Animal-borne telemetry: an integral component of the ocean observing toolkit

Rob Harcourt; Ana Micaela Martins Sequeira; Xuelei Zhang; Fabien Rouquet; Kosei Komatsu; Michelle Heupel; Clive R. McMahon; Frederick G. Whoriskey; Mark Meekan; Gemma Carroll; Stephanie Brodie; Colin Simpfendorfer; Mark A. Hindell; Ian D. Jonsen; Daniel P. Costa; Barbara A. Block; Monica M. Muelbert; Bill E. Woodward; Michael J. Weises; Kim Aarestrup; Martin Biuw; Lars Boehme; Steven J. Bograd; Dorian Cazau; Jean-Benoit Charrassin; Steven Cooke; Paul D. Cowley; P.J. Nico De Bruyn; Tiphaine Jeanniard Du Dot; Carlos M. Duarte; Victor M. EguÍluz; Luciana Ferreira; Juan Fernández-Garcia; Kim Goetz; Yusuke Goto; Christophe Guinet; Mike Hammill; Graeme C. Hays; Elliot Hazen; Luis Huckstadt; Charlie Huveneers; Sara Iverson; Saifullah A. Jaaman; Kongkiat Kittiwattanawong; Kit Kovacs; Christian Lydersen; Tim Moltmann; Masaru Naruoka; Lachlan Phillips; Baptiste Picard; Nuno Queiroz; Gilles Reverdin; Katsufumi Sato; David W. Sims; Eva B. Thorstad; Michele Thums; Anne M. Treasure; Andrew Trites; Guy D. Williams; Yoshinari Yonehara; Mike A. Fedak

doi:10.3389/fmars.2019.00326

Animal-borne telemetry: an integral component of the ocean observing toolkit

Rob Harcourt, Ana Micaela Martins Sequeira, Xuelei Zhang, Fabien Rouquet, Kosei Komatsu, Michelle Heupel, Clive R. McMahon, Frederick G. Whoriskey, Mark Meekan, Gemma Carroll, Stephanie Brodie, Colin Simpfendorfer, Mark A. Hindell, Ian D. Jonsen, Daniel P. Costa, Barbara A. Block, Monica M. Muelbert, Bill E. Woodward, Michael J. Weises, Kim AarestrupMartin Biuw, Lars Boehme, Steven J. Bograd, Dorian Cazau, Jean-Benoit Charrassin, Steven Cooke, Paul D. Cowley, P.J. Nico De Bruyn, Tiphaine Jeanniard Du Dot, Carlos M. Duarte, Victor M. EguÍluz, Luciana Ferreira, Juan Fernández-Garcia, Kim Goetz, Yusuke Goto, Christophe Guinet, Mike Hammill, Graeme C. Hays, Elliot Hazen, Luis Huckstadt, Charlie Huveneers, Sara Iverson, Saifullah A. Jaaman, Kongkiat Kittiwattanawong, Kit Kovacs, Christian Lydersen, Tim Moltmann, Masaru Naruoka, Lachlan Phillips, Baptiste Picard, Nuno Queiroz, Gilles Reverdin, Katsufumi Sato, David W. Sims, Eva B. Thorstad, Michele Thums, Anne M. Treasure, Andrew Trites, Guy D. Williams, Yoshinari Yonehara, Mike A. Fedak

Research output: Contribution to journal › Review article › peer-review

Abstract

Animal telemetry is a powerful tool for observing marine animals and the physical environments that they inhabit, from coastal and continental shelf ecosystems to polar seas and open oceans. Satellite-linked biologgers and networks of acoustic receivers allow animals to be reliably monitored over scales of tens of meters to thousands of kilometres, giving insight into their habitat use, home range size, the phenology of migratory patterns and the biotic and abiotic factors that drive their distributions. Furthermore, physical environmental variables can be collected using animals as autonomous sampling platforms, increasing spatial and temporal coverage of global oceanographic observation systems. The use of animal telemetry therefore has the capacity to provide measures from a suite of essential ocean variables (EOVs) for improved monitoring of Earth’s oceans. Here we outline the design features of animal telemetry systems, describe current applications and their benefits and challenges, and discuss future directions. We describe new analytical techniques that improve our ability to not only quantify animal movements but to also provide a powerful framework for comparative studies across taxa. We discuss the application of animal telemetry and its capacity to collect biotic and abiotic data, how the data collected can be incorporated into ocean observing systems, and the role these data can play in improved ocean management.

