Plastic and genomic change of a newly established lizard population following a founder event

Research output: Contribution to journalJournal articleResearchpeer-review

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Plastic and genomic change of a newly established lizard population following a founder event. / Sabolić, Iva; Mira, Óscar; Brandt, Débora Y. C.; Lisičić, Duje; Stapley, Jessica; Novosolov, Maria; Bakarić, Robert; Cizelj, Ivan; Glogoški, Marko; Hudina, Tomislav; Taverne, Maxime; Allentoft, Morten E.; Nielsen, Rasmus; Herrel, Anthony; Štambuk, Anamaria.

In: Molecular Ecology, 2024.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Sabolić, I, Mira, Ó, Brandt, DYC, Lisičić, D, Stapley, J, Novosolov, M, Bakarić, R, Cizelj, I, Glogoški, M, Hudina, T, Taverne, M, Allentoft, ME, Nielsen, R, Herrel, A & Štambuk, A 2024, 'Plastic and genomic change of a newly established lizard population following a founder event', Molecular Ecology. https://doi.org/10.1111/mec.17255

APA

Sabolić, I., Mira, Ó., Brandt, D. Y. C., Lisičić, D., Stapley, J., Novosolov, M., Bakarić, R., Cizelj, I., Glogoški, M., Hudina, T., Taverne, M., Allentoft, M. E., Nielsen, R., Herrel, A., & Štambuk, A. (2024). Plastic and genomic change of a newly established lizard population following a founder event. Molecular Ecology. https://doi.org/10.1111/mec.17255

Vancouver

Sabolić I, Mira Ó, Brandt DYC, Lisičić D, Stapley J, Novosolov M et al. Plastic and genomic change of a newly established lizard population following a founder event. Molecular Ecology. 2024. https://doi.org/10.1111/mec.17255

Author

Sabolić, Iva ; Mira, Óscar ; Brandt, Débora Y. C. ; Lisičić, Duje ; Stapley, Jessica ; Novosolov, Maria ; Bakarić, Robert ; Cizelj, Ivan ; Glogoški, Marko ; Hudina, Tomislav ; Taverne, Maxime ; Allentoft, Morten E. ; Nielsen, Rasmus ; Herrel, Anthony ; Štambuk, Anamaria. / Plastic and genomic change of a newly established lizard population following a founder event. In: Molecular Ecology. 2024.

Bibtex

@article{3da5dc91ec424e3d89585d3eadee3672,
title = "Plastic and genomic change of a newly established lizard population following a founder event",
abstract = "Understanding how phenotypic divergence arises among natural populations remains one of the major goals in evolutionary biology. As part of competitive exclusion experiment conducted in 1971, 10 individuals of Italian wall lizard (Podarcis siculus (Rafinesque-Schmaltz, 1810)) were transplanted from Pod Kopi{\v s}te Island to the nearby island of Pod Mr{\v c}aru (Adriatic Sea). Merely 35 years after the introduction, the newly established population on Pod Mr{\v c}aru Island had shifted their diet from predominantly insectivorous towards omnivorous and changed significantly in a range of morphological, behavioural, physiological and ecological characteristics. Here, we combine genomic and quantitative genetic approaches to determine the relative roles of genetic adaptation and phenotypic plasticity in driving this rapid phenotypic shift. Our results show genome-wide genetic differentiation between ancestral and transplanted population, with weak genetic erosion on Pod Mr{\v c}aru Island. Adaptive processes following the founder event are indicated by highly differentiated genomic loci associating with ecologically relevant phenotypic traits, and/or having a putatively adaptive role across multiple lizard populations. Diverged traits related to head size and shape or bite force showed moderate heritability in a crossing experiment, but between-population differences in these traits did not persist in a common garden environment. Our results confirm the existence of sufficient additive genetic variance for traits to evolve under selection while also demonstrating that phenotypic plasticity and/or genotype by environment interactions are the main drivers of population differentiation at this early evolutionary stage.",
keywords = "bottleneck, heritability, invasive success, phenotypic plasticity, population crossing experiment, rapid evolution",
author = "Iva Saboli{\'c} and {\'O}scar Mira and Brandt, {D{\'e}bora Y. C.} and Duje Lisi{\v c}i{\'c} and Jessica Stapley and Maria Novosolov and Robert Bakari{\'c} and Ivan Cizelj and Marko Glogo{\v s}ki and Tomislav Hudina and Maxime Taverne and Allentoft, {Morten E.} and Rasmus Nielsen and Anthony Herrel and Anamaria {\v S}tambuk",
note = "Publisher Copyright: {\textcopyright} 2023 John Wiley & Sons Ltd.",
year = "2024",
doi = "10.1111/mec.17255",
language = "English",
journal = "Molecular Ecology",
issn = "0962-1083",
publisher = "Wiley-Blackwell",

}

RIS

TY - JOUR

T1 - Plastic and genomic change of a newly established lizard population following a founder event

AU - Sabolić, Iva

AU - Mira, Óscar

AU - Brandt, Débora Y. C.

