莱州湾增殖礁附着牡蛎的固碳量试验与估算

通过对莱州湾增殖型人工鱼礁附着生物的取样调查,分析了礁体附着优势种褶牡蛎壳干质量、总湿质量和附着厚度的季节变化及其随礁龄变化的差异,并对礁区的总固碳量进行了估算.结果表明： 增殖礁礁体附着褶牡蛎壳干质量和总湿质量均呈现明显的季节性变化(P＜0.01),4月最低,12月最高.增殖礁礁龄对附着褶牡蛎壳干质量、总湿质量和附着厚度影响显著(P＜0.01),均随礁龄的增加呈递增趋势.莱州湾圆管型增殖礁5、4和3年礁龄的礁体附着牡蛎固碳量分别为17.61、16.33和10.45 kg·m^-3.2009—2013年,莱州湾金城海域64.25 hm²海洋牧场圆管型增殖礁礁体上附着牡蛎总固碳量约为297.5 t C,相当于封存了1071 t CO₂,而封存固定这些CO₂所需费用约1.6×10⁵～6.4×10⁵美元.因此,增殖礁附着牡蛎具有巨大的生态效益.     

大亚湾人工鱼礁海域浮游植物的群落特征

近年来,随着大亚湾沿岸城镇社会经济的快速发展和人类活动的增加,大亚湾海域生态环境日益恶化。人工鱼礁是修复、改善和优化海洋生态环境,保护和增殖渔业资源最有效的措施之一。根据投礁前、后大亚湾大辣甲南人工鱼礁海域浮游植物垂直拖网调查结果,初步分析了大亚湾人工鱼礁区浮游植物的群落特征。结果表明:投礁后,浮游植物的平均丰度呈逐年递增趋势,礁区内的平均丰度明显高于同期对照海区;浮游植物的多样性指数和均匀度都比投礁前有了明显增加。上述结果表明,投放人工鱼礁有助于改善海域生态环境和提高水域的初级生产力水平。     

浙江健跳港牡蛎礁的幼体补充量和附着底物筛选

本研究通过监测浙江健跳港牡蛎礁海域的牡蛎幼体补充量,并开展田间实验,比较了两种底物(牡蛎壳、岩石)的牡蛎附着效果,从而确定合理的牡蛎礁修复方式,推荐适宜的建礁材料。结果显示：牡蛎自然补充群体中共有4种牡蛎,即近江牡蛎(Crassostrea ariakensis)、熊本牡蛎(C.sikamea)、福建牡蛎(C.angulate)和猫爪牡蛎(Talonostrea talonata),补充量中以熊本牡蛎占绝对优势,相对丰度达95%以上。牡蛎补充量介于0～44 200个/m²,月平均补充量为(7 165±1 246)个/m²。附着底物筛选实验结果表明潮区(P<0.001)和底物类型(P=0.004)均显著影响牡蛎补充量,两因子之间存在显著的互作效应(F_1,16=8.214,P=0.011)。4个实验组间附着牡蛎密度的排序为：高礁区岩石>高礁区牡蛎壳>低礁区岩石=低礁区牡蛎壳(P<0.05);相对于牡蛎壳,岩石是更为适宜的牡蛎附着底物。本研究得出浙江健跳港牡蛎礁为底物受限型,可在退化礁区投放岩石修复牡蛎...     

环境因子对大亚湾人工鱼礁上附着生物分布的影响

通过对深圳大亚湾人工鱼礁区7个月(2008-04～2008-10)挂板实验,同时监测相应的环境因子指标.以附着生物丰度数据进行了除趋势对应分析(DCA),并根据附着生物丰度数据和7个环境因子进行了典范对应分析(CCA).共鉴定出附着生物54种,物种鉴定结果表明实验试板上的常见种有华美盘管虫 (Hydroides elegans)、三角藤壶( Balanus trigonus)、细肋肌蛤(Musculus mirandus)等.DCA种类排序图可明显地看出每种附着生物都有自己的分布中心和分布区域;CCA分析结果表明深度、透明度、溶解氧是影响附着生物群落变化的最主要环境因子,其次是盐度和温度.CCA排序图较好地反映了人工鱼礁上附着生物分布与各环境因子的相互关系.     

