Abstract
Background: Accurate species delimitation is essential for phylogenetic, phylogeographic, ecological, conservation and biogeographic investigations. Acrossocheilus species classification has long been contentious, owing to their uncertain evolutionary relationships, high levels of morphological homoplasy and a lack of knowledge of the taxonomic validity of conventionally utilized morphological characters. Methods: A final data set consisting of 102 mitochondrial cytochrome oxidase I (COI) gene sequences was analysed for K2P intraspecific and interspecific divergence in the current study, using reconstruction methods (maximum likelihood) and various models (ABGD, PTP, GMYC) to divide the sequences according to the pattern of genetic variation. We used landmark-based geometric morphometrics to identify specimens. Result: Two taxa were identified according to the phylogenetic tree (maximum likelihood method) and three different models (ABGD, PTP, GMYC). The molecular taxonomy of Acrossocheilus agreed with the morphological identification of specimens from the same collection locality. Therefore, the COI gene and geometric morphometrics were effective in species identification of A. fasciatus.
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