国际珊瑚礁领域研究现状及知识图谱分析

采用文献计量和科学知识图谱的方法,对1902—2017年期间国际珊瑚礁研究领域的科技论文进行了分析。结果表明,与西方海洋研究领域先进国家相比,我国在珊瑚礁研究领域起步较晚,但近5年发展迅速,并在论文影响力、国际合作和研究技术发展方面有待加强。针对研究结果提出了我国珊瑚礁研究的发展建议,本研究将为了解当前国际珊瑚礁领域的研究现状和发展态势以及我国今后珊瑚礁保护方面的政策制定、项目规划和科学研究提供情报参考。     

北部湾涠洲岛珊瑚礁底栖贝类的群落特征

珊瑚礁是全球生物多样性最高的海洋生态系统之一,底栖贝类是该生态系统的重要组成类群。为了解北部湾涠洲岛珊瑚礁底栖贝类的群落现状及特征,于2015年秋季(10月)与2018年春季(5月)采用水肺潜水截线样条定量调查法对涠洲岛珊瑚礁区6个断面的底栖贝类进行了调查,并分析了物种组成、丰度、生物多样性指数等群落特征。综合两次调查结果显示涠洲岛珊瑚礁区共有底栖贝类128种,分别属于多板纲1科1属3种,腹足纲25科46属68种,双壳纲22科31属57种。优势种为斑顶拟舌骨牡蛎、粗衣蛤、刺荔枝螺、马蹄螺、杂色牙螺、青蚶、旗江珧、甲虫螺、蕾丝蟹守螺、珠母爱尔螺。2018年春季定量断面采集到的样品为2纲14科43种,各断面的丰度、生物量、多样性指数、物种丰度指数和均匀度指数均值分别为3.39个/m2、86.94 g/m2、3.31、3.50、0.37。通过对两年的调查数据比较,发现2015?2018年涠洲岛珊瑚礁区的贝类生物群落呈现良好演替发育趋势。南海珊瑚礁区贝类群落结构可能受到了人为干扰强度和纬度的双重影响。本研究全面掌握了涠洲岛珊瑚礁底栖贝类的种类、分布区及群落的结构与变化,可为该地区海洋生物资源开发利用、珊瑚礁保护和生态修复等工作提供数据支持。     

中国文昌红树林-海草床-珊瑚礁连续生境的鱼类连通性

Understanding the connectivity of fish among different typical habitats is important for conducting ecosystembased management, particularly when designing marine protected areas(MPA) or setting MPA networks. To clarify of connectivity among mangrove, seagrass beds, and coral reef habitats in Wenchang, Hainan Province,China, the fish community structure was studied in wet and dry seasons of 2018. Gill nets were placed across the three habitat types, and the number of species, individuals, and body size of individual fish were recorded. In total, 3 815 individuals belonging to 154 species of 57 families were collected. The highest number of individuals and species was documented in mangroves(117 species, 2 623 individuals), followed by coral reefs(61 species,438 individuals) and seagrass beds(46 species, 754 individuals). The similarity tests revealed highly significant differences among the three habitats. Approximately 23.4% species used two habitats and 11.0% species used three habitats. A significant difference(p0.05) in habitat use among eight species(Mugil cephalus, Gerres oblongus, Siganus fuscescens, Terapon jarbua, Sillago maculata, Upeneus tragula, Lutjanus russellii, and Monacanthus chinensis) was detected, with a clear ontogenetic shift in habitat use from mangrove or seagrass beds to coral reefs. The similarity indices suggested that fish assemblages can be divided into three large groups namely coral, seagrass, and mangrove habitat types. This study demonstrated that connectivity exists between mangrove–seagrass–coral reef continuum in Wenchang area; therefore, we recommend that fish connectivity should be considered when designing MPAs or MPA network where possible.     

