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Kinorhyncha is a phylum of microscopic, benthic marine invertebrates found throughout the world, from the Arctic to Antarctica and from the intertidal zone to the deep sea. Within the most species-rich genus, Echinoderes, we find a putatively monophyletic species group, the so-called Echinoderes coulli-group. The remarkable morphological similarities of the E. coulli-group species and the fact that the group has a global distribution even though most of the species are restricted to intertidal habitats, has led to the hypothesis that dispersal and speciation within the group has been driven by the process of continental drift. However, this has never been confirmed empirically. With morphology and two molecular loci, COI and 18S, we calculated phylogenetic trees by analysing datasets separately and in combination using Maximum Parsimony, Maximum Likelihood and Bayesian Inference. Using different models of evolution in combination with different statistical approaches, we show that two major clade divergences were consistent with historic drifting of continents, suggesting that vicariance has played an important role for the speciation within the E. coulli-group. Furthermore, we found that reconstructions of past tectonic drifting since the Devonian (416–359 million years ago) were able to explain present species distributions, and suggest that the group originated in a supposedly vast shallow marine environment in north-eastern Gondwana by the mid-late Silurian, 426–416 million years ago.
About 50 nemertean species have been reported to live in symbiotic relationships with other invertebrates, but only two hoplonemertean species are associated with echinoderms (starfish). The palaeonemertean Cephalotrichella echinicola, sp. nov. is described from samples collected in Nha Trang Bay, Vietnam, South China Sea. The species is the first known nemertean associated with sea urchins (Metalia sternalis and M. spatagus), living on both the oral and the aboral surfaces of the host and freely moving among its spines. The internal morphology of the new species is described based on histological sections and confocal laser scanning microscopy with phalloidin and antibody labelling. Sequences of three nuclear gene markers (18S rRNA, 28S rRNA, and histone H3) and two mitochondrial gene markers (16S rRNA and COI) were compared with those of other palaeonemertean species, and a phylogenetic analysis suggested that C. echinicola is closest to the free-living Cephalotrichella albaGibson & Sundberg, 1992. Both the morphological data and the phylogenetic analysis provide additional evidence for distinguishing the families Cephalotrichidae and Cephalotrichellidae and support the rejection of Cephalotrichella as a junior synonym of Cephalothrix. A new diagnosis of the genus Cephalotrichella is given.
The Australian endemic lycaenid Pseudalmenus H.H. Druce, 1902 occupies a unique phylogenetic position within the Theclinae–Polyommatinae assemblage. Although the genus exhibits complex geographic variation, it has long been considered to be monotypic. However, evidence from adult phenotype (colour pattern), immature stages (final instar larva) and ecology (ant specificity) (total of 10 unique character states) as well as limited genetic data (mitochondrial COI) suggest that there are two species, namely, P. chlorinda (Blanchard, 1848) from Tasmania and the mainland of south-eastern Australia and P. barringtonensis Waterhouse, 1928 stat. rev., which is allopatric and narrowly restricted to montane areas in northern New South Wales. Examination of the ‘holotype’ male of P. barringtonensis in the Australian Museum showed that it is a fake, although the data label is genuine; the specimen is actually P. chlorinda chloris Waterhouse & Lyell, 1914 that has been modified with red paint to resemble P. barringtonensis. The true holotype is currently missing, but a specimen in the Australian Museum (registration No. K199026) that is part of the Colin W. Wyatt Theft Collection with a fictitious label is almost certainly the true holotype of P. barringtonensis. We discuss the history of this most unusual and bizarre circumstance and conclude that Wyatt stole the holotype sometime in 1946 before he returned to England (∼72 years ago) and fabricated the fake holotype as a replacement specimen. Such a fraudulent and unprecedented act surely ranks as Australia’s greatest taxonomic fraud.
The click-beetle family Elateridae is an abundant and ecologically important component of the saproxylic fauna, and many species are used as key indicators of old-growth forests, a rare and endangered habitat in Europe. Among Elateridae, the tribe Ampedini includes several species with unclear taxonomic status. Here we examined the species status and the relationships between 26 of the 29 Ampedini species recorded in Switzerland using both mitochondrial (CO1) and nuclear (ITS2) markers, and compared our results with the CO1 data publicly available for Europe. Our tree-based species-delimitation analysis was largely congruent with traditional, morphology-based species, with the ITS2 and the combined (CO1+ITS2) datasets corresponding more precisely to morphology than the CO1 dataset. As expected, species with unclear or debated taxonomic status generally corresponded to closely related DNA-based species pairs. Our results support the taxonomic status of some of these ambiguous species, while others require further investigations, including a more exhaustive sampling and new morphological examinations. The Ampedini species tree provided here, which is the first attempt of a DNA-based Ampedini phylogeny, did not support the genera Brachygonus and Ampedus as monophyletic, but further investigations are necessary to confirm this result.
Michelle T. Guzik, Danielle N. Stringer, Nicholas P. Murphy, Steven J. B. Cooper, Stefano Taiti, Rachael A. King, William F. Humphreys, Andrew D. Austin
During the Miocene, central and western Australia shared a warm–wet environment that harboured a mesic rainforest fauna. Now, although the area is within the arid climate zone, it provides a habitat for highly diverse groundwater-associated invertebrates. Periods of global cooling and aridification during the late Miocene resulted in isolated desert refuges that retained ancient lineages. We aimed to characterise oniscidean isopod crustaceans from three refugial locations in the arid zone, and salt lakes, to identify new putative species. Extensive sampling and sequencing of the mitochondrial Cytochrome Oxidase c subunit 1 gene and the 18S rRNA gene were conducted. A molecular phylogenetic analysis of the oniscidean genus Haloniscus showed results consistent with a relictualisation hypothesis of widespread populations from across South Australia to Western Australia with subsequent geographic isolation and diversification of new species within habitats. We observed significant regional endemicity, but some lineages were not regionally monophyletic, pointing to past connectivity. We expand the range of Haloniscus and identify at least 26 putative species from arid-zone locations in Australia, with substantial phylogeographic structure within locations. These findings highlight the importance of relictual groundwater habitats as refugia for a diverse fauna representing early climatic history in Australia’s arid zone.
Sri Lankan species of the genus Tmarus are cryptic spiders that live either on greenish moss-covered twigs or brownish dried-out twigs. They have remained taxonomically unrevised. The only known species was misplaced in Peritraeus Simon, 1895, which has never been subjected to phylogenetic evaluation. The present study is designed to investigate the phylogenetic placement of Sri Lankan Tmarus within Thomisidae as well as to assess the validity of Peritraeus and its relationship to Tmarus and Monaeses, if any. Using a multilocus molecular dataset (16S–ND1, 28S, CO1 and H3) we provide evidence that Tmarus and Monaeses are paraphyletic and that Peritraeus is a junior subjective synonym of Tmarus. Four species of Tmarus, including three new species, are now recorded from Sri Lanka. The legacy groups Alcimochthae and Tmarae are confirmed to be polyphyletic. Further, the following new species are described: Tmarus hiyarensis, sp. nov., T. viridomaculatus, sp. nov. and T. manojkaushalyai sp. nov. The following new combination is proposed: Tmarus hystrix (Simon, 1895), comb. nov. (this results in a homonym with Tmarus hystrix Caporiacco, 1954: we rename the species Tmarus caporioccoi Ileperuma Arachchi & Benjamin, replacement name).
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