Population structure of humpback whales in the western and central South Pacific Ocean as determined by vocal exchange among populations

doi:10.1111/cobi.12492

. 2015 Aug;29(4):1198-1207.

doi: 10.1111/cobi.12492. Epub 2015 Apr 7.

Population structure of humpback whales in the western and central South Pacific Ocean as determined by vocal exchange among populations

Ellen C Garland^{1

2

3}, Anne W Goldizen⁴, Matthew S Lilley⁵, Melinda L Rekdahl¹, Claire Garrigue^{2

6}, Rochelle Constantine^{2

7}, Nan Daeschler Hauser^{2

8}, M Michael Poole^{2

9}, Jooke Robbins^{2

10}, Michael J Noad^{1

2}

Affiliations

¹ Cetacean Ecology and Acoustics Laboratory, School of Veterinary Science, University of Queensland, Gatton, QLD, 4343, Australia.
² South Pacific Whale Research Consortium, P.O. Box 3069, Avarua, Rarotonga, Cook Islands.
³ National Marine Mammal Laboratory, Alaska Fisheries Science Center, NMFS, NOAA, 7600 Sand Point Way NE, Seattle, WA, 98115, U.S.A.
⁴ School of Biological Sciences, University of Queensland, St Lucia, QLD, 4072, Australia.
⁵ SecuritEase International, Level 8, IBM Tower, 25 Victoria Street, Petone, 5012, New Zealand.
⁶ Opération Cétacés, BP12827, 98802, Noumea, New Caledonia.
⁷ School of Biological Sciences, University of Auckland, Private Bag 92019, Auckland, 1142, New Zealand.
⁸ Cook Islands Whale Research, P.O. Box 3069, Avarua, Rarotonga, Cook Islands.
⁹ Marine Mammal Research Program, BP 698, Maharepa, 98728, Moorea, French Polynesia.
¹⁰ Center for Coastal Studies, 5 Holway Avenue, Provincetown, MA, 02657, U.S.A.

PMID: 25851618
DOI: 10.1111/cobi.12492

Population structure of humpback whales in the western and central South Pacific Ocean as determined by vocal exchange among populations

Ellen C Garland et al. Conserv Biol. 2015 Aug.

. 2015 Aug;29(4):1198-1207.

doi: 10.1111/cobi.12492. Epub 2015 Apr 7.

Authors

Affiliations

¹ Cetacean Ecology and Acoustics Laboratory, School of Veterinary Science, University of Queensland, Gatton, QLD, 4343, Australia.
² South Pacific Whale Research Consortium, P.O. Box 3069, Avarua, Rarotonga, Cook Islands.
³ National Marine Mammal Laboratory, Alaska Fisheries Science Center, NMFS, NOAA, 7600 Sand Point Way NE, Seattle, WA, 98115, U.S.A.
⁴ School of Biological Sciences, University of Queensland, St Lucia, QLD, 4072, Australia.
⁵ SecuritEase International, Level 8, IBM Tower, 25 Victoria Street, Petone, 5012, New Zealand.
⁶ Opération Cétacés, BP12827, 98802, Noumea, New Caledonia.
⁷ School of Biological Sciences, University of Auckland, Private Bag 92019, Auckland, 1142, New Zealand.
⁸ Cook Islands Whale Research, P.O. Box 3069, Avarua, Rarotonga, Cook Islands.
⁹ Marine Mammal Research Program, BP 698, Maharepa, 98728, Moorea, French Polynesia.
¹⁰ Center for Coastal Studies, 5 Holway Avenue, Provincetown, MA, 02657, U.S.A.

