海洋浮游介形类的多样性和生态学研究进展

海洋浮游介形类(ostracods)是一类分布较广的小型甲壳动物, 大多数是典型的有机碎屑摄食者, 本身又是中深层鱼类的饵料, 在海洋碳循环中起重要作用。目前海洋浮游介形类研究主要集中在海洋表层, 大约还有200—400 种的海洋浮游介形类未被发现, 尤其是栖息于深海的种类。今后介形类分类学研究的重要趋势之一是深海种类的发现。我国介形类研究起步晚, 积累少, 应加强我国不同海域深海介形类及其与环境关系的深入研究。文章综述了海洋浮游介形类的多样性和生态学等方面的研究进展, 重点概述了海腺萤科分类的发展, 比较分析了不同海域介形类的物种多样性和分布特征, 总结了浮游介形类的生态作用及其影响因素, 概括了我国海洋浮游介形类的研究现状, 以期为海洋生物多样性、海洋生物地球化学循环以及深海生态学等方面的研究提供基础依据。     

白龙屿海洋牧场放养中华鲟幼鱼的潜在饵料资源及承载力估算

海洋保种是补充完善中华鲟(Acipenser sinensis)生活史,实现陆海接力保种的重要举措,为探究近海围栏是海洋牧场中华鲟幼鱼的潜在饵料资源及承载能力,研究对浙江温州近海的白龙屿海洋牧场进行周年调查,评估了海洋牧场中底栖动物及中下层生物资源量,并通过放养中华鲟摄食生长状况和消化道内容物分析,获得了海洋牧场中中华鲟幼鱼可摄食饵料种类,同时估算了其最大资源承载力。结果表明,白龙屿海洋牧场周年共采集到共47种饵料生物隶属于5门8纲,其中底栖动物38种、中下层生物9种,依据历史记录均为中华鲟可摄食种类;根据消化道内容物实测分析,放养中华鲟能够在海洋牧场中自主摄食,验证其摄食了4门5纲共16种饵料生物,其食物组成按相对重要性指数(IRI)大小排列:甲壳纲(主要为虾蟹类)>腹足纲>鱼纲>瓣鳃纲>多毛纲,摄食偏好按摄食选择系数大小排列:甲壳纲>腹足纲>瓣鳃纲>多毛纲>鱼纲;估算结果表明海域面积650亩的白龙屿海洋牧场中适合中华鲟摄食的饵料资源最大年产量约为818.389 kg,仅靠这些天然饵料供给的情况下,可供69尾中华鲟幼鲟正常生长发育。研究...     

海洋微型浮游动物对浮游植物和初级生产力的摄食压力

综述了国际上研究微型浮游动物对浮游植物和初级生产力摄食的方法,并重点介绍了稀释法的理论和在实践中遇到的问题。各种方法的微型浮游动物对浮游植物和初级生产力摄食压力的估计表明,微型浮游动物在海洋生态系统中的扮演重要角色。     

海洋古菌多样性研究进展

海洋古菌是海洋微生物中的一个大的类群,然而绝大多数的古菌不能分离培养.近年来分子生物学的方法广泛地应用于微生物多样性的研究中,研究发现,海洋古菌广泛地生活在各类海域环境中,而不仅仅是生活在极端的环境中.海洋古菌为海洋生态系统中主要的原核细胞成分,在海洋生态系统中的物质与能量循环中扮演着重要角色.主要阐述了生活在海洋不同环境中海洋古菌的多样性,有海洋浮游古菌的多样性、海底环境及海洋沉积物中古菌的多样性、附着或寄共生古菌多样性等的研究状况,以及研究海洋古菌多样性的分子生物学的主要方法.     

