Genomic Introgression and Adaptation of Southern Seabird Species Facilitate Recent Polar Colonization

Josefina Jorquera; Lucila Morales; Elize Y.X. Ng; Daly Noll; Luis R. Pertierra; Patricio Pliscoff; Ulises Balza; Thierry Boulinier; Amandine Gamble; Tatiana Kasinsky; Julie C. McInnes; Juan Carlos Marín; Silvia Olmastroni; Pierre Pistorius; Richard A. Phillips; Jacob González-Solís; Louise Emmerson; Elie Poulin; Rauri C.K. Bowie; Christopher P. Burridge; Juliana A. Vianna

doi:10.1093/molbev/msaf053

Genomic Introgression and Adaptation of Southern Seabird Species Facilitate Recent Polar Colonization

Josefina Jorquera, Lucila Morales, Elize Y.X. Ng, Daly Noll, Luis R. Pertierra, Patricio Pliscoff, Ulises Balza, Thierry Boulinier, Amandine Gamble, Tatiana Kasinsky, Julie C. McInnes, Juan Carlos Marín, Silvia Olmastroni, Pierre Pistorius, Richard A. Phillips, Jacob González-Solís, Louise Emmerson, Elie Poulin, Rauri C.K. Bowie, Christopher P. BurridgeJuliana A. Vianna

Centro de Estudios Territoriales

Research output: Contribution to journal › Article › peer-review

Abstract

Genomic adaptation and introgression can occur during the speciation process, enabling species to diverge in their frequencies of adaptive alleles or acquire new alleles that may promote adaptation to environmental changes. There is limited information on introgression in organisms from extreme environments and their responses to climate change. To address these questions, we focused on the 3 southern skua species, selected for their widespread distribution across the Southern Hemisphere and their complex history of speciation and introgression events. Our genomic data reveal that these skuas underwent diversification around the Penultimate Glacial Period, followed by subsequent demographic expansion. We identified a geographic region of introgression among species that followed a directional pattern sourced from the Antarctic continent, South America, and east to west in subantarctic islands, all converging towards the Antarctic Peninsula. The 3 skua species and admixed individuals exhibited a unique pattern of putative genes under selection, allowing adaptation to extreme conditions. Individuals with a higher proportion of Brown Skua ancestry showed signs of selection on genes related to reproductive isolation, while admixed individuals with a higher proportion of South Polar Skua ancestry displayed patterns resembling those of the South Polar Skua. Introgression may be a key mechanism of adaptation for many species that may help buffer against the ongoing climate change.

Original language	English
Journal	Molecular Biology and Evolution
Volume	42
Issue number	3
DOIs	https://doi.org/10.1093/molbev/msaf053
State	Published - 5 Mar 2025

Bibliographical note

Publisher Copyright:
© The Author(s) 2025. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.

Keywords

comparative population genomics
future niche projections
polar regions
positive selection
speciation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1093/molbev/msaf053

Cite this

Jorquera, J., Morales, L., Ng, E. Y. X., Noll, D., Pertierra, L. R., Pliscoff, P., Balza, U., Boulinier, T., Gamble, A., Kasinsky, T., McInnes, J. C., Marín, J. C., Olmastroni, S., Pistorius, P., Phillips, R. A., González-Solís, J., Emmerson, L., Poulin, E., Bowie, R. C. K., ... Vianna, J. A. (2025). Genomic Introgression and Adaptation of Southern Seabird Species Facilitate Recent Polar Colonization. Molecular Biology and Evolution, 42(3). https://doi.org/10.1093/molbev/msaf053

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title = "Genomic Introgression and Adaptation of Southern Seabird Species Facilitate Recent Polar Colonization",

abstract = "Genomic adaptation and introgression can occur during the speciation process, enabling species to diverge in their frequencies of adaptive alleles or acquire new alleles that may promote adaptation to environmental changes. There is limited information on introgression in organisms from extreme environments and their responses to climate change. To address these questions, we focused on the 3 southern skua species, selected for their widespread distribution across the Southern Hemisphere and their complex history of speciation and introgression events. Our genomic data reveal that these skuas underwent diversification around the Penultimate Glacial Period, followed by subsequent demographic expansion. We identified a geographic region of introgression among species that followed a directional pattern sourced from the Antarctic continent, South America, and east to west in subantarctic islands, all converging towards the Antarctic Peninsula. The 3 skua species and admixed individuals exhibited a unique pattern of putative genes under selection, allowing adaptation to extreme conditions. Individuals with a higher proportion of Brown Skua ancestry showed signs of selection on genes related to reproductive isolation, while admixed individuals with a higher proportion of South Polar Skua ancestry displayed patterns resembling those of the South Polar Skua. Introgression may be a key mechanism of adaptation for many species that may help buffer against the ongoing climate change.",

