Kasper Hendriks

Comprehensive evolutionary analysis of the Anthroherpon radiation (Coleoptera, Leiodidae, Leptodirini)

The genus Anthroherpon Reitter, 1889 exhibits the most pronounced troglomorphic characters among Coleoptera, and represents one of the most spectacular radiations of subterranean beetles. However, radiation, diversification, and biogeography of this genus have never been studied in a phylogenetic context. This study provides a comprehensive evolutionary analysis of the Anthroherpon radiation, using a dated molecular phylogeny as a framework for understanding Anthroherpon diversification, reconstructing the ancestral range, and exploring troglomorphic diversity. Based on 16 species and 22 subspecies, i.e. the majority of Anthroherpon diversity, we reconstructed the phylogeny using Bayesian analysis of six loci, both mitochondrial and nuclear, comprising a total of 4143 nucleotides. In parallel, a morphometric analysis was carried out with 79 landmarks on the body that were subjected to geometric morphometrics. We optimized morphometric features to phylogeny, in order to recognize the way troglomorphy was expressed in different clades of the tree, and did character evolution analyses. Finally, we reconstructed the ancestral range of the genus using BioGeoBEARS. Besides further elucidating the suprageneric classification of the East-Mediterranean Leptodirini, our main findings also show that Anthroherpon dates back to the Early Miocene (ca. 22 MYA) and that the genus diversified entirely underground. Biogeographic reconstruction of the ancestral range shows the origin of the genus in the area comprising three high mountains in western Montenegro, which is in the accordance with the available data on the paleogeography of the Balkan Peninsula. Character evolution analysis indicates that troglomorphic morphometric traits in Anthroherpon mostly evolve neutrally but may diverge adaptively under syntopic competition.

A molecular and conchological dissection of the "scaly" Georissa of Malaysian Borneo (Gastropoda, Neritimorpha, Hydrocenidae)

Abstract The Bornean hydrocenids have so far been understudied compared to other non-pulmonate snails in this region. In the present study, we review a first group of minute land snail species belonging to the genus Georissa (Gastropoda, Hydrocenidae) from Malaysian Borneo. This group is restricted to the species with conspicuous scale-like sculpture on the shell. Based on materials from recent fieldwork, museums, and personal collections, Malaysian Borneo hydrocenids are more complex and diverse in shell characters than previously anticipated. Here, a molecular, conchological, and biogeographic study of this “scaly group” is presented. We recognise 13 species of which six are new to science, namely Georissa anyiensis sp. n., Georissa muluensis sp. n., Georissa bauensis sp. n., Georissa silaburensis sp. n., Georissa kinabatanganensis sp. n., and Georissa sepulutensis sp. n.

Radiation and ancestral range reconstruction of the cave beetle genus Anthroherpon (Coleoptera, Leiodidae, Leptodirini)

The genus Anthroherpon Reitter, 1889 is the most species-rich genus of the exclusively subterranean subtribe Anthroherponina. It comprises 26 species and 55 subspecies distributed in the Dinaric mountains which are known to be a world biodiversity hotspot for subterranean fauna. Most species are short-range endemics and more than half of the species are known only from a single cave, but the genus as a whole has a wide range. This study provides a comprehensive evolutionary analysis of the Anthroherpon radiation, using a dated molecular tree as a framework for understanding the diversification of the genus and reconstructing its ancestral range. We reconstructed the phylogeny of Anthroherpon using Bayesian analysis of six loci, both mitochondrial and nuclear, and we inferred the ancestral range of the genus using BioGeoBEARS. Our main findings show that Anthroherpon is monophyletic and started to diverge approximately in the Early Miocene (ca. 22 MYA). The genus has diversified entirely underground. Our results show that troglobitic lineages like Anthroherpon can disperse and diversify underground over a large geographic area during long periods of time. Biogeographic reconstruction of the ‡ §,‡ ‡ ‡ | ¶