First and third instar larvae of Aepopsis robini (Laboulbène, 1849) are studied, redescribed, and illustrated. The larvae are characterised by three unique and likely autapomorphic character states within known members of the supertribe Trechitae: (1) apex of antennomere 4 has only one conical sensillun 1; (2) setae FR10 and FR11 on frontale are removed basally on dorsal surface from the apical margin; (3) terga of meso- and metathorax lack pore MEa, and abdominal terga 1-8 lack pore TEa.
This paper is the first attempt to resolve relationships among the Ceratocanthinae: Ceratocanthini pill scarab beetles using DNA sequences. It is focused on the Philharmostes group of seven Afrotropical genera: Baloghianestes (3 spp.), Callophilharmostes (1 sp.), Carinophilharmostes (1 sp.), Chaetophilharmostes (1 sp.), Cryptophilharmostes (3 spp.), Petrovitzostes (1 sp.) and Philharmostes (31 spp.). A phylogenetic analysis of 46 terminals and alignment of 2,913 bp from one mitochondrial and two nuclear fragments corroborates monophyly of this group, but rejects that of Philharmostes, the largest genus. The latter is paraphyletic with respect to at least four other smaller genera and consists of at least three distantly related clades. One of them, formed by Philharmostes ballerioi sp. n. from the Tanzanian Nguru (the type locality) and Kaguru Mountains, is sister to the rest of the entire Philharmostes group. The nominal genus Philharmostes is, therefore, a waste-basket taxon for accommodating members of this group that lack the distinct characters of the smaller genera. Pending further research, the phylogenetically inadequate generic taxonomy of the Philharmostes group is not modified. Molecular clock analysis estimates separation of the mitochondrial lineages of two known populations of the new species at about 2.2 Ma, which corresponds with recurring shrinkage and expansion of African rainforest caused by climatic fluctuations during the Pleistocene. Adults of all nominal ingroup genera are illustrated along with male and female body parts of the new species. Diagnostic and/or synapomorphic morphological characters of the Philharmostes group of genera are revised. Habitus images and other supplementary information on all sequenced specimens are available online at dx.doi.org/10.5883/DS-VGDS001 and dx.doi.org/10.5883/DS-VGDS004.
Larvae of 13 species of the bembidiine subtribes Tachyina (the genera Tachyta Kirby, Tachys Dejean, Polyderis Motschulsky, Elaphropus Motschulsky, Sphaerotachys G. Müller, Paratachys Casey, Porotachys Netolitzky) and Xystosomina (the genus Mioptachys Bates) were studied. Larvae of all studied taxa are described, diagnosed and illustrated. A key to genera is provided separately for the first- and older-instar larvae. Monophyly and phylogenetic position of the subtribes and genera are discussed on the basis of presumably apomorphic character states of larvae. Based on at least six synapomorphic character states the subtribes Tachyina and Xystosomina appear to form a monophyletic group. On the other hand, there are no synapomorphies to propose a sister-group relationship between Tachyina and Xystosomina within the supertribe Trechitae.
This paper describes previously unreported lateral cuticle splits occurring during the moulting of larvae of the leaf-miners Pachyschelus laevigatus (Say, 1839) (Coleoptera: Buprestidae) and Cameraria sp. (Lepidoptera: Gracillariidae). In these species the cuticle does not split dorsally during the larval/larval moults as in most insects, but laterally, thus permitting the larva to leave its exuviae sideways rather than vertically. This previously overlooked phenomenon is hypothesized to have evolved independently in both taxa and is an adaptation to life in the vertically limited space of their mines and, therefore, might be found in other organisms confined to similar conditions. The exuvial split in the larva to pupa moult of Cameraria sp. taking place inside a relatively tick and firm cocoon is, however, of the regular dorso-medial type, and, therefore, two different successive types of moult occur within a single ontogenesis. For comparative purposes the common dorsal exuvial split is described and illustrated for the leaf-mining larvae of Profenusa alumna (Hymenoptera: Tenthredinidae), Sumitrosis rosea (Coleoptera: Chrysomelidae) and the free-living Satonius fui (Coleoptera: Torridincolidae)., Vasily V. Grebennikov., and Obsahuje seznam literatury