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author = "Josefina Jorquera and Lucila Morales and Ng, {Elize Y.X.} and Daly Noll and Pertierra, {Luis R.} and Patricio Pliscoff and Ulises Balza and Thierry Boulinier and Amandine Gamble and Tatiana Kasinsky and McInnes, {Julie C.} and Mar{\'i}n, {Juan Carlos} and Silvia Olmastroni and Pierre Pistorius and Phillips, {Richard A.} and Jacob Gonz{\'a}lez-Sol{\'i}s and Louise Emmerson and Elie Poulin and Bowie, {Rauri C.K.} and Burridge, {Christopher P.} and Vianna, {Juliana A.}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.",

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month = mar,

day = "5",

doi = "10.1093/molbev/msaf053",

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Jorquera, J, Morales, L, Ng, EYX, Noll, D, Pertierra, LR, Pliscoff, P, Balza, U, Boulinier, T, Gamble, A, Kasinsky, T, McInnes, JC, Marín, JC, Olmastroni, S, Pistorius, P, Phillips, RA, González-Solís, J, Emmerson, L, Poulin, E, Bowie, RCK, Burridge, CP & Vianna, JA 2025, 'Genomic Introgression and Adaptation of Southern Seabird Species Facilitate Recent Polar Colonization', Molecular Biology and Evolution, vol. 42, no. 3. https://doi.org/10.1093/molbev/msaf053

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T1 - Genomic Introgression and Adaptation of Southern Seabird Species Facilitate Recent Polar Colonization

AU - Jorquera, Josefina

AU - Morales, Lucila

AU - Ng, Elize Y.X.

AU - Noll, Daly

AU - Pertierra, Luis R.

AU - Pliscoff, Patricio

AU - Balza, Ulises

AU - Boulinier, Thierry

AU - Gamble, Amandine

AU - Kasinsky, Tatiana

AU - McInnes, Julie C.

AU - Marín, Juan Carlos

AU - Olmastroni, Silvia

AU - Pistorius, Pierre

AU - Phillips, Richard A.

AU - González-Solís, Jacob

AU - Emmerson, Louise

AU - Poulin, Elie

AU - Bowie, Rauri C.K.

AU - Burridge, Christopher P.

AU - Vianna, Juliana A.

PY - 2025/3/5

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N2 - Genomic adaptation and introgression can occur during the speciation process, enabling species to diverge in their frequencies of adaptive alleles or acquire new alleles that may promote adaptation to environmental changes. There is limited information on introgression in organisms from extreme environments and their responses to climate change. To address these questions, we focused on the 3 southern skua species, selected for their widespread distribution across the Southern Hemisphere and their complex history of speciation and introgression events. Our genomic data reveal that these skuas underwent diversification around the Penultimate Glacial Period, followed by subsequent demographic expansion. We identified a geographic region of introgression among species that followed a directional pattern sourced from the Antarctic continent, South America, and east to west in subantarctic islands, all converging towards the Antarctic Peninsula. The 3 skua species and admixed individuals exhibited a unique pattern of putative genes under selection, allowing adaptation to extreme conditions. Individuals with a higher proportion of Brown Skua ancestry showed signs of selection on genes related to reproductive isolation, while admixed individuals with a higher proportion of South Polar Skua ancestry displayed patterns resembling those of the South Polar Skua. Introgression may be a key mechanism of adaptation for many species that may help buffer against the ongoing climate change.

AB - Genomic adaptation and introgression can occur during the speciation process, enabling species to diverge in their frequencies of adaptive alleles or acquire new alleles that may promote adaptation to environmental changes. There is limited information on introgression in organisms from extreme environments and their responses to climate change. To address these questions, we focused on the 3 southern skua species, selected for their widespread distribution across the Southern Hemisphere and their complex history of speciation and introgression events. Our genomic data reveal that these skuas underwent diversification around the Penultimate Glacial Period, followed by subsequent demographic expansion. We identified a geographic region of introgression among species that followed a directional pattern sourced from the Antarctic continent, South America, and east to west in subantarctic islands, all converging towards the Antarctic Peninsula. The 3 skua species and admixed individuals exhibited a unique pattern of putative genes under selection, allowing adaptation to extreme conditions. Individuals with a higher proportion of Brown Skua ancestry showed signs of selection on genes related to reproductive isolation, while admixed individuals with a higher proportion of South Polar Skua ancestry displayed patterns resembling those of the South Polar Skua. Introgression may be a key mechanism of adaptation for many species that may help buffer against the ongoing climate change.

KW - comparative population genomics

KW - future niche projections

KW - polar regions

KW - positive selection

KW - speciation

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DO - 10.1093/molbev/msaf053

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SN - 0737-4038

VL - 42

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ER -

Genomic Introgression and Adaptation of Southern Seabird Species Facilitate Recent Polar Colonization

Abstract

Bibliographical note

Keywords

UN SDGs

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