The effect of hydrostatic de- and re-compression events on deep-sea bacterial communities

This work focuses on the effect of decompression on bacterial communities from deep-sea surface sediments. We evaluated the effects of slow and fast decompression (within hours and seconds, respectively), and repeated de-re-compression (up to 10 times) on the abundance and extracellular enzymatic ac...

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Bibliographic Details
Main Authors: Hoffmann, Katy, Hassenrück, Christiane, Bienhold, Christina
Format: Dataset
Language:English
Published: PANGAEA
Subjects:
ABYSS
Accession number
genetics
ARK-XXIX/2.2
Assessment of bacterial life and matter cycling in deep-sea surface sediments
beta-glucosidase activity
Cell counts
standard deviation
Chitobiase activity
Date/Time of event
Depth
bottom/max
sediment/rock
top/min
Description
Environmental feature
Event label
Incubation duration
Latitude of event
Longitude of event
North Greenland Sea
Polarstern
Pressure
Prokaryotes
abundance as single cells
PS93/052-1
PS93/081-1
PS93.2
Remote operated vehicle
Replicates
ROV
Sample type
Station label
Treatment
Greenland
Greenland Sea
North Greenland
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.874784
Description
Summary:This work focuses on the effect of decompression on bacterial communities from deep-sea surface sediments. We evaluated the effects of slow and fast decompression (within hours and seconds, respectively), and repeated de-re-compression (up to 10 times) on the abundance and extracellular enzymatic activity of bacterial communities as well as their taxonomic composition using next generation sequencing of the 16S rRNA and rRNA gene. Decompression due to sample retrieval from the seafloor with a push corer or a pressure corer showed minor effects on bacterial cell numbers and enzymatic activity patterns. It however showed an initial effect on bacterial activity patterns based on 16S rRNA (cDNA) community analysis. This signal vanished during a few hours standing at atmospheric pressure. The results reported here may be useful to provide ideas for future research as to how bacterial communities react to the procedure of sample retrieval from a high pressure environment.

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