PMID: 25851618
DOI: 10.1111/cobi.12492

Abstract
in English, Spanish

For cetaceans, population structure is traditionally determined by molecular genetics or photographically identified individuals. Acoustic data, however, has provided information on movement and population structure with less effort and cost than traditional methods in an array of taxa. Male humpback whales (Megaptera novaeangliae) produce a continually evolving vocal sexual display, or song, that is similar among all males in a population. The rapid cultural transmission (the transfer of information or behavior between conspecifics through social learning) of different versions of this display between distinct but interconnected populations in the western and central South Pacific region presents a unique way to investigate population structure based on the movement dynamics of a song (acoustic) display. Using 11 years of data, we investigated an acoustically based population structure for the region by comparing stereotyped song sequences among populations and years. We used the Levenshtein distance technique to group previously defined populations into (vocally based) clusters based on the overall similarity of their song display in space and time. We identified the following distinct vocal clusters: western cluster, 1 population off eastern Australia; central cluster, populations around New Caledonia, Tonga, and American Samoa; and eastern region, either a single cluster or 2 clusters, one around the Cook Islands and the other off French Polynesia. These results are consistent with the hypothesis that each breeding aggregation represents a distinct population (each occupied a single, terminal node) in a metapopulation, similar to the current understanding of population structure based on genetic and photo-identification studies. However, the central vocal cluster had higher levels of song-sharing among populations than the other clusters, indicating that levels of vocal connectivity varied within the region. Our results demonstrate the utility and value of using culturally transmitted vocal patterns as a way of defining connectivity to infer population structure. We suggest vocal patterns be incorporated by the International Whaling Commission in conjunction with traditional methods in the assessment of structure.

Estructura Poblacional de las Yubartas en el Centro y Occidente del Sur del Océano Pacífico, Determinada por el Intercambio Vocal entre las Poblaciones Resumen La estructura poblacional de los cetáceos se determina tradicionalmente por medio de genética molecular o individuos identificados fotográficamente. Sin embargo, los datos acústicos han proporcionado información sobre el movimiento y la estructura poblacional de una variedad de taxones con menos esfuerzo y menos costo que los métodos tradicionales. Las yubartas macho (Megaptera novaeangliae) producen una demostración vocal sexual, o canto, en continua evolución que es similar entre todos los machos en una población. La transmisión cultural rápida (la transferencia de información o comportamientos entre co-específicos por medio del aprendizaje social) de diferentes versiones de esta demostración entre poblaciones distintas pero interconectadas en el centro y occidente en la región del sur del Pacífico presenta una manera única para investigar la estructura poblacional con base en las dinámicas de movimiento de la demostración del canto (acústico). Al usar once años de datos, con base en la acústica investigamos a una estructura poblacional de la región al comparar secuencias estereotipadas de cantos entre las poblaciones y los años. Usamos la técnica de la distancia Levenshtein para agrupar poblaciones previamente definidas en grupos (con base vocal) basados en la similitud general de su canto en el espacio y el tiempo. Identificamos a los siguientes grupos vocales perceptibles: grupo occidental, una población al este de Australia; grupo central, poblaciones alrededor de Nueva Caledonia, Tonga y Samoa Americana; y región oriental, ya sea un grupo único o dos grupos, uno alrededor de las Islas Cook y el otro cerca de la Polinesia Francesa. Estos resultados son consistentes con la hipótesis de que cada conjunto reproductivo representa a una población distinta (cada una ocupó un nodo terminal único) en una meta-población, similar al entendimiento actual de la estructura poblacional con base en los estudios genéticos y de foto-identificación. Sin embargo, el grupo vocal central tuvo niveles más altos de cantos compartidos entre las poblaciones que en los otros grupos, lo que indica que los niveles de conectividad vocal variaron dentro de la región. Nuestros resultados demuestran la utilidad y el valor de usar patrones vocales transmitidos culturalmente como una forma de definir la conectividad para inferir la estructura poblacional. Sugerimos que los patrones vocales sean incorporados por la Comisión Internacional de Caza de Ballenas en conjunto con los métodos tradicionales de evaluación de la estructura.

Keywords: Megaptera novaeangliae; South Pacific; acoustic display; canto; cultivo de ballenas; demostración acústica; estructura poblacional; humpback whale; population structure; song; sur del Pacífico; vocal; whale culture; yubarta.

