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#microbialdiversity — Public Fediverse posts

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

  1. The significant decrease in soil #CO2Emissions with increasing #SoilDepth in old-growth #SubtropicalForests is primarily due to diminished microbial activity and reduced availability of substrates in deeper layers.

    #SoilProperties | #MicrobialDiversity

    doi.org/10.1093/jpe/rtaf175

  2. Nitrogen deposition ➡️ #Home_fieldAdvantage (HFA) effect

    Results:
    1️⃣ N addition tended to weaken the HFA effect.
    2️⃣ Soil acidification driven by N inputs indirectly reduces HFA through altering bacterial communities.

    #CarbonCycling | #LitterDecomposition | #MicrobialCommunityComposition | #MicrobialDiversity

    doi.org/10.1093/jpe/rtaf089

  3. What is the role of extracellular polymeric substances (EPS) in carbon exchange among microbial species? This study shows that #EPS, formed via #chitin degradation, drives #MicrobialDiversity by acting as a sequentially degraded #CarbonSource @PLOSBiology plos.io/3J9kbuu

  4. What is the role of extracellular polymeric substances (EPS) in carbon exchange among microbial species? This study shows that #EPS, formed via #chitin degradation, drives #MicrobialDiversity by acting as a sequentially degraded #CarbonSource @PLOSBiology plos.io/3J9kbuu

  5. What is the role of extracellular polymeric substances (EPS) in carbon exchange among microbial species? This study shows that #EPS, formed via #chitin degradation, drives #MicrobialDiversity by acting as a sequentially degraded #CarbonSource @PLOSBiology plos.io/3J9kbuu

  6. What is the role of extracellular polymeric substances (EPS) in carbon exchange among microbial species? This study shows that #EPS, formed via #chitin degradation, drives #MicrobialDiversity by acting as a sequentially degraded #CarbonSource @PLOSBiology plos.io/3J9kbuu

  7. What is the role of extracellular polymeric substances (EPS) in carbon exchange among microbial species? This study shows that #EPS, formed via #chitin degradation, drives #MicrobialDiversity by acting as a sequentially degraded #CarbonSource @PLOSBiology plos.io/3J9kbuu

  8. 👏🥳🎉🍾🥂2 GREAT achievements by Elisa Gemassmer: MSc defence AND start as PhD student @Mol_Ecol
    @uniinnsbruck

    Congrats to you, MSc Elisa, & thanks to examiners Barbara Tartarotti-Alfreider, Thomas Klammsteiner, and Birgit Sattler!

    #blacksoldierfly #microbialdiversity
    #womeninSTEM @fromwastetofeed

  9. 👏🥳🎉🍾🥂2 GREAT achievements by Elisa Gemassmer: MSc defence AND start as PhD student @Mol_Ecol
    @uniinnsbruck

    Congrats to you, MSc Elisa, & thanks to examiners Barbara Tartarotti-Alfreider, Thomas Klammsteiner, and Birgit Sattler!

    #blacksoldierfly #microbialdiversity
    #womeninSTEM @fromwastetofeed

  10. 👏🥳🎉🍾🥂2 GREAT achievements by Elisa Gemassmer: MSc defence AND start as PhD student @Mol_Ecol
    @uniinnsbruck

    Congrats to you, MSc Elisa, & thanks to examiners Barbara Tartarotti-Alfreider, Thomas Klammsteiner, and Birgit Sattler!

    #blacksoldierfly #microbialdiversity
    #womeninSTEM @fromwastetofeed

  11. 👏🥳🎉🍾🥂2 GREAT achievements by Elisa Gemassmer: MSc defence AND start as PhD student @Mol_Ecol
    @uniinnsbruck

    Congrats to you, MSc Elisa, & thanks to examiners Barbara Tartarotti-Alfreider, Thomas Klammsteiner, and Birgit Sattler!

    #blacksoldierfly #microbialdiversity
    #womeninSTEM @fromwastetofeed

  12. 👏🥳🎉🍾🥂2 GREAT achievements by Elisa Gemassmer: MSc defence AND start as PhD student @Mol_Ecol
    @uniinnsbruck

    Congrats to you, MSc Elisa, & thanks to examiners Barbara Tartarotti-Alfreider, Thomas Klammsteiner, and Birgit Sattler!

    #blacksoldierfly #microbialdiversity
    #womeninSTEM @fromwastetofeed

  13. Beware: A #cheese crisis looms

    Camembert, which smells a bit like feet, is on the “verge of extinction,” according to the French National Center for Scientific Research. Other cheeses, including brie and various blues, are under threat, too, the group warned.

    This looming cheese crisis, this Camembert calamity, stems from a much bigger problem: a collapse in #microbialdiversity.

    🧀

    vox.com/down-to-earth/2024/2/1

  14. Rediscovery of rare marine #amoeba Rhabdamoeba marina phys.org/news/2023-11-rediscov

    #Rhabdamoeba marina is a heterotrophic relative of chlorarachnid algae onlinelibrary.wiley.com/doi/10

    "The study highlights the importance of observing environmental samples for the rediscovery of #unicellular organisms such as R. marina that lack genetic data. Such efforts are indispensable for understanding #MicrobialDiversity."

