Vertical structure of small eukaryotes in three lakes that differ by their trophic status: a quantitative approach

Lepère, Cécile; Masquelier, Sylvie; Mangot, Jean‐François; Debroas, Didier; Domaizon, Isabelle

doi:10.1038/ismej.2010.83

Cited by 56 publications

(51 citation statements)

References 66 publications

(97 reference statements)

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“…The depth profiles of ammonium concentration were comparable for both Ursu and Fara Fund lakes, and similar to the ones described in other stratified lakes (Auguet et al, 2012;La Cono et al, 2013;Yau et al, 2013). The vertical profiles of nutrients (sulfate, sulfide, nitrite, nitrate and phosphate) were found to be a result of sedimentation, biogeochemical cycling or conservative mixing (Pasche et al, 2009), and were also comparable with those found in other studied lakes (Lepère et al, 2010;La Cono et al, 2013;Marteinsson et al, 2013).…”

Section: Water Chemistrysupporting

confidence: 68%

Contrasting taxonomic stratification of microbial communities in two hypersaline meromictic lakes

et al. 2015

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Hypersaline meromictic lakes are extreme environments in which water stratification is associated with powerful physicochemical gradients and high salt concentrations. Furthermore, their physical stability coupled with vertical water column partitioning makes them important research model systems in microbial niche differentiation and biogeochemical cycling. Here, we compare the prokaryotic assemblages from Ursu and Fara Fund hypersaline meromictic lakes (Transylvanian Basin, Romania) in relation to their limnological factors and infer their role in elemental cycling by matching taxa to known taxon-specific biogeochemical functions. To assess the composition and structure of prokaryotic communities and the environmental factors that structure them, deepcoverage small subunit (SSU) ribosomal RNA (rDNA) amplicon sequencing, community domainspecific quantitative PCR and physicochemical analyses were performed on samples collected along depth profiles. The analyses showed that the lakes harbored multiple and diverse prokaryotic communities whose distribution mirrored the water stratification patterns. Ursu Lake was found to be dominated by Bacteria and to have a greater prokaryotic diversity than Fara Fund Lake that harbored an increased cell density and was populated mostly by Archaea within oxic strata. In spite of their contrasting diversity, the microbial populations indigenous to each lake pointed to similar physiological functions within carbon degradation and sulfate reduction. Furthermore, the taxonomy results coupled with methane detection and its stable C isotope composition indicated the presence of a yet-undescribed methanogenic group in the lakes' hypersaline monimolimnion. In addition, ultrasmall uncultivated archaeal lineages were detected in the chemocline of Fara Fund Lake, where the recently proposed Nanohaloarchaeota phylum was found to thrive.

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Section: Water Chemistrysupporting

confidence: 68%

Contrasting taxonomic stratification of microbial communities in two hypersaline meromictic lakes

et al. 2015

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“…In contrast, the study of microalgae within natural and engineered freshwater systems using molecular biology techniques is in its infancy. A few studies have been carried out on photoautotrophic picoplankton communities from lakes using fluorescence in situ hybridisation (FISH) (Lepere et al, 2010) and clone libraries, based on the 18S rRNA gene (See et al, 2005;Lefranc et al, 2005), though the majority of freshwater studies focus on cyanobacteria (Zwart et al, 2005;Ye et al, 2011). Very few studies have used molecular approaches to study microalgal communities in wastewater treatment.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of DNA extraction methods for freshwater eukaryotic microalgae

2012

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“…The few studies that have investigated lake or pond sediments reported Chytridiomycota and Rozellomycota (at that time referred to as LKM11 & LKM15) to be the dominant fungal phyla (Luo et al 2005;Slapeta et al 2005). Rozellomycota species appear to occur in the hypolimnion of lakes (Lepère et al 2010) and also in anoxic habitats (Jones et al 2011), but their ecological function remains unclear . Similarly enigmatic was the appearance of Zygomycota (Mortierella) at the sediment surface in our study.…”

Section: Sedimentmentioning

confidence: 99%

“…Zhao et al 2011;Lefèvre et al 2012;Taib et al 2013). Several studies have found evidence for vertical and horizontal structuring of fungal communities in the water column (Lefèvre et al 2007;Chen et al 2008; Lepère et al 2010), suggesting that there is an important spatial component of diversity. A recent meta-analysis of global diversity found that aquatic fungi clustered in habitat-specific biomes, with freshwater biomes having the highest diversity at the phylum level (Panzer et al 2015).…”

Section: Introductionmentioning

confidence: 99%

High habitat-specificity in fungal communities in oligo-mesotrophic, temperate Lake Stechlin (North-East Germany)

Wurzbacher¹,

Warthmann²,

Bourne³

et al. 2016

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Freshwater fungi are a poorly studied ecological group that includes a high taxonomic diversity. Most studies on aquatic fungal diversity have focused on single habitats, thus the linkage between habitat heterogeneity and fungal diversity remains largely unexplored. We took 216 samples from 54 locations representing eight different habitats in the meso-oligotrophic, temperate Lake Stechlin in North-East Germany. These included the pelagic and littoral water column, sediments, and biotic substrates. We performed high throughput sequencing using the Roche 454 platform, employing a universal eukaryotic marker region within the large ribosomal subunit (LSU) to compare fungal diversity, community structure, and species turnover among habitats. Our analysis recovered 1027 fungal OTUs (97% sequence similarity). Richness estimates were highest in the sediment, biofilms, and benthic samples (189-231 OTUs), intermediate in water samples (42-85 OTUs), and lowest in plankton samples (8 OTUs). NMDS grouped the eight studied habitats into six clusters, indicating that community composition was strongly influenced RESEARCH ARTICLEChristian Wurzbacher et al. / MycoKeys 16: 17-44 (2016) 18 by turnover among habitats. Fungal communities exhibited changes at the phylum and order levels along three different substrate categories from littoral to pelagic habitats. The large majority of OTUs (> 75%) could not be classified below the order level due to the lack of aquatic fungal entries in public sequence databases. Our study provides a first estimate of lake-wide fungal diversity and highlights the important contribution of habitat heterogeneity to overall diversity and community composition. Habitat diversity should be considered in any sampling strategy aiming to assess the fungal diversity of a water body.

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Vertical structure of small eukaryotes in three lakes that differ by their trophic status: a quantitative approach

Cited by 56 publications

References 66 publications

Contrasting taxonomic stratification of microbial communities in two hypersaline meromictic lakes

Contrasting taxonomic stratification of microbial communities in two hypersaline meromictic lakes

Evaluation of DNA extraction methods for freshwater eukaryotic microalgae

High habitat-specificity in fungal communities in oligo-mesotrophic, temperate Lake Stechlin (North-East Germany)

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