三亚珊瑚礁保护区珊瑚礁生态系统现状及其健康状况评价

为评估三亚珊瑚礁国家级自然保护区珊瑚礁生态系统的健康状况, 本文选取东岛、鹿回头、大东海3个站位调查了珊瑚礁群落、珊瑚礁鱼类和大型底栖动物。通过对比分析历史资料、珊瑚礁现场生态调查与监测及组织专家评审, 筛选出一、二级指标并设置权重, 使用综合指数计算了三亚珊瑚礁保护区珊瑚礁生态系统健康指数。结果显示, 三亚珊瑚礁保护区内共有造礁珊瑚10科21属37种, 软珊瑚3种, 造礁珊瑚覆盖率和软珊瑚覆盖率分别为14.31%和0.19%, 其中鹿回头造礁珊瑚覆盖率最高, 为21.58%。珊瑚礁鱼类共14科28属36种, 其中, 雀鲷科的种类数最多, 为11种。鹿回头4 m断面珊瑚礁鱼类密度最大, 为154尾/300 m²。砗磲和龙虾极少发现, 珊瑚天敌核果螺多见。东岛、鹿回头、大东海珊瑚礁生态系统健康状况均处于“一般”。本文所采用的方法是结合常规珊瑚礁监测可获得的指标进行评价, 简便易操作, 通过在三亚珊瑚礁保护区的实践, 能够很好地反映珊瑚礁生态系统现状及其健康状况, 科研和业务化监测部门均可应用。     

三亚鹿回头石珊瑚物种多样性的空间分布

对三亚鹿回头珊瑚岸礁沿垂直岸线的5条断面上84个调查样方观测照相和室内判读分析,鹿回头岸段石珊瑚共有13科24属69种,珊瑚分布不均,少数种类优势明显.石珊瑚优势种为澄黄滨珊瑚,其重要值百分比为36.62%;优势属为滨珊瑚属(43.85%)和鹿角珊瑚属(22.88%).各断面间多样性格局差异明显,并存在明显的垂直分带现象:东北部第1、2断面石珊瑚种类分布较为均匀,多样性指数值高于中南部第3、4、5断面;礁坪为珊瑚稀疏生长带,种类较少且滨珊瑚为绝对优势属(重要值百分比＞50%);礁坡为珊瑚密集生长带,种类较多以鹿角珊瑚最占优势(28.33%),滨珊瑚仅次之(26.71%).近年来该岸段珊瑚礁衰退趋势明显,不合理的破坏性人类活动是重要原因.石珊瑚多样性的空间差异除因礁坪礁坡不同的自然环境外,主要与受到不同类型和强度的人类活动有关.礁坪大潮低潮时暴露,环境恶劣,且受人类采挖、践踏活动影响较频繁和明显;礁坡环境适宜,人类活动影响也相对微弱.养殖、捕捞和近岸排污等人类活动在岸段中南部较为突出,对珊瑚多样性的影响比东北部明显.在尊重珊瑚礁发育的自然规律基础上不断加大力度制止养殖、不合理捕捞和近岸排污等破坏性人类活动,才能更好地科学保护和管理该岸段珊瑚礁.     

运用PCR-RFLP方法研究三亚鹿回头岸礁造礁石珊瑚共生藻的组成

造礁石珊瑚共生藻的系统分类研究对于理解珊瑚礁生态系统对全球变化的响应具有十分重要的意义.本研究利用PCR技术扩增核糖体基因人亚基片段以及限制性片段长度多态性(RFLP)的方法,对海南三亚鹿回头岸礁的8科14属22种造礁石珊瑚的共生藻组成进行了研究.结果表明鹿回头岸礁造礁石珊瑚共生藻以C系群为优势系群,偶尔发现D系群与鹿角杯形珊瑚(Pocilolpora damieornis)和黄癣蜂巢珊瑚(Favia favus)共生:另外丑鹿角珊瑚(Acropora horrida)和丛生盔形珊瑚(Galaxea fascicularis)可以同时与C系群和D系群共生.共生多型性的发现暗示珊瑚与共生藻的共生关系具有灵活性.研究结果同样显示共生藻的核糖体基因人片段的DNA多态性偏低.未来应该结合其他的分子标记对鹿回头岸礁造礁石珊瑚共生藻的DNA多态性进行更深入的研究.     