深远海浮游动物生态学研究进展

深远海浮游生态系统依据水深的差别可以被划分为几个子系统,包括上层、中层、深层和深渊层等。目前大量的研究结果表明在海洋上层,由于光照、温度、海冰和营养盐补充等因素的影响,浮游生物群落往往呈现出显著的时空变化。但在海洋中层及更深的区域,传统观点认为随着水深的增加,海洋的理化环境趋向于稳定,在这一区域生态系统的时空变化要弱于海洋上层。同时受调查技术和经费的限制,人们对于这一广阔区域内浮游生态系统时空变化规律的认识要局限的多。随着我国海洋科学的发展和海洋强国战略的实施,海洋科学研究也逐渐由过去的以近海研究为主发展到当前的近海、边缘海和深远海研究协同发展。但与我国近海浮游生态学过去数十年间积累的大量研究成果相比,我国科学家对深远海,特别是中层、深层和深渊层浮游生态学方面的研究极为缺乏。从大洋浮游动物群落的垂直分布及其变化、种间关系与生态位分化、深海浮游动物群落在碳沉降和生物地球化学循环中的作用等多个角度全面总结了当前国内外深海浮游生态学的研究进展,同时介绍过去十余年来深海浮游生态学研究技术手段上的巨大进步,以期为今后国内同行的研究提供参考和借鉴。     

摄食信息对球形棕囊藻和布氏双尾藻竞争结果的影响

浮游动物的摄食信息能增大棕囊藻囊体体积,囊体形成被认为是棕囊藻的诱导性防御机制。利用桡足类火腿伪镖水蚤和异养甲藻海洋尖尾藻释放的摄食信息,研究了诱导性防御对球形棕囊藻和布氏双尾藻的竞争的影响。结果表明,球形棕囊藻接收了火腿伪镖水蚤和海洋尖尾藻释放的摄食信息之后形成更大的囊体。防御启动后的球形棕囊藻比未接收摄食信息的球形棕囊藻更快地形成囊体,且囊体维持的时间更长。对照组和火腿伪镖水蚤摄食信息诱导的球形棕囊藻的生物体积比布氏双尾藻更高,且球形棕囊藻在竞争中占优势;而海洋尖尾藻摄食信息诱导的球形棕囊藻生物体积低于布氏双尾藻,且球形棕囊藻相对布氏双尾藻的竞争力下降。微型浮游动物海洋尖尾藻摄食信息导致球形棕囊藻相对硅藻布氏双尾藻的竞争力的下降,有利于解释硅藻先于棕囊藻发生藻华。     

稳定同位素技术在鲨鱼摄食和洄游行为研究中的应用

随着稳定同位素分析技术的不断成熟,其在生态学领域中的应用也增长迅速,并成为动物摄食生态学的重要研究工具.鲨鱼因其在生物系统进化过程中的独特地位和海洋生态系统中的重要作用已成为海洋食物网研究的重点,然而国内针对鲨鱼摄食习性和洄游行为等方面的研究仍处于起步阶段.本文在总结了国内外鲨鱼稳定同位素分析组织样品选取和样品预处理方法的基础上,系统归纳了稳定同位素技术在鲨鱼摄食生态学,尤其在其摄食和洄游行为研究领域中的应用,着重分析稳定同位素技术在鲨鱼稳定同位素判别值和更新速率、食性分析、营养级评估、洄游路径分析和生态位分布等核心问题上的应用现状和发展前景,以期为国内学者开展鲨鱼类基础生物、生态学研究提供有益参考.     

东太平洋公海茎柔鱼饵料中鱼类和头足类组成初步分析

茎柔鱼(Dosidicus gigas)广泛分布于东太平洋海域,在海洋生态系统中扮演着重要角色。本研究根据2019年6—12月我国鱿钓生产船在东太平洋公海采集的62尾茎柔鱼样本,对其胃含物残留的4131个耳石和75个角质颚样本进行鉴定分析。结果表明: 茎柔鱼主要摄食鱼类10种、头足类4种。从摄食饵料的出现频率和数量百分比来看,主要摄食的鱼类饵料为荧串光鱼、朗明灯鱼和墨西哥尾灯鱼,荧串光鱼在不同胴长组的茎柔鱼胃内均有出现,是茎柔鱼最重要的饵料;摄食的头足类主要有茎柔鱼、鸢乌贼和爪乌贼。随着胴长的增大,茎柔鱼摄食的饵料种类不断增加,头足类和灯笼鱼饵料比例增加,且摄食的饵料尺寸增大,摄食营养结构发生改变,摄食营养水平随之提高。研究结果可为评估不同饵料生物在茎柔鱼食性转变过程中的食物贡献提供基础资料。     

