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Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning

William Kay, David Naumann, Hannah Bowen, Simon J. Withers, Ben Evans Orcid Logo, Rory Wilson Orcid Logo, Thomas B. Stringell, James Bull Orcid Logo, Philip Hopkins, Luca Borger Orcid Logo

Methods in Ecology and Evolution, Volume: 10, Issue: 8, Pages: 1222 - 1233

Swansea University Authors: William Kay, David Naumann, Hannah Bowen, Ben Evans Orcid Logo, Rory Wilson Orcid Logo, James Bull Orcid Logo, Philip Hopkins, Luca Borger Orcid Logo

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DOI (Published version): 10.1111/2041-210x.13216

Abstract

1. Biologgingdevicesareusedubiquitouslyacrossvertebratetaxainstudiesofmove- ment and behavioural ecology to record data from organisms without the need for direct observation. Despite the dramatic increase in the sophistication of this technology, progress in reducing the impact of these devices to...

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Published in: Methods in Ecology and Evolution
ISSN: 2041-210X 2041-210X
Published: Wiley 2019
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URI: https://cronfa.swan.ac.uk/Record/cronfa50876
first_indexed 2019-06-19T14:55:11Z
last_indexed 2023-02-22T03:58:45Z
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Biologgingdevicesareusedubiquitouslyacrossvertebratetaxainstudiesofmove- ment and behavioural ecology to record data from organisms without the need for direct observation. Despite the dramatic increase in the sophistication of this technology, progress in reducing the impact of these devices to animals is less obvi- ous, notwithstanding the implications for animal welfare. Existing guidelines focus on tag weight (e.g. the &#x2018;5% rule&#x2019;), ignoring aero/hydrodynamic forces in aerial and aquatic organisms, which can be considerable. Designing tags to minimize such im- pact for animals moving in fluid environments is not trivial, as the impact depends on the position of the tag on the animal, as well as its shape and dimensions.2. Wedemonstratethecapabilitiesofcomputationalfluiddynamics(CFD)modelling to optimize the design and positioning of biologgers on marine animals, using the grey seal (Halichoerus grypus) as a model species. Specifically, we investigate the effects of (a) tag form, (b) tag size, and (c) tag position and quantify the impact under frontal hydrodynamic forces, as encountered by seals swimming at sea.3. By comparing a conventional versus a streamlined tag, we show that the former can induce up to 22% larger drag for a swimming seal; to match the drag of the streamlined tag, the conventional tag would have to be reduced in size by 50%. For the conventional tag, the drag induced can differ by up to 11% depending on the position along the seal's body, whereas for the streamlined tag this difference amounts to only 5%.4. We conclude by showing how the CFD simulation approach can be used to opti- mize tag design to reduce drag for aerial and aquatic species, including issues such as the impact of lateral currents (unexplored until now). 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spelling 2023-02-21T16:25:10.8172796 v2 50876 2019-06-19 Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning 0799365e76aaaf3f7c2cd3adba52172f William Kay William Kay true false 3c440fef6cc0e4d504c2bce3efd8d34d David Naumann David Naumann true false d2202f05176d52d0c20621234ea99901 Hannah Bowen Hannah Bowen true false 3d273fecc8121fe6b53b8fe5281b9c97 0000-0003-3662-9583 Ben Evans Ben Evans true false 017bc6dd155098860945dc6249c4e9bc 0000-0003-3177-0177 Rory Wilson Rory Wilson true false 20742518482c020c80b81b88e5313356 0000-0002-4373-6830 James Bull James Bull true false ea4af69628fef2300653dec5b350ad76 Philip Hopkins Philip Hopkins true false 8416d0ffc3cccdad6e6d67a455e7c4a2 0000-0001-8763-5997 Luca Borger Luca Borger true false 2019-06-19 BGPS 1. Biologgingdevicesareusedubiquitouslyacrossvertebratetaxainstudiesofmove- ment and behavioural ecology to record data from organisms without the need for direct observation. Despite the dramatic increase in the sophistication of this technology, progress in reducing the impact of these devices to animals is less obvi- ous, notwithstanding the implications for animal welfare. Existing guidelines focus on tag weight (e.g. the ‘5% rule’), ignoring aero/hydrodynamic forces in aerial and aquatic organisms, which can be considerable. Designing tags to minimize such im- pact for animals moving in fluid environments is not trivial, as the impact depends on the position of the tag on the animal, as well as its shape and dimensions.2. Wedemonstratethecapabilitiesofcomputationalfluiddynamics(CFD)modelling to optimize the design and positioning of biologgers on marine animals, using the grey seal (Halichoerus grypus) as a model species. Specifically, we investigate the effects of (a) tag form, (b) tag size, and (c) tag position and quantify the impact under frontal hydrodynamic forces, as encountered by seals swimming at sea.3. By comparing a conventional versus a streamlined tag, we show that the former can induce up to 22% larger drag for a swimming seal; to match the drag of the streamlined tag, the conventional tag would have to be reduced in size by 50%. For the conventional tag, the drag induced can differ by up to 11% depending on the position along the seal's body, whereas for the streamlined tag this difference amounts to only 5%.4. We conclude by showing