Comparing the cost‐effectiveness of drones, camera trapping and passive acoustic recorders in detecting changes in koala occupancy

Chad T. Beranek; Darren Southwell; Tim S. Jessop; Benjamin Hope; Veronica Fernandes Gama; Nicole Gallahar; Elliot Webb; Brad Law; Allen McIlwee; Jared Wood; Adam Roff; Graeme Gillespie

doi:10.1002/ece3.11659

Ecology and Evolution (Jul 2024)

Comparing the cost‐effectiveness of drones, camera trapping and passive acoustic recorders in detecting changes in koala occupancy

Chad T. Beranek,
Darren Southwell,
Tim S. Jessop,
Benjamin Hope,
Veronica Fernandes Gama,
Nicole Gallahar,
Elliot Webb,
Brad Law,
Allen McIlwee,
Jared Wood,
Adam Roff,
Graeme Gillespie

Affiliations

Chad T. Beranek: Conservation Science Research Group University of Newcastle Callaghan New South Wales Australia
Darren Southwell: Conservation Science Research Group University of Newcastle Callaghan New South Wales Australia
Tim S. Jessop: Koala Science Team, Conservation and Restoration Science, Science, Economics and Insights Division New South Wales Department of Planning and Environment Parramatta New South Wales Australia
Benjamin Hope: Koala Science Team, Conservation and Restoration Science, Science, Economics and Insights Division New South Wales Department of Planning and Environment Parramatta New South Wales Australia
Veronica Fernandes Gama: Koala Science Team, Conservation and Restoration Science, Science, Economics and Insights Division New South Wales Department of Planning and Environment Parramatta New South Wales Australia
Nicole Gallahar: Koala Science Team, Conservation and Restoration Science, Science, Economics and Insights Division New South Wales Department of Planning and Environment Parramatta New South Wales Australia
Elliot Webb: Koala Science Team, Conservation and Restoration Science, Science, Economics and Insights Division New South Wales Department of Planning and Environment Parramatta New South Wales Australia
Brad Law: Department of Primary Industries Forest Science Centre Parramatta New South Wales Australia
Allen McIlwee: Koala Science Team, Conservation and Restoration Science, Science, Economics and Insights Division New South Wales Department of Planning and Environment Parramatta New South Wales Australia
Jared Wood: NSW Wildlife Drone Hub, Vegetation and Biodiversity Mapping, Science, Economics, and Insights Division New South Wales Department of Climate Change and Energy Parramatta New South Wales Australia
Adam Roff: NSW Wildlife Drone Hub, Vegetation and Biodiversity Mapping, Science, Economics, and Insights Division New South Wales Department of Climate Change and Energy Parramatta New South Wales Australia
Graeme Gillespie: Koala Science Team, Conservation and Restoration Science, Science, Economics and Insights Division New South Wales Department of Planning and Environment Parramatta New South Wales Australia

DOI: https://doi.org/10.1002/ece3.11659
Journal volume & issue: Vol. 14, no. 7
pp. n/a – n/a

Abstract

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Abstract Quantifying the cost‐effectiveness of alternative sampling methods is crucial for efficient biodiversity monitoring and detection of population trends. In this study, we compared the cost‐effectiveness of three novel sampling methods for detecting changes in koala (Phascolarctos cinereus) occupancy: thermal drones, passive acoustic recorders and camera trapping. Specifically, we fitted single‐season occupancy‐detection models to data recorded from 46 sites in eight bioregions of New South Wales, Australia, between 2018 and 2022. We explored the effect of weather variables on daily detection probability for each method and, using these estimates, calculated the statistical power to detect 30%, 50% and 80% declines in koala occupancy. We calculated power for different combinations of sites (1–200) and repeat surveys (2–40) and developed a cost model that found the cheapest survey design that achieved 80% power to detect change. On average, detectability of koalas was highest with one 24‐h period of acoustic surveys (0.32, 95% CI's: 0.26, 0.39) compared to a 25‐ha flight of drone surveys (0.28, 95% 0.15, 0.48) or a 24‐h period of camera trapping consisting of six cameras (0.019, 95% CI's: 0.014, 0.025). We found a negative quadratic relationship between detection probability and air temperature for all three methods. Our power and cost analysis suggested that 148 sites surveyed with acoustic recorders deployed for 14 days would be the cheapest method to sufficiently detect a 30% decline in occupancy with 80% power. We recommend passive acoustic recorders as the most efficient sampling method for monitoring koala occupancy compared to cameras or drones. Further comparative studies are needed to compare the relative effectiveness of these methods and others when the monitoring objective is to detect change in koala abundance over time.

Published in Ecology and Evolution

ISSN: 2045-7758 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Biology (General): Ecology
Website: https://onlinelibrary.wiley.com/journal/20457758

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