东海水母类丰度的动力学特征

本文根据1997-2000年东海23°30′-33°N、118°30′-128°E海域4个季节海洋调查资料,探讨了东海水母类数量变化特征和相应的动力学。结果表明:水母类是东海浮游动物的第三大类群,其丰度仅次于桡足类和海樽类;其数量有明显的季节变化,春季丰度最高(5·37ind·/m3),秋季次之(2·23ind·/m3),冬季(1·82ind·/m3),夏季最低(0·88ind·/m3);其平面分布特征为近海高于外海;其数量变化首先来自优势种大西洋五角水母(Muggiaeaatlantica)和双生水母(Diphyeschamissonis)的贡献,前者是近岸暖温种,后者是近岸暖水种;春季丰度变化与表层和底层盐度二元线性相关,夏季与底层水温相关,秋季与底层盐度相关,冬季与表层盐度相关,4季总丰度与10m层盐度相关。盐度是影响水母类数量变化的主要环境动力学因子,水温是次要因子;水母类高丰度区往往位于台湾暖流与长江径流交汇处偏冲淡水水团一侧。长江冲淡水在不同季节入海后的流向是决定高丰度分布区位置重要的动力学因子。该类浮游动物对沿海海域生物安全、生态安全和环境安全都有重要的影响,引起全球的普遍关注。     

长江口及临近海域夏季水母类分布特征

采用1998年8月,1999年8月长江口及其临近海域（121°15′E-122°41′E,30°00′N-31°30′N）的调查资料,对采集到的水母样品进行分析,探讨水母的分布特征以及影响因素。结果表明：调查海域共出现水母21种,其中水螅水母15种,管水母4种,栉水母2种;可分为近岸低盐性、低盐河口性和大洋暖水性3个生态类群,其中近岸低盐物种达60％以上,分布范围广,低盐河口类群仅出现于受长江冲淡水影响明显的低盐水域,而大洋暖水类群分布于受外海水影响较大、盐度较高、离岸较远的区域;优势种为贝氏拟线水母、球型侧腕水母、单囊美螅水母、五角水母、拟细浅室水母和双生水母。总体分布特征为：从长江口向外伴随着盐度的逐渐增大．丰度逐渐升高,在长江）中淡水与外海水交汇的舟山渔场西部水域,丰度最大;水母的出现种类、丰度均与东海外海水、长江冲淡水2大水系的配置有关：外海水越强,整个区域平均盐度较高,出现的水母种类、丰度均高;反之,长江冲淡水势力控制范围大,平均盐度明显降低,物种少且丰度低。     

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。     

东海栉水母对温度和盐度生态适应的Yield-Density模型

根据1997-2000年东海23°30′N-33°N、118°30′E-128°E海域4个季节海洋调查资料,采用物种丰度和同步表层温度、盐度数据的曲线拟合,构造数学模型,结合地理分布分析,研究了栉水母分布最适温度和最适盐度,分析了栉水母的生态类型.结果表明:瓜水母(Beroe cucumis)的丰度和温度,掌状风球水母(Hormiphora palmata)和卵型瓜水母(B.ovata)的丰度和盐度的相关性不显著;蝶水母(Ocyropsis crystallina)、球型侧腕水母(Pleurobrachia globosa)、瓜水母,掌状风球水母和卵型瓜水母的丰度与其对应的温度或盐度均符合Yield-Density模型;瓜水母最适温度和卵型瓜水母最适盐度依据散点图估计,掌状风球水母最适盐度不明显,其他物种最适温、盐度均由Yield-Density模型极值点计算;东海栉水母所有物种均系亚热带外海种,其中球型侧腕水母、瓜水母和掌状风球水母具有较宽的温、盐度分布区间,卵型瓜水母和蝶水母是冬、春季暖流水团的指示种.     

