Contrasting seasonal drivers of virus abundance and production in the North Pacific Ocean.

P Jackson Gainer,Gary R Lecleir,Erik R Zinser,Jennifer M Debruyn,Helena L Pound,Alyse A Larkin,Steven W Wilhelm,Zackary I Johnson,Ulrich Melcher

doi:10.1371/journal.pone.0184371

P Jackson Gainer, Gary R Lecleir + Show 7 more

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https://doi.org/10.1371/journal.pone.0184371

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Journal: PloS one	Publication Date: Sep 7, 2017
Citations: 14	License type: CC BY 4.0

Affiliation: University of Tennessee at Knoxville, Duke University

Abstract

The North Pacific Ocean (between approximately 0°N and 50°N) contains the largest continuous ecosystem on Earth. This region plays a vital role in the cycling of globally important nutrients as well as carbon. Although the microbial communities in this region have been assessed, the dynamics of viruses (abundances and production rates) remains understudied. To address this gap, scientific cruises during the winter and summer seasons (2013) covered the North Pacific basin to determine factors that may drive virus abundances and production rates. Along with information on virus particle abundance and production, we collected a spectrum of oceanographic metrics as well as information on microbial diversity. The data suggest that both biotic and abiotic factors affect the distribution of virus particles. Factors influencing virus dynamics did not vary greatly between seasons, although the abundance of viruses was almost an order of magnitude greater in the summer. When considered in the context of microbial community structure, our observations suggest that members of the bacterial phyla Proteobacteria, Planctomycetes, and Bacteroidetes were correlated to both virus abundances and virus production rates: these phyla have been shown to be enriched in particle associated communities. The findings suggest that environmental factors influence virus community functions (e.g., virion particle degradation) and that particle-associated communities may be important drivers of virus activity.

Highlights

Since the “rediscovery” of the high densities of virus particles in the marine environment [1], viruses are increasingly recognized as key drivers of ecosystem biology and chemistry
In this study we examined basin-wide drivers of virus dynamics in the North Pacific Ocean
While similar work has been undertaken over the last decade in this region [45], we present this information in the new light of large scale- pelagic seasonal surveys across a temperature gradient, which was further complemented with bacterial diversity information

Summary

Introduction

Since the “rediscovery” of the high densities of virus particles in the marine environment [1], viruses are increasingly recognized as key drivers of ecosystem biology and chemistry. Viruses are thought to maintain microbial diversity [2] by constraining abundant cell types in microbial communities and allowing for the division of niches within the marine system [3]. This suggestion has been supported by both strain level laboratory studies [4] and in silico modeling of trophic exclusion in the absence of viruses [3]. Given the high estimates for virus-mediated cell lysis in the marine environments, this process is likely important in global scale geochemical cycles [7]. Despite the importance of viruses in marine environments, quantitative data on viral dynamics remain rare for broad swaths of the ocean

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