Rare, long‐distance dispersal underpins genetic connectivity in the pink sea fan, <i>Eunicella verrucosa</i>

Macleod, Kirsty L.; Jenkins, Tom L.; Witt, Matthew J.; Stevens, Jamie R.

doi:10.1111/eva.13649

Cited by 2 publications

(1 citation statement)

References 142 publications

(159 reference statements)

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“…Eunicella verrucosa is currently more widely distributed in the North Eastern Atlantic Ocean, and less frequent in the Mediterranean Sea, whereas both other species analyzed here are only present in the Mediterranean Sea. The Atlantic / Mediterranean Sea transition does not seem to act as a phylogeographic barrier for E. verrucosa (Macleod et al, 2024). One could then envision a scenario where the split between E. verrucosa and both other species occurred in allopatry between the Atlantic Ocean and the Mediterranean Sea, followed by the colonization of the Mediterranean Sea by E. verrucosa.…”

Section: Speciation Scenariosmentioning

confidence: 99%

Symbiotic status does not preclude hybridisation in Mediterranean octocorals

Aurelle,

Haguenauer,

Bally

et al. 2024

Preprint

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Understanding how species can form and remain isolated in the marine environment is still an active research area. Correctly delimiting species if also of interest for biodiversity conservation and for a wide range of biological studies. Here we study the differentiation and the possibility of hybridization among three temperate octocorals : Eunicella cavolini, E. singularis and E. verrucosa. These species can occur in sympatry and morphologically intermediate individuals have been observed. Among these three species, E. singularis is the only one known to show a mutualistic symbiosis with photosynthetic Symbiodiniaceae. As symbiotic relationships can be involved in species barriers, we tested here the possibility of hybridization between symbiotic and non-symbiotic Eunicella species. Through multivariate analyses and hybrid detection, we prove the existence of current gene flow between E. singularis and E. cavolini, with the observation of F1 and F2 hybrids and backcrosses. Demographic inferences indicate a scenario of secondary contact between these two species. Our data suggest an intermediate abundance of Symbiodiniaceae in the hybrids of the two species. We discuss the evolution of the Symbiodiniaceae / cnidarian symbiosis in the light of our results.

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Section: Speciation Scenariosmentioning

confidence: 99%

Symbiotic status does not preclude hybridisation in Mediterranean octocorals

Aurelle,

Haguenauer,

Bally

et al. 2024

Preprint

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Genetic divergence and adaptation of an isolated European lobster population in the Netherlands

Ellis,

Paris,

Jenkins

et al. 2024

ICES Journal of Marine Science

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Identifying isolated populations is a key step towards enacting effective conservation management. European lobsters (Homarus gammarus) from Oosterschelde in the Netherlands are subject to fishery pressure and have previously been reported as genetically differentiated. They are also putatively of transplanted origin and have subsequently endured recent bottlenecking and environmental change. We assessed Oosterschelde lobsters to evaluate their demographic independence and appraise potential founder effects and evolutionary responses to isolation. Using restriction-site associated DNA sequencing, we genotyped 6185 single nucleotide polymorphisms across 188 individuals from 27 sites across the Atlantic range of H. gammarus to investigate population genetic diversity, structure, and potential adaptation. Our results show that Oosterschelde lobsters are genetically divergent from other stocks. We evidence extensive differentiation via both neutral and outlier loci, indicative of strong biophysical and demographic isolation, and detect signatures of reduced genetic diversity that may reflect weak founder effects or subsequent population contractions. Among outlier loci, we identify candidates for range-wide local adaptation via variants in genes of important biological functionality and link a private allele of Oosterschelde to a locus potentially conveying adaptive tolerance to environmental hypoxia. Given our findings, we advise proactive monitoring of Oosterschelde lobsters to explore whether existing management measures effectively conserve this discrete, self-recruiting population.

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Rare, long‐distance dispersal underpins genetic connectivity in the pink sea fan, Eunicella verrucosa

Cited by 2 publications

References 142 publications

Symbiotic status does not preclude hybridisation in Mediterranean octocorals

Symbiotic status does not preclude hybridisation in Mediterranean octocorals

Genetic divergence and adaptation of an isolated European lobster population in the Netherlands

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