莱州湾金城海域鱼礁投放后大型底栖动物群落变化

为研究莱州湾金城海域人工鱼礁对大型底栖动物的影响,2009-2012年对鱼礁区与对照区的大型底栖动物进行了9次调查,研究底栖动物种类组成、群落结构、种类相似性、生物量、丰度以及多样性的变化和群落稳定性.结果表明:人工鱼礁区与对照区共采集到大型底栖动物4门30科35种,其中鱼礁区30种,对照区27种.调查海域站点按照鱼礁投放与否可分为两个不同的群落,造成群落分组的首要贡献种为浮游生物食者.鱼礁区与对照区种类相似性由鱼礁投放后第一年的37.5％提高到第二年的58.6％.鱼礁区底栖动物生物量由第一年的1.00 g·m-2增加到第二年的1.55 g·m-2,差异显著;丰度由540 ind·m-2增至622ind·m-2.鱼礁区底栖动物的生物量和丰度均高于对照区.与对照区相比,鱼礁投放后鱼礁区Shannon指数、丰富度指数有所升高,均匀度指数有所降低.丰度/生物量比较(ABC)曲线表明,鱼礁投放后第二年底栖动物群落的扰动较第一年更为明显,说明人工鱼礁投放早期(1～2年)大型底栖动物群落还处于一个被扰动状态.莱州湾金城海域鱼礁投放后大型底栖动物群落变化主要受到物理、化学、生物以及人类活动的影响.     

海州湾人工鱼礁二期工程海域大型底栖生物初步研究

2005、2007、2008年每年2月、5月和8月按《海洋监测规范》中大型底栖动物调查方法,分别对海州湾人工鱼礁二期工程施工海域(34°52′~30°55′N、119°25′34″~119°26′34″E)采用阿氏拖网进行了调查。监测结果显示,底栖动物的种类数较投放前有所增加;底栖动物年均总生物量逐年降低,2005年(1.0016g/m2)>2007年(0.9681g/m2)>2008年(0.7327g/m2);底栖生物群落生物多样性指数(H′)和丰富度(d)年均值呈逐年上升趋势,并且具有明显的季节性变化,春季最高,夏季次之,秋季最低;投礁前夏季的底栖动物的群落处于稳定状态而投礁后处于中度扰动状态。监测结果表明,鱼礁工程建设已经对投礁海域的底栖动物种类数、总生物量、多样性指数以及群落稳定性产生了一定程度的影响。     

基于Ecopath模型的荣成俚岛人工鱼礁区生态系统结构和功能评价

基于2009年在荣成俚岛人工鱼礁区进行的周年生物资源调查数据,构建了俚岛人工鱼礁区生态系统生态通道模型(Ecopath),系统分析了俚岛人工鱼礁区生态系统的能量流动规律和系统结构特征.该模型由19个功能组构成,基本涵盖了俚岛人工鱼礁区生态系统能量流动的主要过程,根据礁区调查出现的鱼类与鱼礁的对应位置关系划分功能组,并引入浮游异养细菌功能组.结果表明:礁区调查出现的鱼类可划分成7个功能组,系统中各功能组的营养级在1.00 ～ 3.72级,其中,礁区I型鱼类处于最高营养级;系统总流量为10786.68t·km-2·a-1,其中,27％流向碎屑,17％以捕捞和沉积的形式流出系统;系统的总初级生产力为4131.97 t· km-2·a-1;系统的总能量转换效率为10.5％,流量中来自碎屑的比例为39％,61％直接来源于初级生产者,能流通道以牧食食物链为主导;系统的总初级生产量/总呼吸量为1.84,系统连接指数为0.20,Finn循环指数为4.5％,能流平均路径为2.62.俚岛人工鱼礁区生态系统当前的成熟度和稳定性较低,是一个正处于发育阶段的生态系统,系统抵抗外界干扰的能力较弱,鱼礁区的生态环境和渔业产出在年际间会出现一定波动,人工鱼礁对生态环境的修复作用需要继续养护才能得以实现.     

