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How can glass marbles naturally occur in a desert?


Effects of rainy zone in the desert?Semi-liquid atmosphere - Weather and ClimateHow would a large arctic mountain range affect the weather?How does weather change on an earthlike planet with a denser atmosphere?Geography and Appearance of an nitrogen/ammonia planetCan a desert planet sustain human life?What could cause the desert?How can a desert have high humidity?Are Trojan Planets Possible? Are Habitable Trojan Planets Possible?Designing a super-comfortable Earth analog






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4












$begingroup$


I had a dream that on my alien planet, there was a large desert that had naturally occurring glass marbles in the sand. My dream logic was that the sand was melted into glass and natural weathering turned the glass into a spherical shape.



Obviously a habitable planet would not be able to harbor such extreme weather, and I realized that immediately when I woke up. So, my theory is the only way to do this on a habitable planet is through lightning strikes on sand + gritty wind and sand weathering to turn it into a sort of glass pebble.



Is this feasible? What is another solution if not, while still leaving the planet habitable for large terrestrial lifeforms? (they don't live in the desert but the rest of the planet needs to be survivable)



A few details about the planet:



  • It is larger than earth but composed of similar materials

  • The atmosphere has a higher percent composure of oxygen

  • The planet has larger oceans than earth and very few continents. (Think about a continent about twice the size of Australia. That is the largest landmass, and everything else is smaller islands)

  • The atmosphere is thicker than earth, so it is more insulating.

  • There is a very slight axial tilt, less than earth's.

  • Their moon is larger than Luna.

A few details about the desert:



  • There is volcanic activity in the desert

  • There are lightning strikes

  • It is close to the coast

  • It harbors dunes and the weather that accompanies that

  • On the flat parts of the desert and by the coast and rivers, there is some plant life.

What I want the marbles to look like:



  • Ultimately, I want them to be smooth but they don't need to be round. Ovular or flat are okay. The glass should be pretty thick as well, not incredibly brittle. It doesn't need to be transparent in it's natural state, but it should be able to be transparent when processed.









share|improve this question











$endgroup$









  • 1




    $begingroup$
    Waayyyy out thought : could some bizarre creature poop glass or a glass-like substance ?
    $endgroup$
    – StephenG
    7 hours ago










  • $begingroup$
    @StephenG That would be a sufficient answer to the question if you can come up with a feasible biological process.
    $endgroup$
    – Tardigreat
    6 hours ago






  • 1




    $begingroup$
    "Alas" squishy, smelly biological stuff is not my area of expertise. :-)
    $endgroup$
    – StephenG
    6 hours ago










  • $begingroup$
    @StephenG Alas indeed hahaha
    $endgroup$
    – Tardigreat
    6 hours ago










  • $begingroup$
    so you want a quartz pebble desert, those already exist. Your big problem is such areas are extremely tiny as pebble quickly become sand.
    $endgroup$
    – John
    6 hours ago

















4












$begingroup$


I had a dream that on my alien planet, there was a large desert that had naturally occurring glass marbles in the sand. My dream logic was that the sand was melted into glass and natural weathering turned the glass into a spherical shape.



Obviously a habitable planet would not be able to harbor such extreme weather, and I realized that immediately when I woke up. So, my theory is the only way to do this on a habitable planet is through lightning strikes on sand + gritty wind and sand weathering to turn it into a sort of glass pebble.



Is this feasible? What is another solution if not, while still leaving the planet habitable for large terrestrial lifeforms? (they don't live in the desert but the rest of the planet needs to be survivable)



A few details about the planet:



  • It is larger than earth but composed of similar materials

  • The atmosphere has a higher percent composure of oxygen

  • The planet has larger oceans than earth and very few continents. (Think about a continent about twice the size of Australia. That is the largest landmass, and everything else is smaller islands)

  • The atmosphere is thicker than earth, so it is more insulating.

  • There is a very slight axial tilt, less than earth's.

  • Their moon is larger than Luna.

A few details about the desert:



  • There is volcanic activity in the desert

  • There are lightning strikes

  • It is close to the coast

  • It harbors dunes and the weather that accompanies that

  • On the flat parts of the desert and by the coast and rivers, there is some plant life.