海南岛周边海域造礁石珊瑚的群落结构及其分布

基于形态学分类鉴定,并辅以分子标记,我们于2014–2015年调查分析了海南岛文昌云龙湾、万宁大洲岛、儋州磷枪石岛、昌江沙鱼塘村、三亚鹿回头海域造礁石珊瑚的种类组成和分布。结果表明,海南造礁石珊瑚的分布较为广泛,共鉴定出10科17属55种,其中鹿角珊瑚科、滨珊瑚科和蜂巢珊瑚科为优势科。各海域造礁石珊瑚的群落结构不同:南部三亚鹿回头海域以分枝状鹿角珊瑚为主,东部文昌云龙湾和万宁大洲岛海域分别以叶片状和分枝状蔷薇珊瑚为主,而西部儋州磷枪石岛和昌江沙鱼塘村则分别以团块状滨珊瑚和蜂巢珊瑚为主。不同的地理环境使海南岛周边海域珊瑚礁群落呈现出不同的演替型,具有明显的地域性分布特点。5个不同海域造礁石珊瑚的覆盖率和多样性指数依次为:三亚鹿回头文昌云龙湾昌江沙鱼塘村万宁大洲岛儋州磷枪石岛,覆盖率和多样性指数具有明显的正相关性。与2005–2010年的调查结果相比,文昌云龙湾和万宁大洲岛保护区造礁石珊瑚的覆盖率和多样性指数有所上升,昌江沙鱼塘村和三亚鹿回头相对稳定,儋州磷枪石岛则下降比较明显。死亡率较高的是昌江沙鱼塘村邻近海域,且多为最近半年内死亡。人类活动(保护性或破坏性)极大地影响着造礁石珊瑚的多样性、覆盖率和死亡率。     

海南三亚后海海域珊瑚礁生态系统的健康状况及其影响因素

分别采用鹞式调查法和断面监测法调查了海南三亚后海海域珊瑚的物种多样性、覆盖率、病害和补充量等指标,利用健康指数(CI)评估了后海珊瑚礁生态系统的健康状况,并初步分析了影响该区域珊瑚礁健康状况的主要因素。调查发现:后海海域造礁石珊瑚54种,覆盖率达到50%以上,珊瑚病害及死亡率低,珊瑚补充量高达4.5个·m-2,CI值介于1.87~2.27,表明后海海域的珊瑚礁生态系统非常健康。分析认为:后海海域浅水区域存在的海草床和大型藻类,以及珊瑚礁区高密度的植食性动物和夏季上升流的存在是该区域珊瑚礁生态系统健康的主要原因。海草和海藻将陆源污染物过滤吸收,确保进入珊瑚礁生态系统的水质良好;数量众多的植食性动物(如魔鬼海胆Diadema setosum等)调控了大型藻类和珊瑚之间的竞争关系,保证大型海藻不会威胁到珊瑚的健康生长;而后海海域夏季上升流的出现使得该海域珊瑚礁生态系统不会受到高温的影响,不会产生热白化现象。这样,多个因素的共同作用保证了后海珊瑚礁生态系统的健康。     

海南鹿回头岸礁造礁石珊瑚群落结构动态Ⅱ.物种多样性

根据石珊瑚物种的总数、石珊瑚覆盖的百分率、物种多样性和均匀度,对鹿回头岸礁造礁石珊瑚群落结构类型所处在演替阶段的时间状态和生境的空间状态进行分析。在中等和深水区物种多样性的时间变异,随演替的发展而有所下降;浅水区不随演替而变化。在不同生境区珊瑚生长的聚群上,与时间的发展无关;每个演替时期,物种多样性的类型与生境的变化有关。     

大洲岛珊瑚礁海域水质状况分析与评价

通过2013 年3 月、6 月、9 月、12 月对大洲岛近岸海域的水温、盐度、透明度、pH、溶解氧(DO)、化学需氧量(COD)、DIP、无机氮(DIN)进行了测定, 应用单因子污染指数, 富营养化指数, 有机污染指数和单因素方差分析进行了该海域分析和评价。结果表明, 大洲岛海域前港、湾内、后港均有利于珊瑚的生长、繁殖。风向季节性转移引起的人为活动规律的变化和研究区珊瑚覆盖率的高低对大洲岛各研究区水质相互之间均不存在显著差异性影响, 春季为大洲岛珊瑚礁海域污染最为严重的季节, 夏季次之, 秋冬两季水质较好, DIN 为主要污染物,过多的DIN 不应被视为可以导致海水的富营养化条件。珊瑚月平均增长覆盖率与COD、DIP、DIN 存在显著负相关性, 适宜珊瑚生长和繁殖的水质应为国家二类水质以上。     