Dietary separation between co-occurring copepods in a food-limited tropical coral reef of the Sanya Bay

Food differentiation among coexistent species in the field is important strategy for copepods to acquire materials and maintain population stabilization.In situ diet analysis of co-occurring six copepod species in coral waters of the Sanya Bay was conducted using a PCR protocol based on 18 S ribosomal gene.Various prey organisms were uncovered,including dinoflagellate,diatom,green algae and plant,protozoa and metazoan.All these spatially coexisting six species showed different dietary diversity,with the food niche breadth(B)ranging from 1.00(Temora turbinate in morning)to 10.68(Calanopia elliptica in night).While food overlap between all these copepods were low,with the average value of the diet niche overlap index being approximately 0.09.Even temporally co-existing species sampled from the same time point fed on different groups of prey items with the food overlap index of 0.04 to 0.07 in midday and night but 0 in morning.As the most important dominant copepod in the Sanya Bay,Subeucalanus subcrassus seems to be capable to regulate its feeding,by exhibiting a rhythm of herbivorous feeding in midday and carnivorous feeding in morning and night,to better coordinate with other competitors for utilization of food resources.For most copepods,none of the prey items belonged to the dominant phytoplankton in the ambient water,indicating that copepod can better their survival by widening the choice of potential food resources in food limited environment.The dietary separation observed here might be important strategy for copepod to maintain population stabilization and thriving in the Sanya coastal waters.     

基于18S rDNA条形码技术的珊瑚礁区塔形马蹄螺(Tectus pyramis)食性分析

塔形马蹄螺(Tectuspyramis)是一种暖水性较强的海洋贝类,也是一种重要的礁栖生物,研究其自然环境中的食物组成对于认识其生态功能具有重要意义,但由于缺少直接的食物组成信息,对其食性和生态功能定位尚不明确。本研究于2017年春季在南沙珊瑚礁区采集了塔形马蹄螺样品,以18S rDNA可变区(V4)序列为靶标,用高通量测序技术分析了其现场食物组成。共测得41个OTU,分属11个门类,包括节肢动物门(Arthropoda)、子囊菌门(Ascomycota)、担子菌门(Basidiomycota)、丝足虫门(Cercozoa)、刺胞动物门(Cnidaria)、Stramenopiles(不等鞭毛类)、网粘菌门(Labyrinthulomycota)、软体动物门(Mollusca)、多孔动物门(Porifera)、甲藻门(Pyrrophyta)、捕虫霉亚门(Zoopagomycota)。与以往研究不同的是,本研究发现塔形马蹄螺消化道中存在大量沉积物碎屑,其中有孔虫、真菌、后生动物是最重要的类群,占食物序列组成的99.76%,它们主要存在于海洋沉积物、有机碎屑和礁石表生藻类基质(Epilithic algal matrix, EAM)中。研究结果揭示了塔形马蹄螺的食物主要来源于EAM中的小型生物和碎屑以及珊瑚礁石上的有害生物,推测塔形马蹄螺属于沉积物碎屑食性生物,可能在清除珊瑚表面藻类基质、促进珊瑚幼体附着过程中发挥一定的作用,对于维护珊瑚生态系统的健康和稳定具有积极意义。     

Precious coral fisheries management in Taiwan—Past,present & future

Taiwan used to have the biggest precious coral fisheries industry in the world. However, due to changes in the fishery, including increased fishing restrictions and the replacement of obsolete vessels, the scale of the industry had been gradually reduced since 1979. Unfortunately, the initiative proved to be poorly managed and resulted in an increase in illegal, unreported and unregulated (IUU) coral fishing. This forced the government to review and amend the precious coral fisheries management regulations, which had been in place for decades. The Taiwanese government introduced stringent monitoring, control and surveillance (MCS) management methods, already used in deep water fisheries, as a precautionary approach. At the same time, an investigation and evaluation of existing resources was carried out. Together, these initiatives were introduced in order to encourage the domestic industry to adopt the concept of ecosystem-based fishery management.     

