Mathilde Horaud


PhD student

Stillingsbeskrivelse

Among the different evolutive forces, connectivity and local adaptation are two contrasting evolutionary forces highly influencing the population structure of a species above their distribution range. In my PhD I aim to clarify the population structure of Cyclopterus lumpus (lumpfish/ lumpsucker) looking at both connectivity and local adaptation in order to better define the different stocks of this species and predict the impact of translocation methods, domestication and climate change on its population structure.


  • Mathilde Horaud, Rosana Arizmendi-Meija, Elisabet Nebot-Colomer, Paula López-Sendino, Agostinho Antunes, Simon Dellicour m.fl.:
    Comparative population genetics of habitat-forming octocorals in two marine protected areas: eco-evolutionary and management implications
    Conservation Genetics 2023 ARKIV / DOI

  • De 50 siste resultatene fra Cristin vises på siden. Se alle arbeider i Cristin her →

    Publikasjoner utenom Cristin

    Publications:

    2021 Ledoux, J.B., Ghanem, R., Horaud, M., López-Sendino, P., Romero-Soriano, V., Antunes, A., Bensoussan, N., Gómez-Gras, D., Linares, C., Machordom, A., Ocaña, O., Templado, J., Leblois, R., Ben Souissi, J., &Garrabou, J. (2021). Gradients of genetic diversity and differentiation across the distribution range of a Mediterranean coral: Patterns, processes and conservation implications. Diversity and Distributions, June, 1-20.

    Conference:

    2018 Fauvelot C., Horaud M., Grulois D., Magalon H., Andrefouet S., Wabnitz C., Borsa P. (2018) Comparative patterns of connectivity among the different lineages of the giant clam Tridacna maxima found over the Indo-Pacific. Fourth International Marine Connectivity conference (iMarCo), Heraklion, Greece.


    Forskningsinteresser

    Among the different evolutive forces, connectivity and local adaptation are two contrasting evolutionary forces highly influencing the population structure of a species above their distribution range. In my PhD I aim to clarify the population structure of Cyclopterus lumpus (Lumpfish)  looking at both connectivity and local adaptation in order to better define the different stocks of this species and predict the impact of translocation methods, domestication and climate change on its population structure.


    Medlem i forskningsgruppe