Bertolani Roberto, Guidetti Roberto, Marchioro Trevor, Altiero Tiziana, Rebecchi Lorena, Cesari Michele
Department of Educational and Human Sciences, University of Modena and Reggio Emilia, Reggio Emilia, via Allegri 9, 42121 Reggio Emilia, Italy.
Department of Life Sciences, University of Modena and Reggio Emilia, Modena, via Campi 213/D, 41125 Modena, Italy.
Mol Phylogenet Evol. 2014 Jul;76:110-26. doi: 10.1016/j.ympev.2014.03.006. Epub 2014 Mar 19.
An extensive study of the phylogeny of Eutardigrada, the largest class of Tardigrada, has been performed analyzing one hundred and forty sequences (eighty of which newly obtained) representative of one hundred and twenty-nine specimens belonging to all families (except Necopinatidae) of this class. The molecular (18S and 28S rRNA) results were compared with new and previous morphological data, allowing us to find new phylogenetic relationships, to identify new phylogenetic lineages, to erect new taxa for some lineages, and to find several morphological synapomorphies supporting the identified clusters. The class Eutardigrada has been confirmed and, within it, the orders Apochela and Parachela, the superfamilies Macrobiotoidea, Hypsibioidea, Isohypsibioidea, and Eohypsibioidea, and all the families and subfamilies considered, although with emended diagnoses in several cases. In addition, new taxa have been erected: the new subfamily Pilatobiinae (Hypsibiidae) with the new genus Pilatobius, as well as an upgrading of Diphascon and Adropion to genus level, previously considered subgenera of Diphascon. Our results demonstrate that while molecular analysis is an important tool for understanding phylogeny, an integrative and comparative approach using both molecular and morphological data is necessary to better elucidate evolutionary relationships.
对缓步动物门最大的纲——真缓步纲的系统发育进行了广泛研究,分析了140个序列(其中80个是新获得的),这些序列代表了该纲所有科(除了奈柯平螨科)的129个标本。将分子(18S和28S rRNA)结果与新的和先前的形态学数据进行比较,使我们能够发现新的系统发育关系,识别新的系统发育谱系,为一些谱系建立新的分类单元,并找到支持所识别类群的几个形态学共衍征。真缓步纲得到了确认,在其内部,无气门目和近气门目、大生熊虫总科、高生熊虫总科、等节高生熊虫总科和始高生熊虫总科,以及所有考虑的科和亚科,尽管在一些情况下诊断有所修订。此外,还建立了新的分类单元:新亚科皮拉托熊虫亚科(高生熊虫科)及新属皮拉托熊虫属,以及将双相熊虫属和无爪熊虫属提升到属级,它们之前被认为是双相熊虫属的亚属。我们的结果表明,虽然分子分析是理解系统发育的重要工具,但使用分子和形态学数据的综合比较方法对于更好地阐明进化关系是必要的。
