Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking

Managing animal units is essential in biological conservation and requires spatial and temporal identification of such units. Since even neighbouring populations often have different conservation status and face different levels of anthropogenic pressure, detailed knowledge of population structure,...

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Published in:Global Ecology and Conservation
Main Authors: Sveegaard, Signe, Galatius, Anders, Dietz, Rune, Kyhn, Line, Koblitz, Jens C., Amundin, Mats, Nabe-Nielsen, Jacob, Sinding, Mikkel Holger Strander, Andersen, Liselotte W., Teilmann, Jonas
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
Abundance estimate
Harbour porpoise
Passive acoustic monitoring
Phocoena phocoena
Population separation
Population structure
Online Access:https://curis.ku.dk/portal/da/publications/defining-management-units-for-cetaceans-by-combining-genetics-morphology-acoustics-and-satellite-tracking(0e9bd2eb-921a-4dc6-bfa0-7afaf72c9678).html
https://doi.org/10.1016/j.gecco.2015.04.002
https://curis.ku.dk/ws/files/154408254/Sveegaard_2015_Defining_management_units.pdf
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record_format openpolar
spelling ftcopenhagenunip:oai:pure.atira.dk:publications/0e9bd2eb-921a-4dc6-bfa0-7afaf72c9678 2023-05-15T16:33:23+02:00 Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking Sveegaard, Signe Galatius, Anders Dietz, Rune Kyhn, Line Koblitz, Jens C. Amundin, Mats Nabe-Nielsen, Jacob Sinding, Mikkel Holger Strander Andersen, Liselotte W. Teilmann, Jonas 2015 application/pdf https://curis.ku.dk/portal/da/publications/defining-management-units-for-cetaceans-by-combining-genetics-morphology-acoustics-and-satellite-tracking(0e9bd2eb-921a-4dc6-bfa0-7afaf72c9678).html https://doi.org/10.1016/j.gecco.2015.04.002 https://curis.ku.dk/ws/files/154408254/Sveegaard_2015_Defining_management_units.pdf eng eng info:eu-repo/semantics/openAccess Sveegaard , S , Galatius , A , Dietz , R , Kyhn , L , Koblitz , J C , Amundin , M , Nabe-Nielsen , J , Sinding , M H S , Andersen , L W & Teilmann , J 2015 , ' Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking ' , Global Ecology and Conservation , vol. 3 , pp. 839-850 . https://doi.org/10.1016/j.gecco.2015.04.002 Abundance estimate Harbour porpoise Passive acoustic monitoring Phocoena phocoena Population separation Population structure article 2015 ftcopenhagenunip https://doi.org/10.1016/j.gecco.2015.04.002 2022-02-24T00:20:14Z Managing animal units is essential in biological conservation and requires spatial and temporal identification of such units. Since even neighbouring populations often have different conservation status and face different levels of anthropogenic pressure, detailed knowledge of population structure, seasonal range and overlap with animals from neighbouring populations is required to manage each unit separately. Previous studies on genetic structure and morphologic separation suggests three distinct populations of harbour porpoises with limited geographic overlap in the North Sea (NS), the Belt Sea (BS) and the Baltic Proper (BP) region. In this study, we aim to identify a management unit for the BS population of harbour porpoises. We use Argos satellite data and genetics from biopsies of tagged harbour porpoises as well as acoustic data from 40 passive acoustic data loggers to determine management areas with the least overlap between populations and thus the least error when abundance and population status is estimated. Discriminant analysis of the satellite tracking data from the BS and NS populations showed that the best fit of the management unit border during the summer months was an east-west line from Denmark to Sweden at latitude 56.95°N. For the border between BS and BP, satellite tracking data indicate a sharp decline in population density at 13.5°E, with 90% of the locations being west of this line. This was supported by the acoustic data with the average daily detection rate being 27.5 times higher west of 13.5°E as compared to east of 13.5°E. By using this novel multidisciplinary approach, we defined a management unit for the BS harbour porpoise population. We recommend that these boundaries are used for future monitoring efforts of this population under the EU directives. The boundaries may also be used for conservation efforts during the summer months, while seasonal movements of harbour porpoises should be considered during winter. Article in Journal/Newspaper Harbour porpoise Phocoena phocoena University of Copenhagen: Research Global Ecology and Conservation 3 839 850
institution Open Polar
collection University of Copenhagen: Research
op_collection_id ftcopenhagenunip
language English
topic Abundance estimate
Harbour porpoise
Passive acoustic monitoring
Phocoena phocoena
Population separation
Population structure
spellingShingle Abundance estimate
Harbour porpoise
Passive acoustic monitoring
Phocoena phocoena
Population separation
Population structure
Sveegaard, Signe
Galatius, Anders
Dietz, Rune
Kyhn, Line
Koblitz, Jens C.