    #protists #microbes #amoebas #microorganisms #protistology #microbiology #algae #biodiversity

  15. Rediscovery of rare marine #amoeba Rhabdamoeba marina phys.org/news/2023-11-rediscov

    #Rhabdamoeba marina is a heterotrophic relative of chlorarachnid algae onlinelibrary.wiley.com/doi/10

    "The study highlights the importance of observing environmental samples for the rediscovery of #unicellular organisms such as R. marina that lack genetic data. Such efforts are indispensable for understanding #MicrobialDiversity."

    #protists #microbes #amoebas #microorganisms #protistology #microbiology #algae #biodiversity

  16. Rediscovery of rare marine #amoeba Rhabdamoeba marina phys.org/news/2023-11-rediscov

    #Rhabdamoeba marina is a heterotrophic relative of chlorarachnid algae onlinelibrary.wiley.com/doi/10

    "The study highlights the importance of observing environmental samples for the rediscovery of #unicellular organisms such as R. marina that lack genetic data. Such efforts are indispensable for understanding #MicrobialDiversity."

    #protists #microbes #amoebas #microorganisms #protistology #microbiology #algae #biodiversity

  17. Rediscovery of rare marine #amoeba Rhabdamoeba marina phys.org/news/2023-11-rediscov

    #Rhabdamoeba marina is a heterotrophic relative of chlorarachnid algae onlinelibrary.wiley.com/doi/10

    "The study highlights the importance of observing environmental samples for the rediscovery of #unicellular organisms such as R. marina that lack genetic data. Such efforts are indispensable for understanding #MicrobialDiversity."

    #protists #microbes #amoebas #microorganisms #protistology #microbiology #algae #biodiversity

  18. Rediscovery of rare marine #amoeba Rhabdamoeba marina phys.org/news/2023-11-rediscov

    #Rhabdamoeba marina is a heterotrophic relative of chlorarachnid algae onlinelibrary.wiley.com/doi/10

    "The study highlights the importance of observing environmental samples for the rediscovery of #unicellular organisms such as R. marina that lack genetic data. Such efforts are indispensable for understanding #MicrobialDiversity."

    #protists #microbes #amoebas #microorganisms #protistology #microbiology #algae #biodiversity

  19. Unravelling the microbial world in European soils ecoevocommunity.nature.com/pos #bacteria #fungi #mushrooms

    Patterns in soil #MicrobialDiversity across Europe: Maëva Labouyrie et al. nature.com/articles/s41467-023

    "We observed an incredible diversity beneath our feet. We detected more than 25’000 #fungal and 79’000 #bacterial taxa. #Microbial richness & diversity are highest in more disturbed areas, such as #croplands and #grasslands, but potential #PlantPathogens are more abundant in these areas as well"

  20. Unravelling the microbial world in European soils ecoevocommunity.nature.com/pos #bacteria #fungi #mushrooms

    Patterns in soil #MicrobialDiversity across Europe: Maëva Labouyrie et al. nature.com/articles/s41467-023

    "We observed an incredible diversity beneath our feet. We detected more than 25’000 #fungal and 79’000 #bacterial taxa. #Microbial richness & diversity are highest in more disturbed areas, such as #croplands and #grasslands, but potential #PlantPathogens are more abundant in these areas as well"

  21. Unravelling the microbial world in European soils ecoevocommunity.nature.com/pos #bacteria #fungi #mushrooms

    Patterns in soil #MicrobialDiversity across Europe: Maëva Labouyrie et al. nature.com/articles/s41467-023

    "We observed an incredible diversity beneath our feet. We detected more than 25’000 #fungal and 79’000 #bacterial taxa. #Microbial richness & diversity are highest in more disturbed areas, such as #croplands and #grasslands, but potential #PlantPathogens are more abundant in these areas as well"

  22. Unravelling the microbial world in European soils ecoevocommunity.nature.com/pos #bacteria #fungi #mushrooms

    Patterns in soil #MicrobialDiversity across Europe: Maëva Labouyrie et al. nature.com/articles/s41467-023

    "We observed an incredible diversity beneath our feet. We detected more than 25’000 #fungal and 79’000 #bacterial taxa. #Microbial richness & diversity are highest in more disturbed areas, such as #croplands and #grasslands, but potential #PlantPathogens are more abundant in these areas as well"

  23. Unravelling the microbial world in European soils ecoevocommunity.nature.com/pos #bacteria #fungi #mushrooms

    Patterns in soil #MicrobialDiversity across Europe: Maëva Labouyrie et al. nature.com/articles/s41467-023

    "We observed an incredible diversity beneath our feet. We detected more than 25’000 #fungal and 79’000 #bacterial taxa. #Microbial richness & diversity are highest in more disturbed areas, such as #croplands and #grasslands, but potential #PlantPathogens are more abundant in these areas as well"