[Evolutionary history of Metazoa, ancestral status of the bilateria clonal reproduction, and semicolonial origin of the mollusca].

Pub Date : 2013-05-01
A V Martynov
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引用次数: 0

Abstract

Evolutionary history of any metazoan group is a history of the entire ontogenetic cycles instead of separate stages and genes only. Ontogeny in the most objective way links two key components of the biological systematics: historically-independent characters attribution and phylogeny itself. A general theory encompassing "static" traditional taxonomy and dynamic evolutionary process, based on the ontogenetic transformation of the organisms' shape is suggested here to term as ontogenetic systematics. As an important practical implication of the ontogenetic systematics, a new model of the bilaterian metazoans evolution is suggested. The new model considers asexual clonal reproduction as a central feature of the ancestral ontogenetic cycles of basal Bilateria. The new scenario resolves several notable contradictions, e.g. morphological, ontogenetic and molecular similarities of Pogonophora, Vestimentifera, Phoronida simultaneously to protostomian Spiralia (Lophotrochozoa) and Deuterostomia. The suggested model implies individuation (possibly multiple) of ancestral semicolonial sedentary group as a major factor of the basal Bilateria diversification. In the late Ediacaran and early Cambrian thus existed ancestral bilaterian group that shared characters of both Spiralia and Deuterostomia and possessed polyp-shape body and cephalic secretory shield (like in modern Pterobranchia and Vestimentifera), that later on reduced in various lines. This ancestral taxon in rank of supraphylum is suggested to term as Carmaphora (shield-bearers). Presence of the enigmatic sedentary fossil of the genus Cloudina with vestimentiferan-like tubes and evident clonal reproduction already in the late Ediacaran, and most recent found of an unquestionable pterobranch already in the early Cambrian support the new model of Bilateria evolution.

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[后生动物的进化史,双侧动物克隆繁殖的祖先地位,以及软体动物的半殖民地起源]。
任何后生动物群的进化史都是整个个体发生循环的历史,而不仅仅是单独的阶段和基因。个体发生以最客观的方式将生物系统学的两个关键组成部分联系起来:历史独立的特征、归属和系统发生本身。本文提出了一种包含“静态”传统分类学和动态进化过程的一般理论,即基于生物形态的个体发生转变的个体发生系统学。作为个体发生系统学的重要实践意义,本文提出了一种新的双边后生动物进化模式。新模型认为无性克隆生殖是基础双侧虫祖先个体发生周期的中心特征。新情景解决了Pogonophora、Vestimentifera、Phoronida与原造口动物Spiralia (Lophotrochozoa)和Deuterostomia在形态、个体发生和分子上的相似性等几个值得注意的矛盾。该模型表明,祖先半殖民地定居群体的个体化(可能是多个)是基础两侧分化的主要因素。因此,在埃迪卡拉晚期和寒武纪早期,存在着具有螺旋目和后口目特征的双侧动物祖先群,它们具有息肉状的身体和头状分泌盾(如现代翼鳃目和维氏门目),后来在各个系中减少。这个祖先分类群在上纲的等级被建议命名为Carmaphora(持盾者)。埃迪卡拉纪晚期发现的具有类似于前肢的管和明显克隆繁殖的神秘的云雀属化石,以及最近在寒武纪早期发现的毫无疑问的翼龙分支,都支持了双侧门动物进化的新模型。
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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