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Autori principali: Macrina, Laura, Terraneo, Tullia I, McFadden, Catherine S, Chimienti, Giovanni, Marchese, Fabio, Vimercati, Silvia, Vicario, Silvia, Reimer, James D, Purkis, Sam J, Eweida, Ameer A, Pieribone, Vincent, Qurban, Mohammed, Duarte, Carlos M, Rodrigue, Mattie, van der Zwan, Froukje M, Augustin, Nico, Westphal, Hildegard, Benzoni, Francesca
Natura: Artículo científico
Lingua:en
Pubblicazione: Scientific reports 2025
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/41023109/
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author Macrina, Laura
Terraneo, Tullia I
McFadden, Catherine S
Chimienti, Giovanni
Marchese, Fabio
Vimercati, Silvia
Vicario, Silvia
Reimer, James D
Purkis, Sam J
Eweida, Ameer A
Pieribone, Vincent
Qurban, Mohammed
Duarte, Carlos M
Rodrigue, Mattie
van der Zwan, Froukje M
Augustin, Nico
Westphal, Hildegard
Benzoni, Francesca
author_facet Macrina, Laura
Terraneo, Tullia I
McFadden, Catherine S
Chimienti, Giovanni
Marchese, Fabio
Vimercati, Silvia
Vicario, Silvia
Reimer, James D
Purkis, Sam J
Eweida, Ameer A
Pieribone, Vincent
Qurban, Mohammed
Duarte, Carlos M
Rodrigue, Mattie
van der Zwan, Froukje M
Augustin, Nico
Westphal, Hildegard
Benzoni, Francesca
Macrina, Laura
Terraneo, Tullia I
McFadden, Catherine S
Chimienti, Giovanni
Marchese, Fabio
Vimercati, Silvia
Vicario, Silvia
Reimer, James D
Purkis, Sam J
Eweida, Ameer A
Pieribone, Vincent
Qurban, Mohammed
Duarte, Carlos M
Rodrigue, Mattie
van der Zwan, Froukje M
Augustin, Nico
Westphal, Hildegard
Benzoni, Francesca
collection PubMed - marine biology
contents The hidden diversity of Saudi Arabian Red Sea octocorals revealed through a morpho-molecular assessment across bathymetric and latitudinal gradients. Macrina, Laura Terraneo, Tullia I McFadden, Catherine S Chimienti, Giovanni Marchese, Fabio Vimercati, Silvia Vicario, Silvia Reimer, James D Purkis, Sam J Eweida, Ameer A Pieribone, Vincent Qurban, Mohammed Duarte, Carlos M Rodrigue, Mattie van der Zwan, Froukje M Augustin, Nico Westphal, Hildegard Benzoni, Francesca Saudi Arabia Indian Ocean Biodiversity Anthozoa Animals Phylogeny Genetic Variation Ecosystem DNA Barcoding, Taxonomic Octocorals, a globally distributed class of Cnidaria, inhabit a wide range of environments, from cold to tropical waters and from shallow to deep-sea ecosystems. In the Red Sea, studies on octocoral diversity have mostly been focused on the Gulf of Aqaba and selected families or genera. While these studies have revealed a remarkable richness and diversity of shallow-water species, mesophotic and deep-sea octocoral research remains limited in the region, in particular along the Saudi Arabian coast. Here, we provide a first comprehensive assessment of this group's genetic diversity across the basin's bathymetric and latitudinal gradients. Following six Red Sea oceanographic expeditions and various biodiversity surveys conducted between 2020 to 2023, we analysed a collection of 728 octocoral specimens sampled along 13 degrees of latitude in the Saudi Arabian Red Sea, from shallow-water reefs to deep-sea habitats. We combined morphological identification and sequencing of mitochondrial barcode markers (mtMutS and COI) to delimit lineages. Our integrated results revealed the occurrence of 26 families and 56 genera in the basin from 3 to 859 m of depth. While the description of new species was beyond the scope of this work, here we provide a reference dataset for octocoral diversity from a biodiversity hotspot, as well as essential insights to inform biodiversity management and planning of conservation measures, particularly relevant for the rapidly developing Saudi Arabian Red Sea coast.
format Artículo científico
id pubmed_41023109
institution PubMed
language en
publishDate 2025
publisher Scientific reports
record_format pubmed
spellingShingle The hidden diversity of Saudi Arabian Red Sea octocorals revealed through a morpho-molecular assessment across bathymetric and latitudinal gradients.
Macrina, Laura
Terraneo, Tullia I
McFadden, Catherine S
Chimienti, Giovanni
Marchese, Fabio
Vimercati, Silvia
Vicario, Silvia
Reimer, James D
Purkis, Sam J
Eweida, Ameer A
Pieribone, Vincent
Qurban, Mohammed
Duarte, Carlos M
Rodrigue, Mattie
van der Zwan, Froukje M
Augustin, Nico
Westphal, Hildegard
Benzoni, Francesca
Saudi Arabia
Indian Ocean
Biodiversity
Anthozoa
Animals
Phylogeny
Genetic Variation
Ecosystem
DNA Barcoding, Taxonomic
The hidden diversity of Saudi Arabian Red Sea octocorals revealed through a morpho-molecular assessment across bathymetric and latitudinal gradients. Macrina, Laura Terraneo, Tullia I McFadden, Catherine S Chimienti, Giovanni Marchese, Fabio Vimercati, Silvia Vicario, Silvia Reimer, James D Purkis, Sam J Eweida, Ameer A Pieribone, Vincent Qurban, Mohammed Duarte, Carlos M Rodrigue, Mattie van der Zwan, Froukje M Augustin, Nico Westphal, Hildegard Benzoni, Francesca Saudi Arabia Indian Ocean Biodiversity Anthozoa Animals Phylogeny Genetic Variation Ecosystem DNA Barcoding, Taxonomic Octocorals, a globally distributed class of Cnidaria, inhabit a wide range of environments, from cold to tropical waters and from shallow to deep-sea ecosystems. In the Red Sea, studies on octocoral diversity have mostly been focused on the Gulf of Aqaba and selected families or genera. While these studies have revealed a remarkable richness and diversity of shallow-water species, mesophotic and deep-sea octocoral research remains limited in the region, in particular along the Saudi Arabian coast. Here, we provide a first comprehensive assessment of this group's genetic diversity across the basin's bathymetric and latitudinal gradients. Following six Red Sea oceanographic expeditions and various biodiversity surveys conducted between 2020 to 2023, we analysed a collection of 728 octocoral specimens sampled along 13 degrees of latitude in the Saudi Arabian Red Sea, from shallow-water reefs to deep-sea habitats. We combined morphological identification and sequencing of mitochondrial barcode markers (mtMutS and COI) to delimit lineages. Our integrated results revealed the occurrence of 26 families and 56 genera in the basin from 3 to 859 m of depth. While the description of new species was beyond the scope of this work, here we provide a reference dataset for octocoral diversity from a biodiversity hotspot, as well as essential insights to inform biodiversity management and planning of conservation measures, particularly relevant for the rapidly developing Saudi Arabian Red Sea coast.
title The hidden diversity of Saudi Arabian Red Sea octocorals revealed through a morpho-molecular assessment across bathymetric and latitudinal gradients.
topic Saudi Arabia
Indian Ocean
Biodiversity
Anthozoa
Animals
Phylogeny
Genetic Variation
Ecosystem
DNA Barcoding, Taxonomic
url https://pubmed.ncbi.nlm.nih.gov/41023109/