Function of the Woeseiaceae in marine sediments

    Project: Research funding

    Project Details

    Abstract

    A fingernail-sized piece of sea sand harbors more than a billion microorganisms. Although of similar appearance these are evolutionary very different and can also have very different life strategies. This makes marine sediment one of the microbially most diverse ecosystems on Earth. Despite this enormous diversity Dr. Mussmann and his team could recently identify one of the first bacterial families that thrives in virtually every marine sediment, including tropical beaches and the barren deep sea. The so-called Woeseiaceae have just recently been described and named after the famous pioneer of molecular evolution, Carl Woese. These bacteria are tiny but account for more than 10 million cells in that piece of sea sand. Because of their ubiquity and their high cell numbers are expected to substantially impact element cycles in sediments worldwide. It is thus counterintuitive that the Woeseiaceae can hardly be grown and maintained in the laboratory to study their biology in detail. In this project Dr. Mussmann and his team aim at bypassing this obstacle and for the first time systematically study the function of Woeseiaceae in nature. They will use modern genetic tools, sequencing of DNA and RNA recovered from the seafloor, which promises unprecedented insights into the actual function of these bacteria in sediments from distinct sites worldwide. Using powerful computers they will search for genomic DNA pieces of the Woeseiaceae and put them together, just like a jigsaw puzzle. Reading and interpreting this DNA puzzle will tell, why these bacteria are so successful in marine sediment and what they live from. First results suggest that the Woeseiaceae live well on sugars and proteins, while breathing oxygen and CO2 - just like human beings. But Woeseiaceae are special: it appears that some thrive also on hydrogen, sulfur, nitrite and rusty iron. Particularly important could be their still unconfirmed potential to produce laughing gas (N2O), another strong greenhouse gas. Therefore, the scientists will test, how the Woeseiaceae contribute to the release of greenhouse gases, both CO2 and N2O. Intriguingly, some members of these versatile bacteria may also help in protecting the biosphere by detoxifying poisonous sulfur compounds and trapping CO2. However, at this stage these hypotheses are just “words in their DNA”. Hence, it is essential to test in the laboratory, whether the Woeseiaceae let actions follow these words. The experimental research conducted in this project will profoundly improve our understanding of the multiple functions of the cryptic Woeseiaceae. Detailed knowledge on their diverging activities in releasing and trapping greenhouse gasses helps to assess the effects that these bacteria have on marine element cycles and all life on Earth.
    StatusCurtailed
    Effective start/end date1/06/1830/11/22

    Keywords

    • marine sediment
    • bacteria
    • FISH
    • isotope
    • ecophysiology
    • metagenome