中国沿海污损性海鞘生态特点及研究展望

海鞘是海洋污损生物群落的重要组成部分, 其附着会给水产养殖业带来严重危害。在中国沿海, 引发生物污损的海鞘共8 科20 属40 种, 其中渤海海域7 种, 黄海17 种, 东海23 种和南海27 种。北方海域以柄瘤海鞘(Styela clava)、乳突皮海鞘(Molgula manhattensis)和米氏小叶鞘(Diplosoma listerianum)为优势种, 南方则以冠瘤海鞘(Styela canopus)、皱瘤海鞘(S.plicata)和大洋纵列海鞘(Symplegma oceania)为优势种。海鞘污损特点与设施所处地理位置、浸海时间、环境状况等因子密切有关。今后除了继续对沿岸代表性海域开展深入研究外, 还需结合海洋经济发展和科学研究的需要, 加强离岸设施(尤其深海环境)污损生物群落的研究, 以期更好地掌握污损性海鞘的组成分布、种群特点及发展趋势。     

黄、渤海沿岸污损生物中的海鞘类

本文根据1974—1985在黄渤海进行污损生物调查的资料,报道该海域的海鞘类14种。同时对这些种类的附着季节、数量及具在生物污损中的意义作初步研究。并对优势种柄瘤海鞘(Styela clava)的种群进行了初步分析。     

中国沿海无柄蔓足类研究进展

无柄蔓足类属节肢动物门甲壳纲,是海洋生态系统和污损生物群落中极为重要的组成部分,在中国海域分布着6科25属110种,主要种类为纹藤壶(Balanus amphitrite amphitrite)、网纹藤壶(B.reticulatus)、高峰星藤壶(Chirona amaryllis)、泥藤壶(Balanus uliginosus)、白脊藤壶(B.albicostatus)、三角藤壶(B.trigonus)、红巨藤壶(Megabalanus rosa)、钟巨藤壶(M.tintinnabulum tintinnabulum)、白条地藤壶(Euraphia withersi)、鳞笠藤壶(Tetraclita squamosa squamosa),其中纹藤壶在黄、渤海为优势种,网纹藤壶则在热带和亚热带海区占优势;泥藤壶多出现在沿海河口的咸淡水交汇处;三角藤壶、红巨藤壶和钟巨藤壶等种类分布于盐度较高的海域。环境因子可对无柄蔓足类的生长发育、繁殖附着、分布状况及形态特征等产生显著影响。幼虫发育阶段要经历6期无节幼虫和1期金星幼虫,青岛大扁藻(Platymonas helgolandica)、牟式角毛藻(Chaetoceros muelleri)和亚心形扁藻(Platymonas subcordiformis)均是幼虫培养较为理想的饵料;金星幼虫可在4—8℃下保存1周左右。藤壶胶粘物由蛋白亚基聚合而成,其初生胶和次生胶组成基本相似。无柄蔓足类不仅是开展防除测试和生态科学研究的理想材料,而且还应进一步分析其在海洋生态系统中的地位和作用,并从分子水平探讨幼虫附着机理、胶粘物作用机制、种类相互关系与系统发生史。     

藤壶金星幼虫附着变态机制

藤壶属节肢动物门(Arthropoda)甲壳亚门(Crustacea)蔓足下纲(Cirripedia)围胸总目(Thoracica), 具备特殊的形态结构、生活史和种群生态特征,是最主要的海洋污损生物。其幼虫阶段通常经历6期无节幼体和1期不摄食的金星幼虫,从浮游的金星幼虫附着变态成固着的稚体是藤壶生活史中的一个关键环节。外界化学和生物因子中成体提取物、水溶性信息素、足迹、神经递质、激素、生物膜等均影响藤壶金星幼虫的附着变态;内在因子即金星幼虫的生理状态(能量储量和年龄)决定了其对外界因子的反应程度。概括了近年来藤壶附着变态生理机制和分子机制研究的进展,可为深入了解藤壶金星幼虫附着变态机制提供参考,也为开发新型、高效、环保的防污剂提供理论指导。     

