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#terrestrialwater — Public Fediverse posts

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

  1. AK @[email protected] ·

    An Abrupt Decline in Global Terrestrial Water Storage and Its Relationship with Sea Level ChangeAn Abrupt Decline in Global Terrestrial Water Storage and Its Relationship with Sea Level Change

    Open access
    Published: 04 November 2024 (Surveys in Geophysics)

    link.springer.com/article/10.1
    ------

    "As observed by the Gravity Recovery and Climate Experiment (GRACE) and GRACE Follow On (GRACE-FO) missions, global terrestrial water storage (TWS), excluding ice sheets and glaciers, declined rapidly between May 2014 and March 2016. By 2023, it had not yet recovered, with the upper end of its range remaining 1 cm equivalent height of water below the upper end of the earlier range..."

    #TerrestrialWater #freshwater
    #ClimateChange

    #terrestrialwater #freshwater #climatechange
  2. Bill Minarik @silicatefondue ·

    Congratulations to Dr. Keavin Moore, who successfully defended his PhD thesis, "Coupled Models of Water on Terrestrial Planets Orbiting M-Dwarfs"
    (supervised by Nic Cowan)

    Keavin's models predict that water dissolved in a magma ocean, combined with recycling hydrated crust back into the mantle, can both limit water loss during the early active phase of a red dwarf star.


    #mcgilluniversity #exoplanets #magmaocean #atmosphere #waterworld #reddwarf
  3. Bill Minarik @[email protected] ·

    Congratulations to Dr. Keavin Moore, who successfully defended his PhD thesis, "Coupled Models of Water on Terrestrial Planets Orbiting M-Dwarfs"
    (supervised by Nic Cowan)

    Keavin's models predict that water dissolved in a magma ocean, combined with recycling hydrated crust back into the mantle, can both limit water loss during the early active phase of a red dwarf star.

    #McGIllUniversity #Exoplanets #MagmaOcean #Atmosphere #WaterWorld #RedDwarf
    #TerrestrialWater

    #mcgilluniversity #exoplanets #magmaocean #atmosphere #waterworld #reddwarf
  4. Bill Minarik @[email protected] ·

    Congratulations to Dr. Keavin Moore, who successfully defended his PhD thesis, "Coupled Models of Water on Terrestrial Planets Orbiting M-Dwarfs"
    (supervised by Nic Cowan)

    Keavin's models predict that water dissolved in a magma ocean, combined with recycling hydrated crust back into the mantle, can both limit water loss during the early active phase of a red dwarf star.

    #McGIllUniversity #Exoplanets #MagmaOcean #Atmosphere #WaterWorld #RedDwarf
    #TerrestrialWater

    #mcgilluniversity #exoplanets #magmaocean #atmosphere #waterworld #reddwarf
  5. Bill Minarik @[email protected] ·

    Congratulations to Dr. Keavin Moore, who successfully defended his PhD thesis, "Coupled Models of Water on Terrestrial Planets Orbiting M-Dwarfs"
    (supervised by Nic Cowan)

    Keavin's models predict that water dissolved in a magma ocean, combined with recycling hydrated crust back into the mantle, can both limit water loss during the early active phase of a red dwarf star.

    #McGIllUniversity #Exoplanets #MagmaOcean #Atmosphere #WaterWorld #RedDwarf
    #TerrestrialWater

    #terrestrialwater #reddwarf #waterworld #atmosphere #magmaocean #exoplanets
  6. Bill Minarik @[email protected] ·

    Congratulations to Dr. Keavin Moore, who successfully defended his PhD thesis, "Coupled Models of Water on Terrestrial Planets Orbiting M-Dwarfs"
    (supervised by Nic Cowan)

    Keavin's models predict that water dissolved in a magma ocean, combined with recycling hydrated crust back into the mantle, can both limit water loss during the early active phase of a red dwarf star.

    #McGIllUniversity #Exoplanets #MagmaOcean #Atmosphere #WaterWorld #RedDwarf
    #TerrestrialWater

    #mcgilluniversity #exoplanets #magmaocean #atmosphere #waterworld #reddwarf