Abstract
Effective management of endangered or threatened wildlife requires an understanding of how foraging habitats are used by those populations. Molecular diet analysis of fecal samples offers a cost-effective and non-invasive method to investigate how diets of wild populations vary with respect to spatial and temporal factors. For the federally endangered Indiana bat (Myotis sodalis), documenting its preferred food sources can provide critical information to promote effective conservation of this federally endangered species. Using cytochrome oxidase I amplicon sequence data from Indiana bat guano samples collected at two roosting areas in Cypress Creek National Wildlife Refuge, we found that dipteran taxa (i.e., flies) associated with riparian habitats were the most frequently detected taxon and represented the majority of the sequence diversity among the arthropods sampled. A select few arthropods from other taxa—especially spiders—are also likely important to Indiana bat diets in this refuge. A supervised learning analysis of diet components suggest only a small fraction of the frequently detected taxa are important contributors to spatial and temporal variation. Overall, these data depict the Indiana bat as a generalist consumer whose diet includes some prey items associated with particular seasonal or spatial components, along with other taxa repeatedly consumed throughout the entire foraging season. These molecular diet analyses suggest that protecting foraging resources specifically associated with the riparian habitat of Cypress Creek National Wildlife Refuge is essential to promote effective Indiana bat conservation.
Highlights
The Indiana bat, Myotis sodalis, has the dubious distinction of being the first North American bat listed under the Endangered Species Preservation Act (Udall, 1967)
We found that most sequence data classified as host DNA belonged to M. sodalis, the species we expected from previous (Mangan and Mangan, 2019a) and subsequent (Mangan and Mangan, 2019b) surveillance work that concluded that the Indiana bat was the primary occupant of the artificial roosts where guano was collected
We found that the molecular techniques applied offer a rapid and cost-effective solution that is capable of achieving a greater taxonomic resolution of bat diets than previous morphological estimates
Summary
The Indiana bat, Myotis sodalis, has the dubious distinction of being the first North American bat listed under the Endangered Species Preservation Act (Udall, 1967). Effective bat conservation requires protecting critical resources such as winter and summer habitats (Lewis, 2007; Johnson and King, 2018). These summer habitat resources consist of both maternity colony sites as well as foraging areas. Understanding the particular foraging habitats used by bats from maternity colony roosts, for example, has led to refined strategies by policy-holders to engage with land managers (Johnson and King, 2018). Research that identifies preferences about roost site selection, for example Jachowski et al (2016), provides essential information for guiding conservation practices, but does not fully convey the habitat needs of the species. Understanding food preferences may identify unique and additional required habitat in need of protection
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