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Hauptverfasser: Oury, Nicolas, Wang, Yixin, Ma, Jingyi, Terraneo, Tullia I, Marchese, Fabio, Barreca, Federica, Delgadillo-Ordoñez, Nathalia, Vimercati, Silvia, Berumen, Michael L, Peixoto, Raquel, Paulay, Gustav, Hoteit, Ibrahim, Benzoni, Francesca
Format: Artículo científico
Sprache:en
Veröffentlicht: iScience 2026
Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/41550714/
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author Oury, Nicolas
Wang, Yixin
Ma, Jingyi
Terraneo, Tullia I
Marchese, Fabio
Barreca, Federica
Delgadillo-Ordoñez, Nathalia
Vimercati, Silvia
Berumen, Michael L
Peixoto, Raquel
Paulay, Gustav
Hoteit, Ibrahim
Benzoni, Francesca
author_facet Oury, Nicolas
Wang, Yixin
Ma, Jingyi
Terraneo, Tullia I
Marchese, Fabio
Barreca, Federica
Delgadillo-Ordoñez, Nathalia
Vimercati, Silvia
Berumen, Michael L
Peixoto, Raquel
Paulay, Gustav
Hoteit, Ibrahim
Benzoni, Francesca
Oury, Nicolas
Wang, Yixin
Ma, Jingyi
Terraneo, Tullia I
Marchese, Fabio
Barreca, Federica
Delgadillo-Ordoñez, Nathalia
Vimercati, Silvia
Berumen, Michael L
Peixoto, Raquel
Paulay, Gustav
Hoteit, Ibrahim
Benzoni, Francesca
collection PubMed - marine biology
contents Seascape genomics uncovers contrasting population genetic structures in reef corals. Oury, Nicolas Wang, Yixin Ma, Jingyi Terraneo, Tullia I Marchese, Fabio Barreca, Federica Delgadillo-Ordoñez, Nathalia Vimercati, Silvia Berumen, Michael L Peixoto, Raquel Paulay, Gustav Hoteit, Ibrahim Benzoni, Francesca Abiotic conditions influence biodiversity and population connectivity, the assessment of which is critical for predicting climate change impacts and guiding conservation efforts. Coral reefs face severe losses, making effective conservation strategies increasingly urgent. Here, we use a seascape genomics approach to examine the population genetic structure of three non-model scleractinian corals around the Arabian Peninsula, a region with distinctive oceanographic features. We reveal contrasting patterns across species, which we integrate with geographic distances, larval dispersal models, and environmental data. Population structure appears shaped both by isolation by distance (IBD) and isolation by resistance (IBR), with environmental gradients often covarying with spatial separation. Our findings clarify coral diversification and evolutionary responses to conditions around the region. This work also provides a methodological framework to advance our understanding of processes structuring reef populations, thereby informing efforts to design robust marine protected area networks in the face of climate change and biodiversity loss.
format Artículo científico
id pubmed_41550714
institution PubMed
language en
publishDate 2026
publisher iScience
record_format pubmed
spellingShingle Seascape genomics uncovers contrasting population genetic structures in reef corals.
Oury, Nicolas
Wang, Yixin
Ma, Jingyi
Terraneo, Tullia I
Marchese, Fabio
Barreca, Federica
Delgadillo-Ordoñez, Nathalia
Vimercati, Silvia
Berumen, Michael L
Peixoto, Raquel
Paulay, Gustav
Hoteit, Ibrahim
Benzoni, Francesca
Seascape genomics uncovers contrasting population genetic structures in reef corals. Oury, Nicolas Wang, Yixin Ma, Jingyi Terraneo, Tullia I Marchese, Fabio Barreca, Federica Delgadillo-Ordoñez, Nathalia Vimercati, Silvia Berumen, Michael L Peixoto, Raquel Paulay, Gustav Hoteit, Ibrahim Benzoni, Francesca Abiotic conditions influence biodiversity and population connectivity, the assessment of which is critical for predicting climate change impacts and guiding conservation efforts. Coral reefs face severe losses, making effective conservation strategies increasingly urgent. Here, we use a seascape genomics approach to examine the population genetic structure of three non-model scleractinian corals around the Arabian Peninsula, a region with distinctive oceanographic features. We reveal contrasting patterns across species, which we integrate with geographic distances, larval dispersal models, and environmental data. Population structure appears shaped both by isolation by distance (IBD) and isolation by resistance (IBR), with environmental gradients often covarying with spatial separation. Our findings clarify coral diversification and evolutionary responses to conditions around the region. This work also provides a methodological framework to advance our understanding of processes structuring reef populations, thereby informing efforts to design robust marine protected area networks in the face of climate change and biodiversity loss.
title Seascape genomics uncovers contrasting population genetic structures in reef corals.
url https://pubmed.ncbi.nlm.nih.gov/41550714/