how the CFD simulation approach can be used to opti- mize tag design to reduce drag for aerial and aquatic species, including issues such as the impact of lateral currents (unexplored until now). We also provide a step‐ by‐step guide to facilitate the implementation of CFD in biologging tag design. Journal Article Methods in Ecology and Evolution 10 8 1222 1233 Wiley 2041-210X 2041-210X animal welfare, biologging, biotelemetry, computational fluid dynamics, drag, flow simulation, hydrodynamics, tag design 1 8 2019 2019-08-01 10.1111/2041-210x.13216 COLLEGE NANME Biosciences Geography and Physics School COLLEGE CODE BGPS Swansea University 2023-02-21T16:25:10.8172796 2019-06-19T10:24:55.8398235 Faculty of Science and Engineering School of Biosciences, Geography and Physics - Biosciences William Kay 1 David Naumann 2 Hannah Bowen 3 Simon J. Withers 4 Ben Evans 0000-0003-3662-9583 5 Rory Wilson 0000-0003-3177-0177 6 Thomas B. Stringell 7 James Bull 0000-0002-4373-6830 8 Philip Hopkins 9 Luca Borger 0000-0001-8763-5997 10 0050876-10072019110317.pdf Kay-et-al-Accepted-Minimising-the-impact-of-biologging-devices-Main-Text.pdf 2019-07-10T11:03:17.2400000 Output 402067 application/pdf Accepted Manuscript true 2020-06-18T00:00:00.0000000 true eng
title Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning
spellingShingle Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning
William Kay
David Naumann
Hannah Bowen
Ben Evans
Rory Wilson
James Bull
Philip Hopkins
Luca Borger
title_short Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning
title_full Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning
title_fullStr Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning
title_full_unstemmed Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning
title_sort Minimizing the impact of biologging devices: Using computational fluid dynamics for optimizing tag design and positioning
author_id_str_mv 0799365e76aaaf3f7c2cd3adba52172f
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author_id_fullname_str_mv 0799365e76aaaf3f7c2cd3adba52172f_***_William Kay
3c440fef6cc0e4d504c2bce3efd8d34d_***_David Naumann
d2202f05176d52d0c20621234ea99901_***_Hannah Bowen
3d273fecc8121fe6b53b8fe5281b9c97_***_Ben Evans
017bc6dd155098860945dc6249c4e9bc_***_Rory Wilson
20742518482c020c80b81b88e5313356_***_James Bull
ea4af69628fef2300653dec5b350ad76_***_Philip Hopkins
8416d0ffc3cccdad6e6d67a455e7c4a2_***_Luca Borger
author William Kay
David Naumann
Hannah Bowen
Ben Evans
Rory Wilson
James Bull
Philip Hopkins
Luca Borger
author2 William Kay
David Naumann
Hannah Bowen
Simon J. Withers
Ben Evans
Rory Wilson
Thomas B. Stringell
James Bull
Philip Hopkins
Luca Borger
format Journal article
container_title Methods in Ecology and Evolution
container_volume 10
container_issue 8
container_start_page 1222
publishDate 2019
institution Swansea University
issn 2041-210X
2041-210X
doi_str_mv 10.1111/2041-210x.13216
publisher Wiley
college_str Faculty of Science and Engineering
hierarchytype
hierarchy_top_id facultyofscienceandengineering
hierarchy_top_title Faculty of Science and Engineering
hierarchy_parent_id facultyofscienceandengineering
hierarchy_parent_title Faculty of Science and Engineering
department_str School of Biosciences, Geography and Physics - Biosciences{{{_:::_}}}Faculty of Science and Engineering{{{_:::_}}}School of Biosciences, Geography and Physics - Biosciences
document_store_str 1
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description 1. Biologgingdevicesareusedubiquitouslyacrossvertebratetaxainstudiesofmove- ment and behavioural ecology to record data from organisms without the need for direct observation. Despite the dramatic increase in the sophistication of this technology, progress in reducing the impact of these devices to animals is less obvi- ous, notwithstanding the implications for animal welfare. Existing guidelines focus on tag weight (e.g. the ‘5% rule’), ignoring aero/hydrodynamic forces in aerial and aquatic organisms, which can be considerable. Designing tags to minimize such im- pact for animals moving in fluid environments is not trivial, as the impact depends on the position of the tag on the animal, as well as its shape and dimensions.2. Wedemonstratethecapabilitiesofcomputationalfluiddynamics(CFD)modelling to optimize the design and positioning of biologgers on marine animals, using the grey seal (Halichoerus grypus) as a model species. Specifically, we investigate the effects of (a) tag form, (b) tag size, and (c) tag position and quantify the impact under frontal hydrodynamic forces, as encountered by seals swimming at sea.3. By comparing a conventional versus a streamlined tag, we show that the former can induce up to 22% larger drag for a swimming seal; to match the drag of the streamlined tag, the conventional tag would have to be reduced in size by 50%. For the conventional tag, the drag induced can differ by up to 11% depending on the position along the seal's body, whereas for the streamlined tag this difference amounts to only 5%.4. We conclude by showing how the CFD simulation approach can be used to opti- mize tag design to reduce drag for aerial and aquatic species, including issues such as the impact of lateral currents (unexplored until now). We also provide a step‐ by‐step guide to facilitate the implementation of CFD in biologging tag design.
published_date 2019-08-01T13:52:14Z
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score 11.247077

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