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11.05.2017 09:44

Small-space niche formation at hydrothermal vents

Dr. Fanni Aspetsberger Presse- und Öffentlichkeitsarbeit
Max-Planck-Institut für marine Mikrobiologie

    From burning hot to ice cold, from energy-rich to an exhausted desert - environmental conditions at deep-sea hot vents change dramatically at very small scales. Nevertheless, resident bacteria know exactly what they like best. Each one has their own ecological niche.

    Organisms inhabiting deep-sea hydrothermal vents face quite some challenges.

    At such vents, water heated in the Earth’s interior exits the seafloor at temperatures of more than 300 degrees Celsius. These high temperatures become possible due to enormous pressure in the deep sea, which increases the boiling point of the water. Moreover, not the smallest sparkle of sunlight reaches these depths. Thus, the conversion of carbon dioxide into biomass through photosynthesis, as done by plants, is impossible. Other sources of energy are required. Microorganisms in the deep sea therefore use chemical compounds such as methane or sulfide, which stream from the hot vents, to grow. This way, they form the basis of the local food chain.

    In this extreme habitat, the living conditions for the local fauna change drastically at very small scales. After emergence, the hot vent water mixes with the surrounding, four degrees cold seawater and rapidly cools. The same applies to the content of, for example, sulfide: Just a few centimetres from the vent opening, concentrations diminish to only a fraction of their original magnitude.

    How do the resident microorganisms manage to adapt to such a small-scale environment? Are there ecological niches, as we know them from other habitats? The biologist Dimitri Meier and colleagues from the Max Planck Institute for Marine Microbiology in Bremen, together with marine researchers from MARUM in Bremen and Harvard University in Cambridge, USA, are investigating these questions in a new publication in The ISME Journal.

    Who lives where is clearly regulated

    On a research cruise to hydrothermal vents in the Manus Basin off Papua New Guinea, the researchers collected gas and water samples as well as samples of different surfaces in the immediate vicinity of the vents. In the laboratory in Bremen, they then examined the microorganisms living there. The examination showed that “who lives where” at the hot vents is clearly defined.

    "Hydrothermal vents around the world are mainly populated by two groups of bacteria", explains Meier. "The so-called SUP05 gammaproteobacteria and epsilonproteobacteria of the genera Sulfurovum and Sulfurimonas. We found clear evidence that the widespread SUP05 bacteria are adapted to low sulfide concentrations. The epsilonproteobacteria, on the other hand, live much closer to the vent opening at much higher sulfide values."
    The epsilonproteobacteria have some special skills to live in this infernal high-energy habitat. "Our analyses of their genes revealed that they possess enhanced surface attachment and stress resistance mechanisms", says Meier. "The SUP05 bacteria lack these capabilities and thus cannot hold themselves in turbulent and toxic mixing areas."

    New insights into species formation in microorganisms

    The study also sheds a new light on species formation in microorganisms. The researchers found evidence that a bacterial group can diversify into many different genera and species if it is exposed to environmental conditions varying strongly at very small scales. The SUP05 bacteria occurring in constantly cold and meagre conditions were represented by few, very closely related species. Within the epsilonproteobacteria, on the other hand, there was a very high diversity of species. This diversity, however, does not mean that the different species also take on different functions in their habitat. The genetic make-up of the various species was comparable.

    Yet, one thing stood out, the researchers report: Certain key genes encoding the sulfur oxidation were as diverse as the marker genes used for species identification. "Apparently, there are a lot of different types of epsilonproteobacteria that all oxidise sulfide and bind carbon dioxide, but have specialised on very specific conditions, such as different sulfide concentrations," says Meier. "That is what we want to investigate next."

    Original publication
    Dimitri V. Meier, Petra Pjevac, Wolfgang Bach, Stephane Hourdez, Peter R Girguis, Charles Vidoudez, Rudolf Amann and Anke Meyerdierks (2017): Niche partitioning of diverse sulfur-oxidizing bacteria at hydrothermal vents. ISME Journal.
    doi:10.1038/ismej.2017.37
    Link: https://www.nature.com/ismej/journal/vaop/ncurrent/pdf/ismej201737a.pdf


    Please direct your queries to

    Dr. Dimitri Meier
    MPI für Marine Mikrobiologie
    Telefon: +49 421 2028 942
    dmeier@mpi-bremen.de

    or the press office

    Dr. Fanni Aspetsberger
    Phone: +49 421 2028 947

    Dr. Manfred Schlösser
    Phone: +49 421 2028 704

    E-Mail: presse@mpi-bremen.de


    Weitere Informationen:

    http://mpi-bremen.de


    Bilder

    Sampling sites. By dint of ROV Quest, Meier and his colleagues sampled fluids and water as well as  different surfaces at hydrothermal vents in the Manus Basin.
    Sampling sites. By dint of ROV Quest, Meier and his colleagues sampled fluids and water as well as ...
    MARUM – Center for Marine Environmental Sciences, University of Bremen
    None


    Merkmale dieser Pressemitteilung:
    Journalisten
    Biologie, Geowissenschaften, Meer / Klima, Umwelt / Ökologie
    überregional
    Forschungsergebnisse, Wissenschaftliche Publikationen
    Englisch


     

    Sampling sites. By dint of ROV Quest, Meier and his colleagues sampled fluids and water as well as different surfaces at hydrothermal vents in the Manus Basin.


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