Molecular and morphological analysis of Biddulphia sensu lato: a new diagnosis of Biddulphia, with a description of the new genera Biddulphiella and Neobrightwellia
Patricia A. Sims , Matt P. Ashworth , Edward C. Theriot , Schonna R. Manning
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引用次数: 0
Abstract
The diatom genus Biddulphia Gray has hosted a tremendous amount of morphological diversity throughout its taxonomic history. SEM-assisted studies have significantly helped to sort this diversity into a classification based on specific valve characters, particularly the structure of pore fields on the valve apices, rather than gross morphology such as valve outline. Recent molecular phylogenetic analyses, however, have suggested that even the revised diagnosis of Biddulphia has not led to a monophyletic genus. In this study, we have surveyed the morphology of both fossil and extant taxa and have found a significant disparity in the number of Biddulphia taxa featuring valves with deep folds—sulci—rather than internal crosswalls—costae. Based on these observations, we have proposed several taxonomic revisions around this character, including the creation of two new genera—Biddulphiella gen. nov. and Neobrightwellia gen. nov.—and the transfers of several fossil and extant biddulphioid taxa to genera (Donskinica Kozyrenko, Stoermeria Kociolek, L.Escobar & S.Richardson and Tabulina J. Brun) which are more appropriate to their morphology.
硅藻属Biddulphia Gray在其分类历史中具有巨大的形态多样性。扫描电镜辅助研究极大地帮助将这种多样性分类为基于特定阀门特征的分类,特别是阀门顶端的孔场结构,而不是阀门轮廓等总体形态。然而,最近的分子系统发育分析表明,即使修订的诊断也没有导致单系属。在本研究中,我们调查了化石和现存分类群的形态,发现在Biddulphia分类群中,具有深褶皱-沟状-而不是内部交叉壁-肋状的阀的数量存在显著差异。基于这些观察,我们围绕这一特征提出了若干分类修正,包括建立了两个新属(biddulphiella gen. nov和Neobrightwellia gen. nov.),以及将几个化石和现存的biddulphi类群转移到属(Donskinica Kozyrenko, Stoermeria Kociolek, l.e escobar &S.Richardson和Tabulina J. Brun),它们更适合于它们的形态。
期刊介绍:
Marine Micropaleontology is an international journal publishing original, innovative and significant scientific papers in all fields related to marine microfossils, including ecology and paleoecology, biology and paleobiology, paleoceanography and paleoclimatology, environmental monitoring, taphonomy, evolution and molecular phylogeny. The journal strongly encourages the publication of articles in which marine microfossils and/or their chemical composition are used to solve fundamental geological, environmental and biological problems. However, it does not publish purely stratigraphic or taxonomic papers. In Marine Micropaleontology, a special section is dedicated to short papers on new methods and protocols using marine microfossils. We solicit special issues on hot topics in marine micropaleontology and review articles on timely subjects.
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