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Main Authors: Bruning, Paulina, Archaumbault, Phillippe, Garrido, Ignacio, de Lecea, Ander M, Morley, Simon A, Brante, Antonio, Ortiz, Paula, Cárdenas, Leyla
Format: Artículo científico
Language:en
Published: Ecology and evolution 2024
Online Access:https://pubmed.ncbi.nlm.nih.gov/39629174/
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author Bruning, Paulina
Archaumbault, Phillippe
Garrido, Ignacio
de Lecea, Ander M
Morley, Simon A
Brante, Antonio
Ortiz, Paula
Cárdenas, Leyla
author_facet Bruning, Paulina
Archaumbault, Phillippe
Garrido, Ignacio
de Lecea, Ander M
Morley, Simon A
Brante, Antonio
Ortiz, Paula
Cárdenas, Leyla
Bruning, Paulina
Archaumbault, Phillippe
Garrido, Ignacio
de Lecea, Ander M
Morley, Simon A
Brante, Antonio
Ortiz, Paula
Cárdenas, Leyla
collection PubMed - marine biology
contents Phylogeography of Cold Water Soft Coral spp. (Anthozoa, Octocorallia: Alcyonacea) Between South America and the West Antarctic Peninsula. Bruning, Paulina Archaumbault, Phillippe Garrido, Ignacio de Lecea, Ander M Morley, Simon A Brante, Antonio Ortiz, Paula Cárdenas, Leyla The Antarctic marine environment has a unique geologic and climatic history that has contributed to the evolution of high species diversity. Given the current trend of environmental warming, understanding the history of Antarctic species is crucial for predicting the impact of climate change on ecosystem function. Soft corals are a group of striking presence in the benthic marine assemblages in the Southern Ocean, which is recognized as a biodiversity hotspot. DNA sequences (Cox1, mtMutS, and 28S rDNA) were utilized for molecular phylogenetic reconstructions, species delimitations, and divergence estimations to investigate the spatial patterns of genetic diversity in species in the southern South American-Antarctic region. Significant genetic divergence was observed between regions, with a clear genetic break between South America and the West Antarctic Peninsula and the identification of four putative species. Divergence time estimates indicated that 's diversification began about 41.1 million years ago (Ma), coinciding with the opening of the Drake Passage and the formation of the Antarctic Circumpolar Current (ACC, ~42 Ma). This indicates that has persisted in situ for an extensive period, enduring a wide range of environmental conditions.
format Artículo científico
id pubmed_39629174
institution PubMed
language en
publishDate 2024
publisher Ecology and evolution
record_format pubmed
spellingShingle Phylogeography of Cold Water Soft Coral spp. (Anthozoa, Octocorallia: Alcyonacea) Between South America and the West Antarctic Peninsula.
Bruning, Paulina
Archaumbault, Phillippe
Garrido, Ignacio
de Lecea, Ander M
Morley, Simon A
Brante, Antonio
Ortiz, Paula
Cárdenas, Leyla
Phylogeography of Cold Water Soft Coral spp. (Anthozoa, Octocorallia: Alcyonacea) Between South America and the West Antarctic Peninsula. Bruning, Paulina Archaumbault, Phillippe Garrido, Ignacio de Lecea, Ander M Morley, Simon A Brante, Antonio Ortiz, Paula Cárdenas, Leyla The Antarctic marine environment has a unique geologic and climatic history that has contributed to the evolution of high species diversity. Given the current trend of environmental warming, understanding the history of Antarctic species is crucial for predicting the impact of climate change on ecosystem function. Soft corals are a group of striking presence in the benthic marine assemblages in the Southern Ocean, which is recognized as a biodiversity hotspot. DNA sequences (Cox1, mtMutS, and 28S rDNA) were utilized for molecular phylogenetic reconstructions, species delimitations, and divergence estimations to investigate the spatial patterns of genetic diversity in species in the southern South American-Antarctic region. Significant genetic divergence was observed between regions, with a clear genetic break between South America and the West Antarctic Peninsula and the identification of four putative species. Divergence time estimates indicated that 's diversification began about 41.1 million years ago (Ma), coinciding with the opening of the Drake Passage and the formation of the Antarctic Circumpolar Current (ACC, ~42 Ma). This indicates that has persisted in situ for an extensive period, enduring a wide range of environmental conditions.
title Phylogeography of Cold Water Soft Coral spp. (Anthozoa, Octocorallia: Alcyonacea) Between South America and the West Antarctic Peninsula.
url https://pubmed.ncbi.nlm.nih.gov/39629174/