基于克里格插值的绿华-三横海域渔业资源量空间分布的初步探讨

基于2007年5、9月,2008年7月,2009年3、5、7、10、12月渔业资源拖网调查数据,应用克里格插值法对绿华-三横海域的渔业资源量的空间分布进行了初步分析,得到如下结果:东库鱼礁区和三横鱼礁区聚集生物的作用是显而易见的;三横鱼礁区聚集生物的效果要相对强于东库鱼礁区聚集生物的效果;岛礁周围的渔业资源量分布特征是符合实际情况的。结果表明,应用克里格插值对绿华-三横海域的渔业资源空间分布的分析是可行的。     

荣成俚岛人工鱼礁区游泳动物群落特征及其与主要环境因子的关系

根据2009年5月份至2010年2月份于山东荣成俚岛人工鱼礁区和对照区4个季度月的游泳动物及同步的环境调查数据,采用Margalef种类丰富度指数,Shannon-Wiener多样性指数,Pielou均匀度指数分析了鱼礁区游泳动物群落组成和物种多样性的时空分布特征,运用梯度分析法对调查区域游泳动物群落格局与环境因子进行排序分析,结合蒙特卡罗检验确定影响鱼礁区游泳动物群落结构的控制因子。调查期间共捕获游泳动物18种,隶属于8目15科,优势种为许氏平鲉(Sebastes schlegeli)、大泷六线鱼(Hexagrammos otakii)和斑头六线鱼(Hexagrammos agrammus),其中许氏平鲉在渔获量组成中占绝对优势(41%)。鱼礁区游泳动物的渔获种类数和渔获量高于各自对照区,但差异不显著(P>0.05), 季度月平均CPUE最高值出现在近岸礁区,达到830.24 g ·网^-1·d^-1。群落组成特征值上,春秋季的参数值最大,鱼礁区与对照区间并无显著差异(P>0.05)。聚类分析表明,春季、夏季和冬季均是季度月内不同区域的样方相似性较高,而秋季的远岸礁区及其对照区样方与春季各区域样方的相似性高于秋季近岸礁区及其对照区。RDA分析表明,水温对游泳动物群落组成变化的解释量为37.1%,是主要的解释因子(P=0.002)。水温和水深等环境因子主导了俚岛人工鱼礁区游泳动物群落结构的时空变化。     

贵州兴义及邻区中三叠世安尼期管壳石礁的造礁和附礁生物组成及地质意义

黔西南兴义地区及邻区中三叠世安尼期台地边缘生物礁发育在上扬子台地西南缘,为大型堡礁。造礁生物主要为暗管管壳石Tubiphytes obscurus,鹿角状管壳石Tubiphytes alcicornis,以及脑型丛状管壳石Plexoramea cerebriformis,占造礁生物总量的90%以上。苔藓虫类Reptonoditrypa cautica,珊瑚类Pinacophyllum spizzensis,奥顿菌Ortonella sp.以及普拉塔拉丁管Ladinella porata等为次要造礁生物。此外,礁灰岩中还见棘皮动物、腹足动物、腕足动物和有孔虫等附礁生物。该生物礁为晚二叠世绝灭事件之后在中三叠世开始重新建立的台地边缘礁复合体。本次研究为中三叠世造礁生物种类的恢复提供了新材料,同时也填补了上扬子台地西南缘安尼期生物礁研究的空白。     

Using bioacoustics and conventional netting methods to assess the initial effectiveness of a newly deployed artificial reef on fish assemblages in Xiangshan Bay near Ningbo,Zhejiang Province,China

Objectives of the study were ascertaining the temporal variation of fish density and biomass as well as the changes in fish species composition in a surveyed area before and after deployment of an artificial reef. The study was initiated within an area of 0.25 km² in response to a strong demand for fisheries enhancement and resource conservation in Xiangshan Bay, Zhejiang Province, China. This survey data was collected through a SIMRAD EY60 system and bottom trinal nets pre‐ and post‐construction of the artificial reefs, May 2011 to September 2012 in Xiangshan Bay. The raw data were analyzed using fisheries acoustic Echoview (Myriax) software combined with bottom trinal net data. The results showed that estimated fish density, represented by a nautical area scattering coefficient (NASC) at the artificial reef increased by 14.04, 31.10, 17.35% in May, July and September 2012 after construction of the artificial reef, and that the fish biomass increased by 8.92, 29.06, and 18.09% in these three months of 2012 in contrast to 2011. The numbers of fish species varied from 7 to 9 in May, from 10 to 14 in July and from 9 to 12 in September of 2012. These temporal changes in the fishery status were considered as being mainly due to deployment of the artificial reefs in early April 2012.     