What I want the marbles to look like:



  • Ultimately, I want them to be smooth but they don't need to be round. Ovular or flat are okay. The glass should be pretty thick as well, not incredibly brittle. It doesn't need to be transparent in it's natural state, but it should be able to be transparent when processed.









share|improve this question











$endgroup$









  • 1




    $begingroup$
    Waayyyy out thought : could some bizarre creature poop glass or a glass-like substance ?
    $endgroup$
    – StephenG
    7 hours ago










  • $begingroup$
    @StephenG That would be a sufficient answer to the question if you can come up with a feasible biological process.
    $endgroup$
    – Tardigreat
    6 hours ago






  • 1




    $begingroup$
    "Alas" squishy, smelly biological stuff is not my area of expertise. :-)
    $endgroup$
    – StephenG
    6 hours ago










  • $begingroup$
    @StephenG Alas indeed hahaha
    $endgroup$
    – Tardigreat
    6 hours ago










  • $begingroup$
    so you want a quartz pebble desert, those already exist. Your big problem is such areas are extremely tiny as pebble quickly become sand.
    $endgroup$
    – John
    6 hours ago













4












4








4





$begingroup$


I had a dream that on my alien planet, there was a large desert that had naturally occurring glass marbles in the sand. My dream logic was that the sand was melted into glass and natural weathering turned the glass into a spherical shape.



Obviously a habitable planet would not be able to harbor such extreme weather, and I realized that immediately when I woke up. So, my theory is the only way to do this on a habitable planet is through lightning strikes on sand + gritty wind and sand weathering to turn it into a sort of glass pebble.



Is this feasible? What is another solution if not, while still leaving the planet habitable for large terrestrial lifeforms? (they don't live in the desert but the rest of the planet needs to be survivable)



A few details about the planet:



  • It is larger than earth but composed of similar materials

  • The atmosphere has a higher percent composure of oxygen

  • The planet has larger oceans than earth and very few continents. (Think about a continent about twice the size of Australia. That is the largest landmass, and everything else is smaller islands)

  • The atmosphere is thicker than earth, so it is more insulating.

  • There is a very slight axial tilt, less than earth's.

  • Their moon is larger than Luna.

A few details about the desert:



  • There is volcanic activity in the desert

  • There are lightning strikes

  • It is close to the coast

  • It harbors dunes and the weather that accompanies that

  • On the flat parts of the desert and by the coast and rivers, there is some plant life.

What I want the marbles to look like:



  • Ultimately, I want them to be smooth but they don't need to be round. Ovular or flat are okay. The glass should be pretty thick as well, not incredibly brittle. It doesn't need to be transparent in it's natural state, but it should be able to be transparent when processed.









share|improve this question











$endgroup$




I had a dream that on my alien planet, there was a large desert that had naturally occurring glass marbles in the sand. My dream logic was that the sand was melted into glass and natural weathering turned the glass into a spherical shape.



Obviously a habitable planet would not be able to harbor such extreme weather, and I realized that immediately when I woke up. So, my theory is the only way to do this on a habitable planet is through lightning strikes on sand + gritty wind and sand weathering to turn it into a sort of glass pebble.



Is this feasible? What is another solution if not, while still leaving the planet habitable for large terrestrial lifeforms? (they don't live in the desert but the rest of the planet needs to be survivable)



A few details about the planet:



  • It is larger than earth but composed of similar materials

  • The atmosphere has a higher percent composure of oxygen

  • The planet has larger oceans than earth and very few continents. (Think about a continent about twice the size of Australia. That is the largest landmass, and everything else is smaller islands)

  • The atmosphere is thicker than earth, so it is more insulating.

  • There is a very slight axial tilt, less than earth's.

  • Their moon is larger than Luna.

A few details about the desert:



  • There is volcanic activity in the desert

  • There are lightning strikes

  • It is close to the coast

  • It harbors dunes and the weather that accompanies that

  • On the flat parts of the desert and by the coast and rivers, there is some plant life.

