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From little things big things grow: enhancement of an acoustic telemetry network to monitor broad-scale movements of marine species along Australia’s east coast

Authors :
Adam Barnett
Fabrice R. A. Jaine
Stacy L. Bierwagen
Nicolas Lubitz
Kátya Abrantes
Michelle R. Heupel
Rob Harcourt
Charlie Huveneers
Ross G. Dwyer
Vinay Udyawer
Colin A. Simpfendorfer
Ingo B. Miller
Tracey Scott-Holland
Carley S. Kilpatrick
Samuel M Williams
Daniel Smith
Christine L. Dudgeon
Andrew S. Hoey
Richard Fitzpatrick
Felicity E. Osborne
Amy F. Smoothey
Paul A. Butcher
Marcus Sheaves
Eric E. Fisher
Mark Svaikauskas
Megan Ellis
Shiori Kanno
Benjamin J. Cresswell
Nicole Flint
Asia O. Armstrong
Kathy A. Townsend
Jonathan D. Mitchell
Matthew Campbell
Victor M. Peddemors
Johan A. Gustafson
Leanne M. Currey-Randall
Source :
Movement Ecology, Vol 12, Iss 1, Pp 1-16 (2024)
Publication Year :
2024
Publisher :
BMC, 2024.

Abstract

Abstract Background Acoustic telemetry has become a fundamental tool to monitor the movement of aquatic species. Advances in technology, in particular the development of batteries with lives of > 10 years, have increased our ability to track the long-term movement patterns of many species. However, logistics and financial constraints often dictate the locations and deployment duration of acoustic receivers. Consequently, there is often a compromise between optimal array design and affordability. Such constraints can hinder the ability to track marine animals over large spatial and temporal scales. Continental-scale receiver networks have increased the ability to study large-scale movements, but significant gaps in coverage often remain. Methods Since 2007, the Integrated Marine Observing System’s Animal Tracking Facility (IMOS ATF) has maintained permanent receiver installations on the eastern Australian seaboard. In this study, we present the recent enhancement of the IMOS ATF acoustic tracking infrastructure in Queensland to collect data on large-scale movements of marine species in the northeast extent of the national array. Securing a relatively small initial investment for expanding receiver deployment and tagging activities in Queensland served as a catalyst, bringing together a diverse group of stakeholders (research institutes, universities, government departments, port corporations, industries, Indigenous ranger groups and tourism operators) to create an extensive collaborative network that could sustain the extended receiver coverage into the future. To fill gaps between existing installations and maximise the monitoring footprint, the new initiative has an atypical design, deploying many single receivers spread across 2,100 km of Queensland waters. Results The approach revealed previously unknown broad-scale movements for some species and highlights that clusters of receivers are not always required to enhance data collection. However, array designs using predominantly single receiver deployments are more vulnerable to data gaps when receivers are lost or fail, and therefore “redundancy” is a critical consideration when designing this type of array. Conclusion Initial results suggest that our array enhancement, if sustained over many years, will uncover a range of previously unknown movements that will assist in addressing ecological, fisheries, and conservation questions for multiple species.

Details

Language :
English
ISSN :
20513933
Volume :
12
Issue :
1
Database :
Directory of Open Access Journals
Journal :
Movement Ecology
Publication Type :
Academic Journal
Accession number :
edsdoj.f0d24ca4387942488dce6b1a89692902
Document Type :
article
Full Text :
https://doi.org/10.1186/s40462-024-00468-8