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#deepwatercycle — Public Fediverse posts

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

  1. Bill Minarik @silicatefondue ·

    At high pressures, fluorine-free topaz is stable: Topaz-OH. It's likely present only on recent Earth in our solar system: water, aluminous sediments (shales; pelites) from continental crust and cold subduction zones are all required.

    Given these, Topaz-OH can potentially transport water into the mantle transition zone (where it's stored in ) Figure from Huang et al (2020).

    #ringwoodite #mincup24 #topaz #subduction #mantle #deepwatercycle
  2. Bill Minarik @[email protected] ·

    At high pressures, fluorine-free topaz is stable: Topaz-OH. It's likely present only on recent Earth in our solar system: water, aluminous sediments (shales; pelites) from continental crust and cold subduction zones are all required.

    Given these, Topaz-OH can potentially transport water into the mantle transition zone (where it's stored in #ringwoodite ) Figure from Huang et al (2020).

    #MinCup24 #Topaz #subduction #mantle #DeepWaterCycle

    #ringwoodite #mincup24 #topaz #subduction #mantle #deepwatercycle
  3. Bill Minarik @[email protected] ·

    At high pressures, fluorine-free topaz is stable: Topaz-OH. It's likely present only on recent Earth in our solar system: water, aluminous sediments (shales; pelites) from continental crust and cold subduction zones are all required.

    Given these, Topaz-OH can potentially transport water into the mantle transition zone (where it's stored in #ringwoodite ) Figure from Huang et al (2020).

    #MinCup24 #Topaz #subduction #mantle #DeepWaterCycle

    #ringwoodite #mincup24 #topaz #subduction #mantle #deepwatercycle
  4. Bill Minarik @[email protected] ·

    At high pressures, fluorine-free topaz is stable: Topaz-OH. It's likely present only on recent Earth in our solar system: water, aluminous sediments (shales; pelites) from continental crust and cold subduction zones are all required.

    Given these, Topaz-OH can potentially transport water into the mantle transition zone (where it's stored in #ringwoodite ) Figure from Huang et al (2020).

    #MinCup24 #Topaz #subduction #mantle #DeepWaterCycle

    #deepwatercycle #mantle #subduction #topaz #mincup24 #ringwoodite
  5. Bill Minarik @[email protected] ·

    At high pressures, fluorine-free topaz is stable: Topaz-OH. It's likely present only on recent Earth in our solar system: water, aluminous sediments (shales; pelites) from continental crust and cold subduction zones are all required.

    Given these, Topaz-OH can potentially transport water into the mantle transition zone (where it's stored in #ringwoodite ) Figure from Huang et al (2020).

    #MinCup24 #Topaz #subduction #mantle #DeepWaterCycle

    #ringwoodite #mincup24 #topaz #subduction #mantle #deepwatercycle