东海栉水母(Ctenophora)生态特征

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,对东海栉水母数量变化和地理分布特征作了探讨。结果表明,东海栉水母平均丰度秋季(6.3 ind.(100m3)-1)>春季(1.6 ind.(100 m3)-1)>冬季(1.4 ind.(100 m3)-1)>夏季(0.6 ind.(100 m3)-1)。调查海域鉴定到种的栉水母共有6种,其中球型侧腕水母(Pleurobrachia globosa)是东海的主要种类;掌状风球水母(Hormiphora palnata)和瓜水母(Beroe cucumis)是常见种;带水母(Cestumsp.)是次常见种;蝶水母(Ocyropsis crystalline)和卵型瓜水母(Beroe avata)是稀有种。东海栉水母系暖水性浮游动物类群,其数量变化与东海暖流势力活动过程中的携带有密切的联系。球型侧腕水母分布较为广泛,是适应环境能力较强的种类;掌状风球水母、蝶水母和卵型瓜水母相反,仅适应有限的环境;瓜水母和带水母适应能力介于以上两类栉水母之间。     

北部湾北部水母类群集结构与数量分布

根据"908"专项北部湾2006—2007年四个季节的调查数据,分析了北部湾北部(20°N以北海域)水母类的种类组成、数量分布、优势种和群集结构特征及其环境影响因子。该区共记录水母类4类125种,分别为水螅水母类99种、管水母类17种、钵水母类4种和栉水母5种;以沿岸暖水种为主,占本区水母总种数的61.6%,其次是大洋暖水种,占37.6%,沿岸暖温种仅占0.8%。种数季节变化呈单峰型,夏季83种,冬季56种,秋季和春季各49种,四季均以水螅水母类为主。周年丰度变化呈单峰型,夏季(943.0个/m3)春季(572.4个/m3)冬季(548.2个/m3)秋季(427.6个/m3)。拟细浅室水母、双生水母、球型侧腕水母、四叶小舌水母、半口壮丽水母、两手筐水母、异摇篮水母、双小水母、单囊美螅水母、疣真囊水母、半球美螅水母、六幅和平水母、八囊摇篮水母、刺胞真囊水母、黑球真唇水母、端粗范式水母和细颈和平水母共17种全年出现,为四季种;其中,前7种为四季优势种,优势度(Y)分别为0.25、0.19、0.09、0.08、0.05、0.03和0.03,各季节的优势种演替模式不尽相同。依据水母种类和数量分布情况,北部湾北部水母类可划分2个群集:栖息在受沿岸流影响的20 m以浅的低盐群集,代表种有拟细浅室水母和双生水母等;栖息在受外海水影响的20 m以深的高盐群集,代表种有四叶小舌水母、半口壮丽水母和两手筐水母等。海流与水团的消长是影响水母类群集结构和水平分布格局的重要影响因素。     

莱州湾水母种类多样性及群集结构的季节变化

基于2011年5月至2012年4月(除冰期12月和翌年1—2月外)在渤海莱州湾逐月采集的数据资料,系统地开展水母种类组成、数量分布的周年季节变动,弥补自20世纪90年代以来该区域相关资料的不足,有利于掌握该水域水母(主要是小型水母)主要种类数量时空分布特点,促进莱州湾生物类群对生境改变响应的相关研究。结果显示:所有调查中,共出现水母30种,无全年出现的种类。各月中,莱州湾水母以8月种数最多,5月数量居多。各月水母总数量的80%多由1—2种优势种贡献所致;水母优势种类组成季节更替明显。3—5月优势种为八斑唇腕水母;6月为嵊山秀氏水母和贝氏真囊水母;7月为贝氏真囊水母、9月有细颈和平水母;10月为细颈和平水母和大西洋五角水母,8月和11月无明显的优势种,但8月细颈和平水母和曲膝薮枝螅水母数量较多。莱州湾小型水母聚集结构主要呈现季节性时间格局上的变动。春季有八斑唇腕水母为代表、在湾内分布的聚集组;夏季有以嵊山秀氏水母和贝氏真囊水母为代表、在湾口西侧和湾中部分布的聚集组,以及细颈和平水母为代表、在湾中底部分布的聚集组;秋季有四枝管水母和大西洋五角水母为代表、在湾口和中部分布的聚集组。水温对小型水母聚集结构分布具有较为重要的影响作用。大型水母在本调查出现较少。海蜇和沙海蜇出现于6—8月个别站位;海月水母7—10月均有出现,但高密集区出现在10月紧邻莱州湾的湾底水域。     

