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In situ interactions between photosynthetic picoeukaryotes and bacterioplankton in the Atlantic Ocean: evidence for mixotrophy

In situ interactions between photosynthetic picoeukaryotes and bacterioplankton in the Atlantic Ocean: evidence for mixotrophy
In situ interactions between photosynthetic picoeukaryotes and bacterioplankton in the Atlantic Ocean: evidence for mixotrophy
Heterotrophic bacterioplankton, cyanobacteria and phototrophic picoeukaryotes (<?5??m in size) numerically dominate planktonic oceanic communities. While feeding on bacterioplankton is often attributed to aplastidic protists, recent evidence suggests that phototrophic picoeukaryotes could be important bacterivores. Here, we present direct visual evidence from the surface mixed layer of the Atlantic Ocean that bacterioplankton are internalized by phototrophic picoeukaryotes. In situ interactions of phototrophic picoeukaryotes and bacterioplankton (specifically Prochlorococcus cyanobacteria and the SAR11 clade) were investigated using a combination of flow cytometric cell sorting and dual tyramide signal amplification fluorescence in situ hybridization. Using this method, we observed plastidic Prymnesiophyceae and Chrysophyceae cells containing Prochlorococcus, and to a lesser extent SAR11 cells. These microscopic observations of in situ microbial trophic interactions demonstrate the frequency and likely selectivity of phototrophic picoeukaryote bacterivory in the surface mixed layer of both the North and South Atlantic subtropical gyres and adjacent equatorial region, broadening our views on the ecological role of the smallest oceanic plastidic protists.
1758-2229
835-840
Hartmann, Manuela
5b175765-fde7-40dc-bcd6-83248285ef86
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Scanlan, Dave J.
a65fd107-a314-4e42-b473-05f67a01accc
Lepère, Cécile
2ecd4e7f-f0b7-4bc3-8ea0-c842259d68fc
Hartmann, Manuela
5b175765-fde7-40dc-bcd6-83248285ef86
Zubkov, Mikhail V.
b1dfb3a0-bcff-430c-9031-358a22b50743
Scanlan, Dave J.
a65fd107-a314-4e42-b473-05f67a01accc
Lepère, Cécile
2ecd4e7f-f0b7-4bc3-8ea0-c842259d68fc

Hartmann, Manuela, Zubkov, Mikhail V., Scanlan, Dave J. and Lepère, Cécile (2013) In situ interactions between photosynthetic picoeukaryotes and bacterioplankton in the Atlantic Ocean: evidence for mixotrophy. Environmental Microbiology Reports, 5 (6), 835-840. (doi:10.1111/1758-2229.12084).

Record type: Article

Abstract

Heterotrophic bacterioplankton, cyanobacteria and phototrophic picoeukaryotes (<?5??m in size) numerically dominate planktonic oceanic communities. While feeding on bacterioplankton is often attributed to aplastidic protists, recent evidence suggests that phototrophic picoeukaryotes could be important bacterivores. Here, we present direct visual evidence from the surface mixed layer of the Atlantic Ocean that bacterioplankton are internalized by phototrophic picoeukaryotes. In situ interactions of phototrophic picoeukaryotes and bacterioplankton (specifically Prochlorococcus cyanobacteria and the SAR11 clade) were investigated using a combination of flow cytometric cell sorting and dual tyramide signal amplification fluorescence in situ hybridization. Using this method, we observed plastidic Prymnesiophyceae and Chrysophyceae cells containing Prochlorococcus, and to a lesser extent SAR11 cells. These microscopic observations of in situ microbial trophic interactions demonstrate the frequency and likely selectivity of phototrophic picoeukaryote bacterivory in the surface mixed layer of both the North and South Atlantic subtropical gyres and adjacent equatorial region, broadening our views on the ecological role of the smallest oceanic plastidic protists.

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Published date: December 2013
Organisations: Marine Biogeochemistry

Identifiers

Local EPrints ID: 360377
URI: http://eprints.soton.ac.uk/id/eprint/360377
DOI: doi:10.1111/1758-2229.12084
ISSN: 1758-2229
PURE UUID: e51ed9c5-a310-461c-aa2e-262b22bd17d9

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Date deposited: 05 Dec 2013 11:54
Last modified: 14 Mar 2024 15:36

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Contributors

Author: Manuela Hartmann
Author: Mikhail V. Zubkov
Author: Dave J. Scanlan
Author: Cécile Lepère

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