Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/121003
Title: Genomics reveals the role of admixture in the evolution of structure among sperm whale populations within the Mediterranean Sea
Authors: Violi, Biagio
de Jong, Menno J.
Frantzis, Alexandros
Alexiadou, Paraskevi
Tardy, Céline
Ody, Denis
de Stephanis, Renaud
Giménez, Joan
Lucifora, Giuseppe
Silva, Mónica A. e
Oliveira, Cláudia
Alves, Filipe
Dinis, Ana
Tejedor, Marisa
Fernández Rodríguez, Antonio Jesús 
Arregui Gil,Marina 
Arbelo Hernández, Manuel Antonio 
Lopez, Alfredo
Covelo, Pablo
Hoelzel, A. Rus
UNESCO Clasification: 240119 Zoología marina
310902 Genética
Keywords: Genomics
Admixture
Evolution
Population structure
Demography, et al
Issue Date: 2023
Journal: Molecular Ecology 
Abstract: In oceanic ecosystems, the nature of barriers to gene flow, and the processes by which populations may become isolated are different from the terrestrial environment, and less well understood. In this study we investigate a highly mobile species (the sperm whale, Physeter macrocephalus) that is genetically differentiated between an open North Atlantic population and the populations in the Mediterranean Sea. We apply high resolution single nucleotide polymorphism (SNP) analysis to study the nature of barriers to gene flow in this system, assessing the putative boundary into the Mediterranean (Strait of Gibraltar and Alboran Sea region), and including novel analyses on structuring among sperm whale populations within the Mediterranean basin. Our data support a recent founding of the Mediterranean, around the time of the last glacial maximum, and show concerted historical demographic profiles in both the Atlantic and in the Mediterranean. In each region there is evidence for a population decline around the time of the founder event. The largest decline was seen within the Mediterranean Sea where effective population size is substantially lower (especially in the eastern basin). While differentiation is strongest at the Atlantic/Mediterranean boundary, there is also weaker but significant differentiation between the eastern and western basins of the Mediterranean Sea. We propose, however, that the mechanisms are different. While post-founding gene flow was reduced between the Mediterranean and Atlantic populations, within the Mediterranean an important factor differentiating the basins is likely a greater degree of admixture between the western basin and the North Atlantic and some level of isolation between the western and eastern Mediterranean basins. Subdivision within the Mediterranean Sea exacerbates conservation concerns and will require consideration of what distinct impacts may affect populations in the two basins.
URI: http://hdl.handle.net/10553/121003
ISSN: 0962-1083
DOI: 10.1111/mec.16898
Source: Molecular Ecology [ISSN 0962-1083], (Febrero 2023)
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