AU - Lisičić, Duje

AU - Stapley, Jessica

AU - Novosolov, Maria

AU - Bakarić, Robert

AU - Cizelj, Ivan

AU - Glogoški, Marko

AU - Hudina, Tomislav

AU - Taverne, Maxime

AU - Allentoft, Morten E.

AU - Nielsen, Rasmus

AU - Herrel, Anthony

AU - Štambuk, Anamaria

N1 - Publisher Copyright: © 2023 John Wiley & Sons Ltd.

PY - 2024

Y1 - 2024

N2 - Understanding how phenotypic divergence arises among natural populations remains one of the major goals in evolutionary biology. As part of competitive exclusion experiment conducted in 1971, 10 individuals of Italian wall lizard (Podarcis siculus (Rafinesque-Schmaltz, 1810)) were transplanted from Pod Kopište Island to the nearby island of Pod Mrčaru (Adriatic Sea). Merely 35 years after the introduction, the newly established population on Pod Mrčaru Island had shifted their diet from predominantly insectivorous towards omnivorous and changed significantly in a range of morphological, behavioural, physiological and ecological characteristics. Here, we combine genomic and quantitative genetic approaches to determine the relative roles of genetic adaptation and phenotypic plasticity in driving this rapid phenotypic shift. Our results show genome-wide genetic differentiation between ancestral and transplanted population, with weak genetic erosion on Pod Mrčaru Island. Adaptive processes following the founder event are indicated by highly differentiated genomic loci associating with ecologically relevant phenotypic traits, and/or having a putatively adaptive role across multiple lizard populations. Diverged traits related to head size and shape or bite force showed moderate heritability in a crossing experiment, but between-population differences in these traits did not persist in a common garden environment. Our results confirm the existence of sufficient additive genetic variance for traits to evolve under selection while also demonstrating that phenotypic plasticity and/or genotype by environment interactions are the main drivers of population differentiation at this early evolutionary stage.

AB - Understanding how phenotypic divergence arises among natural populations remains one of the major goals in evolutionary biology. As part of competitive exclusion experiment conducted in 1971, 10 individuals of Italian wall lizard (Podarcis siculus (Rafinesque-Schmaltz, 1810)) were transplanted from Pod Kopište Island to the nearby island of Pod Mrčaru (Adriatic Sea). Merely 35 years after the introduction, the newly established population on Pod Mrčaru Island had shifted their diet from predominantly insectivorous towards omnivorous and changed significantly in a range of morphological, behavioural, physiological and ecological characteristics. Here, we combine genomic and quantitative genetic approaches to determine the relative roles of genetic adaptation and phenotypic plasticity in driving this rapid phenotypic shift. Our results show genome-wide genetic differentiation between ancestral and transplanted population, with weak genetic erosion on Pod Mrčaru Island. Adaptive processes following the founder event are indicated by highly differentiated genomic loci associating with ecologically relevant phenotypic traits, and/or having a putatively adaptive role across multiple lizard populations. Diverged traits related to head size and shape or bite force showed moderate heritability in a crossing experiment, but between-population differences in these traits did not persist in a common garden environment. Our results confirm the existence of sufficient additive genetic variance for traits to evolve under selection while also demonstrating that phenotypic plasticity and/or genotype by environment interactions are the main drivers of population differentiation at this early evolutionary stage.

KW - bottleneck

KW - heritability

KW - invasive success

KW - phenotypic plasticity

KW - population crossing experiment

KW - rapid evolution

U2 - 10.1111/mec.17255

DO - 10.1111/mec.17255

M3 - Journal article

C2 - 38133599

AN - SCOPUS:85180718284

JO - Molecular Ecology

JF - Molecular Ecology

SN - 0962-1083

ER -

ID: 379035122