亚龙湾珊瑚礁大型礁栖生物的群落结构及生态警示

鱼类和大型底栖生物等礁栖生物是珊瑚礁生态系统的重要组成部分,其群落信息是全面评价珊瑚礁生态系统健康状况的必要基础数据。基于录像样带法,分析了2018年12月底海南省三亚市亚龙湾珊瑚礁区17个站位礁栖鱼类和大型底栖生物的群落结构、数量分布及相似性,揭示了其中的生态警示,并提出相应的监管建议,旨在保护和恢复亚龙湾的珊瑚礁。结果表明:亚龙湾西岸及东排、西排共发现鱼类8科21属35种,以雀鲷科、隆头鱼科为主,平均密度为0.20尾·m^-2,金尾雀鲷、斑棘眶锯雀鲷和细鳞光鳃鱼为优势种;最近15年来,亚龙湾的鱼类资源持续衰退,目前已近于枯竭。另一方面,调查区的大型底栖生物以软珊瑚、大型底栖藻类、海百合和海胆为主,各类群的数量分布有所不同;造礁珊瑚的敌害生物小核果螺和长棘海星密度皆很低,目前尚不会对珊瑚礁构成威胁;整体而言,大型礁栖生物群落在亚龙湾西岸与东排、西排有较大的差异,间接反映出岛礁与岸礁环境存在差别,不过亚龙湾西岸湾口段的环境条件可能更接近岛礁;由于部分海区大型底栖藻类较多及可能存在的富营养化趋势,维持金尾雀鲷或其他植食性鱼类与藻类规模两者间的平衡,对恢复和保持亚龙湾珊瑚礁生态系统的健康尤为重要;同时,管控来自青梅河等的陆源污染,也是控制亚龙湾大型海藻增殖的关键;相比于海参,海百合对大型底栖藻类的依赖程度较低。调查区造礁珊瑚覆盖率与礁栖生物数量之间没有显著相关,可能与亚龙湾珊瑚礁退化严重及现存的种类以团块状造礁珊瑚为主,其构建的珊瑚礁生境空间异质性相对较低有关。为更好地保护亚龙湾的珊瑚礁,建议关注亚龙湾的水质,加强对捕鱼、潜水观光等旅游活动的监督管理,特别是应该立即实施长时间的渔业禁捕来恢复亚龙湾的渔业资源,并定期监控关键种群的数量变动。     

鹿回头库礁造礁石珊瑚物种多样性的研究

定量分析鹿回头岸礁造礁石珊瑚群落的种类组成,选择α－多样性和β－多样性的度量方法,分析了该群落造礁石珊瑚种、属和科的多样性及其与所处生境的关系。结果表明：鹿回头岸礁造礁石珊瑚群落的物种比较丰富,多样性和均匀度指数都较高,但在不同地段之间存在着明显的差异。水深中等的地段（２．４～５．０ｍ）的多样性指数高于较浅（１．５～２．０ｍ）和较深（５．５～６．５ｍ）地段;期间带与潮下带之间和礁平台与向海斜坡之间的两个过渡地带的生境条件复杂,物种多样性和种类分布的混杂程度都高于其他地段。     

海南岛鹿回头及其附近的贝类

鹿回头位于海南岛南端,座落在北纬18°13＇,东经109°29＇。靠近三亚湾外的沿岸基本上都是花岗岩,离岸10多米外即有约20米的深度。湾内是石砾、珊瑚次生礁和砂质海岸,潮问带有几十米的宽度。最大潮差只约有1.9米。从前这一带海面普遍生长过珊瑚礁,但由于多年开采,目前在潮间带已看不到成片的活珊瑚。潮下带全年水温较高,冬季最低水温在20℃以上,夏季最高水温略超过30℃;附近没有河流,海水盐度受淡水的影     

