Abstract
Five new species of the genus Sarsamphiascus Huys, 2009 were collected from a small Korean beach, which is a record for the number of syntopic copepod congeners. They differ in numerous macro-morphological characters, some of which extend generic boundaries, and are classified in two species groups. Diossacins are widely regarded as taxonomically problematic, and the new discovery presents an opportunity to test characters commonly used in their systematics through a cladistic analysis. Another aim is to test with landmark-based geometric morphometrics the extent of inter- and intraspecific variability of characters with reported significant variation but commonly used in diosaccin taxonomy. The cladistic analysis, based on 14 binary characters, reveals at least three distinct clades among five new species, which, in addition to significant size differences, probably facilitates their syntopy. Some characters previously used to distinguish species groups in Sarsamphiascus, and to distinguish this genus from other diosaccins, are exposed as symplesiomorphies, suggesting that some of these groups might not be monophyletic. Studies of alternative characters are suggested, including cuticular organs on somites, which are surveyed for the first time in this genus. Principal component analysis (PCA) of nine landmarks on the female fifth leg exopod reveals that 70% of variability can be explained by the first two eigenvectors and that in morphospace there is no overlap between Korean species, despite a significant intraspecific variability. Discriminant function analysis with cross-validation shows highly significant results, both in parametric tests and after 10,000 permutation runs, correctly classifying all specimens for all species pairs and suggesting the fifth leg exopod as an ideal taxonomic character here. Evolutionary integration of the morphometric data is tested by plotting PCA scores onto the cladistic tree; randomized permutation test suggests an absence of statistically significant phylogenetic signal.
http://www.zoobank.org/urn:lsid:zoobank.org:pub:31913865-E23D-4E76-97B0-2F6D791E717A
Acknowledgements
The scanning electron microscope was made available through the courtesy of Prof. Jin Hyun Jun (Eulji University, Seoul), and I also want to thank Mr Junho Kim (Eulji University, Seoul) for the technical help provided. I am very grateful to Prof. Gi-Sik Min (Inha University, Incheon) for continuous support through the research project ‘Discovery of Korean Indigenous Species’. Several PhD students from Prof. Min’s lab were also very helpful with handling the specimens, and I am especially grateful to Mr Chi-Woo Lee. I am also very grateful to Ms Gina Hurn (Hobart, Australia) and Ms Ona Karanovic (Osnabrück, Germany) for English editing. Finally, I would like to thank Prof. Wonchoel Lee, Prof. Ivana Karanovic, and their PhD student Dr Hyun-Soo Yoo (all from the Hanyang University, Seoul) for their generosity in sharing research facilities and some administrative help.
Disclosure statement
No potential conflict of interest was reported by the author.
Supplementary data
Supplementary material for this article can be accessed here: http://dx.doi.org/10.1080/14772000.2020.1832605.
Associate Editor: Polly Hayes