Ecological Traits of the Algae-Bearing Tetrahymena utriculariae (Ciliophora) from Traps of the Aquatic Carnivorous Plant Utricularia reflexa
Language English Country United States Media print-electronic
Document type Journal Article, Research Support, Non-U.S. Gov't
PubMed
27613086
DOI
10.1111/jeu.12368
Knihovny.cz E-resources
- Keywords
- Aquatic Utricularia, bacterial turnover rate, ciliate bacterivory and mixotrophy, microbial interactions, trap fluid,
- MeSH
- Anaerobiosis MeSH
- Bacteria MeSH
- Biomass MeSH
- Chlorophyta MeSH
- Ciliophora physiology MeSH
- Ecology * MeSH
- Hydrogen-Ion Concentration MeSH
- Magnoliopsida chemistry growth & development microbiology parasitology MeSH
- Microbial Consortia MeSH
- Life Cycle Stages MeSH
- Symbiosis physiology MeSH
- Tetrahymena growth & development physiology MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
Trap fluid of aquatic carnivorous plants of the genus Utricularia hosts specific microbiomes consisting of commensal pro- and eukaryotes of largely unknown ecology. We examined the characteristics and dynamics of bacteria and the three dominant eukaryotes, i.e. the algae-bearing ciliate Tetrahymena utriculariae (Ciliophora), a green flagellate Euglena agilis (Euglenophyta), and the alga Scenedesmus alternans (Chlorophyta), associated with the traps of Utricularia reflexa. Our study focused on ecological traits and life strategies of the highly abundant ciliate whose biomass by far exceeds that of other eukaryotes and bacteria independent of the trap age. The ciliate was the only bacterivore in the traps, driving rapid turnover of bacterial standing stock. However, given the large size of the ciliate and the cell-specific uptake rates of bacteria we estimated that bacterivory alone would likely be insufficient to support its apparent rapid growth in traps. We suggest that mixotrophy based on algal symbionts contributes significantly to the diet and survival strategy of the ciliate in the extreme (anaerobic, low pH) trap-fluid environment. We propose a revised concept of major microbial interactions in the trap fluid where ciliate bacterivory plays a central role in regeneration of nutrients bound in rapidly growing bacterial biomass.
Faculty of Science University of South Bohemia Branišovská 31 České Budějovice 370 05 Czech Republic
Institute of Botany CAS Section of Plant Ecology Třeboň 379 82 Czech Republic
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