Original language	English
Article number	326
Number of pages	21
Journal	Frontiers in Marine Science
Volume	6
DOIs	https://doi.org/10.3389/fmars.2019.00326
Publication status	Published - 26 Jun 2019

Keywords

Ocean observing
Animal telemetry
Animal movement
Movement analysis
EOV

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Cite this

Harcourt, R., Martins Sequeira, A. M., Zhang, X., Rouquet, F., Komatsu, K., Heupel, M., McMahon, C. R., Whoriskey, F. G., Meekan, M., Carroll, G., Brodie, S., Simpfendorfer, C., Hindell, M. A., Jonsen, I. D., Costa, D. P., Block, B. A., Muelbert, M. M., Woodward, B. E., Weises, M. J., ... Fedak, M. A. (2019). Animal-borne telemetry: an integral component of the ocean observing toolkit. Frontiers in Marine Science, 6, Article 326. https://doi.org/10.3389/fmars.2019.00326

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title = "Animal-borne telemetry: an integral component of the ocean observing toolkit",

abstract = "Animal telemetry is a powerful tool for observing marine animals and the physical environments that they inhabit, from coastal and continental shelf ecosystems to polar seas and open oceans. Satellite-linked biologgers and networks of acoustic receivers allow animals to be reliably monitored over scales of tens of meters to thousands of kilometres, giving insight into their habitat use, home range size, the phenology of migratory patterns and the biotic and abiotic factors that drive their distributions. Furthermore, physical environmental variables can be collected using animals as autonomous sampling platforms, increasing spatial and temporal coverage of global oceanographic observation systems. The use of animal telemetry therefore has the capacity to provide measures from a suite of essential ocean variables (EOVs) for improved monitoring of Earth{\textquoteright}s oceans. Here we outline the design features of animal telemetry systems, describe current applications and their benefits and challenges, and discuss future directions. We describe new analytical techniques that improve our ability to not only quantify animal movements but to also provide a powerful framework for comparative studies across taxa. We discuss the application of animal telemetry and its capacity to collect biotic and abiotic data, how the data collected can be incorporated into ocean observing systems, and the role these data can play in improved ocean management. ",

keywords = "Ocean observing, Animal telemetry, Animal movement, Movement analysis, EOV",

author = "Rob Harcourt and {Martins Sequeira}, {Ana Micaela} and Xuelei Zhang and Fabien Rouquet and Kosei Komatsu and Michelle Heupel and McMahon, {Clive R.} and Whoriskey, {Frederick G.} and Mark Meekan and Gemma Carroll and Stephanie Brodie and Colin Simpfendorfer and Hindell, {Mark A.} and Jonsen, {Ian D.} and Costa, {Daniel P.} and Block, {Barbara A.} and Muelbert, {Monica M.} and Woodward, {Bill E.} and Weises, {Michael J.} and Kim Aarestrup and Martin Biuw and Lars Boehme and Bograd, {Steven J.} and Dorian Cazau and Jean-Benoit Charrassin and Steven Cooke and Cowley, {Paul D.} and {Nico De Bruyn}, P.J. and {Du Dot}, {Tiphaine Jeanniard} and Duarte, {Carlos M.} and Egu{\'I}luz, {Victor M.} and Luciana Ferreira and Juan Fern{\'a}ndez-Garcia and Kim Goetz and Yusuke Goto and Christophe Guinet and Mike Hammill and Hays, {Graeme C.} and Elliot Hazen and Luis Huckstadt and Charlie Huveneers and Sara Iverson and Jaaman, {Saifullah A.} and Kongkiat Kittiwattanawong and Kit Kovacs and Christian Lydersen and Tim Moltmann and Masaru Naruoka and Lachlan Phillips and Baptiste Picard and Nuno Queiroz and Gilles Reverdin and Katsufumi Sato and Sims, {David W.} and Thorstad, {Eva B.} and Michele Thums and Treasure, {Anne M.} and Andrew Trites and Williams, {Guy D.} and Yoshinari Yonehara and Fedak, {Mike A.}",

year = "2019",

month = jun,

day = "26",

doi = "10.3389/fmars.2019.00326",

language = "English",

volume = "6",

journal = "Frontiers in Marine Science",

issn = "2296-7745",

publisher = "Frontiers Media S. A.",

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Harcourt, R, Martins Sequeira, AM, Zhang, X, Rouquet, F, Komatsu, K, Heupel, M, McMahon, CR, Whoriskey, FG, Meekan, M, Carroll, G, Brodie, S, Simpfendorfer, C, Hindell, MA, Jonsen, ID, Costa, DP, Block, BA, Muelbert, MM, Woodward, BE, Weises, MJ, Aarestrup, K, Biuw, M, Boehme, L, Bograd, SJ, Cazau, D, Charrassin, J-B, Cooke, S, Cowley, PD, Nico De Bruyn, PJ, Du Dot, TJ, Duarte, CM, EguÍluz, VM, Ferreira, L, Fernández-Garcia, J, Goetz, K, Goto, Y, Guinet, C, Hammill, M, Hays, GC, Hazen, E, Huckstadt, L, Huveneers, C, Iverson, S, Jaaman, SA, Kittiwattanawong, K, Kovacs, K, Lydersen, C, Moltmann, T, Naruoka, M, Phillips, L, Picard, B, Queiroz, N, Reverdin, G, Sato, K, Sims, DW, Thorstad, EB, Thums, M, Treasure, AM, Trites, A, Williams, GD, Yonehara, Y & Fedak, MA 2019, 'Animal-borne telemetry: an integral component of the ocean observing toolkit', Frontiers in Marine Science, vol. 6, 326. https://doi.org/10.3389/fmars.2019.00326

TY - JOUR

T1 - Animal-borne telemetry

T2 - an integral component of the ocean observing toolkit

AU - Harcourt, Rob

AU - Martins Sequeira, Ana Micaela

AU - Zhang, Xuelei

AU - Rouquet, Fabien

AU - Komatsu, Kosei

AU - Heupel, Michelle

AU - McMahon, Clive R.

