Abstract
AbstractMarine heterotrophic flagellates (HFs) form a diverse and ecologically relevant functional group of bacterial grazers and nutrient remineralizers in oceanic waters. Despite playing a crucial role in marine biogeochemical cycles, there is still a lack of information on which specific taxa dominate HF assemblages and what are their patterns of distribution in a global context. In the present work, we addressed this issue by analyzing amplicon sequencing data sets retrieved from samples taken in tropical and subtropical oceanic regions at depths from surface to 4000 m. Only a few dozens of widespread taxa, mostly affiliating to MAST clades, Picozoa, Bicosoecida and Chrysophyceae, seemed to dominate surface HF assemblages. The majority of these dominant HFs were present at relatively constant abundances, while others were influenced by temperature or displayed a patchy distribution. In the deep ocean, only a handful of taxa belonging to Bicosoecida and Chrysophyceae, together with Diplonemea and Kinetoplastida, explained most of the HF signal. Co‐occurrence networks between HF and prokaryotic taxa at the surface ocean revealed two main clusters influenced by temperature that did not seem to show specific patterns of interaction. However, some correlations emerged outside these thermal groups that could represent new prey–predator interactions. Overall, we identified the putatively most ecologically relevant HF taxa in the ocean, which become promising targets for further experimental and genomic studies.
Highlights
Marine heterotrophic flagellates (HFs) are minute unpigmented eukaryotes (2–20 μm in size) that are found in the plankton at concentrations of 102–104 cells mLÀ1
HF assemblages have been usually treated as a black box in terms of their ecological activity in marine ecosystems, ignoring they are formed by species with distinct ecophysiologies
Regarding Shannon estimates of alpha diversity based on HF amplicon sequence variants (ASVs), there was a clear decreasing trend with depth, with very different Shannon values at surface and the bathypelagic (Fig. 1B)
Summary
Marine heterotrophic flagellates (HFs) are minute unpigmented eukaryotes (2–20 μm in size) that are found in the plankton at concentrations of 102–104 cells mLÀ1 They represent around 20% of total eukaryotic organisms in the photic zone of the oceans (Jürgens and Massana 2008). The first molecular diversity surveys of marine protists, including HFs, cloned and sequenced the 18S ribosomal DNA gene as a phylogenetic marker (Diez et al 2001; Lopez-García et al 2001; Moon-Van Der Staay et al 2001; Edgcomb et al 2002) These revealed a large taxonomic diversity in natural assemblages and allowed new uncultured lineages to be described An equivalent study targeting the taxonomically heterogeneous HF assemblages in the water column of the oceans is still missing
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