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#extremeenvironments — Public Fediverse posts

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

  1. Venus’ acidic clouds might not be as hostile as they seem. New research shows nucleic acid bases—key building blocks of life—can remain stable in concentrated sulfuric acid. This discovery fuels the idea that Venus’ cloud layers could harbor life, defying the odds in extreme environments.

    #LifeOnVenus #Astrobiology #ExtremeEnvironments

    pnas.org/doi/pdf/10.1073/pnas.

  2. Venus’ acidic clouds might not be as hostile as they seem. New research shows nucleic acid bases—key building blocks of life—can remain stable in concentrated sulfuric acid. This discovery fuels the idea that Venus’ cloud layers could harbor life, defying the odds in extreme environments.

    #LifeOnVenus #Astrobiology #ExtremeEnvironments

    pnas.org/doi/pdf/10.1073/pnas.

  3. Venus’ acidic clouds might not be as hostile as they seem. New research shows nucleic acid bases—key building blocks of life—can remain stable in concentrated sulfuric acid. This discovery fuels the idea that Venus’ cloud layers could harbor life, defying the odds in extreme environments.

    #LifeOnVenus #Astrobiology #ExtremeEnvironments

    pnas.org/doi/pdf/10.1073/pnas.

  4. Venus’ acidic clouds might not be as hostile as they seem. New research shows nucleic acid bases—key building blocks of life—can remain stable in concentrated sulfuric acid. This discovery fuels the idea that Venus’ cloud layers could harbor life, defying the odds in extreme environments.

    #LifeOnVenus #Astrobiology #ExtremeEnvironments

    pnas.org/doi/pdf/10.1073/pnas.

  5. Venus’ acidic clouds might not be as hostile as they seem. New research shows nucleic acid bases—key building blocks of life—can remain stable in concentrated sulfuric acid. This discovery fuels the idea that Venus’ cloud layers could harbor life, defying the odds in extreme environments.

    #LifeOnVenus #Astrobiology #ExtremeEnvironments

    pnas.org/doi/pdf/10.1073/pnas.

  6. How did #eukaryotes evolve for extreme temps? futurity.org/high-temp-eukaryo #protists

    #ExtremeEnvironments offer an unprecedented opportunity to understand #microbial #eukaryotic #ecology, #evolution, and #genome #biology: Hannah Rappaport & Angela Oliverio nature.com/articles/s41467-023

    “several lineages of #amoebae were often recovered from extremely high temperature environments. Studying those lineages may yield great insight into how eukaryotic cells can adapt to life in extremely hot environments.”

  7. How did #eukaryotes evolve for extreme temps? futurity.org/high-temp-eukaryo #protists

    #ExtremeEnvironments offer an unprecedented opportunity to understand #microbial #eukaryotic #ecology, #evolution, and #genome #biology: Hannah Rappaport & Angela Oliverio nature.com/articles/s41467-023

    “several lineages of #amoebae were often recovered from extremely high temperature environments. Studying those lineages may yield great insight into how eukaryotic cells can adapt to life in extremely hot environments.”

  8. How did #eukaryotes evolve for extreme temps? futurity.org/high-temp-eukaryo #protists

    #ExtremeEnvironments offer an unprecedented opportunity to understand #microbial #eukaryotic #ecology, #evolution, and #genome #biology: Hannah Rappaport & Angela Oliverio nature.com/articles/s41467-023

    “several lineages of #amoebae were often recovered from extremely high temperature environments. Studying those lineages may yield great insight into how eukaryotic cells can adapt to life in extremely hot environments.”

  9. How did #eukaryotes evolve for extreme temps? futurity.org/high-temp-eukaryo #protists

    #ExtremeEnvironments offer an unprecedented opportunity to understand #microbial #eukaryotic #ecology, #evolution, and #genome #biology: Hannah Rappaport & Angela Oliverio nature.com/articles/s41467-023

    “several lineages of #amoebae were often recovered from extremely high temperature environments. Studying those lineages may yield great insight into how eukaryotic cells can adapt to life in extremely hot environments.”

  10. How did #eukaryotes evolve for extreme temps? futurity.org/high-temp-eukaryo #protists

    #ExtremeEnvironments offer an unprecedented opportunity to understand #microbial #eukaryotic #ecology, #evolution, and #genome #biology: Hannah Rappaport & Angela Oliverio nature.com/articles/s41467-023

    “several lineages of #amoebae were often recovered from extremely high temperature environments. Studying those lineages may yield great insight into how eukaryotic cells can adapt to life in extremely hot environments.”

  11. This is my #introduction post. My name is Melvin Marsh. I am a #researcher some of research includes #space #psychology #stress in #extremeenvironments (#polar #spaceanalog), stress reduction techniques such as #hypnosis. I also work in #publichealth as an #EMT. I have also been a #filmmaker, #director and worked in #radio, #television, #film, #theater. Further, I am #jewish, #actuallyautistic, #transgender and not to be a stereotype. I love #StarTrek, #reading, #writing.

  12. This is my #introduction post. My name is Melvin Marsh. I am a #researcher some of research includes #space #psychology #stress in #extremeenvironments (#polar #spaceanalog), stress reduction techniques such as #hypnosis. I also work in #publichealth as an #EMT. I have also been a #filmmaker, #director and worked in #radio, #television, #film, #theater. Further, I am #jewish, #actuallyautistic, #transgender and not to be a stereotype. I love #StarTrek, #reading, #writing.