流量的差异较大,导致不同分汊的水文环境明显不同,其中最为明显就是北港和北支水域。然而以往对浮游动物的研究仅限于某一水域,没有对整体水域进行研究,本文选择最具代表性的北港和北支水域,对两水域浮游动物的群落生态特征进行比较研究。 本论文的数据来源于2004年5、8、11月和2005年2月在长江口北港和北支水域4个航次的海洋综合调查资料。通过采用优势度和优势种贡献率等生态学指标,同时结合逐步回归分析,讨论了温、盐与浮游动物总丰度变化的关系。结果表明,就四季而言,浮游动物总丰度和盐度呈显著正相关,和温度负相关。而就单个季节而言,除了5月和2月落潮,总丰度和盐度均呈显著正相关,与温度相关关系不显著。调查水域优势种主要为河口半咸水种或近海种。北港的盐度约为0-5, 表现为长江淡水特征;北支的盐度约为12-28,表现为长江径流和外海水团混合水团的特征。上述优势种的盐度适应和水团分布特征决定了长江口浮游动物分布的时空变化,即盐度较高的水域往往有较高的丰度,北支的总丰度和生物量均大于北港。此外,在长江口口内水域,水温较低的枯水期,浮游动物丰度高于水温较高的丰水期,温度的季节波动,以及主要优势种中华华哲水蚤(Sinocalanus sinensis)对低温环境的适应,是调查水域浮游动物总丰度季节变化的重要因素。 另一方面,本论文通过物种多样性、累积优势度曲线等群落水平的指标和相似性检验分析(ANOSIM),对长江口北港和北支浮游动物群落及其主要优势种的差异,以及主要生态因子对浮游动物群落的影响进行了分析。结果表明,北港主要由潮汐影响的淡水和低盐水组成,北支由中、高盐水组成。春季,北港浮游动物丰度和多样性均低于北支,主要优势种为中华华哲水蚤;北支优势种种数较多,主要是真刺唇角水蚤(Labidocera euchaeta)。夏季,北港和北支的多样性较接近,但是种类组成差别较大,北港以中华华哲水蚤和太平洋纺锤水蚤(Acartia pacifica)为主构成河口半咸水群落,北支以由火腿许水蚤(Schmackeria poplesia)、虫肢歪水蚤(Tortanus vermiculus)和太平洋纺锤水蚤等构成河口低盐群落。秋季,北港的丰度和多样性均低于北支,两个水域的群落差异明显,北港主要由中华华哲水蚤构成,北支由小拟哲水蚤(Paracalanus parvus)、针刺拟哲水蚤(Paracalanus aculeatus)、真刺唇角水蚤和中华哲水蚤(Calanus sinicus)等近岸和外海种组成。冬季,两个水域种数和多样性均较低,群落差别达四季最小,中华华哲水蚤占绝对优势。温度和盐度及其相互作用是决定长江口浮游动物群落特征的最主要因素。其中温度是造成研究水域浮游动物群落季节变化的主要因素,而由径流和外海水之间的消长引起的盐度变化是造成北港和北支浮游动物群落区域变化的决定因素。
Resumo:
小型桡足类在生态系统中的重要作用近年来得到了广泛的关注,在近岸生态系统中,小型桡足类起着相当重要的作用。但关于小型桡足类种群动力学的研究在国内还处于起步阶段,因此我们选取了国内沿岸海域常见优势种小拟哲水蚤、双刺纺锤水蚤、太平洋纺锤水蚤及强额拟哲水蚤等四种小型桡足类为研究对象,探讨其种群动力学相关方面的变动机制。本文在2005年10月-2006年9月选取胶州湾为主要的研究海域,进行了一周年的小型桡足类的采样和培养实验研究。在胶州湾,小拟哲水蚤(Paracalanus parvus)全年出现,其种群数量变动呈现双峰型,在夏季(6月和8月)达数量高值,在冬季(1月)有一个小的高峰。种群数量在4月达全年最低值,在7月份数量也有一个明显的数量降低。从空间分布上来讲,该水蚤在冬季主要以CV期桡足幼体存在于湾南和湾外区域,湾北数量很少;从春末开始,各期幼体开始在各海区广泛分布。小拟哲水蚤在胶州湾几乎全年产卵(2月份除外),但较高的产卵率主要集中在春末到秋初,最大产卵率出现在5月,达27.9 eggs female-1d-1。总体来讲,在胶州湾小拟哲水蚤的产卵率与温度、叶绿素及体长均呈显著正相关,但与盐度呈负相关关系。从不同的区域来看,胶州湾湾北区域小拟哲水蚤产卵率较高,最高值出现在湾北6月份,产卵率达到了60.8 eggs female-1d-1。大于10 eggs female-1d-1的产卵率在湾北持续了6个月(4-9月),在湾口持续了5个月(4-8月),而在湾外只持续了3个月(5-7月)。小拟哲水蚤生物量在6月份达到最高值(6.15 mg C m-3),在4月达到全年最低值(0.028 mg C m-3)。次级生产的变动从4月到9月与生物量的变动趋势完全相似,但冬季生物量的高峰并没有伴随次级生产的高峰值,分析其原因是由于冬季低的生长率所致。小拟哲水蚤在整个胶州湾平均的年次级生产为158.41 mg C.m-3yr -1。强额拟哲水蚤(Paracalanus crassirostris)在胶州湾只在夏末到秋季出现,最大数量出现在8月份。从强额拟哲水蚤的分布区域来看,从湾内到湾外有递减趋势。在2006年9月份,只有湾北有部分种群,其他区域几乎没有该种出现。该种最大产卵率出现在8月,达11.2 eggs female-1d-1。强额拟哲水蚤生物量的变动与次级生产的变动趋势相似,最大值也都出现在8月份。该水蚤在胶州湾平均年次级生产仅为2.12 mg C m-3yr-1。