Amundin, Mats
Nabe-Nielsen, Jacob
Sinding, Mikkel Holger Strander
Andersen, Liselotte W.
Teilmann, Jonas
Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking
topic_facet Abundance estimate
Harbour porpoise
Passive acoustic monitoring
Phocoena phocoena
Population separation
Population structure
description Managing animal units is essential in biological conservation and requires spatial and temporal identification of such units. Since even neighbouring populations often have different conservation status and face different levels of anthropogenic pressure, detailed knowledge of population structure, seasonal range and overlap with animals from neighbouring populations is required to manage each unit separately. Previous studies on genetic structure and morphologic separation suggests three distinct populations of harbour porpoises with limited geographic overlap in the North Sea (NS), the Belt Sea (BS) and the Baltic Proper (BP) region. In this study, we aim to identify a management unit for the BS population of harbour porpoises. We use Argos satellite data and genetics from biopsies of tagged harbour porpoises as well as acoustic data from 40 passive acoustic data loggers to determine management areas with the least overlap between populations and thus the least error when abundance and population status is estimated. Discriminant analysis of the satellite tracking data from the BS and NS populations showed that the best fit of the management unit border during the summer months was an east-west line from Denmark to Sweden at latitude 56.95°N. For the border between BS and BP, satellite tracking data indicate a sharp decline in population density at 13.5°E, with 90% of the locations being west of this line. This was supported by the acoustic data with the average daily detection rate being 27.5 times higher west of 13.5°E as compared to east of 13.5°E. By using this novel multidisciplinary approach, we defined a management unit for the BS harbour porpoise population. We recommend that these boundaries are used for future monitoring efforts of this population under the EU directives. The boundaries may also be used for conservation efforts during the summer months, while seasonal movements of harbour porpoises should be considered during winter.
format Article in Journal/Newspaper
author Sveegaard, Signe
Galatius, Anders
Dietz, Rune
Kyhn, Line
Koblitz, Jens C.
Amundin, Mats
Nabe-Nielsen, Jacob
Sinding, Mikkel Holger Strander
Andersen, Liselotte W.
Teilmann, Jonas
author_facet Sveegaard, Signe
Galatius, Anders
Dietz, Rune
Kyhn, Line
Koblitz, Jens C.
Amundin, Mats
Nabe-Nielsen, Jacob
Sinding, Mikkel Holger Strander
Andersen, Liselotte W.
Teilmann, Jonas
author_sort Sveegaard, Signe
title Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking
title_short Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking
title_full Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking
title_fullStr Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking
title_full_unstemmed Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking
title_sort defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking
publishDate 2015
url https://curis.ku.dk/portal/da/publications/defining-management-units-for-cetaceans-by-combining-genetics-morphology-acoustics-and-satellite-tracking(0e9bd2eb-921a-4dc6-bfa0-7afaf72c9678).html
https://doi.org/10.1016/j.gecco.2015.04.002
https://curis.ku.dk/ws/files/154408254/Sveegaard_2015_Defining_management_units.pdf
genre Harbour porpoise
Phocoena phocoena
genre_facet Harbour porpoise
Phocoena phocoena
op_source Sveegaard , S , Galatius , A , Dietz , R , Kyhn , L , Koblitz , J C , Amundin , M , Nabe-Nielsen , J , Sinding , M H S , Andersen , L W & Teilmann , J 2015 , ' Defining management units for cetaceans by combining genetics, morphology, acoustics and satellite tracking ' , Global Ecology and Conservation , vol. 3 , pp. 839-850 . https://doi.org/10.1016/j.gecco.2015.04.002
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1016/j.gecco.2015.04.002
container_title Global Ecology and Conservation
container_volume 3
container_start_page 839
op_container_end_page 850
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