东海水螅水母环境适应与生态类群

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,依据丰度和同步表层温、盐度数据,采用曲线拟合构造了数学模型,并结合地理分布分析对东海水螅水母最适温度、最适盐度和生态类群进行了研究.结果表明：东海水螅水母适温环境多样,最适温度低于20 ℃的有15种,在20 ℃～22.5 ℃之间的有8种,在22.5 ℃～25 ℃之间的有12种,超过25 ℃的有17种;大多数物种（32种）最适盐度为32～34,大于34的有13种,在30～32之间的有6种,低于30的仅出现2种.水螅水母大多数物种生存的盐度区间较窄,它们的数量和分布范围有限.嵊山秀氏水母等2种属暖温带近海种,八囊摇篮水母等13种属暖温带外海种,宽外肋水母等8种属亚热带近海种,半口壮丽水母等5种具有热带大洋种特征,四叶小舌水母等25种属亚热带外海种.东海水螅水母的许多物种可作为东海水团重要的指示种.     

烟台四十里湾浮游动物群落特征及与环境因子的关系

2009年3月—2010年12月在烟台四十里湾海域对浮游动物群落结构及其环境因子进行了连续20个航次的综合调查,记录到浮游动物8大类共计64种(类)。浮游动物主要类群为桡足类和浮游幼虫,分别发现22种、18类,占总种(类)数34%、28%;其次为水螅水母类,发现13种,占20%;毛颚动物和栉水母类各发现1种。浮游动物的优势种为中华哲水蚤(Y=0.183)、腹针胸刺水蚤(Y=0.078)、强壮箭虫(Y=0.078)和洪氏纺锤水蚤(Y=0.026)。浮游动物的生态类型主要为温带近岸种和广布性种。四十里湾海域浮游动物群落结构的季节变化较为明显,春、夏、秋、冬四季之间群落结构有显著性差异(P0.05),同一季节内群落结构相似度较高,达55%以上。浮游动物丰度中位值在5月份达到最高(546.3个/m~3);种类数、多样性指数中位值均在8月达到最高,分别为18种、3.20;浮游动物生物量呈现出双峰变化模型,5月份达到第1峰值(中位值870.4 mg/m~3),10月份为第2峰值(中位值362.0 mg/m~3)。浮游动物种类数高值区主要分布在养马岛北部海域,而丰度高值区主要分布在近岸尤其是辛安河口海域。浮游动物种类数及多样性指数与水温、化学需氧量、硅酸盐显著正相关(P0.01),与盐度、溶解氧、无机氮显著负相关(P0.01);水温和盐度是影响浮游动物分布的主要环境因子,其次是硅酸盐、叶绿素a和化学需氧量,活性磷酸盐、溶解氧、透明度以及无机氮对浮游动物分布的影响较小。     

基于线粒体COI和16S片段序列的北部湾北部水螅水母DNA条形码分析

水螅水母类是浮游动物群落的重要组成部分,在近岸海洋生态系统物质循环和能量流动中扮演着重要角色。水螅水母类形态结构简单,但其物种的准确鉴定一直是分类工作中的难点。DNA条形码极大地促进了水螅水母物种的快速、准确鉴定。本研究扩增了北部湾北部28种水螅水母的线粒体COI和16S序列,分别为92条和116条;比较了2个基因片段的种内、种间K2P(Kimura 2-parameter)遗传距离;构建了基于这2个基因片段的系统发育邻接树(neighbor-joining phylogenetic tree);并结合矢量分析构建了Klee-diagram图。结果显示:COI序列的种内遗传距离为0.008±0.005(0–0.033),种间遗传距离为0.298±0.128(0.092–0.597);16S序列的种内遗传距离为0.006±0.010(0–0.047),种间遗传距离为0.394±0.195(0.068–0.898)。2个基因序列在所调查种类中,种内遗传差异均小于种间遗传差异,存在明显的条形码间隔(barcoding gap)。基于2个基因片段的NJ树均显示,单种所有个体都位于同一独立分枝。研究结果表明,以COI和16S作为DNA条形码均能对北部湾北部常见水螅水母类进行物种鉴定。     