The influence of prey communities on fish species assemblages on artificial reefs in Puget Sound,Washington

Synopsis Research on eleven artificial reefs in Puget Sound, Washington examined the relative importance of reef-produced prey items to recreationally important reef fish species assemblages. The colonization of potential prey items, and fish species assemblages to ten artificial reefs were examined for the reefs first two to five years, and observations were conducted on an eleventh reef during its forty-ninth productive year. Fish species became more abundant, or were seen more frequently on reef habitats whose substrates had successionally developed from barnalces to algal mats. Fish species most affected by this successional change foraged heavily on organisms which were associated with reef algae. Starfish and nudibranchs. who preyed on the barnacles, were identified as the ‘keystone’ predators of these subtidal reef habitats.     

Fish assemblages on sunken vessels and natural reefs in southeast Florida,USA

Derelict ships are commonly deployed as artificial reefs in the United States, mainly for recreational fishers and divers. Despite their popularity, few studies have rigorously examined fish assemblages on these structures and compared them to natural reefs. Six vessel-reefs off the coast of southeast Florida were censused quarterly (two ships per month) to characterize their associated fish assemblages. SCUBA divers used a non-destructive point-count method to visually assess the fish assemblages over 13- and 12-month intervals (March 2000 to March 2001 and March 2002 to February 2003). During the same intervals, fish assemblages at neighboring natural reefs were also censused. A total of 114,252 fishes of 177 species was counted on natural and vessel-reefs combined. Mean fish abundance and biomass were significantly greater on vessel-reefs in comparison to surrounding natural reef areas. Haemulidae was the most abundant family on vessel-reefs, where it represented 46% of total fish abundance. The most abundant family on natural reefs was Labridae, where it accounted for 24% of total fish abundance. Mean species richness was significantly greater on vessel-reefs than neighboring natural reefs and also differed among vessel-reefs. Both mean fish abundance and mean species richness were not significantly different between natural reefs neighboring vessel-reefs and natural reefs with no artificial structures nearby. This suggests the vessel-reefs are not, in general, attracting fish away from neighboring natural reefs in our area. Additionally, economically important fish species seem to prefer vessel-reefs, as there was a greater abundance of these species on vessel-reefs than surrounding natural reef areas. Fish assemblage structure on natural versus artificial reefs exhibited a low similarity (25.8%). Although no one species was responsible for more than 6% of the total dissimilarity, fish assemblage trophic structure differed strikingly between the two reef types. Planktivores dominated on vessel-reefs, accounting for 54% of the total abundance. Conversely, planktivores only made up 27% of total abundance on natural reefs. The results of this study indicate vessel-reef fish assemblages are unique and that these fishes may be utilizing food resources and habitat characteristics not accessible from or found at natural reefs in our area. Production may also be occurring at vessel-reefs as the attraction of fish species from nearby natural reefs seems to be minimal. Electronic supplementary material Supplementary material is available for this article at and accessible for authorised users     

Large scale spatial and temporal variation in recruitment to fish populations on coral reefs

Summary Visual census was used to sample young of the year of fish species recruited to each of two habitats on seven lagoonal platform reefs of the Capricorn-Bunker Group, Great Barrier Reef. The reefs sampled span an area 70 km in extent. In 1983, 62 species from 13 families were detected as recruits on reef slope sites. The total number of cruits, and the number of each of 6 of 16 species tested, differed significantly among reefs, despite the fact that differences among sites within reefs did not exist, and that sampled slopes were chosen to be hydrographically, and physiographically as similar as possible. Lagoonal patch reefs were sampled in two years. In 1982, 76 species of 11 families occurred as recruits. In 1983, 86 species of 12 families were recorded. All of 22 species common enough to test showed some significant variation in abundance among reefs, years, or both. For 9 species, significant year x reef interactions occurred, demonstrating that relative recruitment success among reefs varied between years. Reasons for the substantial levels of variability are discussed, and implications for the organisation of reef fish communities are considered.     

Multiscale habitat associations of detrivorous blennies (Blenniidae: Salariini)

The distribution and habitat associations of detrivorous blennies on a tropical coral reef were investigated at several spatial scales and compared with other fish that feed on the epilithic algal matrix to assess density and biomass contributions of small detrivorous fishes to these assemblages. At broad spatial scales total blenny abundance and biomass were highest on the tops of reefs exposed to prevailing winds. On the finer scale of microhabitat use, all species showed a preference for non-living corals, although the type of coral utilised differed between species. The high abundance of blennies on reef tops and non-living corals may be partially related to the quality and availability of detritus in these habitats. Comparisons of total blenny abundance and biomass with other territorial detrivores found that blennies accounted for approximately 60% of this functional group's density and 21% of their biomass on exposed reef tops. Overall, territorial detrivores were found to constitute approximately 37% of the density and 26% of the biomass of the detrivorous/herbivorous fish assemblage on exposed reef tops. Small detrivorous fish therefore represent a substantial proportion of fish assemblages that feed on epilithic algae and associated detritus on coral reefs.     

