Thayse Cristine Melo Benathar, Leonardo Carreira Trevelin, Jeferson Costa Carneiro, Luis Reginaldo Ribeiro Rodrigues, Iracilda Sampaio, Patricia Caroline O'Brien, Malcolm Andrew Ferguson‐Smith, Fengtang Yangg, Cleusa Yoshiko Nagamachi, Julio César Pieczarka
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引用次数: 0
摘要
整合不同的证据目前被认为是研究分类学问题,特别是有关隐性多样性问题的最有力的方法。近年来,不同来源的证据都指出了蝙蝠的新隐性类群,其中蝙蝠属(Hsunycteris)是一个极好的研究类群,因为最新的分类学和系统学综述揭示了该类群较大的核型变异性和较高的遗传分化。本研究通过物种划分、系统进化分析、染色体绘制和线性形态测量等综合方法,检验了Hsunycteris thomasi复合体的隐性多样性假说。我们的研究结果表明,H. thomasi 存在三个形态上无法区分的品系,证实了之前文献中描述的两个品系,并增加了第三个品系。我们认为,由于 H. thomasi 具有独特的进化历史,因此应将其视为独立的物种。最后,我们证明了染色体和分子方法对于识别和确认包括隐蔽物种或分类混乱且有争议的物种的类群是不可或缺的。
A case of cryptic diversity in the bat Hsunycteris thomasi (Lonchophyllinae, Chiroptera): New insights into unrecognized species
Integrating different lines of evidence is currently recognized as the most robust approach to investigating taxonomic questions, particularly those concerning cryptic diversity. In recent years, different sources of evidence have pointed to new cryptic taxa for bats, with the genus Hsunycteris being an excellent study group because of its large karyotypic variability and high genetic divergence revealed by the latest taxonomic and systematic reviews. This study tests the cryptic diversity hypothesis for the Hsunycteris thomasi complex through an integrative approach using species delimitation, phylogenetic analysis, chromosome painting, and linear morphometry. Our results suggest the existence of three lineages for H. thomasi that are morphologically indistinguishable, confirming the two previously described lineages in the literature and adding a third. We argue that the paraphyly in H. thomasi, as reported by previous studies, should be treated as independent species since they have unique evolutionary histories. Finally, we demonstrate that chromosomal and molecular methods are indispensable for recognizing and confirming groups that include cryptic species or species with confusing and controversial taxonomy.