Analysing the effects of distance, taxon and biomass on vertebrate detections using bulk-collected carrion fly iDNA

Kristen Fernandes; Philip W. Bateman; Benjamin J. Saunders; Mark Gibberd; Michael Bunce; Kristine Bohmann; Paul Nevill

doi:10.1098/rsos.231286

Royal Society Open Science (Apr 2024)

Analysing the effects of distance, taxon and biomass on vertebrate detections using bulk-collected carrion fly iDNA

Kristen Fernandes,
Philip W. Bateman,
Benjamin J. Saunders,
Mark Gibberd,
Michael Bunce,
Kristine Bohmann,
Paul Nevill

Affiliations

Kristen Fernandes: Trace and Environmental DNA (TrEnD) Laboratory, School of Molecular and Life Sciences, Curtin University , Bentley, Western Australia 6102, Australia
Philip W. Bateman: Behavioural Ecology Laboratory, School of Molecular and Life Sciences, Curtin University , Bentley, Western Australia 6102, Australia
Benjamin J. Saunders: School of Molecular and Life Sciences, Curtin University , Bentley, Western Australia 6102, Australia
Mark Gibberd: Food Agility CRC Ltd , Sydney, New South Wales 2000, Australia
Michael Bunce: Trace and Environmental DNA (TrEnD) Laboratory, School of Molecular and Life Sciences, Curtin University , Bentley, Western Australia 6102, Australia
Kristine Bohmann: Section for Molecular Ecology and Evolution, Faculty of Health and Medical Sciences, Globe Institute, University of Copenhagen , Copenhagen, Denmark
Paul Nevill: MBioMe - Mine Site Biomonitoring using eDNA Research Group, Trace and Environmental DNA (TrEnD) Laboratory, School of Molecular and Life Sciences, Curtin University , Bentley, Western Australia 6102, Australia

DOI: https://doi.org/10.1098/rsos.231286
Journal volume & issue: Vol. 11, no. 4

Abstract

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Invertebrate-derived DNA (iDNA) metabarcoding from carrion flies is a powerful, non-invasive tool that has value for assessing vertebrate diversity. However, unknowns exist around the factors that influence vertebrate detections, such as spatial limits to iDNA signals or if detections are influenced by taxonomic class or estimated biomass of the vertebrates of interest. Using a bulk-collection method, we captured flies from within a zoo and along transects extending 4 km away from this location. From 920 flies, we detected 28 vertebrate species. Of the 28 detected species, we identified 9 species kept at the zoo, 8 mammals and 1 bird, but no reptiles. iDNA detections were highly geographically localized, and only a few zoo animals were detected outside the zoo setting. However, due to the low number of detections in our dataset, we found no influence of the taxonomic group or the estimated biomass of animals on their detectability. Our data suggest that iDNA detections from bulk-collected carrion flies, at least in urban settings in Australia, are predominantly determined by geographic proximity to the sampling location. This study presents an important step in understanding how iDNA techniques can be used in biodiversity monitoring.

Published in Royal Society Open Science

ISSN: 2054-5703 (Online)
Publisher: The Royal Society
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://royalsocietypublishing.org/journal/rsos

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