海州湾长牡蛎养殖区污损生物研究

于2016年11月10日至2017年5月10日,对海州湾距离岸边由近到远的三个长牡蛎养殖区(站点1,站点2和站点3)的污损生物进行了调查研究。调查期间共发现污损生物9门,19种。三试验站点污损生物附着规律基本一致,3月份之前优势种为麦秆虫,其次为软丝藻、沙蚕;3月份之后优势种为海鞘,其次为紫贻贝。污损生物大量爆发时间在3、4月份,此时间段污损生物相对增长率达到最高。距离岸边中间距离的站点2污损生物绝对增长率和总湿重最高,且均显著大于其它两养殖站点(p0.05)。污损生物爆发期间主要物种是复海鞘,其湿重占污损生物总湿重比值高达93%,是养殖区主要防除对象。本研究为海州湾污损生物防除以及水产贝类健康养殖提供了科学基础。     

近海设施双壳类污损特点及应对措施概述

双壳类软体动物是引发海洋生物污损现象的重要生物类群。污损近海设施的该类型生物主要为紫贻贝(Mytilusedulis)、齿缘牡蛎(Dendostrea folium)、褶牡蛎(Alectryonella plicatula)、长牡蛎(Crassostrea gigas)和日本巨牡蛎(C.nippona)等种类; 在纬度较低的热带、亚热带近海海域, 污损性双壳类以牡蛎为优势种, 而温带近海海区则是紫贻贝;至于深度方面, 牡蛎污损的范围大于紫贻贝。近海设施污损生物的防除主要通过水下人工清除作业、安装波浪驱动海生物防除装置、涂装防污漆、电解海水、添加杀生剂和生物控制等途径, 加强近海污损性双壳类研究不仅有助于促进海洋生态学研究的发展, 而且可为研发新型高效环保防污技术奠定基础。     

海洋污损生物数据管理系统的设计与构建

固着或栖息在船舶和人工设施水下部位的海洋污损生物, 会对人们的涉海活动产生不利影响, 其群落的形成和发展过程与温度、盐度、深度、季节、海域、浸海时间、离岸距离和附着基类型等多种因素密切相关。为便于系统分析和综合处理各海区污损生物资料, 理清各要素之间的内在关系, 需要一个能将上述因子与生物群落参数有机地结合起来的数据平台, 将分散、零星的资料予以归纳整合并通过网络共享, 以更好地为生产实践和科学研究服务。本研究采用Internet技术, 应用ASP.NET框架和MySQL数据库, 使用MS Visual Studio 2013设计并开发了服务端部署在Windows 7或Windows Server 2008 R2 (推荐)操作系统上的海洋污损生物数据管理系统, 实现了基于网络的海洋污损生物数据集成、储存与管理, 可完成来源不同、时相变化和海区多样的污损生物数据资料的集成与储存, 能通过单一或多种组合条件进行查询和检索, 并可根据用户的需要导出多种格式的检索结果报表。该系统具备操作简便、方便网络共享、易于升级更新和开拓新功能等特点, 能有效满足科研、生产和管理部门的需要。     

海洋生物防污作用机制及应用前景

海洋污损生物的附着会对人类活动产生不利影响。栖息于海洋环境中的动植物在长期的进化过程中针对污损生物的附着形成了忍耐、躲避与物理、化学等自我保护和防御机制以保持自身体表的洁净。本文从以上方面综述了海洋生物的天然防污作用机制,并对其应用前景进行了展望。了解和掌握海洋生物天然防污作用机制,有利于新型环保防污技术的研制和开发,进而从根本上解决海洋污损生物的危害难题。     

海洋硅藻附着研究进展

随着人类对海洋资源的进一步开发和利用,越来越多的人工设备用于水下操作,而海洋生物污损在很大程度上制约了这些设备的应用,给人类带来重大的经济损失。因此,海洋生物污损的形成机制与防治成为当前研究的一个热点。海洋硅藻是海洋生物污损过程中形成生物膜的主要物种,其在水下固相表面的附着可诱导大型污损生物的附着,从而影响生物污损群落的形成。本文综述了硅藻在固相表面的附着机理、固相表面性质对硅藻附着的影响及具有应用前景的广谱抗污损高分子材料的研究进展,并展望海洋硅藻附着研究前景。     