双刺纺锤水蚤(Acartia bifilosa)在胶州湾是全年出现,其种群数量在5-6月份突发性增加达全年最高值(>8000 ind. m-3),之后又急剧下降。从该种的区域分布来看,5-6月份数量的高峰主要出现在湾北区域,7月份虽然各区域数量均下降,但大部分种群集中在湾外区域。双刺纺锤水蚤在胶州湾几乎全年产卵(1-2月除外),产卵率的最高值出现在4月,达16.5 eggs female-1d-1。4月份雌体高的产卵率为5月份种群数量的大量增加提供了补充。双刺纺锤水蚤生物量与次级生产的变动趋势一致,在5-6月份达到高值,在秋冬季次级生产较低。双刺纺锤水蚤在整个胶州湾平均的年次级生产为114.61 mg C m-3yr-1。太平洋纺锤水蚤(Acartia pacifica)在胶州湾季节性出现,在冬春季节消失,从夏季开始出现。该种在5月零星出现,种群数量在6月份开始增多,到7月份达到最高值2356 ind. m-3,之后在8月数量锐减至196 ind. m-3。从区域分布来看,该水蚤在胶州湾只出现在湾北和湾南区域,湾外区域几乎没有,而且呈现湾北到湾南递减的趋势。6月份数量大部分出现在湾北区域,到7月份才有一部份在湾南出现。太平洋纺锤水蚤在其出现季节均产卵,最大产卵率出现在6月份,达37.17 eggs female-1 d-1,部分补充了7月份太平洋纺锤水蚤种群数量的大量增加。太平洋纺锤水蚤生物量与次级生产的变动趋势相似,在7月份达到了最高值,在11月达到最低值。太平洋纺锤水蚤在胶州湾平均的年次级生产为45.63 mg C m-3yr-1。胶州湾四种小型桡足类总的年次级生产为~320 mg C m-3 yr-1。
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Copepod communities in onshore and offshore waters show a gradient from primarily near shore to primarily oceanic species. Understanding the transition between these communities is fundamental to determining the range of coastal influence. Copepod communities in the northern South China Sea (nSCS) were studied based on samples collected by vertically towing a net in 10 February-6 March (winter) and 26 August-6 September (summer) of 2004. Calanoida species richness, total copepod abundance, Shannon-Weaver diversity index, and onshore-offshore occurrence of dominant species showed obvious change from onshore to offshore waters. Although the offshore stations had lower abundance than the shelf stations, they had more species and larger diversity index. Abundance of some species (groups) with dominance index > 5% (Calanus sinicus, Euchaeta spp., Temora spp., Paracalanus parvus, and Subeucalanus subtenuis) declined from onshore to offshore waters. Warm water species (Pleuromamma abdominalis, P. gracilis, and P. robusta) occurred in offshore waters in both cruises. Station (q-type) cluster analysis in winter and summer separated copepod community into onshore and offshore communities at similar to 40% level of similarity. The two communities were divided at the position of similar to 100-m isobath. In summer, C. sinicus occurred in the upwelling area east of Hainan Island, indicating the presence of an oversummering stock of this species.