Spatial pattern of coral diversity in Luhuitou fringing reef, Sanya, China

84 quadrats from 5 vertical transects of Luhuitou fringing reef are investigated in detail by using video-quadrat and indoor-interpretation methods. The results show that (1) the reef consists of 69 species of hermatypic corals belonging to 24 genera and 13 families which are unevenly distributed in abundance. (2) Among all the corals, Porites lutea is the most dominant species with importance value percentage up to 36.62%; Porites and Acropora are dominant genera with importance value percentages 43.85% and 22.88%, respectively. (3) There exist distinct spatial differences in coral communities. Both the coral covers and coral diversity indices on the northeastern transects are higher than those on the central and southern transects. (4) Coral communities also show remarkable zonal characteristics with less coral species occurring on reef flat than on reef slope. The importance value percentage of the sole dominant coral genus, Porites, is over 50%, while on the reef slope, the importance value percentages are 28.33% for the first dominant genus Acropora and 26.71% for the second dominant genus Porites. Our further analysis suggests that the spatial and zonal differences of coral diversity pattern are correlated with both natural environmental changes and human activities. The shallow water reef flat is frequently exposed at low tide and it receives more anthropogenic influences (including dredging and trampling) than the deep water reef slope. Thus, the coral community on the reef flat is not as well developed as that on reef slope. The relatively poor coral covers and coral diversity indices on the central and southern transects are closely related to heavy human activities around these sites such as aquaculture, fishing and coastal sewage drainage. Therefore, the impact of human activities must be taken into account in developing strategies for the protection of this coral reef.     

Spatial pattern of coral diversity in Luhuitou fringing reef, Sanya, China

84 quadrats from 5 vertical transects of Luhuitou fringing reef are investigated in detail by using video-quadrat and indoor-interpretation methods. The results show that (1) the reef consists of 69 species of hermatypic corals belonging to 24 genera and 13 families which are unevenly distributed in abundance. (2) Among all the corals, Porites lutea is the most dominant species with importance value percentage up to 36.62%; Porites and Acropora are dominant genera with importance value percentages 43.85% and 22.88%, respectively. (3) There exist distinct spatial differences in coral communities. Both the coral covers and coral diversity indices on the northeastern transects are higher than those on the central and southern transects. (4) Coral communities also show remarkable zonal characteristics with less coral species occurring on reef flat than on reef slope. The importance value percentage of the sole dominant coral genus, Porites, is over 50%, while on the reef slope, the importance value percentages are 28.33% for the first dominant genus Acropora and 26.71% for the second dominant genus Porites. Our further analysis suggests that the spatial and zonal differences of coral diversity pattern are correlated with both natural environmental changes and human activities. The shallow water reef flat is frequently exposed at low tide and it receives more anthropogenic influences (including dredging and trampling) than the deep water reef slope. Thus, the coral community on the reef flat is not as well developed as that on reef slope. The relatively poor coral covers and coral diversity indices on the central and southern transects are closely related to heavy human activities around these sites such as aquaculture, fishing and coastal sewage drainage. Therefore, the impact of human activities must be taken into account in developing strategies for the protection of this coral reef.     

Relative Importance of Coral Cover,Habitat Complexity and Diversity in Determining the Structure of Reef Fish Communities

The structure of coral reef habitat has a pronounced influence on the diversity, composition and abundance of reef-associated fishes. However, the particular features of the habitat that are most critical are not always known. Coral habitats can vary in many characteristics, notably live coral cover, topographic complexity and coral diversity, but the relative effects of these habitat characteristics are often not distinguished. Here, we investigate the strength of the relationships between these habitat features and local fish diversity, abundance and community structure in the lagoon of Lizard Island, Great Barrier Reef. In a spatial comparison using sixty-six 2m² quadrats, fish species richness, total abundance and community structure were examined in relation to a wide range of habitat variables, including topographic complexity, habitat diversity, coral diversity, coral species richness, hard coral cover, branching coral cover and the cover of corymbose corals. Fish species richness and total abundance were strongly associated with coral species richness and cover, but only weakly associated with topographic complexity. Regression tree analysis showed that coral species richness accounted for most of the variation in fish species richness (63.6%), while hard coral cover explained more variation in total fish abundance (17.4%), than any other variable. In contrast, topographic complexity accounted for little spatial variation in reef fish assemblages. In degrading coral reef environments, the potential effects of loss of coral cover and topographic complexity are often emphasized, but these findings suggest that reduced coral biodiversity may ultimately have an equal, or greater, impact on reef-associated fish communities.     

