Alice E. Hall, School of Biological and Marine Sciences
Tom Stamp, School of Biological and Marine Sciences
Peter Davies, School of Biological and Marine Sciences
Mathieu Woillez, Institut français de recherche pour l’exploitation de la mer
Martial Laurans, Institut français de recherche pour l’exploitation de la mer
Marine Gonse, Institut français de recherche pour l’exploitation de la mer
Lydie I.E. Couturier, Bâtiment Cap Océan
Olivier Blanpain, Bâtiment Cap Océan
Katia Frangoudes, Université de Bretagne Occidentale
Emmanuelle Quillérou, Université de Bretagne Occidentale
Eider Graner, Université de Bretagne Occidentale
Jan Reubens, Flanders Marine Institute
Carlotta Muñiz, Flanders Marine Institute
Lucy A. Hawkes, University of Exeter
Matthew J. Witt, University of Exeter
Thomas W. Horton, University of Exeter
Tom Hooper, Isles of Scilly Inshore Fisheries and Conservation Authority
Ricky Pender, Isles of Scilly Inshore Fisheries and Conservation Authority
Erwin Quemeneur, Comité Départemental des Pêches Maritimes et des Élevages Marins du Finistère (CDPMEM 29)
Mewen Abjean, Comité Départemental des Pêches Maritimes et des Élevages Marins du Finistère (CDPMEM 29)
Xavier Tetard, Comité Régional des Pêches de Normandie (CRPMEM de Normandie)
Pascal Provost, LPO France
Silvana Birchenough, Centre for the Environment Fisheries and Aquaculture Science
Jean Luc Solandt, Marine Conservation Society
Colin Trundle, Cornwall Inshore Fisheries and Conservation Authority
Amy Y. Cartwright, University of Plymouth
Sian Rees, School of Biological and Marine Sciences
Ronan Conlon, University of Plymouth
Shion E.A. Reynell, University of Plymouth
Ben Ciotti, School of Biological and Marine Sciences

ORCID

Abstract

Acoustic telemetry offers valuable insights into species' spatial and temporal movement patterns, helping to understand habitat use, behaviour and migration timings. The Fish Intel Network established a collaborative cross-English Channel acoustic telemetry network to track multiple species over small and large spatial scales. This network was designed in close alliance with local fishers to incorporate essential local ecological knowledge of target species and habitats, gathered through interviews and workshops. To date, 254 acoustic receivers have been deployed, and 874 animals have been tagged across the Channel. Six species were tracked for this study: European bass (Dicentrarchus labrax), pollack (Pollachius pollachius), Atlantic bluefin tuna (Thunnus thynnus), black seabream (Spondyliosoma cantharus), thinlip mullet (Chelon ramada) and crawfish (Palinurus elephas). Key lessons learned from the project include emphasising the value of local and international collaboration, equipment compatibility and local ecological knowledge to provide vital data for establishing an acoustic telemetry network. Provide practical solutions for issues with receiver functionality and data ownership, and advocate for the integration of local ecological knowledge with acoustic telemetry in future tracking studies to enhance the understanding and management of marine species. Solution: International and local collaboration, using compatible telemetry equipment with joint data sharing.

Publication Date

2025-11-06

Publication Title

Ecological Solutions and Evidence

Volume

6

Issue

4

Acceptance Date

2025-10-07

Deposit Date

2025-12-03

Funding

We also thank our funders Interreg VA France (Channel) England Programme—Project 256. Thank you to Devon and Severn IFCA, Sussex IFCA, Natural England and Sussex Wildlife Trust for assistance with fieldwork. This work made use of the LifeWatch observation data (ETN) and infrastructure (RV ‘Simon Stevin’) provided by the Flanders Marine Institute (VLIZ) and funded by the Research Foundation—Flanders (FWO) as part of the Belgian contribution to LifeWatch.

Keywords

acoustic telemetry, animal tracking, collaboration, essential fish habitat, local ecological knowledge, movement ecology

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