Rise of oceanographic barriers in continuous populations of a cetacean: The genetic structure of harbour porpoises in Old World waters

Michaël C Fontaine; Stuart J E Baird; Sylvain Piry; Nicolas Ray; Krystal A Tolley; Sarah Duke; Alexei Birkun; Marisa Ferreira; Thierry Jauniaux; Angela Llavona; Bayram Oztürk; Ayaka A Oztürk; Vincent Ridoux; Emer Rogan; Marina Sequeira; Ursula Siebert; Gísli A Vikingsson; Jean-Marie Bouquegneau; Johan R Michaux

doi:10.1186/1741-7007-5-30

Rise of oceanographic barriers in continuous populations of a cetacean: The genetic structure of harbour porpoises in Old World waters

Michaël C Fontaine, Stuart J E Baird, Sylvain Piry, Nicolas Ray, Krystal A Tolley, Sarah Duke, Alexei Birkun, Marisa Ferreira, Thierry Jauniaux, Angela Llavona, Bayram Oztürk, Ayaka A Oztürk, Vincent Ridoux, Emer Rogan, Marina Sequeira, Ursula Siebert, Gísli A Vikingsson, Jean-Marie Bouquegneau, Johan R Michaux

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Abstract

BACKGROUND: Understanding the role of seascape in shaping genetic and demographic population structure is highly challenging for marine pelagic species such as cetaceans for which there is generally little evidence of what could effectively restrict their dispersal. In the present work, we applied a combination of recent individual-based landscape genetic approaches to investigate the population genetic structure of a highly mobile extensive range cetacean, the harbour porpoise in the eastern North Atlantic, with regards to oceanographic characteristics that could constrain its dispersal.

RESULTS: Analyses of 10 microsatellite loci for 752 individuals revealed that most of the sampled range in the eastern North Atlantic behaves as a 'continuous' population that widely extends over thousands of kilometres with significant isolation by distance (IBD). However, strong barriers to gene flow were detected in the south-eastern part of the range. These barriers coincided with profound changes in environmental characteristics and isolated, on a relatively small scale, porpoises from Iberian waters and on a larger scale porpoises from the Black Sea.

CONCLUSION: The presence of these barriers to gene flow that coincide with profound changes in oceanographic features, together with the spatial variation in IBD strength, provide for the first time strong evidence that physical processes have a major impact on the demographic and genetic structure of a cetacean. This genetic pattern further suggests habitat-related fragmentation of the porpoise range that is likely to intensify with predicted surface ocean warming.

Original language	English
Article number	30
Number of pages	16
Journal	BMC Biology
Volume	5
DOIs	https://doi.org/10.1186/1741-7007-5-30
Publication status	Published - 25-Jul-2007
Externally published	Yes

Keywords

Animal Migration
Animals
Atlantic Ocean
Cetacea
Cluster Analysis
Genetic Variation
Oceanography
Oceans and Seas
Phocoena
Seawater
MULTILOCUS GENOTYPE DATA
PHOCOENA-PHOCOENA
CLIMATE-CHANGE
DEMOGRAPHIC PARAMETERS
LANDSCAPE GENETICS
PHYSICAL PROCESSES
F-STATISTICS
NORTH-SEA
ATLANTIC
DISTANCE

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Fontaine, M. C., Baird, S. J. E., Piry, S., Ray, N., Tolley, K. A., Duke, S., Birkun, A., Ferreira, M., Jauniaux, T., Llavona, A., Oztürk, B., A Oztürk, A., Ridoux, V., Rogan, E., Sequeira, M., Siebert, U., Vikingsson, G. A., Bouquegneau, J.-M., & Michaux, J. R. (2007). Rise of oceanographic barriers in continuous populations of a cetacean: The genetic structure of harbour porpoises in Old World waters. BMC Biology, 5, Article 30. https://doi.org/10.1186/1741-7007-5-30

