The phylogeography and social structure of the narrow endemic velvet worm species Opisthopatus amaxhosa were investigated by conducting fine-scale sampling in its distribution range in the Eastern Cape province of South Africa. In addition, and as part of larger grant on forest biodiversity, Opisthopatus specimens sampled at localities not included during a recent evaluation of the genus were included in a new phylogeny. A total of 89 specimens from 18 sample localities were collected at three forest patches for O. amaxhosa samples, while an additional six Opisthopatus sample localities were included. For O. amaxhosa, we sequenced the COI locus for all specimens, while a subset of specimens was sequenced for two nuclear loci, 18S rRNA and the fushi tarazu intron (FTz). Phylogenetic analyses using maximum likelihood and Bayesian inferences of the latter species revealed the presence of two highly divergent clades, characterised by marked uncorrected sequence divergence values. In addition, these two clades did not share any maternal haplotypes, were characterised by high F ST values and fixed nuclear difference for the 18S rRNA locus, while the FTz intron was genetically invariant. Furthermore, the application of scanning electron microscopy between the two genetically divergent clades also revealed the presence of fixed ventral and dorsal scale numbers. Collectively, this provides evidence for a novel species that is present at a fine scale. Divergence time estimations suggest that the two clades diverged during the late and early Pleistocene with climatic cycling potentially causal to the fragmentation. The social structure was male-biased, and samples from the same logs were not always genetically identical.At the broader scale, the inclusion of new specimens within Opisthopatus revealed no novel lineages. Fine-scale sampling appears more important to detect alpha taxonomic diversity compared to broadscale sampling.
During the present study, DNA sequence data, gross morphology and scanning electron microscopy (SEM) were used to examine cryptic species boundaries in the velvet worm, Peripatopsis clavigera species complex, from the southern Cape Afrotemperate forest belt in South Africa. Sequence data were generated for the mitochondrial COI and the nuclear 18S rRNA loci and phylogenetically analysed using both a Bayesian inference and a maximum-likelihood approach. Both the COI data and the combined DNA sequence topology (COI+18S) revealed the presence of five clades within the Peripatopsis clavigera species complex, and revealed that specimens from Tulbagh were distantly related and represented a sixth clade. The evolutionary distinction of the five clades was corroborated to varying degrees by the four species-delimitation methods (ABGD, PTP, GMYC and STACEY); however, both the gross morphological data and the SEM provided limited diagnostic differences between the five clades. Furthermore, the COI haplotype network and phylogeographic analyses provided evidence of genetic isolation between lineages that are currently syntopic. The distribution of genealogically exclusive and widespread maternal lineages was atypical among velvet worms and did not reflect the general trend of genetic and geographical isolation. Instead, lineages exhibited admixture among localities, a result most likely due to fluctuations in climatic conditions affecting the southern Cape Afrotemperate forest during the Pliocene–Pleistocene period as evident from our divergence time estimations. Four novel, narrow-range endemic species – P. ferox, sp. nov., P. mellaria, sp. nov., P. edenensis, sp. nov. and P. mira, sp. nov. – are described within the P. clavigera species complex, whereas the Tulbagh specimens are described as P. tulbaghensis, sp. nov. Collectively, these results demonstrate that Peripatopsis likely contains several undescribed species.
We examined the systematics of a ubiquitously distributed southern African freshwater crab, Potamonautes sidneyi s.l. species complex. Specimens were subjected to DNA sequence analyses of two mitochondrial loci (16S rRNA + COI). We applied three species delimitations methods (ASAP, bGMYC and bPTP) to test their utility in delineating species boundaries in Potamonautes and three additional Afrotropical genera (Liberonautes, Nesonautes and Seychellum). The combined mtDNA dataset retrieved five clades. Clade 1 comprised of P. barbarai, clade 2 comprised of specimens from the interior of the Great Karoo Basin, sister to P. sidneyi s.s. in clade 3. Clade 4 was confined to Eswatini and the Mpumalanga Province of South Africa, and sister to clade 5 that comprised P. danielsi. The three species delimitation methods either over- or underestimated the number of species. Phylogenetically, specimens from the Great Karoo Basin (clade 2) were equidistant to P. sidneyi s.s. and P. perlatus, while the Eswatini and Mpumalanga specimens (clade 4) were sister to P. danielsi. Clades 2 and 4 are herein described as P. karooensis sp. nov. and P. valles sp. nov., respectively.
Sampling of remote inland aquatic habitats in South Africa has constantly been yielding novel endemic freshwater crab species (Potamonautes MacLeay,1838). During the present study, we report on the discovery and description of two new freshwater crab species (Potamonautes baziya sp. nov., and P. mariepskoppie sp. nov.) from Afrotemperate forested mountain regions in the Eastern Cape and Mpumalanga provinces of South Africa, respectively. Phylogenetic evidence derived from DNA sequence data of three partial mitochondrial loci (12S rRNA, 16S rRNA and cytochrome oxidase subunit one, COI) corroborates the evolutionary distinction of the two novel species. In addition, morphological and ecological data for the two new species further delineate their evolutionary distinction from congeneric sister species. A comparison of the taxonomically important gonopods 1 and 2 and carapace features among the sister species and other known freshwater crabs of South Africa was further used to provide evidence for the distinction of the two novel species. The discovery of two new species suggest that remote mountainous areas or unsampled regions in South Africa likely harbor several novel species, reiterating a call to document aquatic inland biodiversity in forested and mountainous regions of the country.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.