污损性管栖多毛类生态特点及研究展望

污损性管栖多毛类属环节动物门,主要由龙介虫科(Serpulidae)、螺旋虫科(Spirorbidae)、缨鳃虫科(Sabellidae)和蛰龙介科(Terebllidae)4科55种组成,以华美盘管虫(Hydroides elegans)、内刺盘管虫(H.ezoensis)、龙介虫(Serpula vermicularis)和克氏无襟毛虫(Pomatoleios kraussii)等种类为优势种,通常成批的附着在物体表面,严重影响人工设施的安全和性能。污损性管栖多毛类的分布具有明显的地域性和季节性,并与深度有关。今后工作应进一步开展管栖多毛类基础生物学研究,探讨外来种的入侵及影响,丰富和发展生态和分类等方面的研究内容。     

Ascidian recruitment patterns on an artificial reef in Eilat (Red Sea)

Although ascidians are conspicuous members of the fouling community not much is known regarding their recruitment patterns in coral reefs. A 1-year study was carried out along the Red Sea coast of Israel to examine the effects of season and spatial distribution on ascidian recruitment to artificial marine structures. In general, autumn and spring were characterized by higher coverage with a significantly higher percentage of cover of Didemnum granulatum in autumn and higher numbers of Herdmania momus in spring. These species contributed the most to similarity between treatments consequently setting the pattern for each group (colonial and solitary). Halocynthia spinosa had significantly higher numbers during winter and Phallusia nigra was absent in spring and winter. H. momus showed a preference for horizontal surfaces. P. nigra and Ascidia cannelata showed a preference for floating units. It is concluded that the ascidian recruitment patterns are species-specific and vary between seasons, orientation and position on the substrata and in the water column.     

Sensory Structures in Tadpole Larvae of the Ascidians Microcosmus exasperatus Heller and Herdmania momus (Savigny)

In this paper we describe the larval morphology of two species from the ascidian family Pyuridae, Microcosmus exasperatus and Herdmania momus, with special emphasis on components of the cerebral vesicle. Larvae have not previously been described for any species in the large genus Microcosmus. Besides a difference in size (larvae of H. momus are about 40% larger than those of M. exasperatus), larvae of the two species differ primarily in the number and arrangement of sensory structures. Both species possess a well-developed statocyte but only H. momus has an ocellus. The absence of an ocellus in M. exasperatus is unique among pyurid ascidians. An auxiliary vesicle was found situated on the left side of the cerebral vesicle in both species. However, unlike the larvae of H. momus and other pyurid species, there is no apparent communication between the auxiliary and cerebral vesicles of M. exasperatus. Epithelial cells in the auxiliary vesicles of both species carry modified cilia about 2 μm in diameter; auxiliary vesicles of H. momus also have simple cilia with axonemes in a 9 + 0 microtubule configuration. In H. momus the membranes of the epithelial cells are highly convoluted and extend into the lumen of the auxiliary vesicle. Morphological arrangements of auxiliary vesicles and globular cilia reported so far in ascidian tadpoles are contrasted and discussed.     

Spatial and temporal effects of pre-seeding plates with invasive ascidians: Growth, recruitment and community composition

Many shallow water subtidal habitats in Massachusetts, USA have recently been invaded by five non-indigenous ascidian species: Ascidiella aspersa, Botrylloides violaceus, Didemnum sp., Diplosoma listerianum and Styela clava. This study examined the effects of seawater temperature, as a proxy for climate change, on B. violaceus and D. listerianum and the impact these ascidians have on native sessile fouling communities. Field experiments were conducted over a four month period at two locations (Lynn and Woods Hole, MA) to examine growth dynamics over regional thermal and geographic ranges. Invasive ascidians occupied as much as 80% of the primary substratum and accounted for the majority of species richness. B. violaceus and D. listerianum growth were similar at both study sites, but initial colony growth of D. listerianum was positively affected by temperature. B. violaceus and D. listerianum exhibited rapid two-week growth rates during the summer months with more rapid growth at the warmer Woods Hole site. Competition for space between B. violaceus and D. listerianum typically resulted in neutral borders between colonies. Overgrowth occurred if the colony of one species was disproportionably larger than the colony of the other species. Recruitment and growth of native species influenced the long-term composition of experimental communities more than the pre-seeding with B. violaceus or D. listerianum colonies. Elevated temperatures, however, increased initial growth of B. violaceus and D. listerianum and may have facilitated the species success to invade the communities during crucial periods of introduction. With projected global climate change, a rise in sea surface temperatures may exacerbate the cumulative impacts of invasions on benthic communities and facilitate the invasion of other non-native ascidian species.     