南极南设得兰群岛邻近水域表层微小型浮游藻类的分布特征

微小型藻类是南极磷虾及其它小型或较大型海洋动物的直接或间接饵料,是海洋生物生产力的基础,在海洋生态系和食物链中起着重要作用,微小型浮游藻类的研究,将为我国开发南极磷虾资源和了解南大洋自然生态环境提供重要的科学依据。Uribe;Koczynska和Ligowski;Brandini和Kutner等学者曾对南设得兰群岛北部及邻近水域的浮游植物(主要是浮游硅藻类)的分类和分布做过研究。本文根据我国第三次南极考     

中国涡虫纲分类学研究进展

涡虫纲在分类学上归属于扁形动物门(Platyhelminthes),本纲动物主要生活在淡水和海洋,少数生活于潮湿的土壤中,多营自由生活,少数为共生或寄生生活.在动物演化的历史进程中,扁形动物的出现,标志着动物界的演化发展已开始由水生向陆生、由固着或漂浮生活向自由爬行生活过渡,并相应在形态上演化出一系列发展水平上关键性的变化,因此在动物进化中占有重要地位;由于它们对水质变化十分敏感,因此是一类很好的水体污染的指示动物;同时,由于其再生能力特别强,因而又是研究细胞分化与脱分化分子机理的好材料,百年来一直是国际动物界热衷探索的研究领域.遗憾的是,我国动物学界从事涡虫研究者甚少,过去属于空白或薄弱学科.本文对我国涡虫纲研究的历史与现状进 行全面概述,以期为我国涡虫纲的区系分类研究提供全面详实的资料.       

Phylogenetic analysis of phenotypic characters of Tunicata supports basal Appendicularia and monophyletic Ascidiacea

With approximately 3000 marine species, Tunicata represents the most disparate subtaxon of Chordata. Molecular phylogenetic studies support Tunicata as sister taxon to Craniota, rendering it pivotal to understanding craniate evolution. Although successively more molecular data have become available to resolve internal tunicate phylogenetic relationships, phenotypic data have not been utilized consistently. Herein these shortcomings are addressed by cladistically analyzing 117 phenotypic characters for 49 tunicate species comprising all higher tunicate taxa, and five craniate and cephalochordate outgroup species. In addition, a combined analysis of the phenotypic characters with 18S rDNA-sequence data is performed in 32 OTUs. The analysis of the combined data is congruent with published molecular analyses. Successively up-weighting phenotypic characters indicates that phenotypic data contribute disproportionally more to the resulting phylogenetic hypothesis. The strict consensus tree from the analysis of the phenotypic characters as well as the single most parsimonious tree found in the analysis of the combined dataset recover monophyletic Appendicularia as sister taxon to the remaining tunicate taxa. Thus, both datasets support the hypothesis that the last common ancestor of Tunicata was free-living and that ascidian sessility is a derived trait within Tunicata. “Thaliacea” is found to be paraphyletic with Pyrosomatida as sister taxon to monophyletic Ascidiacea and the relationship between Doliolida and Salpida is unresolved in the analysis of morphological characters; however, the analysis of the combined data reconstructs Thaliacea as monophyletic nested within paraphyletic “Ascidiacea”. Therefore, both datasets differ in the interpretation of the evolution of the complex holoplanktonic life history of thaliacean taxa. According to the phenotypic data, this evolution occurred in the plankton, whereas from the combined dataset a secondary transition into the plankton from a sessile ascidian is inferred. Besides these major differences, both analyses are in accord on many phylogenetic groupings, although both phylogenetic reconstructions invoke a high degree of homoplasy. In conclusion, this study represents the first serious attempt to utilize the potential phylogenetic information present in phenotypic characters to elucidate the inter-relationships of this diverse marine taxon in a consistent cladistic framework.     

