Petr Šípek

Larval morphology enhances phylogenetic reconstruction in Cetoniidae (Coleoptera: Scarabaeoidea) and allows the interpretation of the evolution of larval feeding habits

Abstract The Cetoniidae, the showiest of scarabs, comprises some 3900 species in 515 genera, distributed worldwide except for subpolar areas and some offshore New Zealand islands. Parsimony analysis of 76 larval and adult characters and 42 terminal taxa supports the monophyly of Cetoniidae (sensu Krikken, 1984 ), but not of the traditionally considered subfamilies Cetoniinae and Trichiinae (sensu Krikken, 1984 ). In the study taxon, larval characters are shown to be more informative than those of adults for deeper phylogeny. The evolution of some larval characters (head and legs) in relation to feeding habits is discussed on the basis of phylogenetic analysis. The results show an evolutionary shift from wood associations to a higher ecological plasticity that allows the larvae to feed on wide sources of organic matter (including compost, dung, gopher burrows, packrat middens, ant debris piles, etc.).

Head rotations in the play of Hanuman langurs (Semnopithecus entellus): description and analysis of function.

Although head rotations are frequent patterns in play behavior in many mammalian species and differ from head movements used in other contexts, they have not been quantitatively described and their function remains unclear. The head rotations occurring in the play behavior of free-ranging Hanuman langurs (Semnopithecus entellus) were described from videotaped sequences. The authors tested 2 possible hypotheses about their function. Either the head rotations serve to create unexpected situations and should therefore occur in both solitary and social play and also be very variable, or they serve as play signals and should therefore occur only in social play and be ritualized. If head rotations have both functions, they should be less variable in social play. The data revealed that head rotations were very variable and were present both in solitary and social play. Furthermore, there was no difference in the variability between the head rotations present in the 2 types of play. The results do not support the function of head rotations as play signals but, rather, suggest that head rotations may serve to create unexpected situations in play.

Inferring larval taxonomy and morphology in Maladera species (Coleoptera: Scarabaeidae: Sericini) using DNA taxonomy tools

Based on a comparative molecular study of scarab chafers we matched adult and larval instars to identify and describe unknown larvae of Sericini. Here, we use for the first time a two‐fold DNA taxonomy approach based on: (i) mitochondrial and nuclear DNA markers of a local sample (from Nepal) of adults and larvae, in combination with character and tree‐based species delimitation methods; and (ii) a global search of cytochrome c oxidase subunit I (cox1) sequences with GenBank data. In the latter analysis we used a sequence of a specimen that resulted in the first analysis conspecific with the larvae of Maladera affinis (Blanchard) as the query sequence in GenBank, and checked in a minimum evolution tree whether larva–adult matches from the local approach were altered through interference with other taxa of the worldwide database. Both approaches unambiguously identified the unknown larvae as belonging to M. affinis and Maladera cardoni (Brenske). Based on this robust framework of taxonomic identification we could associate names to the larval morphology of the third larval instar of these two Nepalese Maladera species, which are both known for their economical importance in agriculture. They are described here in detail and are compared with known related taxa, especially with Maladera castanea (Arrow).

Immature stages of Euchirinae (Coleoptera : Scarabaeoidea): genera Cheirotonus and Propomacrus with comments on their phylogeny based on larval and adult characters

We report the discovery of the larvae of Propomacrus bimucronatus (Pallas, 1781) in their natural habitat; providing notes on their biology based on field observations and laboratory-bred specimens. We give a detailed description of Cheirotonus formosanus Ohaus, 1913 and P. cypriacus Alexis & Markis, 2002 larvae as well as a redescription of the immature stages of P. bimucronatus and present the first diagnosis of larval Euchirinae. Based on 105 morphological and ecological characters of adults and larvae in 24 taxa of Scarabaeoidea, we discuss the phylogenetic relationships of Euchirinae within the group. Our results corroborate Euchirinae monophyly, supported by two larval synapomorphic characters; however, no adult autapomorphic characters were detected. The results of 15 separate phylogenetic analyses (differing in the set of terminalia, characters and in the optimality criteria) indicate a possible sister group relationship between Euchirinae and a clade comprising Melolonthinae + Rutelinae + Dynastinae, with Cetoniinae being a sister group to the whole clade. Larval characters represent a valuable source of information for the systematics of Scarabaeoidea; however, special effort should be paid to improve the still unsatisfactory sampling of immature data.

A molecular phylogeny of rose chafers (Coleoptera: Scarabaeidae: Cetoniinae) reveals a complex and concerted morphological evolution related to their flight mode.