@article{a54b183d8dd5410a9acba84c5eefdd9e,

title = "Rise of oceanographic barriers in continuous populations of a cetacean: The genetic structure of harbour porpoises in Old World waters",

abstract = "BACKGROUND: Understanding the role of seascape in shaping genetic and demographic population structure is highly challenging for marine pelagic species such as cetaceans for which there is generally little evidence of what could effectively restrict their dispersal. In the present work, we applied a combination of recent individual-based landscape genetic approaches to investigate the population genetic structure of a highly mobile extensive range cetacean, the harbour porpoise in the eastern North Atlantic, with regards to oceanographic characteristics that could constrain its dispersal.RESULTS: Analyses of 10 microsatellite loci for 752 individuals revealed that most of the sampled range in the eastern North Atlantic behaves as a 'continuous' population that widely extends over thousands of kilometres with significant isolation by distance (IBD). However, strong barriers to gene flow were detected in the south-eastern part of the range. These barriers coincided with profound changes in environmental characteristics and isolated, on a relatively small scale, porpoises from Iberian waters and on a larger scale porpoises from the Black Sea.CONCLUSION: The presence of these barriers to gene flow that coincide with profound changes in oceanographic features, together with the spatial variation in IBD strength, provide for the first time strong evidence that physical processes have a major impact on the demographic and genetic structure of a cetacean. This genetic pattern further suggests habitat-related fragmentation of the porpoise range that is likely to intensify with predicted surface ocean warming.",

keywords = "Animal Migration, Animals, Atlantic Ocean, Cetacea, Cluster Analysis, Genetic Variation, Oceanography, Oceans and Seas, Phocoena, Seawater, MULTILOCUS GENOTYPE DATA, PHOCOENA-PHOCOENA, CLIMATE-CHANGE, DEMOGRAPHIC PARAMETERS, LANDSCAPE GENETICS, PHYSICAL PROCESSES, F-STATISTICS, NORTH-SEA, ATLANTIC, DISTANCE",

author = "Fontaine, {Micha{\"e}l C} and Baird, {Stuart J E} and Sylvain Piry and Nicolas Ray and Tolley, {Krystal A} and Sarah Duke and Alexei Birkun and Marisa Ferreira and Thierry Jauniaux and Angela Llavona and Bayram Ozt{\"u}rk and {A Ozt{\"u}rk}, Ayaka and Vincent Ridoux and Emer Rogan and Marina Sequeira and Ursula Siebert and Vikingsson, {G{\'i}sli A} and Jean-Marie Bouquegneau and Michaux, {Johan R}",

year = "2007",

month = jul,

day = "25",

doi = "10.1186/1741-7007-5-30",

language = "English",

volume = "5",

journal = "BMC Biology",

issn = "1741-7007",

publisher = "BioMed Central Ltd.",

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Fontaine, MC, Baird, SJE, Piry, S, Ray, N, Tolley, KA, Duke, S, Birkun, A, Ferreira, M, Jauniaux, T, Llavona, A, Oztürk, B, A Oztürk, A, Ridoux, V, Rogan, E, Sequeira, M, Siebert, U, Vikingsson, GA, Bouquegneau, J-M & Michaux, JR 2007, 'Rise of oceanographic barriers in continuous populations of a cetacean: The genetic structure of harbour porpoises in Old World waters', BMC Biology, vol. 5, 30. https://doi.org/10.1186/1741-7007-5-30

