Methods for tagging whale sharks: insights into performance and best practices with a focus on clamp attachments

Freya C. Womersley; Sofia Green; Alberto Garcia-Baciero; Ronan Conlon; Amy L. Jeffries; Matt J. Waller; Sara S. Ratão; Nuno Queiroz; Pedro Afonso; Gonzalo Araujo; Adam Barnett; Christine Barry; Michael L. Berumen; Farukhkha Bloch; Ginevra Boldrocchi; Camrin D. Braun; Ryan Caillouet; Constance Chapman; Jesse E. M. Cochran; Rafael de la Parra; Stella Diamant; Alistair D. M. Dove; Matthew Dunbabin; Mark V. Erdmann; Luciana C. Ferreira; Richard Fitzpatrick; Jorge Fontes; Adrian C. Gleiss; Jonathan R. Green; Lucas P. Griffin; Curtice R. Griffin; Royale S. Hardenstine; Abdi Hassan; Alex R. Hearn; Jill M. Hendon; Mochamad Iqbal Herwata Putra; Eric Hoffmayer; Lisa Hoopes; Robert E. Hueter; Sajan John; Jake Levenson; Sonny Lewis; Bruno C. L. Macena; Mark G. Meekan; Ingo B. Miller; Brad Norman; Jens Paulsen; Cameron Perry; Simon J. Pierce; Samantha D. Reynolds; David P. Robinson; Christoph A. Rohner; Jennifer Schmidt; Edy Setyawan; Abraham B. Sianipar; Jamison Smith; Simon R. Thorrold; Michele Thums; Rory Wilson; Emily J. Southall; David W. Sims

doi:10.1186/s40317-026-00462-4

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Methods for tagging whale sharks: insights into performance and best practices with a focus on clamp attachments

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Methods for tagging whale sharks: insights into performance and best practices with a focus on clamp attachments

Freya C. Womersley, Sofia Green, Alberto Garcia-Baciero, Ronan Conlon, Amy L. Jeffries, Matt J. Waller, Sara S. Ratão, Nuno Queiroz, Pedro Afonso, Gonzalo Araujo, …

Animal biotelemetry, In Press

2026

DOI: https://doi.org/10.1186/s40317-026-00462-4

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Abstract

Background Biologging and telemetry have transformed our understanding of marine megafauna movement ecology. Yet, methodological constraints continue to limit data quality and deployment duration. Devices recording whale shark (Rhincodon typus) behaviours and movements have been used for decades, but they remain challenging to deploy and vary in success. Recently, spring-loaded clamp-based systems have emerged as one of the most widely used approaches to attach electronic tags to the fins of this globally endangered species. Currently, however, no consensus guidelines exist as to how to optimise this approach, potentially leading to continued underperforming deployments limiting analysis potential. Here, we synthesise experiences with clamp-based tagging worldwide through a targeted survey of whale shark researchers. We explore performance and challenges with a view to propose current best practices in the field. Results Whale shark researcher responses to the survey highlighted clamp-based systems as a practical and more widely applicable approach than drill-based methods, which are often used to secure tags to other large sharks. They also noted that clamps have greater retention potential and are suitable for a wider range of tags compared to dart-based methods, but are still constrained by design, placement, and deployment conditions. Researchers used a variety of materials and designs to build their own clamps, often facilitated by direct collaboration with each other or key manufacturers. Clamps produced highly variable outcomes, ranging from successful long-term satellite transmissions over 200 days and short-term biologging for 48 h at 20 Hz, to premature detachment and cases of fin damage. For long-term clamps, changes in position on the fin allowed for more stable satellite transmissions over time. Some clamp designs achieved data quantity and quality close to that of drilled deployments, demonstrating their potential to rival traditional methods while offering a less invasive approach. Results emphasised the ongoing need for technological refinement and rigorous evaluation of clamp performance and associated impacts. Conclusions Based on collective insights, we present a unified approach to clamp design and positioning, and identify key priorities for advancing this attachment technology, such as aiming for positions b-2 and c-2 on the fin and ensuring the clamp bridge distance (always between 30 and 50 mm) and tension are matched to shark size. Optimising clamp systems could substantially improve our ability to generate high-quality, long-duration movement data while minimising tagging impacts on the animal where possible. This could enhance ecological and conservation research outcomes for endangered whale sharks, with broader implications for tagging other large-bodied marine megafauna.