The tree, the network, and the species

To enrich the Hennigian internodal conception of species, a new formalization of the definition of the species concept is proposed. This rigorous definition allows for considerable unification of the various, and sometimes conflicting, techniques of species delimitation used in practice. First, the domain of such a definition is set out, namely, the set of all organisms on Earth, past, present, and future. Next, the focus is on the genealogical relationship among organisms, which provides the key to analysing the giant or global genealogical network (GGN) connecting all these organisms. This leads to the construction of an algorithm revealing the topological structure of the GGN, from families to lineages, ending up with a definition of species as equivalence classes of organisms corresponding to branches of the 'tree of life'. Such a theoretical definition of the species concept must be accompanied by various recognition criteria to be operational. These criteria are, for example, the ill-named 'biological species concepts', 'phylogenetic species concepts', etc., usually, but wrongly, presented as definitions of the species concept. Besides clarifying this disputed point, the definition in the present study displays the huge diversity of the scales (time-scale and population size) involved in actual species, thus explaining away the classical problems raised by previous attempts at defining the species concept (uniparental reproduction, temporal depth of species, and hybridization).  © 2006 The Linnean Society of London, Biological Journal of the Linnean Society , 2006, 89 , 509–521.     

Causality, randomness, intelligibility, and the epistemology of the cell

Because the basic unit of biology is the cell, biological knowledge is rooted in the epistemology of the cell, and because life is the salient characteristic of the cell, its epistemology must be centered on its livingness, not its constituent components. The organization and regulation of these components in the pursuit of life constitute the fundamental nature of the cell. Thus, regulation sits at the heart of biological knowledge of the cell and the extraordinary complexity of this regulation conditions the kind of knowledge that can be obtained, in particular, the representation and intelligibility of that knowledge. This paper is essentially split into two parts. The first part discusses the inadequacy of everyday intelligibility and intuition in science and the consequent need for scientific theories to be expressed mathematically without appeal to commonsense categories of understanding, such as causality. Having set the backdrop, the second part addresses biological knowledge. It briefly reviews modern scientific epistemology from a general perspective and then turns to the epistemology of the cell. In analogy with a multi-faceted factory, the cell utilizes a highly parallel distributed control system to maintain its organization and regulate its dynamical operation in the face of both internal and external changes. Hence, scientific knowledge is constituted by the mathematics of stochastic dynamical systems, which model the overall relational structure of the cell and how these structures evolve over time, stochasticity being a consequence of the need to ignore a large number of factors while modeling relatively few in an extremely complex environment.     

Bioethics,children, and the environment

Queer perspectives have typically emerged from sexual minorities as a way of repudiating flawed views of sexuality, mischaracterized relationships, and objectionable social treatment of people with atypical sexuality or gender expression. In this vein, one commentator offers a queer critique of the conceptualization of children in regard to their value for people's identities and relationships. According to this account, children are morally problematic given the values that make them desirable, their displacement of other beings and things entitled to moral protection, not to mention the damaging environmental effects that follow in the wake of population growth. Objectionable views of children are said even to have colonized the view of lesbian, gay, bisexual, and trans (LGBT) people who – with the enthusiastic endorsement of bioethics – increasingly turn to assisted reproductive treatments to have children. In the face of these outcomes, it is better – according to this account – that people reconsider their interest in children. This account is not, however, ultimately strong enough to override people's interest in having children, relative to the benefits they confer and relative to the benefits conferred on children themselves. It is certainly not strong enough to justify differential treatment of LGBT people in matters of assisted reproductive treatments. Environmental threats in the wake of population growth might be managed in ways other than devaluing children as such. Moreover, this account ultimately damages the interests of LGBT people in matters of access, equity, and children, which outcome is paradoxical, given the origins of queer perspectives as efforts to assert and defend the social interests of sexual and gender minorities.