Functional diversity of microbial eukaryotes in a meromictic lake: Coupling between metatranscriptomic and a trait‐based approach

The advent of high‐throughput sequencing has led to the discovery of a considerable diversity of microbial eukaryotes in aquatic ecosystems, nevertheless, their function and contribution to the trophic food web functioning remain poorly characterized especially in freshwater ecosystems. Based on met...

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Bibliographic Details
Published in:Environmental microbiology 2023-12, Vol.25 (12), p.3406-3422
Main Authors: Monjot, Arthur, Bronner, Gisèle, Courtine, Damien, Cruaud, Corinne, Da Silva, Corinne, Aury, Jean‐Marc, Gavory, Frederick, Moné, Anne, Vellet, Agnès, Wawrzyniak, Ivan, Colombet, Jonathan, Billard, Hermine, Debroas, Didier, Lepère, Cécile
Format: Article
Language:English
Subjects:
Aquatic ecosystems
Biodiversity and Ecology
Ecosystem
Ecosystems
Endocytosis
Environmental Sciences
Eukaryota
Eukaryotes
Food Chain
Food chains
Food webs
Freshwater
Freshwater ecosystems
Functional groups
Fungi
Fungi - genetics
Gene expression
Genes
Inland water environment
Lakes - microbiology
Life Sciences
Meromictic lakes
Metabolism
Microbiology and Parasitology
Microorganisms
Mixolimnion
Monimolimnion
Organic matter
Parasites
Particulate organic matter
Photosynthesis
Phototaxis
Phytoplankton
Seasonal variation
Seasonal variations
Sulfur
Sulphur
Water mixing
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Summary:The advent of high‐throughput sequencing has led to the discovery of a considerable diversity of microbial eukaryotes in aquatic ecosystems, nevertheless, their function and contribution to the trophic food web functioning remain poorly characterized especially in freshwater ecosystems. Based on metabarcoding data obtained from a meromictic lake ecosystem (Pavin, France), we performed a morpho‐physio‐phenological traits‐based approach to infer functional groups of microbial eukaryotes. Metatranscriptomic data were also analysed to assess the metabolic potential of these groups across the diel cycle, size fraction, sampling depth, and periods. Our analysis highlights a huge microbial eukaryotic diversity in the monimolimnion characterized by numerous saprotrophs expressing transcripts related to sulfur and nitrate metabolism as well as dissolved and particulate organic matter degradation. We also describe strong seasonal variations of microbial eukaryotes in the mixolimnion, especially for parasites and mixoplankton. It appears that the water mixing (occurring during spring and autumn) which benefits photosynthetic host communities also promotes parasitic fungi dissemination and over‐expression of genes involved in the zoospore phototaxis and stage transition in the parasitic cycle. Mixoplanktonic haptophytes over‐expressing photosynthesis‐, endocytosis‐ and phagosome‐linked genes under nutrient limitation also suggest that phagotrophy may provide them an advantage over non‐phagotrophic phytoplankton. Functional diversity of understudied freshwater microbial eukaryotes was investigated with an original approach which couples a trait‐based methodology and a metatranscriptomic analysis. Expressed functions and ecological strategies of microbial eukaryotes were studied for the first time in relation to oxygen presence/absence, periods and size fractions in a model meromictic lake.
ISSN:1462-2912
1462-2920
DOI:10.1111/1462-2920.16531