Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide

The world’s largest macroalgal green tide, caused by Ulva prolifera, has resulted in serious consequences for coastal waters of the Yellow Sea, China. Although viruses are considered to be one of the key factors in controlling microalgal bloom demise, understanding of the relationship between viral...

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Autores principales: Han, Meiaoxue, Sun, Jianhua, Yang, Qingwei, Liang, Yantao, Jiang, Yong, Gao, Chen, Gu, Chengxiang, Liu, Qian, Chen, Xuechao, Liu, Gang, Shao, Hongbing, Guo, Cui, He, Hui, Wang, Hualong, Sung, Yeong Yik, Mok, Wen Jye, Wong, Li Lian, Wang, Zongling, McMinn, Andrew, Wang, Min
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2023
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10134843/
https://www.ncbi.nlm.nih.gov/pubmed/36815859
http://dx.doi.org/10.1128/msystems.01211-22
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author Han, Meiaoxue
Sun, Jianhua
Yang, Qingwei
Liang, Yantao
Jiang, Yong
Gao, Chen
Gu, Chengxiang
Liu, Qian
Chen, Xuechao
Liu, Gang
Shao, Hongbing
Guo, Cui
He, Hui
Wang, Hualong
Sung, Yeong Yik
Mok, Wen Jye
Wong, Li Lian
Wang, Zongling
McMinn, Andrew
Wang, Min
author_facet Han, Meiaoxue
Sun, Jianhua
Yang, Qingwei
Liang, Yantao
Jiang, Yong
Gao, Chen
Gu, Chengxiang
Liu, Qian
Chen, Xuechao
Liu, Gang
Shao, Hongbing
Guo, Cui
He, Hui
Wang, Hualong
Sung, Yeong Yik
Mok, Wen Jye
Wong, Li Lian
Wang, Zongling
McMinn, Andrew
Wang, Min
author_sort Han, Meiaoxue
collection PubMed
description The world’s largest macroalgal green tide, caused by Ulva prolifera, has resulted in serious consequences for coastal waters of the Yellow Sea, China. Although viruses are considered to be one of the key factors in controlling microalgal bloom demise, understanding of the relationship between viral communities and the macroalgal green tide is still poor. Here, a Qingdao coastal virome (QDCV) time-series data set was constructed based on the metagenomic analysis of 17 DNA viromes along three coastal stations of the Yellow Sea, covering different stages of the green tide from Julian days 165 to 271. A total of 40,076 viral contigs were detected and clustered into 28,058 viral operational taxonomic units (vOTUs). About 84% of the vOTUs could not be classified, and 62% separated from vOTUs in other ecosystems. Green tides significantly influenced the spatiotemporal dynamics of the viral community structure, diversity, and potential functions. For the classified vOTUs, the relative abundance of Pelagibacter phages declined with the arrival of the bloom and rebounded after the bloom, while Synechococcus and Roseobacter phages increased, although with a time lag from the peak of their hosts. More than 80% of the vOTUs reached peaks in abundance at different specific stages, and the viral peaks were correlated with specific hosts at different stages of the green tide. Most of the viral auxiliary metabolic genes (AMGs) were associated with carbon and sulfur metabolism and showed spatiotemporal dynamics relating to the degradation of the large amount of organic matter released by the green tide. IMPORTANCE To the best of our knowledge, this study is the first to investigate the responses of viruses to the world’s largest macroalgal green tide. It revealed the spatiotemporal dynamics of the unique viral assemblages and auxiliary metabolic genes (AMGs) following the variation and degradation of Ulva prolifera. These findings demonstrate a tight coupling between viral assemblages, and prokaryotic and eukaryotic abundances were influenced by the green tide.
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spelling pubmed-101348432023-04-28 Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide Han, Meiaoxue Sun, Jianhua Yang, Qingwei Liang, Yantao Jiang, Yong Gao, Chen Gu, Chengxiang Liu, Qian Chen, Xuechao Liu, Gang Shao, Hongbing Guo, Cui He, Hui Wang, Hualong Sung, Yeong Yik Mok, Wen Jye Wong, Li Lian Wang, Zongling McMinn, Andrew Wang, Min mSystems Research Article The world’s largest macroalgal green tide, caused by Ulva prolifera, has resulted in serious consequences for coastal waters of the Yellow Sea, China. Although viruses are considered to be one of the key factors in controlling microalgal bloom demise, understanding of the relationship between viral communities and the macroalgal green tide is still poor. Here, a Qingdao coastal virome (QDCV) time-series data set was constructed based on the metagenomic analysis of 17 DNA viromes along three coastal stations of the Yellow Sea, covering different stages of the green tide from Julian days 165 to 271. A total of 40,076 viral contigs were detected and clustered into 28,058 viral operational taxonomic units (vOTUs). About 84% of the vOTUs could not be classified, and 62% separated from vOTUs in other ecosystems. Green tides significantly influenced the spatiotemporal dynamics of the viral community structure, diversity, and potential functions. For the classified vOTUs, the relative abundance of Pelagibacter phages declined with the arrival of the bloom and rebounded after the bloom, while Synechococcus and Roseobacter phages increased, although with a time lag from the peak of their hosts. More than 80% of the vOTUs reached peaks in abundance at different specific stages, and the viral peaks were correlated with specific hosts at different stages of the green tide. Most of the viral auxiliary metabolic genes (AMGs) were associated with carbon and sulfur metabolism and showed spatiotemporal dynamics relating to the degradation of the large amount of organic matter released by the green tide. IMPORTANCE To the best of our knowledge, this study is the first to investigate the responses of viruses to the world’s largest macroalgal green tide. It revealed the spatiotemporal dynamics of the unique viral assemblages and auxiliary metabolic genes (AMGs) following the variation and degradation of Ulva prolifera. These findings demonstrate a tight coupling between viral assemblages, and prokaryotic and eukaryotic abundances were influenced by the green tide. American Society for Microbiology 2023-02-23 /pmc/articles/PMC10134843/ /pubmed/36815859 http://dx.doi.org/10.1128/msystems.01211-22 Text en Copyright © 2023 Han et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Research Article
Han, Meiaoxue
Sun, Jianhua
Yang, Qingwei
Liang, Yantao
Jiang, Yong
Gao, Chen
Gu, Chengxiang
Liu, Qian
Chen, Xuechao
Liu, Gang
Shao, Hongbing
Guo, Cui
He, Hui
Wang, Hualong
Sung, Yeong Yik
Mok, Wen Jye
Wong, Li Lian
Wang, Zongling
McMinn, Andrew
Wang, Min
Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide
title Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide
title_full Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide
title_fullStr Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide
title_full_unstemmed Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide
title_short Spatiotemporal Dynamics of Coastal Viral Community Structure and Potential Biogeochemical Roles Affected by an Ulva prolifera Green Tide
title_sort spatiotemporal dynamics of coastal viral community structure and potential biogeochemical roles affected by an ulva prolifera green tide
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10134843/
https://www.ncbi.nlm.nih.gov/pubmed/36815859
http://dx.doi.org/10.1128/msystems.01211-22
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