Cyclone effects on coral reef habitats in New Caledonia (South Pacific)

The impacts of the unusually strong Cyclone Erica (March 2003) on coral reef habitats at a site located on the northwest coast of New Caledonia (South Pacific) were assessed using a 6-year data set (2002–2007). We examined the interannual variations of key variables describing reef habitats (live hard and soft corals, dead corals in place, coral debris, algae and relative proportion of mechanically vulnerable and resistant live hard corals). The cyclone-induced disturbances of habitats differed according to three reef types: patch reefs, barrier reefs far from passes (more than 3 km from the nearest pass) and barrier reefs near passes (less than 3 km from the nearest pass). Short-term mechanical damage was detected on the three-dimensional structure of reef habitats with a notable shift from a community dominated by mechanically vulnerable corals to one dominated by resistant corals on barrier reefs far from passes. The history of habitats and their pre-disturbance characteristics, in link with local hydrodynamics, was found to influence their short-term susceptibility to extreme events such as cyclones. However, the most significant effects appeared in the midterm (within 2 years after the cyclone) as the cover of live hard corals significantly decreased by approximately 45% between 2002 and 2004 on all reef types. The short- and midterm disturbances of coral reef habitats are discussed with regard to published temporal variations in reef fish assemblages, underlining the delayed effects of this cyclonic event on fish as well as benthic habitats. Coral reef habitats and live corals had shown significant patterns of recovery 4 years after the cyclone, followed by similar recovery in fish community, suggesting good resilience in a face of this major natural disturbance in an area under moderate anthropogenic pressure.     

Growth of reef fishes in response to live coral cover

Although the global decline in coral reef health is likely to have profound effects on reef associated fishes, these effects are poorly understood. While declining coral cover can reduce the abundance of reef fishes through direct effects on recruitment and/or mortality, recent evidence suggests that individuals may survive in disturbed habitats, but may experience sublethal reductions in their condition. This study examined the response of 2 coral associated damselfishes (Pomacentridae), Chrysiptera parasema and Dascyllus melanurus, to varying levels of live coral cover. Growth, persistence, and the condition of individuals were quantified on replicate coral colonies in 3 coral treatments: 100% live coral (control), 50% live coral (partial) and 0% live coral (dead). The growth rates of both species were directly related to the percentage live coral cover, with individuals associated with dead corals exhibiting the slowest growth, and highest growth on control corals. Such differences in individual growth between treatments were apparent after 29 d. There was no significant difference in the numbers of fishes persisting or the physiological condition of individuals between different treatments on this time-scale. Slower growth in disturbed habitats will delay the onset of maturity, reduce lifetime fecundity and increase individual's vulnerability to gape-limited predation. Hence, immediate effects on recruitment and survival may underestimate the longer-term impacts of declining coral on the structure and diversity of coral-associated reef fish communities.     

Climate warming, marine protected areas and the ocean-scale integrity of coral reef ecosystems

Coral reefs have emerged as one of the ecosystems most vulnerable to climate variation and change. While the contribution of a warming climate to the loss of live coral cover has been well documented across large spatial and temporal scales, the associated effects on fish have not. Here, we respond to recent and repeated calls to assess the importance of local management in conserving coral reefs in the context of global climate change. Such information is important, as coral reef fish assemblages are the most species dense vertebrate communities on earth, contributing critical ecosystem functions and providing crucial ecosystem services to human societies in tropical countries. Our assessment of the impacts of the 1998 mass bleaching event on coral cover, reef structural complexity, and reef associated fishes spans 7 countries, 66 sites and 26 degrees of latitude in the Indian Ocean. Using Bayesian meta-analysis we show that changes in the size structure, diversity and trophic composition of the reef fish community have followed coral declines. Although the ocean scale integrity of these coral reef ecosystems has been lost, it is positive to see the effects are spatially variable at multiple scales, with impacts and vulnerability affected by geography but not management regime. Existing no-take marine protected areas still support high biomass of fish, however they had no positive affect on the ecosystem response to large-scale disturbance. This suggests a need for future conservation and management efforts to identify and protect regional refugia, which should be integrated into existing management frameworks and combined with policies to improve system-wide resilience to climate variation and change.     

Ben Franklin temperate reef and deep sea `Agassiz Coral Hills' in the Blake Plateau off North Carolina

This paper deals with two deep water coral ecosystems off the North Carolina coast, both under the depositional, erosional, and biological influence of the Gulf Stream and its eddies and episodic upwelling processes. The first coral community, Ben Franklin temperate reef, is located at 20 meters in Onslow Bay and is characterized by the ahermatypic coral Oculina arbuscula Verrill and unusually high abundance of the small predatory isopod Eurydice bowmani George and Longerbeam. The deep sea coral community, Agassiz Coral Hills, is located over the Blake Plateau at 650 meters, dominated by the fossilized, dead and living coral Bathypsammia tintinnabulum, with rare occurrence of the deep sea solitary coral Flabellum goodei. The deep sea coral sites were sampled with an otter trawl, outfitted with `Benthos' flotation spheres. The results suggest that the fish and shrimp fauna exhibits high species richness in the Agassiz Coral Hills off North Carolina in comparison with a control site over the Blake Plateau off Florida. Species richness may be linked to episodic upwelling events along the Gulf Stream meanders. The fish fauna in the Agassiz Coral Hills includes the following two commercially important deep sea fish species: the wreck fish Polyprion americanus and the eel Synaphobranchus koupi. The Ben Franklin reef and the Agassiz Coral Hills are recommended as Marine Protected Areas.     

