珊瑚礁鱼类拟态的生态学和进化

1区 生物学 Q1 Agricultural and Biological Sciences Oceanography and Marine Biology Pub Date : 2005-06-24 DOI:10.1201/9781420037449-11
E. Moland, J. V. Eagle, G. Jones
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引用次数: 41

摘要

本文综述了有关珊瑚礁鱼类拟态的文献,并对拟态在不同分类群中的流行程度、生态后果和可能的进化模式进行了评价。在珊瑚礁鱼类中,模仿似乎是一种广泛而普遍的现象,大约有60例报告病例。虽然许多都是基于颜色相似的轶事,但最近的定量比较和实验操作已经证实,许多确实代表了模仿模型的关系。模拟物和模型在珊瑚鱼家族中的分布似乎很大程度上是偶然的。模仿者最常见的是Blenniidae科、Serranidae科和Apogonidae科,模仿者在Pomacentridae科、Blenniidae科和Labridae科中。虽然不完美的模仿形式可能被低估了,但模仿者和模式物种通常只占科内物种的不到10%。在幼年阶段,模仿似乎特别重要,28%的模仿物种在长大后失去了模仿的颜色。所有的模仿案例都支持这样的预测,即模仿者相对于他们的模型来说是罕见的。此外,不同区域的模拟丰度可能与模型丰度成比例增加。模仿者的空间分布似乎受到其模式物种的限制,尽管有些模仿者在不同的栖息地或其活动范围的不同部分会改变模式。许多模仿者与他们的模型密切相关,并且觅食优势和捕食者回避都已被实验证明。攻击性模仿似乎是珊瑚礁鱼类中最普遍的模仿类型,占迄今为止报告的所有案例的48%,其次是贝叶斯模仿(40%)和社会模仿(12%)。缪勒氏拟态似乎很罕见,尽管它可能有助于拟态复合体,包括blenniid部落Nemophini的成员。然而,这些传统的分类对于珊瑚鱼来说过于简单,因为觅食优势和捕食者回避都可以应用于单一的模仿关系,而且它们的相对重要性尚未得到评估。初步数据表明,在同一物种的不同拟态之间,拟态着色具有高度的表型可塑性和很少的遗传分化。总的来说,这篇综述强调了需要采取的许多重要步骤,以更全面地了解珊瑚礁鱼类拟态的生态和进化意义。
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Ecology and evolution of mimicry in coral reef fishes
This review examines the literature on mimicry in coral reef fishes and evaluates the prevalence of mimicry in different taxa, its ecological consequences and postulated modes of evolution. Mimicry appears to be a widespread and common phenomenon in coral reef fishes, with approximately 60 reported cases. Although many are largely anecdotal accounts based on colour resemblance, recent quantitative comparisons and experimental manipulations have confirmed that many do represent mimic-model relationships. The distribution of mimics and models among reef fish families appears largely serendipitous. Mimics are most common in the families Blenniidae, Serranidae and Apogonidae and models in the families Pomacentridae, Blenniidae and Labridae. Mimics and model species usually represent less than 10% of species within families, although imperfect forms of mimicry are likely to have been underestimated. Mimicry appears to be particularly important during juvenile stages, with 28% of mimic species losing their mimic colouration when they outgrow their models. All cases of mimicry support predictions that mimics are rare relative to their models. Furthermore, the abundance of mimics in different areas may increase in proportion to model abundance. The spatial distribution of mimics appears to be limited by that of their model species, although some change models in different habitats or in different parts of their range. Many mimics live in close association with their models, and both foraging advantages and predator avoidance have been experimentally demonstrated. Aggressive mimicry appears to be the most prevalent type of mimicry overall in coral reef fishes, constituting 48% of all cases reported to date, followed by Batesian (40%) and social mimicry (12%). Mullerian mimicry seems to be rare, although it may contribute to the mimetic complexes involving members of the blenniid tribe Nemophini. However, these traditional classifications are too simplistic for reef fishes because both foraging advantages and predator avoidance can apply in a single mimetic relationship, and their relative importance has not been evaluated. Preliminary data suggest a high degree of phenotypic plasticity in mimetic colouration and little genetic differentiation among different mimics of the same species. Overall, the review highlights the many significant steps that need to be taken towards a more complete understanding of the ecological and evolutionary significance of mimicry in coral reef fishes.
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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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