Darwin's frog

Abstract: Ulceration and necrosis of the rostrum in Darwin's frogs was investigated microbiologically and histopathologically. The condition was attributed to infection with Aeromonas liquefaciens and, possibly, an Acinetobacter sp.

Abstract: Darwin’s frogs Rhinoderma spp. are the only known mouth-brooding frogs on Earth. The southern Darwin’s frog, R. darwinii, is found in the temperate forests of southern South America, is listed as Endangered and could be the only extant representative of this genus. Based on stomach contents, invertebrate prey availability and stable isotope analysis, we determined for the first time trophic ecological parameters for this species. Our results showed that R. darwinii is a generalist sit-and-wait predator and a secondary consumer, with a trophic position of 2.9. Carbon and nitrogen isotope composition indicated that herbivore invertebrates are their main prey, detected in 68.1% of their assimilated food. The most consumed prey included mosquitoes, flies, crickets, grasshoppers and ants. Detritivore and carnivore invertebrates were also ingested, but in lower proportions. Our results contribute to a better understanding of the feeding habits of this fully terrestrial amphibian and provide the first insight into their role linking low forest trophic positions with intermediate predators. We provide valuable biological information for in situ and ex situ conservation which can be used when developing habitat protection, reintroduction and captive breeding programmes. As revealed here, stable isotope analysis is a valuable tool to study the trophic ecology of highly endangered and cryptic species.

Abstract: The Southern Darwin’s frog Rhinoderma darwinii is a charismatic, mouth-brooding amphibian endemic to temperate forests of South America with a Vulnerable conservation status according to the IUCN Red List. We developed microsatellite markers from next generation sequence data that will aid genetic monitoring during and after re-introduction efforts. Using bioinformatics we characterized 3,521 perfect microsatellite repeats and designed primers for 35 of them. From these, 23 were polymorphic and amplified reliably. Number of alleles varied between 2 and 15, allele sizes varied between 84 and 299 bp, and observed heterozygosities varied between 0.105 and 0.904. These microsatellites represent a valuable resource to aid recovery of threatened Southern Darwin’s frog populations.