Background: Movile Cave (Mangalia, Romania) is a unique ecosystem where the food web is sustained by microbial primary production, analogous to deep-sea hydrothermal vents. Specifically, chemoautotrophic microbes deriving energy from the oxidation of hydrogen sulphide and methane form the basis of the food web.
Results: Here, we report the isolation of the first methane-oxidizing bacterium from the Movile Cave ecosystem, Candidatus Methylomonas sp. LWB, a new species and representative of Movile Cave microbial mat samples. While previous research has suggested a prevalence of anoxic conditions in deeper lake water and sediment, using small-scale shotgun metagenome sequencing, we show that metabolic genes encoding enzymes for aerobic methylotrophy are prevalent in sediment metagenomes possibly indicating the presence of microoxic conditions. Moreover, this study also indicates that members within the family Gallionellaceae (Sideroxydans and Gallionella) were the dominant taxa within the sediment microbial community, thus suggesting a major role for microaerophilic iron-oxidising bacteria in nutrient cycling within the Movile Cave sediments.
Conclusions: In this study, based on phylogenetic and metabolic gene surveys of metagenome sequences, the possibility of aerobic microbial processes (i.e., methylotrophy and iron oxidation) within the sediment is indicated. We also highlight significant gaps in our knowledge on biogeochemical cycles within the Movile Cave ecosystem, and the need to further investigate potential feedback mechanisms between microbial communities in both lake sediment and lake water.
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| http://dx.doi.org/10.1186/s40168-017-0383-2 | DOI Listing |
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Article Synopsis
- Movile Cave in SE Romania is a unique ecosystem that relies on hydrogen sulfide-rich groundwater, similar to deep-sea hydrothermal systems, and past research has mainly focused on the water and surface microbial mats.
- A study using advanced genomic techniques identified 106 high-quality genomes from cave sediments, uncovering diverse bacterial and archaeal communities, with key metabolic functions like carbon fixation and sulfur oxidation detected.
- Results indicate that the cave's primary production potential extends beyond the water, highlighting complex interactions and metabolic exchanges among microbes in sediment environments.
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