福建东山海域石珊瑚种类多样性及其空间分布

调查了福建东山珊瑚省级自然保护区内石珊瑚种类的多样性和群落的空间分布,共发现5种造礁石珊瑚,分别为标准蜂巢珊瑚（Faviaspeciosa）、锯齿刺星珊瑚（Cyphastrea serailia）、盾形陀螺珊瑚（Turbinaria peltata）、小星珊瑚（Leptastrea sp．）、角孔珊瑚（Goniopora sp．）,和1种非造礁石珊瑚猩红筒星珊瑚（Tubastrea coccinea Lesson）．结果表明：（1）东山石珊瑚优势种为标准蜂巢珊瑚、锯齿刺星珊瑚和盾形陀螺珊瑚,但是东山的造礁石珊瑚种类正在减少．（2）东山石珊瑚的空间分布呈现正态分布,受人类影响较小的中间区域珊瑚覆盖率最高,受人类活动影响大的两端区域没有或者只有极少量的珊瑚分布．（3）东山湾内理化环境退化明显,部分区域已经不太适合珊瑚生长,仅仅少数站位分布少量石珊瑚群落,而大部分站位已经不见石珊瑚的踪影．随着远离东山湾方向,珊瑚覆盖率显著增加,在头屿一赤屿区域珊瑚覆盖率达到最大,珊瑚生长状态较好,具有较高的保护价值．随着离澳角渔港码头距离越来越近,珊瑚的覆盖率则逐渐降低．针对东山珊瑚分布区域的环境现状,应该加强东山湾污水入海的控制,合理开展海水养殖,开发利用与环境保护并重,这才能保护处在东山湾外的珊瑚群落．     

沉积物对珊瑚礁及礁区生物的影响

海水中日益增多的悬浮物和泥沙沉降是导致珊瑚礁严重衰退的原因之一。沉积物覆盖在珊瑚礁生物表面,影响其呼吸作用,而海水浊度的增加会减少光合作用的可利用光。过多的沉积物改变了礁区的物理以及生物过程,从而对珊瑚礁生态系的结构和功能产生不利影响。为了有效评估珊瑚礁的变化趋势,如优势种丰度以及空间分布的变化等,应用标准的监测方法进行长期监测对于掌握这一复杂生态系统的变化是非常关键的。综述了沉积物对珊瑚生长率、生长形态、代谢和繁殖与补充以及礁区生物的影响,并指出未来的研究方向,以期为珊瑚礁的保护提供参考。     

黑潮源区及邻近海域海水密度跃层分析

根据该海域多年资料的分析结果,对该海域密度跃层作了比较详细的阐述,主要包括各类型跃层在不同季节的分布特征及其变化规律,并对密度跃层的成因作了一定的分析和探讨。     

涠洲岛珊瑚礁近千年的发育过程及其对气候变化的响应*

高纬度珊瑚栖息地能否成为气候变暖背景下热带珊瑚物种的“避难所”仍不明确, 南海北部的相关研究更是稀少。本文以取自涠洲岛的2根珊瑚礁沉积岩心为研究对象, 通过U-Th定年、沉积组分分析以及珊瑚种属鉴定等方法, 探讨近千年以来珊瑚礁的发育过程及其对气候变化的响应。研究结果发现, Core1(石螺口)岩心沉积的3个快速堆积阶段分别与罗马暖期、中世纪暖期和现代暖期大致对应; 而2个缓慢堆积阶段则分别与黑暗时代冷期和小冰期大致对应, 证实了温暖的气候对珊瑚礁发育有促进作用, 而寒冷的气候则不利于珊瑚礁的发育; 此外, 现代强烈的人为干扰可能也导致了涠洲岛珊瑚礁的迅速退化。Core2(南湾)中陆源沉积含量高, 珊瑚年龄主要集中在800AD—950AD和现代这两个时间段内, 其原因可能与环境变化、风暴作用及湾内现代珊瑚分布特征有关。通过对比这两个站位的珊瑚礁沉积特征, 本文进一步提出“完全避难所”和“非完全避难所”的概念, 揭示涠洲岛珊瑚可能同时具有低纬度热带珊瑚礁和高纬度珊瑚群落这两种发育特征和趋势。