AU - Whoriskey, Frederick G.

AU - Meekan, Mark

AU - Carroll, Gemma

AU - Brodie, Stephanie

AU - Simpfendorfer, Colin

AU - Hindell, Mark A.

AU - Jonsen, Ian D.

AU - Costa, Daniel P.

AU - Block, Barbara A.

AU - Muelbert, Monica M.

AU - Woodward, Bill E.

AU - Weises, Michael J.

AU - Aarestrup, Kim

AU - Biuw, Martin

AU - Boehme, Lars

AU - Bograd, Steven J.

AU - Cazau, Dorian

AU - Charrassin, Jean-Benoit

AU - Cooke, Steven

AU - Cowley, Paul D.

AU - Nico De Bruyn, P.J.

AU - Du Dot, Tiphaine Jeanniard

AU - Duarte, Carlos M.

AU - EguÍluz, Victor M.

AU - Ferreira, Luciana

AU - Fernández-Garcia, Juan

AU - Goetz, Kim

AU - Goto, Yusuke

AU - Guinet, Christophe

AU - Hammill, Mike

AU - Hays, Graeme C.

AU - Hazen, Elliot

AU - Huckstadt, Luis

AU - Huveneers, Charlie

AU - Iverson, Sara

AU - Jaaman, Saifullah A.

AU - Kittiwattanawong, Kongkiat

AU - Kovacs, Kit

AU - Lydersen, Christian

AU - Moltmann, Tim

AU - Naruoka, Masaru

AU - Phillips, Lachlan

AU - Picard, Baptiste

AU - Queiroz, Nuno

AU - Reverdin, Gilles

AU - Sato, Katsufumi

AU - Sims, David W.

AU - Thorstad, Eva B.

AU - Thums, Michele

AU - Treasure, Anne M.

AU - Trites, Andrew

AU - Williams, Guy D.

AU - Yonehara, Yoshinari

AU - Fedak, Mike A.

PY - 2019/6/26

Y1 - 2019/6/26

N2 - Animal telemetry is a powerful tool for observing marine animals and the physical environments that they inhabit, from coastal and continental shelf ecosystems to polar seas and open oceans. Satellite-linked biologgers and networks of acoustic receivers allow animals to be reliably monitored over scales of tens of meters to thousands of kilometres, giving insight into their habitat use, home range size, the phenology of migratory patterns and the biotic and abiotic factors that drive their distributions. Furthermore, physical environmental variables can be collected using animals as autonomous sampling platforms, increasing spatial and temporal coverage of global oceanographic observation systems. The use of animal telemetry therefore has the capacity to provide measures from a suite of essential ocean variables (EOVs) for improved monitoring of Earth’s oceans. Here we outline the design features of animal telemetry systems, describe current applications and their benefits and challenges, and discuss future directions. We describe new analytical techniques that improve our ability to not only quantify animal movements but to also provide a powerful framework for comparative studies across taxa. We discuss the application of animal telemetry and its capacity to collect biotic and abiotic data, how the data collected can be incorporated into ocean observing systems, and the role these data can play in improved ocean management.

AB - Animal telemetry is a powerful tool for observing marine animals and the physical environments that they inhabit, from coastal and continental shelf ecosystems to polar seas and open oceans. Satellite-linked biologgers and networks of acoustic receivers allow animals to be reliably monitored over scales of tens of meters to thousands of kilometres, giving insight into their habitat use, home range size, the phenology of migratory patterns and the biotic and abiotic factors that drive their distributions. Furthermore, physical environmental variables can be collected using animals as autonomous sampling platforms, increasing spatial and temporal coverage of global oceanographic observation systems. The use of animal telemetry therefore has the capacity to provide measures from a suite of essential ocean variables (EOVs) for improved monitoring of Earth’s oceans. Here we outline the design features of animal telemetry systems, describe current applications and their benefits and challenges, and discuss future directions. We describe new analytical techniques that improve our ability to not only quantify animal movements but to also provide a powerful framework for comparative studies across taxa. We discuss the application of animal telemetry and its capacity to collect biotic and abiotic data, how the data collected can be incorporated into ocean observing systems, and the role these data can play in improved ocean management.

KW - Ocean observing

KW - Animal telemetry

KW - Animal movement

KW - Movement analysis

KW - EOV

U2 - 10.3389/fmars.2019.00326

DO - 10.3389/fmars.2019.00326

M3 - Review article

SN - 2296-7745

VL - 6

JO - Frontiers in Marine Science

JF - Frontiers in Marine Science

M1 - 326

ER -

Animal-borne telemetry: an integral component of the ocean observing toolkit

Abstract

Keywords

UN SDGs

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