Functional and Evolutionary Implications of Opposed Bands, Big Mouths, and Extensive Oral Ciliation in Larval Opheliids and Echiurids (Annelida).

The Biological bulletin Pub Date : 1999-08-01 DOI:10.2307/1542993

B G Miner, E Sanford, R R Strathmann, B Pernet, R B Emlet

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引用次数: 22

Abstract

Larvae of two annelids, the opheliid Armandia brevis and the echiurid Urechis caupo, captured small particles between opposed prototrochal and metatrochal ciliary bands and also captured large particles with wide ciliated mouths. The body volume of larval A. brevis increased more rapidly than the estimated maximum clearance rate as segments were added. Capture of larger particles by late-stage larvae may compensate for this potentially unfavorable allometry. The existence of larvae that use two feeding mechanisms at once, not previously known in annelids, suggests possible evolutionary routes between larval forms that feed only with opposed bands (e.g., serpulids and oweniids) and those that use complex oral ciliature to feed primarily on large particles (e.g., polynoids and nephtyids). In particular, the metatroch and food groove of opposed-band feeders may have arisen as expansions of oral ciliation in ancestral large-particle feeders; alternatively, extensive oral ciliation in large-particle feeders may have originated as a modification of metatroch and food-groove cilia in ancestral opposed-band feeders.

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蛇蛉和棘蛉幼虫(环节动物)相对带、大嘴和广泛的口腔纤毛的功能和进化意义。

两种环节动物的幼虫，蛇蛉虫和针鼹幼虫，在相对的原纤毛带和后纤毛带之间捕获小颗粒，也在具有宽纤毛的口捕获大颗粒。随着片段的增加，短刺小蠊幼虫体体积的增加速度要快于估计的最大清除率。后期幼虫捕获较大的颗粒可以补偿这种潜在不利的异速生长。同时使用两种取食机制的幼虫的存在，在环节动物中是未知的，这表明仅以相反带(例如，蛇形体和oweniids)为食的幼虫形式与使用复杂的口腔纤毛主要以大颗粒(例如，polynoids和nephtyids)为食的幼虫形式之间可能存在进化途径。特别地，对带喂食者的气管和食物槽可能是随着祖先大颗粒喂食者口腔调节的扩展而出现的;另一种可能是，大颗粒喂食动物中广泛的口腔调节可能起源于祖先对带喂食动物的后驰毛和食槽纤毛的修饰。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The Biological bulletin

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