New data on trophic associations of dung beetles (Coleoptera, Scarabaeidae, Scarabaeinae) and lemurs (Primates, Lemuroidea) in Madagascar revealed by metabarcoding.

Resource use and diet specialisation of Madagascan dung beetles have been little studied especially concerning the possible associations between specific dung beetle and lemur species. Pilot studies have demonstrated that amplicon sequencing is a promising tool for the lemur inventories. In the present contribution, we report the results of the gut content analysis of three endemic Madagascan dung beetles species: Helictopleurusclouei (Harold), Epilissusapotolamproides (Lebis) and Nanosdubitatus (Lebis). Amplicon metagenomics revealed trophic associations of these species with Eulemursanfordi (Archbold), Eu.fulvus (É.Geoffroy Saint-Hilaire) and Cheirogaleuscrossleyi (Grandidier), respectively. The reads of other mammal species, revealed by the analysis, including putative contaminations, are discussed.

Treating cattle with antibiotics affects greenhouse gas emissions, and microbiota in dung and dung beetles.

Antibiotics are routinely used to improve livestock health and growth. However, this practice may have unintended environmental impacts mediated by interactions among the wide range of micro- and macroorganisms found in agroecosystems. For example, antibiotics may alter microbial emissions of greenhouse gases by affecting livestock gut microbiota. Furthermore, antibiotics may affect the microbiota of non-target animals that rely on dung, such as dung beetles, and the ecosystem services they provide. To examine these interactions, we treated cattle with a commonly used broad-spectrum antibiotic and assessed downstream effects on microbiota in dung and dung beetles, greenhouse gas fluxes from dung, and beetle size, survival and reproduction. We found that antibiotic treatment restructured microbiota in dung beetles, which harboured a microbial community distinct from those in the dung they were consuming. The antibiotic effect on beetle microbiota was not associated with smaller size or lower numbers. Unexpectedly, antibiotic treatment raised methane fluxes from dung, possibly by altering the interactions between methanogenic archaea and bacteria in rumen and dung environments. Our findings that antibiotics restructure dung beetle microbiota and modify greenhouse gas emissions from dung indicate that antibiotic treatment may have unintended, cascading ecological effects that extend beyond the target animal.

Three parallel radiations of Canthonini dung beetles in Madagascar.

Madagascar has an exceptionally large fauna of more than 250 species of endemic dung beetles. Based on molecular phylogenies, the species descend from eight independent overseas colonisations, of which four have given rise to big radiations. Here, we analyse the tribe Canthonini with three parallel radiations following the respective colonisations at 64-44 Mya (Arachnodes-Epilissus, 101 species), 30-19 Mya (Epactoides, 37 species), and 24-15 Mya (Apotolamprus-Nanos, 61 species). All three radiations have taken place in forests, but there are also substantial differences between them. The oldest radiation exhibits the greatest ecological diversification, including monophyletic groups of primate and cattle dung specialists and multiple shifts to arboreal foraging. Analysis of pairs of sister species suggests allopatric speciation in the oldest and the youngest, apparently non-adaptive, radiations, whereas in Epactoides closely related species have diverged ecologically and have largely overlapping geographical ranges, suggestive of adaptive radiation in parapatry or regional sympatry.