Uncovering Hidden Predators: Thermal Drone Detection of Antarctic Fur Seals in Tussac Grass at South Georgia.

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Bibliographic Details
Title: Uncovering Hidden Predators: Thermal Drone Detection of Antarctic Fur Seals in Tussac Grass at South Georgia.
Authors: Coleman, J.1 (AUTHOR) jamiecoleman0303@gmail.com, Fenney, N.1 (AUTHOR) natnne@bas.ac.uk, Trathan, P. N.1,2 (AUTHOR), Fox, A.1 (AUTHOR), Collins, M. A.1 (AUTHOR), Hollyman, P.1,3 (AUTHOR)
Source: Ecology & Evolution (20457758). Mar2026, Vol. 16 Issue 3, p1-9. 9p.
Subject Terms: *Grasses, *Islands, *Avian influenza, *Animal populations, *Predatory aquatic animals, Infrared imaging
Geographic Terms: South Georgia (South Georgia & South Sandwich Islands)
Abstract: Antarctic fur seals are an important predator in the Southern Ocean, with > 95% of the population breeding at South Georgia. Female seals generally pup on open beaches, but many move into long tussac grass to suckle offspring, where their presence can be concealed by vegetation. This makes it difficult to assess population changes, introducing considerable uncertainty. Broad‐scale, time‐efficient monitoring capable of detecting fur seals in tussac is therefore required to better understand population trends throughout the island, especially given recent reports of declines associated with reduced food availability, as well as important negative impacts from HPAI. This study utilises a fixed‐wing drone to provide both red/green/blue (RGB) imagery and thermal imagery for detecting fur seals in tussac grass as well as along beaches for assessing populations. Thermal sensors proved highly effective at detecting fur seals in tussac relative to RGB, with a much more efficient processing workflow. However, a combination of both is necessary to accurately identify seals across the range of coastal terrain in which they are found. [ABSTRACT FROM AUTHOR]
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Abstract:Antarctic fur seals are an important predator in the Southern Ocean, with > 95% of the population breeding at South Georgia. Female seals generally pup on open beaches, but many move into long tussac grass to suckle offspring, where their presence can be concealed by vegetation. This makes it difficult to assess population changes, introducing considerable uncertainty. Broad‐scale, time‐efficient monitoring capable of detecting fur seals in tussac is therefore required to better understand population trends throughout the island, especially given recent reports of declines associated with reduced food availability, as well as important negative impacts from HPAI. This study utilises a fixed‐wing drone to provide both red/green/blue (RGB) imagery and thermal imagery for detecting fur seals in tussac grass as well as along beaches for assessing populations. Thermal sensors proved highly effective at detecting fur seals in tussac relative to RGB, with a much more efficient processing workflow. However, a combination of both is necessary to accurately identify seals across the range of coastal terrain in which they are found. [ABSTRACT FROM AUTHOR]
ISSN:20457758
DOI:10.1002/ece3.73209