The haemocytes of the salp Thalia democratica (Tunicata,Thaliacea): an ultrastructural and histochemical study in the oozoid

In comparative immunology and evolution of the chordate immune system, tunicates hold an important phylogenetic position as sister group of vertebrates. However, knowledge of the tunicate immune system is limited to the class Ascidiacea, in which some species are now considered model organisms. In the class Thaliacea, represented by fragile pelagic species, the few studies on their haemocytes go back to several decades ago and do not consider comparative aspects with ascidian haemocytes. In this study, we identified various haemocyte types and their distribution in the common salp Thalia democratica by comparative observations under light and electron microscopy and by histochemical, histoenzymatic and immunohistochemical techniques. By comparing specialisations with those of ascidian haemocytes, we detected an undifferentiated cell type (lymphocyte‐like cell) and three categories with four cell types, that is, (i) phagocytic line (hyaline amoebocyte and amoebocyte with large vacuoles), (ii) mast cell‐like line (granular cell) and (iii) storage cells (nephrocyte). Both phagocytes and granular cells appear to migrate in the tunic. Phagocytes adhere to the tunic which internally covers the oral siphon, where they probably function as sentinel cells of the pharynx. Results show the variety of haemolymph cells in the salp similar to phlebobranch ascidians.     

An updated 18S rRNA phylogeny of tunicates based on mixture and secondary structure models

Background  

Tunicates have been recently revealed to be the closest living relatives of vertebrates. Yet, with more than 2500 described species, details of their evolutionary history are still obscure. From a molecular point of view, tunicate phylogenetic relationships have been mostly studied based on analyses of 18S rRNA sequences, which indicate several major clades at odds with the traditional class-level arrangements. Nonetheless, substantial uncertainty remains about the phylogenetic relationships and taxonomic status of key groups such as the Aplousobranchia, Appendicularia, and Thaliacea.     

New developments in vertebrate cytotaxonomy VI. Cytotaxonomy and evolution of lower chordates

A correlation between evolutionary trends and karyotype has been recognized in tunicates. In the ambit of lower chordates and related species, Hemichordata, Cephalochordata and, in the Tunicata, some ascidians seem to maintain a primitive organization of chromosomes: haploid numbers around 20, absence of sex chromosomes, and rod-shaped bivalents. Within the class Ascidiacea, at the karyological level Clavelina depadiformis seems to be very specialized and the family Perophoridae (suborder Phlebobranchiata) very primitive. Thaliacea and Larvacea appear specialized in comparison with the primitive ascidians.This is the sixth in a series of articles, by different authors, to appear in this journal under the editorship of Professor Chiarelli, supplementing the data published in Cytotaxonomy and Vertebrate Evolution (A. B. Chiarelli & E. Capanna, eds, Academic Press, London & New York)-Eds.     

Ciliary specializations in branchial stigmatal cells of protochordates

Tissues from the pharynx of five representative species of the protochordates (subphylum Tunicata, the three classes Ascidiacea, Thaliacea and Appendicularia, and subphylum Cephalochordata) were examined in both thin sections and freeze-fracture replicas. In all species, the stigmatal cilia of the branchial chamber are neatly arranged and move continuously to propel sea-water in a fixed direction for respiration and feeding of the organism. A number of specializations are found in the basal region of these cilia and are represented by: a) bridges connecting axonemal doublets numbers 5 and 6; b) dense fibrous material linking the doublet microtubules of the axoneme to the ciliary membrane, sometimes in the shape of longitudinal strands or as clusters of filaments; c) intramembrane particles (IMPs) associated with the P-face of the membrane, often arranged in clusters evenly aligned along the ciliary shaft in relation to the underlying axonemal doublets. Ciliary specializations are distributed along the plane of the effective stroke of the beat in both the ascidian Botryllus schlosseri and in the thaliacean Pyrosoma atlanticum and the amphioxus Branchiostoma lanceolatum, whereas in the thaliacean Doliolum nationalis and the appendicularian Oikopleura dioica a more uniform distribution of these specializations all around the basal portion of the cilia is observed. Whatever the disposition of the ciliary specializations in all the examined species, they are always present at the base of the water-propelling cilia. Some morphological evidence suggests that these specializations play a mechanical function in tethering the ciliary membrane to the axoneme. We propose that they help maintain the orientation of the cilia during beating, enhance their stiffness and improve their efficiency.     