Rose chafers (Cetoniinae) are a large group of flower visitors within the pleurostict Scarabaeidae that are characterized by their distinctive flight mode with nearly closed forewings. Despite their popularity, this is the first study to use molecular data to infer their phylogenetic relationships. We used partial gene sequences for 28S rRNA, cytochrome oxidase I (cox1) and 16S rRNA (rrnL) for 299 species, representing most recognized subfamilies of Scarabaeidae, including 125 species of Cetoniinae. Combined analyses using maximum parsimony, maximum likelihood and Bayesian inferences recovered Cetoniinae as monophyletic in all analyses, with the sister clade composed of Rutelinae and Dynastinae. Rutelinae was always recovered as paraphyletic with respect to Dynastinae. Trichiini sensu lato (s.l.) was recovered as a polyphyletic clade, while Cetoniini s.l. was recovered as paraphyletic. The inferred topologies were also supported by site bootstrapping of the ML trees. With the exception of Cremastochelini, most tribes of Cetoniinae were poly- or paraphyletic, indicating the critical need for a careful revision of rose chafer classification. Analysis of elytral base structure (including 11 scored characters) in the context of phylogeny, revealed a complex, concerted and rapid transformation of the single trait elements linked to a modified flight mode with closed elytra. This appears to be unlinked to the lateral sinuation of the elytra, which originated independently several times at later stages in the evolution of the group.

Lethrus (Lethrus) schneideri sp. n. (Coleoptera, Geotrupidae) from Greece

Abstract Lethrus (Lethrus) schneideri Král & Hillert, sp. n. from Thrace, Greece, is described. The new species is morphologically most similar and probably closely related to Lethrus (Lethrus) apterus (Laxmann, 1770) and Lethrus (Lethrus) ares Král, Rejsek & Schneider, 2001. Diagnostic characters (shape of mandibles, ventral mandible processes, pronotum and parameres) are illustrated. Character matrix for separation of males of the Lethrus species closely related to Lethrus schneideri Král & Hillert, sp. n. and geographic ranges for all species studied are mapped.

Immature stages of three species of Inca LePeletier & Serville, 1828 (Coleoptera: Scarabaeidae: Cetoniinae) and morphology of phytophagous scarab beetle pupa

Immature stages of I. pulverulenta (Olivier, 1789) (Coleoptera: Scarabaeidae: Cetoniinae: Incini) are described for the first time, and those of I. bonpalandi (Gyllenhal, 1827) and I. clathrata sommeri Westwood, 1845 are redescribed. A key to the third instar of Incini is presented, notes on Inca larval characters in the phylogenetic context of Cetoniinae and on scarab pupal morphology are also given.

Molecular and Morphological Diversity of the Oxymonad Genera Monocercomonoides and Blattamonas gen. nov.

Oxymonads are a group of flagellates living as gut symbionts of insects or vertebrates. They have several unique features, one of them being the absence of mitochondria. Diversity of this group is seriously understudied, which is particularly true for small species from the family Polymastigidae. We isolated 34 strains of oxymonads with Polymastigidae-like morphology from 24 host species and unused cesspits and sequenced the SSU rRNA gene. Our strains formed two clades in the phylogenetic tree with Streblomastix strix branching between them. This topology was also supported by a three-gene phylogenetic analysis. Despite considerable genetic differences between the clades, light and electron microscopy revealed only subtle differences. The larger clade is considered genus Monocercomonoides and the isolates belonging here were classified into three new species (including the first potentially free-living species), two previously described species, and three unclassified lineages. The smaller clade, here described as Blattamonas gen. nov., consists of three newly described species. Concomitantly with the description of Blattamonas, we elevate the Monocercomonoides subgenus Brachymonas to the genus level. Our study shows that, despite their conserved morphology, the molecular diversity of Polymastigidae-like oxymonads is broad and represents a substantial part of the diversity of oxymonads.

Immature stages and ecology of two species of the South African genus Stripsipher Gory & Percheron, 1833 (Coleoptera, Scarabaeidae, Cetoniinae, Trichiini)

Abstract Based on the study of newly accessible type material, Stripsipher drakensbergi Ricchiardi, 1998, is demoted to a junior synonym of Stripsipher jansoni Péringuey, 1908. The genus Stripsipher Gory & Percheron, 1833, thus, currently includes 12 species, but for none of these are larval stages and/or pupae currently known. The immature stages of Stripsipher orientalis Ricchiardi, 2008 and Stripsipher jansoni are described here for the first time and updated observations on distribution and ecology of both species are provided. Morphological affinities of Stripsipher with other Trichiini larvae are presented and the main diagnostic differences discussed. The larvae of both species are very similar to those of other representatives of the tribe Trichiini, with key differences found on the epipharynx. Based on the morphology of larvae and adults, it is suggested that Stripsipher is a member of the clade composed of Valgini, Trichiini and Cryptodontini.

First record of myrmecophily in buprestid beetles: immature stages of Habroloma myrmecophila sp. nov. (Coleoptera: Buprestidae) associated with Oecophylla ants (Hymenoptera: Formicidae)

The association of Habroloma myrmecophila sp. nov. (Coleoptera: Buprestidae: Trachydini) with Oecophylla smaragdina (Fabricius, 1775) ants (Hymenoptera: Formicidae) has been observed on secondary shrubs in Goa Province (India). After mating, adult beetles were found to invade damaged or newly constructed Oecophylla nests to lay eggs. Larvae mine in the leaves forming the nest wall and pupate within the mines. Only adult beetles interact directly with ants, potentially triggering their necrophoric behaviour when caught. The adults and larvae of the beetles are described in detail and the benefits of the ant association for the beetles are hypothesized.