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During spring (April/May 1999) and autumn (September/October 1998) cruises in the Bohai Sea, China, copepods were the dominant components of mesozooplankton, the most abundant species being Calanus sinicus, Centropages mcmurrichi, Paracalanus parvus, Acartia bifilosa and Oithona similis. Pigment ingestion rates by three size classes of copepods (200-500, 500-1000 and > 1000 mum) were measured. In the south of the investigation area, gut pigment content (GPC), individual pigment-specific ingestion rates and grazing impacts on phytoplankton were lower in spring than in autumn. In the central area, GPC and individual pigment-specific ingestion rates were higher in spring than in autumn. The grazing impact on phytoplankton by the copepod assemblages was lower in spring than in autumn, however, because of the relatively smaller biomass in spring. In the western area where the Bohai Sea joins the Yellow Sea, GPC, individual pigment-specific ingestion rates and grazing impacts on phytoplankton were higher in spring than in autumn. Among the three size groups, the small-sized animals (200-500 mum) contributed more than 50% (range 38-98%) of the total copepod grazing during both cruises. The grazing impact on phytoplankton by copepods was equivalent to 11.9% (range 3.0-37.1%) of the chlorophyll-a standing stock and 53.3% (range 21.4-91.4%) of the primary production during the spring cruise. Grazing impact was equivalent to 6.3% (range 2.0-11.6%) of the chlorophyll-a standing stock and >100% (range 25.7-141.6%) of the primary production during the autumn cruise. The copepod community apparently consumed only a modest proportion of the standing stock of phytoplankton during spring and autumn blooms. They did, however, sometimes graze a significant proportion of daily primary production and hence were presumably able to limit the rate of further accumulation of phytoplankton, or even to prevent it. (C) 2003 Elsevier Ltd. All rights reserved.
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The Bohai Sea was the site of the Chinese national GLOBEC programme. During the June 1997 cruises of R/V Science No.1, observations and experiments on zooplankton feeding were conducted. At five 48 h time-series stations the following observations and measurements on zooplankton were carried out: (1) diurnal vertical migration, by collecting samples at different layers every 3 h with a closing net; (2) diurnal feeding rhythms, by gut pigment analysis; and (3) ingestion rate, by both gut pigment analysis and the dilution method. A classification by body size was used to deal with the diversity of species and developmental stages of zooplankton assemblages. Samples were separated into three size groups: small (200-500 mu m), medium (500-1000 mu m) and large (> 1000 mu m). The results showed that the copepods (Calanus sinicus, Paracalanus parvus, Acartia bifilosa and Centropages mcmurrichi) performed clear diurnal vertical migrations. However, their behaviour was different at different stations. The variation in gut pigment content over the 24 h cycle showed strong diurnal feeding rhythms, particularly for the large size group. Gut pigment contents reached their daily maximum during the time from dusk to midnight (18:00-24:00). The peak value was about 10 times the minimum observed in the daytime. The in situ daily grazing rate, based on gut pigment contents and evacuation experiments, was 4.00-12.65 ng chla ind(-1) day(-1) for the small size group, 5.99-66.58 ng chla ind(-1) day(-1) for the medium size group and 31.31-237.13 ng chla ind(-1) day(-1) for the large size group. The copepods consumed only a small part (2.90-13.52%) of the phytoplankton biomass hut about 77% of the daily production. The grazing mortality rate of phytoplankton by microzooplankton (<200 mu m) measured by the dilution method ranged from 0.43 to 0.69 day(-1) The calculated daily consumption of phytoplankton biomass was 35-50%, and 85-319% of the potential production.