Microzooplankton diversity and potential role in carbon cycling of contrasting Southern Ocean productivity regimes

Microzooplankton play an important role in aquatic food webs through their multiple interactions with other organisms and their impact on carbon export. They are major predators of phytoplankton and bacteria while being preyed on by higher trophic levels. Microzooplankton diversity (Dinoflagellates,...

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Bibliographic Details
Published in:Journal of marine systems 2021-07, Vol.219, p.103531, Article 103531
Main Authors: Christaki, Urania, Skouroliakou, Ioli-Dimitra, Delegrange, Alice, Irion, Solène, Courcot, Lucie, Jardillier, Ludwig, Sassenhagen, Ingrid
Format: Article
Language:English
Subjects:
Ciliates
Dilution experiments
Dinoflagellates
Diversity
Life Sciences
Metabarcoding
Microscopy
Microzooplankton
Southern Ocean
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Summary:Microzooplankton play an important role in aquatic food webs through their multiple interactions with other organisms and their impact on carbon export. They are major predators of phytoplankton and bacteria while being preyed on by higher trophic levels. Microzooplankton diversity (Dinoflagellates, DIN and Ciliates, CIL), community structure, interaction with phytoplankton and its potential in channeling carbon to higher trophic levels were studied in contrasting productivity regimes (off- and on-plateau, the latter been naturally fertilized by iron) around the Kerguelen islands in the Southern Ocean (SO). DIN and CIL diversity was sampled in late summer (February–March 2018; project MOBYDICK) and at the onset-of the bloom (KEOPS2 cruise), and assessed by Illumina sequencing of 18S rDNA amplicons and microscopic observations. The diversity obtained by the two approaches could be compared at a relatively high taxonomic level (i.e., often to family level). In particular for DIN, relative abundances and ranking of dominant taxa differed between sequencing and microscopy observations. CIL were always recorded at considerably lower abundances than DIN, the median of their abundances across stations and seasons being 350 and 1370 cells L−1, respectively. During late summer, DIN and CIL biomasses were about 1.5 times higher on- than in off-plateau waters, while community composition was spatially similar. The most abundant DIN at all stations and during both seasons were small Gymnodinium (
ISSN:0924-7963
1879-1573
1879-1573
DOI:10.1016/j.jmarsys.2021.103531