Molecular phylogeny endorses the relationship between carnivorous and filter‐feeding tunicates (Tunicata,Ascidiacea)

Tatián, M., Lagger, C., Demarchi, M. & Mattoni, C. (2011). Molecular phylogeny endorses the relationship between carnivorous and filter‐feeding tunicates (Tunicata, Ascidiacea).—Zoologica Scripta, 40, 603–612. The phylogeny of the tunicates (animals considered the closest relatives to the vertebrates) is not yet completely defined, especially the evolutionary relationships within the class. Molecular studies do not include particular benthic deep‐sea species that show morphological changes in the evolution from filter feeding into a carnivorous‐feeding habit. According only to morphological features, these animals are considered as a part of the Class Ascidiacea (Family Hexacrobylidae), but also as a different class, Sorberacea, belonging to the Phylum Tunicata. In this study, we present a phylogenetic analysis based on 18S rDNA sequences, which clearly included these animals in Ascidiacea but in the Family Molgulidae, faster‐evolving ascidians with a high evolution rate. This finding supports the idea that carnivory in Molgulidae represents a more recent adaptation to life in the ocean deep bottoms, where organisms have to adapt themselves to a less plentiful particulate organic carbon supply. Based on molecular and morphological evidence, we propose the following new synonymy: Hexacrobylidae Seeliger 1906 = Molgulidae Lacaze‐Duthiers, 1877 .     

High-resolution vertical profiles of pelagic tunicates

The objectives of our research were to obtain high-resolutionvertical profiles of the abundance of pelagic tunicates andto relate their distribution to physical and biological variables.The abundance of doholids (Tunicata: Thaliacea) from near thesurface to near the seafloor was determined by obtaining continuousvideotape recording from a descending submersible. These verticalprofiles, accompanied by temperature and fluorescence measurements,revealed (i) pronounced changes in dololiolid concentrationwithin 2 m depth intervals, and (ii) two general modes of verticaldistribution, one characterized by a peak in abundance in thethennocline and the second by a more or less even distributionthroughout much of the water column. This in situ approach canprovide estimates of zooplankton abundance in near real-time     

Sensory ecology of salps (Tunicata,thaliacea): More questions than answers

There is still relatively little known about the natural history of gelatinous animals in the plankton, and their sensory ecology remains largely a matter of surmise, based on limited morphological, physiological and behavioral data. Pelagic tunicates are among the most widely distributed and abundant of the gelatinous zooplank‐ton, and display a range of behavior that is apparently cued by aspects of their environment. Different kinds of information may be important for different scales of behavior. Feeding and predator avoidance are likely to be affected by near‐field stimuli from visual, chemical or mechanical sources, while far‐field information such as gravity, light, temperature, or pressure are likely to cue behavior spanning larger time and space scales, such as vertical or ontogenetic migration, aggregation and reproductive cycles. A variety of sensory structures have been described in pelagic tunicates, including photoreceptors of varying complexity, and several structures that have been suggested to be mechano‐ or chemoreceptors. Focussing on salps, this paper describes behavior that depends on sensory information, reviews the known structure and function of sensory receptors, and suggests some hypotheses on mechanisms defining the sensory ecology of these planktonic organisms.