Out of thin air: surveying tropical bat roosts through air sampling of eDNA

Author:

Garrett Nina R.1,Watkins Jonathan2ORCID,Francis Charles M.3,Simmons Nancy B.4,Ivanova Natalia5,Naaum Amanda5,Briscoe Andrew6,Drinkwater Rosie7,Clare Elizabeth L.1

Affiliation:

1. Department of Biology, York University, Toronto, Ontario, Canada

2. School of Biology and Environmental Science, Faculty of Science, Queensland University of Technology, Brisbane, Queensland, Australia

3. Canadian Wildlife Service, Environment and Climate Change Canada, Ottawa, Ontario, Canada

4. Department of Mammalogy, Division of Vertebrate Zoology, American Museum of Natural History, New York, New York, United States of America

5. Nature Metrics North America Ltd., Guelph, Ontario, Canada

6. Nature Metrics Ltd., Surrey Research Park, Guildford, United Kingdom

7. Palaeogenomics group, Department of Veterinary Sciences, Ludwig-Maximillian University Munich, Munich, Germany

Abstract

Understanding roosting behaviour is essential to bat conservation and biomonitoring, often providing the most accurate methods of assessing bat population size and health. However, roosts can be challenging to survey,e.g., physically impossible to access or presenting risks for researchers. Disturbance during monitoring can also disrupt natural bat behaviour and present material risks to the population such as disrupting hibernation cycles. One solution to this is the use of non-invasive monitoring approaches. Environmental (e)DNA has proven especially effective at detecting rare and elusive species particularly in hard-to-reach locations. It has recently been demonstrated that eDNA from vertebrates is carried in air. When collected in semi-confined spaces, this airborne eDNA can provide remarkably accurate profiles of biodiversity, even in complex tropical communities. In this study, we deploy novel airborne eDNA collection for the first time in a natural setting and use this approach to survey difficult to access potential roosts in the neotropics. Using airborne eDNA, we confirmed the presence of bats in nine out of 12 roosts. The identified species matched previous records of roost use obtained from photographic and live capture methods, thus demonstrating the utility of this approach. We also detected the presence of the white-winged vampire bat (Diaemus youngi) which had never been confirmed in the area but was long suspected based on range maps. In addition to the bats, we detected several non-bat vertebrates, including the big-eared climbing rat (Ototylomys phyllotis), which has previously been observed in and around bat roosts in our study area. We also detected eDNA from other local species known to be in the vicinity. Using airborne eDNA to detect new roosts and monitor known populations, particularly when species turnover is rapid, could maximize efficiency for surveyors while minimizing disturbance to the animals. This study presents the first applied use of airborne eDNA collection for ecological analysis moving beyond proof of concept to demonstrate a clear utility for this technology in the wild.

Funder

Natural Sciences and Engineering Research Council of Canada through the Discovery Grants Program

NSERC of Canada CGS-M

Academic Excellence Fund award

York Graduate Scholarship

Vernon Oliver Stong Graduate Scholarship in Science

Publisher

PeerJ

Subject

General Agricultural and Biological Sciences,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

Reference68 articles.

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5. National bat monitoring programme annual report 2021;Bat Conservation Trust,2021

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