Increasing Hydrostatic Pressure Impacts the Prokaryotic Diversity during Emiliania huxleyi Aggregates Degradation

International audience In the dark ocean, the balance between the heterotrophic carbon demand and the supply of sinking carbon through the biological carbon pump remains poorly constrained. In situ tracking of the dynamics of microbial degradation processes occurring on the gravitational sinking par...

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Bibliographic Details
Published in:Water
Main Authors: TAMBURINI, Christian, GAREL, Marc, Barani, Aude, Boeuf, Dominique, Bonin, Patricia, Bhairy, Nagib, Guasco, Sophie, Jacquet, Stéphanie, Le Moigne, Frédéric A.C., PANAGIOTOPOULOS, Christos, Riou, Virginie, Veloso, Sandrine, Santinelli, Chiara, Armougom, Fabrice
Other Authors: Institut méditerranéen d'océanologie (MIO), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université de Toulon (UTLN), Laboratoire de Biodiversité et Biotechnologies Microbiennes (LBBM), PIERRE FABRE-EDF (EDF)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Observatoire océanologique de Banyuls (OOB), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), CNR Istituto di Biofisica Pisa (IBF), Consiglio Nazionale delle Ricerche Pisa (CNR PISA)
Format: Article in Journal/Newspaper
Language:English
Published: HAL CCSD 2021
Subjects:
[SDU.STU.OC]Sciences of the Universe [physics]/Earth Sciences/Oceanography
[SDE.MCG]Environmental Sciences/Global Changes
[SDE.BE]Environmental Sciences/Biodiversity and Ecology
[SDU.OCEAN]Sciences of the Universe [physics]/Ocean
Atmosphere
North Atlantic
Online Access:https://hal.archives-ouvertes.fr/hal-03356668
https://hal.archives-ouvertes.fr/hal-03356668/document
https://hal.archives-ouvertes.fr/hal-03356668/file/water-13-02616-v2.pdf
https://doi.org/10.3390/w13192616
Description
Summary:International audience In the dark ocean, the balance between the heterotrophic carbon demand and the supply of sinking carbon through the biological carbon pump remains poorly constrained. In situ tracking of the dynamics of microbial degradation processes occurring on the gravitational sinking particles is still challenging. Our particle sinking simulator system (PASS) intends to mimic as closely as possible the in situ variations in pressure and temperature experienced by gravitational sinking particles. Here, we used the PASS to simultaneously track geochemical and microbial changes that occurred during the sinking through the mesopelagic zone of laboratory-grown Emiliania huxleyi aggregates amended by a natural microbial community sampled at 105 m depth in the North Atlantic Ocean. The impact of pressure on the prokaryotic degradation of POC and dissolution of E. huxleyi-derived calcite was not marked compared to atmospheric pressure. In contrast, using global O2 consumption monitored in real-time inside the high-pressure bottles using planar optodes via a sapphire window, a reduction of respiration rate was recorded in surface-originated community assemblages under increasing pressure conditions. Moreover, using a 16S rRNA metabarcoding survey, we demonstrated a drastic difference in transcriptionally active prokaryotes associated with particles, incubated either at atmospheric pressure or under linearly increasing hydrostatic pressure conditions. The increase in hydrostatic pressure reduced both the phylogenetic diversity and the species richness. The incubation at atmospheric pressure, however, promoted an opportunistic community of “fast” degraders from the surface (Saccharospirillaceae, Hyphomonadaceae, and Pseudoalteromonadaceae), known to be associated with surface phytoplankton blooms. In contrast, the incubation under increasing pressure condition incubations revealed an increase in the particle colonizer families Flavobacteriaceae and Rhodobacteraceae, and also Colwelliaceae, which are known to ...

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