A rich and diverse fauna: an illustrated guide to the cetoniines of Ghana with comparisons to Ivory Coast and Benin (Coleoptera: Scarabaeidae: Cetoniinae).

The currently known cetoniine fauna of Ghana is discussed and illustrated. It now includes 60 genera and 148 taxa, including 9 subspecies. Comparison to the adjacent countries of Ivory Coast and nearby Benin gives evidence that the faunas of all three countries surprisingly may still be grossly under-sampled and hence poorly known for what is considered a relatively well-known group of beetles. At least 22 species known from both Ivory Coast and Benin are expected to be found in Ghana but still have yet to be reported. Notes on several species concepts and the alternate use of names are also given to clarify the taxonomy of the taxa known from this area.

A new genus of spider beetle (Coleoptera, Ptinidae) from western Peru.

A new genus of flightless spider beetle from Peru with two new species is described. It is characterized by unique heart-shaped fused elytra and a broad pronotum with five basal depressions. The characters of this new genus and species are illustrated and discussed and the possible phylogenetic placement of this taxon is also included.

Elevational and Possible Bushmeat Exploitation Effects on Dung Beetle (Scarabaeidae: Scarabaeinae) Communities on Mount Cameroon, West Central Africa.

Dung beetle species richness and abundance on Mt Cameroon were investigated to evaluate the effects of elevation. Surveys were done at five different elevations on the southwest facing slope from 216 to 2,102 m above sea level near the tree line at intervals of ~500 m. In total, 27 species and 1,886 specimens were collected during the study. No linear relationship between either species richness or beetle abundance and elevation was found with an expected highest diversity and abundance at low elevation and the lowest diversity and abundance at high elevation. Instead, both the highest diversity and abundance were discovered at the middle elevation (914-1,012 m) with 22 species and 48% of the total catch. The highest diversity indices (Shannon and Simpson) were found at the second lowest elevation (522-625 m). The lowest diversity found at the highest elevation (1,974-2,101 m) included only two species and represented only 4% of the beetles sampled. Unexpected low diversity and abundance at the lowest elevation are hypothesized to be due at least in part to the effects of bushmeat hunting in the more accessible lower elevations and the concomitant effects on dung beetles that mainly utilize mammal dung. The most similar faunas based on Morisita-Horn paired comparisons were those at the two highest and the two lowest elevations while the most dissimilar were the middle compared with the highest elevation. Faunas appear to be divided into high and low elevation communities with a boundary or division at c.1,500-1,750 m elevation.

Effects of Exyra ridingsii (Lepidoptera: Noctuidae) on Sarracenia flava (Nepenthales: Sarraceniaceae).

Exyra ridingsii (Riley) (Lepidoptera: Noctuidae) is a moth whose obligate host is the pitcher plant Sarracenia flava (L.) (Nepenthales: Sarraceniaceae). The entire life cycle of the moth is completed in the trumpets of this fire-dependent plant that is found throughout the southeastern United States in bogs, long-leaf pine savannas, and pocosins. The purpose of this study was to determine the effects of E. ridingsii on S. flava, including the effect of herbivory on trumpet height in the year subsequent to feeding and whether moths select trumpets for oviposition based on height. Although most forms of herbivory by insects might be expected to have negative effects on plants by reducing photosynthetic abilities, it would be counterproductive for herbivory by E. ridingsii to negatively affect S. flava as this plant is the only possible habitat for E. ridingsii. At each site in selected quadrats, the number of trumpets, trumpet height, trumpet status, number of trumpets in a clump, and number of clumps were recorded. The relationship between height and herbivory was analyzed using a linear model, and a positive correlation was found between height and herbivory. E. ridingsii herbivory had no effect on the next year's growth of S. flava based on a Spearman's correlation. Therefore, we concluded that E. ridingsii has little effect on S. flava populations and has likely evolved to selectively avoid herbivory on more vulnerable, smaller plants.

Phylogeny of the Oniticellini and Onthophagini dung beetles (Scarabaeidae, Scarabaeinae) from morphological evidence.

A phylogenetic study was conducted to hypothesize relationships of most of the genera of the Oniticellini and Onthophagini for the first time using morphological characters from a diverse array of external and internal sclerites. The monophyly and sister relationship of both tribes was found using Bayesian and parsimony analyses with heavily to moderately weighted data. An alternative hypothesis based on parsimony analyses of unweighted or slightly weighted data show a paraphyletic Oniticellini without the Onthophagini, although recognition of the subtribe Helictopleurina as a tribe would eliminate non-monophyly. Of the three Oniticellini subtribes, the Helictopleurina and Drepanocerina are monophyletic. There is no support for the monophyly of the Oniticellina or the Onthophagini subtribe Alloscelina, as currently defined. The genus Liatongus is paraphyletic, while strong support was found for monophyly of the Madagascan genus, Helictopleurus. The genus Onthophagus is never monophyletic in any analysis performed. Two new subtribes are also proposed: Liatongina subtr. n. including the genus Liatongus and Attavicina subtr. n. including the genera Attavicinus and Paroniticellus. Topological evidence shows that the ancestral oniticellines and onthophagines were all coprophagous with alternative food sources evolving relatively recently. Both myrmecophily and termitophily probably evolved only once in the onthophagines. The phylogenetic analysis supports an African origin for the two tribes, with a relatively early age for the split of the Madagascar helictopleurines from the remaining oniticellines via dispersal. Furthermore, the presence of the oniticellines in the New World is hypothesized to be due to two relatively old dispersal events via Beringia and two relatively recent trans-Atlantic invasions of the Caribbean.