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References

Literature Cited

1. Baker CS, Palumbi SR, Lambertsen RH, Weinrich MT, Calambokidis J, O'Brien SJ. 1990. Influence of seasonal migration on geographic distribution of mitochondrial DNA haplotypes in humpback whales. Nature 344:238-240.
1. Castellote M, Clark CW, Lammers MO. 2012. Fin whale (Balaenoptera physalus) population identity in the western Mediterranean Sea. Marine Mammal Science 28:325-344.
1. Cato DH. 1991. Songs of humpback whales: the Australian perspective. Memoirs of the Queensland Museum 30:277-290.
1. Childerhouse S, Jackson J, Baker CS, Gales N, Clapham PJ, BrownellJr RL. 2008. Megaptera novaeangliae (Oceania subpopulation). IUCN 2012, IUCN Red List of Threatened Species, Version 2012.2. Available from www.iucnredlist.org (accessed February 2013).
1. Chittleborough RG. 1965. Dynamics of two populations of the humpback whale, Megaptera novaeangliae (Borowski). Australian Journal of Marine and Freshwater Research 16:33-128.

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[1] Baker CS, Palumbi SR, Lambertsen RH, Weinrich MT, Calambokidis J, O'Brien SJ. 1990. Influence of seasonal migration on geographic distribution of mitochondrial DNA haplotypes in humpback whales. Nature 344:238-240.

[2] Baker CS, Palumbi SR, Lambertsen RH, Weinrich MT, Calambokidis J, O'Brien SJ. 1990. Influence of seasonal migration on geographic distribution of mitochondrial DNA haplotypes in humpback whales. Nature 344:238-240.

[3] Castellote M, Clark CW, Lammers MO. 2012. Fin whale (Balaenoptera physalus) population identity in the western Mediterranean Sea. Marine Mammal Science 28:325-344.

[4] Castellote M, Clark CW, Lammers MO. 2012. Fin whale (Balaenoptera physalus) population identity in the western Mediterranean Sea. Marine Mammal Science 28:325-344.

[5] Cato DH. 1991. Songs of humpback whales: the Australian perspective. Memoirs of the Queensland Museum 30:277-290.

[6] Cato DH. 1991. Songs of humpback whales: the Australian perspective. Memoirs of the Queensland Museum 30:277-290.

[7] Childerhouse S, Jackson J, Baker CS, Gales N, Clapham PJ, BrownellJr RL. 2008. Megaptera novaeangliae (Oceania subpopulation). IUCN 2012, IUCN Red List of Threatened Species, Version 2012.2. Available from www.iucnredlist.org (accessed February 2013).

[8] Childerhouse S, Jackson J, Baker CS, Gales N, Clapham PJ, BrownellJr RL. 2008. Megaptera novaeangliae (Oceania subpopulation). IUCN 2012, IUCN Red List of Threatened Species, Version 2012.2. Available from www.iucnredlist.org (accessed February 2013).

[9] Chittleborough RG. 1965. Dynamics of two populations of the humpback whale, Megaptera novaeangliae (Borowski). Australian Journal of Marine and Freshwater Research 16:33-128.

[10] Chittleborough RG. 1965. Dynamics of two populations of the humpback whale, Megaptera novaeangliae (Borowski). Australian Journal of Marine and Freshwater Research 16:33-128.

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Population structure of humpback whales in the western and central South Pacific Ocean as determined by vocal exchange among populations

Affiliations

Population structure of humpback whales in the western and central South Pacific Ocean as determined by vocal exchange among populations

Authors

Affiliations

Abstract
in English, Spanish

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Cited by

References

Literature Cited

Publication types

MeSH terms

LinkOut - more resources

Full Text Sources

Abstract in English, Spanish

Similar articles

Cited by

References

Literature Cited

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LinkOut - more resources

Full Text Sources

Abstract
in English, Spanish