Elucidating Viral Communities During a Phytoplankton Bloom on the West Antarctic Peninsula

In Antarctic coastal waters where nutrient limitations are low, viruses are expected to play a major role in the regulation of bloom events. Despite this, research in viral identification and dynamics is scarce, with limited information available for the Southern Ocean (SO). This study presents an i...

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Bibliographic Details
Published in:Frontiers in Microbiology
Main Authors: Alarcón-Schumacher, Tomás, Guajardo-Leiva, Sergio, Anton, Josefa, Díez, Beatriz
Other Authors: Universidad de Alicante. Departamento de Fisiología, Genética y Microbiología, Ecología Microbiana Molecular
Format: Article in Journal/Newspaper
Language:English
Published: Frontiers Media 2019
Subjects:
Phytoplankton blooms
Southern Ocean
Viruses
Environmental genomics
Viral ecology
Microbiología
Antarctic
Antarctic Peninsula
Inach
Antarc*
Antarctica
Online Access:http://hdl.handle.net/10045/91765
https://doi.org/10.3389/fmicb.2019.01014
Description
Summary:In Antarctic coastal waters where nutrient limitations are low, viruses are expected to play a major role in the regulation of bloom events. Despite this, research in viral identification and dynamics is scarce, with limited information available for the Southern Ocean (SO). This study presents an integrative-omics approach, comparing variation in the viral and microbial active communities on two contrasting sample conditions from a diatom-dominated phytoplankton bloom occurring in Chile Bay in the West Antarctic Peninsula (WAP) in the summer of 2014. The known viral community, initially dominated by Myoviridae family (∼82% of the total assigned reads), changed to become dominated by Phycodnaviridae (∼90%), while viral activity was predominantly driven by dsDNA members of the Phycodnaviridae (∼50%) and diatom infecting ssRNA viruses (∼38%), becoming more significant as chlorophyll a increased. A genomic and phylogenetic characterization allowed the identification of a new viral lineage within the Myoviridae family. This new lineage of viruses infects Pseudoalteromonas and was dominant in the phage community. In addition, a new Phycodnavirus (PaV) was described, which is predicted to infect Phaeocystis antarctica, the main blooming haptophyte in the SO. This work was able to identify the changes in the main viral players during a bloom development and suggests that the changes observed in the virioplankton could be used as a model to understand the development and decay of blooms that occur throughout the WAP. This work was financially supported by a Ph.D. scholarship CONICYT N° 21130667; INACH15-10, INACH RG_09-17, CONICYT for international cooperation DPI20140044, FONDAP N° 15110009, and FONDECYT N° 1190998.

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