The Ecology of Rafting in the Marine Environment. II. The Rafting Organisms and Community

1区 生物学 Q1 Agricultural and Biological Sciences Oceanography and Marine Biology Pub Date : 2005-06-24 DOI:10.1201/9781420037449-9
M. Thiel, L. Gutow
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引用次数: 501

Abstract

Rafting of marine and terrestrial organisms has been reported from a variety of substrata and from all major oceans of the world. Herein we present information on common rafting organisms and on ecological interactions during rafting voyages. An extensive literature review revealed a total of 1206 organisms, for which rafting was confirmed or inferred based on distributional or genetic evidence. Rafting organisms comprised cyanobacteria, algae, protists, invertebrates from most marine but also terrestrial phyla, and even a few terrestrial vertebrates. Marine hydrozoans, bryozoans, crustaceans and gastropods were the most common taxa that had been observed rafting. All major feeding types were represented among rafters, being dominated by grazing/boring and suspension-feeding organisms, which occurred on all floating substrata. Besides these principal trophic groups, predators/scavengers and detritus-feeders were also reported. Motility of rafting organisms was highest on macroalgae and lowest on abiotic substrata such as plastics and volcanic pumice. Important trends were revealed for the reproductive biology of rafting organisms. A high proportion of clonal organisms (Cnidaria and Bryozoa) featured asexual reproduction, often in combination with sexual reproduction. Almost all rafting organisms have internal fertilisation, which may be due to the fact that gamete concentrations in the rafting environment are too low for successful fertilisation of external fertilisers. Following fertilisation, many rafting organisms incubate their offspring in/on their body or deposit embryos in egg masses on rafts. Local recruitment, where offspring settle in the immediate vicinity of parents, is considered an important advantage for establishing persistent local populations on a raft, or in new habitats. Some organisms are obligate rafters, spending their entire life cycle on a raft, but the large majority of reported rafters are considered facultative rafters. These organisms typically live in benthic (or terrestrial) habitats, but may become dispersed while being confined to a floating item. Substratum characteristics (complexity, surface, size) have important effects on the composition of the rafting community. While at sea, ecological interactions (facilitation, competition, predation) contribute to the community succession on rafts. Organisms capable to compete for and exploit resources on a raft (space and food) will be able to persist throughout community succession. The duration of rafting voyages is closely related to rafting distances, which may cover various geographical scales. In chronological order, three features of an organism gain in importance during rafting, these being ability to (1) hold onto floating items, (2) establish and compete successfully, and (3) develop persistent local populations during a long voyage. Small organisms that do not feed on their floating substratum and with asexual reproduction or direct development combine all these features, and appear to be most suited for long-distance dispersal on rafts and successful colonisation after reaching new habitats. All available evidence suggests that rafting is an important process for the population dynamics of many organisms and that it also has had and continues to have a strong influence on coastal biodiversity.
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海洋环境下的漂流生态学。2漂流生物和群落
据报道,在世界上所有主要海洋的各种基质中都有海洋和陆地生物漂流。在这里,我们介绍了关于常见漂流生物和漂流航行中生态相互作用的信息。广泛的文献综述显示,共有1206种生物,根据分布或遗传证据证实或推断漂流。漂流生物包括蓝藻、藻类、原生生物、大多数海洋和陆地门的无脊椎动物,甚至还有一些陆地脊椎动物。海洋水螅类、苔藓虫类、甲壳类和腹足类是最常见的漂流类群。所有主要的取食类型均在浮基中表现出来,以放牧/钻食和悬浮取食生物为主,在所有浮基中均有发生。除了这些主要的营养类群外,还报道了捕食/食腐动物和食腐动物。浮游生物的能动性在大型藻类上最高,在塑料和火山浮石等非生物基质上最低。揭示了漂流生物生殖生物学的重要发展趋势。大部分无性繁殖生物(刺胞菌和苔藓虫)都以无性繁殖为特征,通常与有性繁殖结合在一起。几乎所有的漂流生物都有内部受精,这可能是由于漂流环境中的配子浓度太低,无法使外部肥料成功受精。受精后,许多漂流生物在体内孵化后代,或将胚胎产在筏子上的卵群中。当地招募,即后代在父母附近定居,被认为是在筏子上或新栖息地建立持久的当地种群的重要优势。有些生物是专性的椽子,在筏子上度过他们的整个生命周期,但大多数报道的椽子被认为是兼性的椽子。这些生物通常生活在底栖(或陆地)栖息地,但当它们被限制在漂浮的物体上时,可能会变得分散。下层特征(复杂性、表面、大小)对漂流群落的组成有重要影响。在海上,生态相互作用(促进、竞争、捕食)有助于群落在木筏上的演替。能够竞争和利用筏上的资源(空间和食物)的生物将能够在整个群落演替中持续存在。漂流的航行时间与漂流距离密切相关,漂流距离可以覆盖不同的地理尺度。按照时间顺序,在漂流过程中,生物的三个特征变得越来越重要,它们是(1)抓住漂浮物的能力,(2)成功地建立和竞争,(3)在长途航行中发展持久的当地种群。不以漂浮的基质为食、无性繁殖或直接发育的小型生物结合了所有这些特征,似乎最适合在木筏上长距离传播,并在到达新栖息地后成功定居。所有现有证据表明,漂流是许多生物种群动态的一个重要过程,它也已经并将继续对沿海生物多样性产生强烈影响。
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期刊介绍: With increasing interest in the field and its relevance in global environmental issues, Oceanography and Marine Biology: An Annual Review provides authoritative reviews that summarize results of recent research in basic areas of marine research, exploring topics of special and topical importance while adding to new areas as they arise
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