Significance of Viral Activity For Regulating Heterotrophic Prokaryote Community Dynamics Along a Meridional Gradient of Stratification In the Northeast Atlantic Ocean

How microbial populations interact influences the availability and flux of organic carbon in the ocean. Understanding how these interactions vary over broad spatial scales is therefore a fundamental aim of microbial oceanography. In this study, we assessed variations in the abundances, production, v...

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Bibliographic Details
Main Authors: Mojica, Kristina D.A., Brussaard, Corina P.D.
Format: Text
Language:unknown
Published: The Aquila Digital Community 2020
Subjects:
Bacterial production
Carbon cycling
HNA
LNA
Lysogeny
Lytic infection
Marine viruses
Mortality
Protozoan grazing
Life Sciences
Microbiology
Virology
North Atlantic
Northeast Atlantic
Online Access:https://aquila.usm.edu/fac_pubs/19081
https://aquila.usm.edu/context/fac_pubs/article/20405/viewcontent/pdf.pdf
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Summary:How microbial populations interact influences the availability and flux of organic carbon in the ocean. Understanding how these interactions vary over broad spatial scales is therefore a fundamental aim of microbial oceanography. In this study, we assessed variations in the abundances, production, virus and grazing induced mortality of heterotrophic prokaryotes during summer along a meridional gradient in stratification in the North Atlantic Ocean. Heterotrophic prokaryote abundance and activity varied with phytoplankton biomass, while the relative distribution of prokaryotic subpopulations (ratio of high nucleic acid fluorescent (HNA) and low nucleic acid fluorescent (LNA) cells) was significantly correlated to phytoplankton mortality mode (i.e., viral lysis to grazing rate ratio). Virus-mediate morality was the primary loss process regulating the heterotrophic prokaryotic communities (average 55% of the total mortality), which may be attributed to the strong top-down regulation of the bacterivorous protozoans. Host availability, encounter rate, and HNA:LNA were important factors regulating viral dynamics. Conversely, the abundance and activity of bacterivorous protozoans were largely regulated by temperature and turbulence. The ratio of total microbial mediated mortality to total available prokaryote carbon reveals that over the latitudinal gradient the heterotrophic prokaryote community gradually moved from a near steady state system regulated by high turnover in subtropical region to net heterotrophic production in the temperate region.

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