The fish assemblage on a coralligenous shallow shelf off the Mediterranean coast of northern Israel

The fish assemblage on the shallow coralligenous shelf (16-30m depth) off Haifa, Israel was sampled using trammel nets throughout a period of 1 year. Complementary data were obtained via underwater censuses of fish on an artificial reef established later in the sampling area. Fortythree species of fish were sampled by trammel nets, 79% of which were observed also during the underwater censuses. Although fish of Red Sea origin constituted only 11.6% of the species composition in the net samples, they contributed 46.2% of the fish abundance and 40.6% of the biomass in these samples. This was supported by the finding that species of Red Sea origin contributed 64% of the abundance of large fish counted on the artificial reef. Siganus luridas, S. rivulatus and Sargocentron rubrum are the main contributors in number and biomass among fish of Red Sea origin. It is suggested that the biogenic rocky bottom of this area contains several components which are similar to biogenic habitats favoured by these benthic species in the Red Sea; this may explain the high abundance of these species in the studied area.     

Quantitative assessment of fish assemblages on artificial reefs using acoustic and conventional netting methods,in Xiangshan Bay,Zhejiang Province,China

Artificial reefs are often deployed by many countries for the purpose of enhancing fishing after a period of several years. The objective of this study was to analyze the effect of a pilot artificial reef system deployment in enhancing the demersal fish assemblages, investigated using both acoustic methods and bottom trammel nets, during four years between 2011 and 2017, in Xiangshan Bay, Zhejiang Province, China. Comparisons of community indices, including fish biomass, species richness and species diversity, indicated relatively consistent trends between the control sites and the artificial reefs following their deployment in 2012. Fish density, represented by the value of the nautical area scattering coefficient, and fish biomass were significantly higher on the artificial reefs than at the control sites in 2015 and 2017, and species richness and diversity were significantly greater at the reefs from 2013 to 2017. Blackhead seabream (Acanthopagrus schlegelii) and false kelpfish (Sebastiscus marmoratus) were the dominant fishes on the artificial reefs, and the average body lengths of these two species were significantly greater 40 and 64 months after deployment. Thus, construction of the artificial reefs appears to have achieved their primary purpose as fish-attraction devices, thereby contributing to ecological restoration in Xiangshan Bay.     

Mesophotic depths as refuge areas for fishery-targeted species on coral reefs

Coral reefs are subjected to unprecedented levels of disturbance with population growth and climate change combining to reduce standing coral cover and stocks of reef fishes. Most of the damage is concentrated in shallow waters (<30 m deep) where humans can comfortably operate and where physical disturbances are most disruptive to marine organisms. Yet coral reefs can extend to depths exceeding 100 m, potentially offering refuge from the threats facing shallower reefs. We deployed baited remote underwater stereo-video systems (stereo-BRUVs) at depths of 10–90 m around the southern Mariana Islands to investigate whether fish species targeted by fishing in the shallows may be accruing benefits from being at depth. We show that biomass, abundance and species richness of fishery-targeted species increased from shallow reef areas to a depth of 60 m, whereas at greater depths, a lack of live coral habitat corresponded to lower numbers of fish. The majority of targeted species were found to have distributions that ranged from shallow depths (10 m) to depths of at least 70 m, emphasising that habitat, not depth, is the limiting factor in their vertical distribution. While the gradient of abundance and biomass versus depth was steepest for predatory species, the first species usually targeted by fishing, we also found that fishery-targeted herbivores prevailed in similar biomass and species richness to 60 m. Compared to shallow marine protected areas, there was clearly greater biomass of fishery-targeted species accrued in mesophotic depths. Particularly some species typically harvested by depth-limited fishing methods (e.g., spearfishing), such as the endangered humphead wrasse Cheilinus undulatus, were found in greater abundance on deeper reefs. We conclude that mesophotic depths provide essential fish habitat and refuge for fishery-targeted species, representing crucial zones for fishery management and research into the resilience of disturbed coral reef ecosystems.