Abstract
Seven Scolopendra species from the Southeast Asian mainland delimited based on standard external morphological characters represent monophyletic groups in phylogenetic trees inferred from concatenated sequences of three gene fragments (cytochrome c oxidase subunit 1, 16S rRNA and 28S rRNA) using Maximum likelihood and Bayesian inference. Geometric morphometric description of shape variation in the cephalic plate, forcipular coxosternite, and tergite of the ultimate leg-bearing segment provides additional criteria for distinguishing species. Colouration patterns in some Scolopendra species show a high degree of fit to phylogenetic trees at the population level. The most densely sampled species, Scolopendra dehaani Brandt, 1840, has three subclades with allopatric distributions in mainland SE Asia. The molecular phylogeny of S. pinguis Pocock, 1891, indicated ontogenetic colour variation among its populations. The taxonomic validation of S. dawydoffi Kronmüller, 2012, S. japonica Koch, 1878, and S. dehaani Brandt, 1840, each a former subspecies of S. subspinipes Leach, 1814 sensu Lewis, 2010, as full species was supported by molecular information and additional morphological data. Species delimitation in these taxonomically challenging animals is facilitated by an integrative approach that draws on both morphology and molecular phylogeny.
Highlights
Several lines of evidence suggest that Southeast Asia, one of world’s biodiversity hotspots, might be a migration corridor for animals [1]
The taxonomic results show six nominal species that can be identified as named species and one putative new species in the sampling area as follow: Scolopendra dawydoffi, S. dehaani, S. japonica, S. morsitans, S. subspinipes and Scolopendra sp
External morphology offers an accessible toolkit for identifying scolopendrid species but whether or not these entities correspond to monophyletic groups has usually not been clear because taxonomy has usually been conducted separately from phylogenetic analysis
Summary
Several lines of evidence suggest that Southeast Asia, one of world’s biodiversity hotspots, might be a migration corridor for animals [1]. Southeast Asian biodiversity is classified as two zoogeographical sub-regions, Indochina and Malesia [2]. Associated with the geographical richness of this area, cryptic speciation has been reported in several endemic groups, PLOS ONE | DOI:10.1371/journal.pone.0135355. The Centipede Genus Scolopendra in Mainland Southeast Asia. The Department of National Parks, Wildlife and Conservation. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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