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#naturegeoscience — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #naturegeoscience, aggregated by home.social.

  1. "Marine scientists drilling into abyssal ocean floor sediments discovered thriving colonies of this new #methanogen species at depths previously thought to be biologically inactive. These extreme environments, characterized by crushing pressure and complete darkness, harbor #microbial communities that have evolved unique metabolic pathways. According to research published in #NatureGeoscience, these #DeepSea methanogens can survive in conditions that would kill most known life forms.

    "The discovery challenges everything scientists thought they knew about where life can exist in Earth’s oceans. These microbes don’t just survive in the deep ocean trenches, they’re actually flourishing and producing methane at industrial scales. Their metabolic processes operate entirely differently from surface-dwelling organisms, using chemical energy sources that most life forms can’t even process."

    Learn more:
    msn.com/en-us/weather/topstori

    #DeepSeaLife #AgriculturalRunoff #BigAg #OceansAreLife #OceanCurrents #OceanMethane

  2. "Marine scientists drilling into abyssal ocean floor sediments discovered thriving colonies of this new #methanogen species at depths previously thought to be biologically inactive. These extreme environments, characterized by crushing pressure and complete darkness, harbor #microbial communities that have evolved unique metabolic pathways. According to research published in #NatureGeoscience, these #DeepSea methanogens can survive in conditions that would kill most known life forms.

    "The discovery challenges everything scientists thought they knew about where life can exist in Earth’s oceans. These microbes don’t just survive in the deep ocean trenches, they’re actually flourishing and producing methane at industrial scales. Their metabolic processes operate entirely differently from surface-dwelling organisms, using chemical energy sources that most life forms can’t even process."

    Learn more:
    msn.com/en-us/weather/topstori

    #DeepSeaLife #AgriculturalRunoff #BigAg #OceansAreLife #OceanCurrents #OceanMethane

  3. "Marine scientists drilling into abyssal ocean floor sediments discovered thriving colonies of this new #methanogen species at depths previously thought to be biologically inactive. These extreme environments, characterized by crushing pressure and complete darkness, harbor #microbial communities that have evolved unique metabolic pathways. According to research published in #NatureGeoscience, these #DeepSea methanogens can survive in conditions that would kill most known life forms.

    "The discovery challenges everything scientists thought they knew about where life can exist in Earth’s oceans. These microbes don’t just survive in the deep ocean trenches, they’re actually flourishing and producing methane at industrial scales. Their metabolic processes operate entirely differently from surface-dwelling organisms, using chemical energy sources that most life forms can’t even process."

    Learn more:
    msn.com/en-us/weather/topstori

    #DeepSeaLife #AgriculturalRunoff #BigAg #OceansAreLife #OceanCurrents #OceanMethane

  4. "Marine scientists drilling into abyssal ocean floor sediments discovered thriving colonies of this new #methanogen species at depths previously thought to be biologically inactive. These extreme environments, characterized by crushing pressure and complete darkness, harbor #microbial communities that have evolved unique metabolic pathways. According to research published in #NatureGeoscience, these #DeepSea methanogens can survive in conditions that would kill most known life forms.

    "The discovery challenges everything scientists thought they knew about where life can exist in Earth’s oceans. These microbes don’t just survive in the deep ocean trenches, they’re actually flourishing and producing methane at industrial scales. Their metabolic processes operate entirely differently from surface-dwelling organisms, using chemical energy sources that most life forms can’t even process."

    Learn more:
    msn.com/en-us/weather/topstori

    #DeepSeaLife #AgriculturalRunoff #BigAg #OceansAreLife #OceanCurrents #OceanMethane

  5. "Marine scientists drilling into abyssal ocean floor sediments discovered thriving colonies of this new #methanogen species at depths previously thought to be biologically inactive. These extreme environments, characterized by crushing pressure and complete darkness, harbor #microbial communities that have evolved unique metabolic pathways. According to research published in #NatureGeoscience, these #DeepSea methanogens can survive in conditions that would kill most known life forms.

    "The discovery challenges everything scientists thought they knew about where life can exist in Earth’s oceans. These microbes don’t just survive in the deep ocean trenches, they’re actually flourishing and producing methane at industrial scales. Their metabolic processes operate entirely differently from surface-dwelling organisms, using chemical energy sources that most life forms can’t even process."

    Learn more:
    msn.com/en-us/weather/topstori

    #DeepSeaLife #AgriculturalRunoff #BigAg #OceansAreLife #OceanCurrents #OceanMethane

  6. #NatureGeoscience Past hydroclimate extremes in Europe driven by Atlantic jet stream and recurrent weather patterns nature.com/articles/s41561-025 #Nature #NewsViews How the Atlantic jet stream has changed in 600 years —and what it means for weather nature.com/articles/d41586-025

  7. 📢 Scientists have found a mysterious source of oxygen at the bottom of the Pacific Ocean, far from any sunlight needed for photosynthesis. This phenomenon, discovered in a region rich with polymetallic nodules, suggests an unknown energy source might be splitting water molecules to produce oxygen. nature.com/articles/d41586-024

    #ScienceNews #OceanDiscovery #MarineScience #NatureGeoscience #DeepSeaResearch #GoodNews

    @goodnews

  8. Man mag es angesichts des aktuellen Dauerregens kaum glauben. Doch im Jahresdurchschnitt ist die Luft in Europa immer trockener geworden. Ein internationales Forscherteam hat dazu Daten ausgewertet, die bis zu 400 Jahre in die Vergangenheit reichen.#HistorischeGeologie #Klimawandel #Trockenheiten #Lossau-Norbert #texttospeech #Europa #KerstinTreydte #NatureGeoscience #ApplePodcast #Alpe #Pyrenäen #Reise
    Trockenere Luft: Der Durst der Atmosphäre ist in den vergangenen Jahrzehnten gewachsen
  9. An analysis of tiny glass beads brought back from the lunar surface by China's Chang'e-5 mission opens up a potential new frontier for getting the water that might be needed for future #moon bases. cosmiclog.com/2023/03/27/glass #Space #NatureGeoscience #ChangE5