Details

Title: Methods for tagging whale sharks: insights into performance and best practices with a focus on clamp attachments
Authors/Creators: Freya C. Womersley - Marine Biological Association of the United Kingdom
Sofia Green - Charles Darwin Foundation
Alberto Garcia-Baciero - Pioneer (United States)
Ronan Conlon - Marine Biological Association of the United Kingdom
Amy L. Jeffries - Marine Biological Association of the United Kingdom
Matt J. Waller - Marine Biological Association of the United Kingdom
Sara S. Ratão - Marine Biological Association of the United Kingdom
Nuno Queiroz - Universidade do Porto
Pedro Afonso - Universidade dos Açores
Gonzalo Araujo - Somerset County Council
Adam Barnett
Christine Barry - Australian Institute of Marine Science
Michael L. Berumen - King Abdullah University of Science and Technology
Farukhkha Bloch - Wildlife Conservation Society India
Ginevra Boldrocchi - University of Insubria
Camrin D. Braun - Woods Hole Oceanographic Institution
Ryan Caillouet - NOAA National Marine Fisheries Service
Constance Chapman - Qatar University
Jesse E. M. Cochran - King Abdullah University of Science and Technology
Rafael de la Parra - University of Quintana Roo
Stella Diamant - Madagascar Biodiversity Partnership
Alistair D. M. Dove - Mississippi Museum of Natural Science
Matthew Dunbabin - Queensland University of Technology
Mark V. Erdmann - University of Auckland
Luciana C. Ferreira - Australian Institute of Marine Science
Richard Fitzpatrick
Jorge Fontes - Universidade dos Açores
Adrian C. Gleiss - Murdoch University
Jonathan R. Green - Charles Darwin Foundation
Lucas P. Griffin - University of South Florida
Curtice R. Griffin - University of Massachusetts Amherst
Royale S. Hardenstine - King Abdullah University of Science and Technology
Abdi Hassan - Indonesian Pediatric Society
Alex R. Hearn - Universidad San Francisco de Quito
Jill M. Hendon - University of Southern Mississippi
Mochamad Iqbal Herwata Putra - Indonesian Pediatric Society
Eric Hoffmayer - NOAA National Marine Fisheries Service
Lisa Hoopes - Florida Aquarium
Robert E. Hueter - Mote Marine Laboratory
Sajan John - Wildlife Conservation Society India
Jake Levenson - Bureau of Energy
Sonny Lewis - Reef Ecologic
Bruno C. L. Macena - Universidade dos Açores
Mark G. Meekan - Ocean Institute
Ingo B. Miller - James Cook University
Brad Norman - Murdoch University
Jens Paulsen - Marine Megafauna Foundation
Cameron Perry - Florida Aquarium
Simon J. Pierce - University of the Sunshine Coast
Samantha D. Reynolds - Murdoch University
David P. Robinson - Bay Institute
Christoph A. Rohner - Marine Megafauna Foundation
Jennifer Schmidt - Princeton University
Edy Setyawan - Universitas Hindu Indonesia
Abraham B. Sianipar - Universitas Hindu Indonesia
Jamison Smith
Simon R. Thorrold - Woods Hole Oceanographic Institution
Michele Thums - Australian Institute of Marine Science
Rory Wilson - Swansea University
Emily J. Southall - Marine Biological Association of the United Kingdom
David W. Sims - Marine Biological Association of the United Kingdom
Publication Details: Animal biotelemetry, In Press
Identifiers: 991005883843807891
Murdoch Affiliation: School of Environmental and Conservation Sciences; Centre for Sustainable Aquatic Ecosystems
Language: English
Resource Type: Journal article

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