R. hipposideros has the most restricted range of any resident bat species in Ireland, with the next closest population occurring on the west coast of Britain resulting in the isolation of the Irish population from other European populations. R. hipposideros is protected by Irish and European law (Wildlife Act 1976; EU Habitats Directive). Understanding the diet of R. hipposideros is important for making informed conservation management decisions, and to understand the role it plays in the provision of ecosystem services. Traditional morphological approaches to dietary analysis of bat faeces can result in the over-representation of hard-bodied versus soft-bodied insects but DNA metabarcoding approaches employing next generation sequencing facilitates simultaneous and unambiguous identification of multiple taxa from a single DNA extract. In this study, we used DNA that was extracted from faecal samples collected at R. hipposideros roosts. These DNA samples were previously species and sex-typed using real-time PCR and individuals identified via genotyping. Using this DNA metabarcoding approach, the dominant prey groups revealed were Diptera and Lepidoptera, with Hymenoptera, Coleoptera, Neuroptera and Trichoptera also identified. Female bats had greater amounts of Lepidoptera in their diet in comparison to males, suggesting sex-specific hunting strategies. Pest species such as mosquitoes (Culiseta spp., Culex pipiens) and midges (Culicoides punctatus) implicated in disease transmission were detected, highlighting the role of R. hipposideros in the provision of ecosystem services relevant to human and animal health. The combination of these molecular techniques can be used to understand the individual and gender-specific prey preferences of R. hipposideros.
|Original language||English (Ireland)|
|Publication status||Unpublished - Nov 2019|
|Event||All Ireland Mammal Symposium - Dublin, Dublin, Ireland|
Duration: 01 Nov 2019 → …
|Conference||All Ireland Mammal Symposium|
|Period||01/11/2019 → …|