Population structure of six sympatric species of Trapezia associated with the hermatypic coral Pociliopora damicornis with a hypothesis of mechanisms promoting their coexistence

Journal of The Japanese Coral Reef Society Pub Date : 1999-10-20 DOI:10.3755/JCRS.1999.9

M. Tsuchiya, A. Taira

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引用次数: 7

Abstract

Seasonal changes in species composition and size frequency distributions of six sympatric coexisting species of Trapezia associated with the hermatypic coral Pociliopora damicornis were investigated to analyze their population structure, mechanisms promoting coexistence, and the organizing processes of the symbiont community. All Trapezia species showed a long recruitment season, but they could be divided into two groups according to variations in their size frequency distribution pattern throughout the year: Young T. ferruginea and T. guttata occurred all year round, while young T. cymodoce, T. areolata, T. digitalis, and T. sp. were absent part of the time (a few months). Recruitment of T. cymodoce and T. areolata occurred from April to August and from February to March, respectively. Young T. digitalis were abundant only in July. Even among larger colonies, those harboring only one or two Trapezia species were rather common. This suggests that agonistic interactions occur among these crab species. Although it is also true that host colonies harboring several species are sometimes found. Since no conspicuous hierarchy in inter-specific agonistic interactions has been demonstrated (Tsuchiya and Yonaha, 1992), new crab recruits of any species can invade colonies lacking strong competitors.Although these crab species require very similar resources, i. e. pocilloporid corals as their habitat and mucus produced by host corals as food, their coexistence on larger single colonies is promoted by several mechanisms: 1) different recruitment seasons, 2) weak hierarchy of agonistic interactions among the six species, and 3) microhabitat segregation between adults and young on a colony.

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六种与雌雄同体的大角poiliopora damicornis共域珊瑚的种群结构及其促进共存机制的假设

研究了6种与异交珊瑚poiliopora damicornis共域共生的Trapezia物种组成和大小频率分布的季节变化，分析了它们的种群结构、共生机制和共生群落的组织过程。所有Trapezia种均表现出较长的采食期，但根据其全年大小频率分布模式的变化可分为两类:ferruginea和T. guttata幼虫全年均有采食，而T. cymodoce、T. areolata、T. digitalis和T. sp幼虫部分时间(几个月)不采食。4 - 8月和2 - 3月分别发生了假丝桃和乳状假丝桃的招募。洋地黄幼苗只在7月丰富。即使在更大的群体中，只有一到两个Trapezia物种的群体也很常见。这表明这些蟹种之间存在激动相互作用。虽然有时也会发现寄主群体窝藏几个物种。由于在种间激动相互作用中没有明显的等级关系(Tsuchiya and Yonaha, 1992)，任何物种的新蟹都可以入侵缺乏强大竞争对手的殖民地。虽然这些种类的蟹需要非常相似的资源，即以poilloporid珊瑚为栖息地，以宿主珊瑚产生的粘液为食物，但它们在更大的单个种群上的共存是由以下几个机制促进的:1)不同的招募季节，2)6种物种之间的弱等级竞争相互作用，以及3)一个种群中成虫和幼虫之间的微栖息地隔离。

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Journal of The Japanese Coral Reef Society

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