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Autori principali: Piedade, Gonçalo J, Schön, Max E, Lood, Cédric, Fofanov, Mikhail V, Wesdorp, Ella M, Biggs, Tristan E G, Wu, Lingyi, Bolhuis, Henk, Fischer, Matthias G, Yutin, Natalya, Dutilh, Bas E, Brussaard, Corina P D
Natura: Artículo científico
Lingua:en
Pubblicazione: Nature communications 2024
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/39448562/
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author Piedade, Gonçalo J
Schön, Max E
Lood, Cédric
Fofanov, Mikhail V
Wesdorp, Ella M
Biggs, Tristan E G
Wu, Lingyi
Bolhuis, Henk
Fischer, Matthias G
Yutin, Natalya
Dutilh, Bas E
Brussaard, Corina P D
author_facet Piedade, Gonçalo J
Schön, Max E
Lood, Cédric
Fofanov, Mikhail V
Wesdorp, Ella M
Biggs, Tristan E G
Wu, Lingyi
Bolhuis, Henk
Fischer, Matthias G
Yutin, Natalya
Dutilh, Bas E
Brussaard, Corina P D
Piedade, Gonçalo J
Schön, Max E
Lood, Cédric
Fofanov, Mikhail V
Wesdorp, Ella M
Biggs, Tristan E G
Wu, Lingyi
Bolhuis, Henk
Fischer, Matthias G
Yutin, Natalya
Dutilh, Bas E
Brussaard, Corina P D
collection PubMed - marine biology
contents Seasonal dynamics and diversity of Antarctic marine viruses reveal a novel viral seascape. Piedade, Gonçalo J Schön, Max E Lood, Cédric Fofanov, Mikhail V Wesdorp, Ella M Biggs, Tristan E G Wu, Lingyi Bolhuis, Henk Fischer, Matthias G Yutin, Natalya Dutilh, Bas E Brussaard, Corina P D Antarctic Regions Seasons Phytoplankton Ecosystem Biodiversity Seawater Bacteriophages Viruses Oceans and Seas Phylogeny DNA Viruses Climate Change Virophages The Southern Ocean microbial ecosystem, with its pronounced seasonal shifts, is vulnerable to the impacts of climate change. Since viruses are key modulators of microbial abundance, diversity, and evolution, we need a better understanding of the effects of seasonality on the viruses in this region. Our comprehensive exploration of DNA viral diversity in the Southern Ocean reveals a unique and largely uncharted viral landscape, of which 75% was previously unidentified in other oceanic areas. We uncover novel viral taxa at high taxonomic ranks, expanding our understanding of crassphage, polinton-like virus, and virophage diversity. Nucleocytoviricota viruses represent an abundant and diverse group of Antarctic viruses, highlighting their potential as important regulators of phytoplankton population dynamics. Our temporal analysis reveals complex seasonal patterns in marine viral communities (bacteriophages, eukaryotic viruses) which underscores the apparent interactions with their microbial hosts, whilst deepening our understanding of their roles in the world's most sensitive and rapidly changing ecosystem.
format Artículo científico
id pubmed_39448562
institution PubMed
language en
publishDate 2024
publisher Nature communications
record_format pubmed
spellingShingle Seasonal dynamics and diversity of Antarctic marine viruses reveal a novel viral seascape.
Piedade, Gonçalo J
Schön, Max E
Lood, Cédric
Fofanov, Mikhail V
Wesdorp, Ella M
Biggs, Tristan E G
Wu, Lingyi
Bolhuis, Henk
Fischer, Matthias G
Yutin, Natalya
Dutilh, Bas E
Brussaard, Corina P D
Antarctic Regions
Seasons
Phytoplankton
Ecosystem
Biodiversity
Seawater
Bacteriophages
Viruses
Oceans and Seas
Phylogeny
DNA Viruses
Climate Change
Virophages
Seasonal dynamics and diversity of Antarctic marine viruses reveal a novel viral seascape. Piedade, Gonçalo J Schön, Max E Lood, Cédric Fofanov, Mikhail V Wesdorp, Ella M Biggs, Tristan E G Wu, Lingyi Bolhuis, Henk Fischer, Matthias G Yutin, Natalya Dutilh, Bas E Brussaard, Corina P D Antarctic Regions Seasons Phytoplankton Ecosystem Biodiversity Seawater Bacteriophages Viruses Oceans and Seas Phylogeny DNA Viruses Climate Change Virophages The Southern Ocean microbial ecosystem, with its pronounced seasonal shifts, is vulnerable to the impacts of climate change. Since viruses are key modulators of microbial abundance, diversity, and evolution, we need a better understanding of the effects of seasonality on the viruses in this region. Our comprehensive exploration of DNA viral diversity in the Southern Ocean reveals a unique and largely uncharted viral landscape, of which 75% was previously unidentified in other oceanic areas. We uncover novel viral taxa at high taxonomic ranks, expanding our understanding of crassphage, polinton-like virus, and virophage diversity. Nucleocytoviricota viruses represent an abundant and diverse group of Antarctic viruses, highlighting their potential as important regulators of phytoplankton population dynamics. Our temporal analysis reveals complex seasonal patterns in marine viral communities (bacteriophages, eukaryotic viruses) which underscores the apparent interactions with their microbial hosts, whilst deepening our understanding of their roles in the world's most sensitive and rapidly changing ecosystem.
title Seasonal dynamics and diversity of Antarctic marine viruses reveal a novel viral seascape.
topic Antarctic Regions
Seasons
Phytoplankton
Ecosystem
Biodiversity
Seawater
Bacteriophages
Viruses
Oceans and Seas
Phylogeny
DNA Viruses
Climate Change
Virophages
url https://pubmed.ncbi.nlm.nih.gov/39448562/