The acrosome in ascidians. I. Pleurogona

Summary

A vesicle which contains moderately electron-dense material has been found at the apex of mature spermatozoa in all representatives of three pleurogonan families: in Styela clava, Cnemidocarpa finmarkiensis and Botryllus schlosseri (family Styelidae), in Boltenia villosa and Herdmania momus (family Pyuridae), and in Molgula manhattensis (family Molgulidae). The vesicle described here resembles the acrosome of Ciona intestinalis spermatozoa. The Ciona acrosome shows structural changes at fertilization (Fukumoto, M., J. Ultrastruct. Res., 87 (1984) 252–262). This suggests that pleurogonan spermatozoa also have an acrosome. Some speculations are presented on ascidian fertilization.     

Variation in the ability of Didemnum sp. to invade established communities

Over the past 30 years southern New England, USA has been invaded by several species of ascidians, including Botrylloides violaceus, Diplosoma listerianum, Styela clava, and Ascidiella aspersa. These species have become dominate in coastal embayments and marinas but are usually absent from more open water coastal areas. A colonial ascidian, Didemnum sp. has invaded southern New England during the past 10 years and we first observed this species in eastern Long Island Sound in 2000. It has become the dominant at several field sites while remaining in low abundance at others. We conducted an experiment at two places, a protected marina and an open coast site, to examine its ability to compete with the established fouling community. Small colonies of Didemnum were transplanted onto panels with communities that varied in age from one to four weeks old and these treatments along with controls with only Didemnum were exposed at both sites. In most treatments Didemnum became a dominant species in the communities at both sites but it reached higher abundances at the open coast site. Potential causes of the observed differences are predation on other species of ascidians at the open coast site reducing recruitment of these species and competition, lower tolerance for elevated temperatures at the marina site, or other environmental parameters that might affect growth rates.     

Biofouling ascidians on aquaculture gear as potential vectors of harmful algal introductions

Biofouling ascidians are ubiquitous in coastal ecosystems and are among the main colonizers of aquaculture gear. Our study tested the hypothesis that the transport, removal, and transfer of fouling ascidian species by aquaculturists provide a mechanism for concentration and distribution of harmful-algal cells to new areas. Wild-caught specimens of common, biofouling ascidian species (Styela clava, Ciona intestinalis, Molgula manhattensis, Botrylloides violaceus, Didemnum vexillum, and Botryllus schlosseri) were exposed individually to cultured strains of co-occurring harmful algae (Prorocentrum minimum, Alexandrium fundyense, Alexandrium monilatum, Karenia brevis, Aureococcus anophagefferens, or Heterosigma akashiwo) at simulated bloom cell densities of each HAB species. After feeding, ascidians were transferred to ultrafiltered seawater. Immediately after exposure, and after 24 and 48 h in ultrafiltered seawater, biodeposits were collected and observed microscopically for the presence of intact, potentially viable cells. Subsamples of biodeposits were transferred into culture tubes with ultrafiltered seawater and monitored for algal growth during 8 weeks. Cells of all HAB species were found to pass intact through the ascidian digestive system, remained viable, and in many cases were capable of re-establishing populations at least 48 h post-ingestion. The results of our study will inform industry and managers of the potential threat and ecological impact of spreading biofouling ascidians, and practices to mitigate adverse impacts. Additionally, these management practices have been formally incorporated into a new cost-share program developed to help shellfish producers prevent the further spread of ascidians and associated HAB species.     

Fouling Communities of Mussel Aquaculture Installations in the White Sea

We have classified fouling communities developing on artificial substrates of mussel mariculture plants in Kandalakshskii Bay of the White Sea. Several major types of fouling have been distinguished: mussel fouling; fouling similar to the epifauna of the benthos biocenosis of Laminaria saccharinadominated by the ascidian Styela rusticaor sponges Halichondria paniceaand Halisarca dujardini; young fouling developed by algae and the ascidians of the genus Molgula; and ecotone communities in-between these types of fouling. The characteristics of the distinguished communities are provided.     