TY - JOUR

T1 - Rise of oceanographic barriers in continuous populations of a cetacean

T2 - The genetic structure of harbour porpoises in Old World waters

AU - Fontaine, Michaël C

AU - Baird, Stuart J E

AU - Piry, Sylvain

AU - Ray, Nicolas

AU - Tolley, Krystal A

AU - Duke, Sarah

AU - Birkun, Alexei

AU - Ferreira, Marisa

AU - Jauniaux, Thierry

AU - Llavona, Angela

AU - Oztürk, Bayram

AU - A Oztürk, Ayaka

AU - Ridoux, Vincent

AU - Rogan, Emer

AU - Sequeira, Marina

AU - Siebert, Ursula

AU - Vikingsson, Gísli A

AU - Bouquegneau, Jean-Marie

AU - Michaux, Johan R

PY - 2007/7/25

Y1 - 2007/7/25

N2 - BACKGROUND: Understanding the role of seascape in shaping genetic and demographic population structure is highly challenging for marine pelagic species such as cetaceans for which there is generally little evidence of what could effectively restrict their dispersal. In the present work, we applied a combination of recent individual-based landscape genetic approaches to investigate the population genetic structure of a highly mobile extensive range cetacean, the harbour porpoise in the eastern North Atlantic, with regards to oceanographic characteristics that could constrain its dispersal.RESULTS: Analyses of 10 microsatellite loci for 752 individuals revealed that most of the sampled range in the eastern North Atlantic behaves as a 'continuous' population that widely extends over thousands of kilometres with significant isolation by distance (IBD). However, strong barriers to gene flow were detected in the south-eastern part of the range. These barriers coincided with profound changes in environmental characteristics and isolated, on a relatively small scale, porpoises from Iberian waters and on a larger scale porpoises from the Black Sea.CONCLUSION: The presence of these barriers to gene flow that coincide with profound changes in oceanographic features, together with the spatial variation in IBD strength, provide for the first time strong evidence that physical processes have a major impact on the demographic and genetic structure of a cetacean. This genetic pattern further suggests habitat-related fragmentation of the porpoise range that is likely to intensify with predicted surface ocean warming.

AB - BACKGROUND: Understanding the role of seascape in shaping genetic and demographic population structure is highly challenging for marine pelagic species such as cetaceans for which there is generally little evidence of what could effectively restrict their dispersal. In the present work, we applied a combination of recent individual-based landscape genetic approaches to investigate the population genetic structure of a highly mobile extensive range cetacean, the harbour porpoise in the eastern North Atlantic, with regards to oceanographic characteristics that could constrain its dispersal.RESULTS: Analyses of 10 microsatellite loci for 752 individuals revealed that most of the sampled range in the eastern North Atlantic behaves as a 'continuous' population that widely extends over thousands of kilometres with significant isolation by distance (IBD). However, strong barriers to gene flow were detected in the south-eastern part of the range. These barriers coincided with profound changes in environmental characteristics and isolated, on a relatively small scale, porpoises from Iberian waters and on a larger scale porpoises from the Black Sea.CONCLUSION: The presence of these barriers to gene flow that coincide with profound changes in oceanographic features, together with the spatial variation in IBD strength, provide for the first time strong evidence that physical processes have a major impact on the demographic and genetic structure of a cetacean. This genetic pattern further suggests habitat-related fragmentation of the porpoise range that is likely to intensify with predicted surface ocean warming.

KW - Animal Migration

KW - Animals

KW - Atlantic Ocean

KW - Cetacea

KW - Cluster Analysis

KW - Genetic Variation

KW - Oceanography

KW - Oceans and Seas

KW - Phocoena

KW - Seawater

KW - MULTILOCUS GENOTYPE DATA

KW - PHOCOENA-PHOCOENA

KW - CLIMATE-CHANGE

KW - DEMOGRAPHIC PARAMETERS

KW - LANDSCAPE GENETICS

KW - PHYSICAL PROCESSES

KW - F-STATISTICS

KW - NORTH-SEA

KW - ATLANTIC

KW - DISTANCE

U2 - 10.1186/1741-7007-5-30

DO - 10.1186/1741-7007-5-30

M3 - Article

C2 - 17651495

SN - 1741-7007

VL - 5

JO - BMC Biology

JF - BMC Biology

M1 - 30

ER -

Rise of oceanographic barriers in continuous populations of a cetacean: The genetic structure of harbour porpoises in Old World waters

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Keywords

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