Retention of Habitat Complexity Minimizes Disassembly of Reef Fish Communities following Disturbance: A Large-Scale Natural Experiment

High biodiversity ecosystems are commonly associated with complex habitats. Coral reefs are highly diverse ecosystems, but are under increasing pressure from numerous stressors, many of which reduce live coral cover and habitat complexity with concomitant effects on other organisms such as reef fishes. While previous studies have highlighted the importance of habitat complexity in structuring reef fish communities, they employed gradient or meta-analyses which lacked a controlled experimental design over broad spatial scales to explicitly separate the influence of live coral cover from overall habitat complexity. Here a natural experiment using a long term (20 year), spatially extensive (∼115,000 kms²) dataset from the Great Barrier Reef revealed the fundamental importance of overall habitat complexity for reef fishes. Reductions of both live coral cover and habitat complexity had substantial impacts on fish communities compared to relatively minor impacts after major reductions in coral cover but not habitat complexity. Where habitat complexity was substantially reduced, species abundances broadly declined and a far greater number of fish species were locally extirpated, including economically important fishes. This resulted in decreased species richness and a loss of diversity within functional groups. Our results suggest that the retention of habitat complexity following disturbances can ameliorate the impacts of coral declines on reef fishes, so preserving their capacity to perform important functional roles essential to reef resilience. These results add to a growing body of evidence about the importance of habitat complexity for reef fishes, and represent the first large-scale examination of this question on the Great Barrier Reef.     

A DESCRIPTION OF THE CORAL STRUCTURE OF TUTIA REEF (PANGANYIKA TERRITORY, EAST AFRICA), AND ITS FISH FUNA

The origin and structure of Tutia Reef, a coral reef off the Tanganyika coast, is described. It is concluded that the reef is formed in part from the cutting back flat of the older reef 14 ft above the level of the present reef, and in part from seaward growth of the reef.
Based on lines of quadrats down three sides of the reef an assessment of the cover of living coral on the reef is made, and the distribution of the dominant corals of the reef described. It is suggested that, contrary to the views of Crossland (1902, 1903), many East African coral reefs are undergoing seaward growth.
The distribution of the fishes on the reef is described, and a correlation is shown with the distribution of living coral on the reef. Many species of fishes have restricted distribution on the reef.
The feeding relationships of the fishes are discussed, and the total fish biomass divided into separate feeding categories. Tutia Reef has a low biomass of herbivorous fishes compared with the results from Eniwetok Atoll obtained by Odum & Odum (1955). This is considered to be due to the fact that Tutia Reef exhibits characteristics of an outer reef, deriving much of its energy from plankton, not those of an enclosed and almost autotrophic logoon.     

Destruction of corals and other reef animals by coral spawn slicks on Ningaloo Reef,Western Australia

In March 1989, most of the corals near Coral Bay, off the north-western coastline of Australia, spawned several nights earlier than usual. Flood, rather than ebb, tides at the time of spawning combined with light north-west winds and low swell conditions to restrict the dispersal of coral propagules and, as a result, large amounts of coral spawn were trapped in the bay, forming extensive slicks. Fish and other animals began to die almost immediately, and over the next few days, over 1 million fish, representing at least 80 species, were washed ashore. A survey of the benthic communities revealed extensive mortality of corals and other reef animals over an area of about 3 km². Live coral cover in this area decreased from 42.9% to 9.4% and several large coral colonies up to 10 m in diameter were killed. The observed mortality was presumably the result of hypoxia (oxygen depletion) created initially by the respiratory demand of the coral spawn and maintained by the biological oxygen demand of the decomposing spawn slicks and dead animals. Anecdotal reports of corals and other reef animals dying in the vicinity of coral spawn slicks on other reefs in Western Australia suggest that this phenomenon may be a relatively common event on shallow coral reefs where coral mass spawning occurs. These records and observations document, for the first time, a new source of natural disturbance that has a significant influence on the community structure of some coral reefs.