Anatomy of the trunk mesoderm in tunicates: homology considerations and phylogenetic interpretation

The tadpole stage of tunicates has played a pivotal role in understanding chordate evolution. While the organization of the mesoderm has been given high importance in comparative anatomical studies of Bilateria, this morphological character remains largely unexplored in tunicate tadpoles. For larvae of the phlebobranch ascidian Ciona intestinalis, the presence of two mesodermal pockets had been claimed, raising the possibility that paired coelomes are present in the larval ascidian. Using computer assisted 3D-reconstructions based on complete series of 1 μm-sections analyzed by light microscopy complemented by TEM-investigation of selected regions a comparative anatomical study of tadpole stages from four major tunicate clades, Aplousobranchiata, Phlebobranchiata, Stolidobranchiata, and Appendicularia is presented. In the aplousobranch Clavelina lepadiformis numerous mesodermal cells are found throughout the entire trunk plus the unpaired ventral rudiment of the pericardium. In the phlebobranch Ascidia interrupta, massive mesodermal components occur in the posterior trunk, whereas more anteriorly situated mesoderm consists of loose streaks of cells or isolated cells. This is also the case in the stolidobranch ascidians Herdmania momus and Styela plicata. In the stolidobranch Molgula occidentalis and the appendicularian Oikopleura dioica the anterior trunk is entirely devoid of mesodermal cells. TEM-investigation revealed that all mesodermal structures in the trunk of tunicate tadpoles were mesenchymal with the exception of a ventral portion of the mesoderm in C. lepadiformis, which probably corresponds to the developing pericardium, and the differentiated pericardium of the juvenile O. dioica. Thus no evidence for paired coelomic cavities in Tunicata was found. Outgroup comparison suggests that the reduction of paired coelomic cavities is an apomorphic trait of Tunicata. Within Tunicata a stepwise evolutionary reduction of the anterior larval mesenchyme is documented.     

A comparative study of the organization of the sarcotubular system in ascidian muscle

The caudal musculature of ascidian tadpole larvae consists of mononucleated muscle cells joined end to end in long rows flanking the notochord. A comparative study of the fine structure of these cells in larvae from different families has revealed wide variations in the pattern of organization of the sarcotubular system. The species examined can be distinguished in two groups according to the presence or absence of a system of plasma membrane invaginations equivalent to the T system of vertebrate and invertebrate striated muscle. Muscle cells from the first group of species, Clavelina lepadiformis, Ciona intestinalis and Molgula socialis, are characterized by absence of T system and show peripheral couplings of sarcoplasmic reticulum cisternae directly with the plasma membrane. In contrast, a T system is present in muscle cells of Diplosoma listerianum, Styela plicata and Botrylloides leachi. The presence of T system in ascidian muscle is not related to the taxonomic position of the various species, but rather to the intracellular disposition of the myofibrils, which are peripheral in the species of the first group whereas they occupy a more internal position in the species of the second group. The T system displays unique structural features in ascidian muscle. It consists of wide laminae invaginating from the plasma membrane and associated in longitudinally oriented dyads with sarcoplasmic reticulum cisternae in register with the I band of the myofibrils. It is apparent from these observations that, in contrast with the uniformity of myofibrillar structure in all chordates, there are basic differences between ascidians and vertebrates as regards the organization of the sarcotubular system. On the other hand, there are significant similarities in this respect between ascidian and invertebrate muscle.     

Ascidian recruitment patterns on an artificial reef in Eilat (Red Sea)

Although ascidians are conspicuous members of the fouling community not much is known regarding their recruitment patterns in coral reefs. A 1-year study was carried out along the Red Sea coast of Israel to examine the effects of season and spatial distribution on ascidian recruitment to artificial marine structures. In general, autumn and spring were characterized by higher coverage with a significantly higher percentage of cover of Didemnum granulatum in autumn and higher numbers of Herdmania momus in spring. These species contributed the most to similarity between treatments consequently setting the pattern for each group (colonial and solitary). Halocynthia spinosa had significantly higher numbers during winter and Phallusia nigra was absent in spring and winter. H. momus showed a preference for horizontal surfaces. P. nigra and Ascidia cannelata showed a preference for floating units. It is concluded that the ascidian recruitment patterns are species-specific and vary between seasons, orientation and position on the substrata and in the water column.