What I want the marbles to look like:



  • Ultimately, I want them to be smooth but they don't need to be round. Ovular or flat are okay. The glass should be pretty thick as well, not incredibly brittle. It doesn't need to be transparent in it's natural state, but it should be able to be transparent when processed.






planets weather deserts






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited 7 hours ago







Tardigreat

















asked 8 hours ago









TardigreatTardigreat

3772 silver badges11 bronze badges




3772 silver badges11 bronze badges










  • 1




    $begingroup$
    Waayyyy out thought : could some bizarre creature poop glass or a glass-like substance ?
    $endgroup$
    – StephenG
    7 hours ago










  • $begingroup$
    @StephenG That would be a sufficient answer to the question if you can come up with a feasible biological process.
    $endgroup$
    – Tardigreat
    6 hours ago






  • 1




    $begingroup$
    "Alas" squishy, smelly biological stuff is not my area of expertise. :-)
    $endgroup$
    – StephenG
    6 hours ago










  • $begingroup$
    @StephenG Alas indeed hahaha
    $endgroup$
    – Tardigreat
    6 hours ago










  • $begingroup$
    so you want a quartz pebble desert, those already exist. Your big problem is such areas are extremely tiny as pebble quickly become sand.
    $endgroup$
    – John
    6 hours ago












  • 1




    $begingroup$
    Waayyyy out thought : could some bizarre creature poop glass or a glass-like substance ?
    $endgroup$
    – StephenG
    7 hours ago










  • $begingroup$
    @StephenG That would be a sufficient answer to the question if you can come up with a feasible biological process.
    $endgroup$
    – Tardigreat
    6 hours ago






  • 1




    $begingroup$
    "Alas" squishy, smelly biological stuff is not my area of expertise. :-)
    $endgroup$
    – StephenG
    6 hours ago










  • $begingroup$
    @StephenG Alas indeed hahaha
    $endgroup$
    – Tardigreat
    6 hours ago










  • $begingroup$
    so you want a quartz pebble desert, those already exist. Your big problem is such areas are extremely tiny as pebble quickly become sand.
    $endgroup$
    – John
    6 hours ago







1




1




$begingroup$
Waayyyy out thought : could some bizarre creature poop glass or a glass-like substance ?
$endgroup$
– StephenG
7 hours ago




$begingroup$
Waayyyy out thought : could some bizarre creature poop glass or a glass-like substance ?
$endgroup$
– StephenG
7 hours ago












$begingroup$
@StephenG That would be a sufficient answer to the question if you can come up with a feasible biological process.
$endgroup$
– Tardigreat
6 hours ago




$begingroup$
@StephenG That would be a sufficient answer to the question if you can come up with a feasible biological process.
$endgroup$
– Tardigreat
6 hours ago




1




1




$begingroup$
"Alas" squishy, smelly biological stuff is not my area of expertise. :-)
$endgroup$
– StephenG
6 hours ago




$begingroup$
"Alas" squishy, smelly biological stuff is not my area of expertise. :-)
$endgroup$
– StephenG
6 hours ago












$begingroup$
@StephenG Alas indeed hahaha
$endgroup$
– Tardigreat
6 hours ago




$begingroup$
@StephenG Alas indeed hahaha
$endgroup$
– Tardigreat
6 hours ago












$begingroup$
so you want a quartz pebble desert, those already exist. Your big problem is such areas are extremely tiny as pebble quickly become sand.
$endgroup$
– John
6 hours ago




$begingroup$
so you want a quartz pebble desert, those already exist. Your big problem is such areas are extremely tiny as pebble quickly become sand.
$endgroup$
– John
6 hours ago










7 Answers
7






active

oldest

votes


















4












$begingroup$

Your desert glass pebbles are volcanic glass. In the US they are called Apache Tears.



apache tears in a bucket
source



These are unpolished, as found in the desert. When polished they are a very beautiful deep black and suitable for use in jewelry. Some of the round ones in this image ones look pretty close to that without polishing.



https://en.wikipedia.org/wiki/Apache_tears




Apache tears" is the popular term for rounded pebbles of obsidian or
"obsidianites" composed of black or dark-colored natural volcanic
glass, usually of rhyolite composition and bearing conchoidal
fracture. Also known by the lithologic term "marekanite", this variety
of obsidian occurs as subrounded to subangular bodies up to about 2
inches in diameter, often bearing indented surfaces...




Volcanic glass forms naturally and naturally breaks into these chunks, which are weathered into roundish shapes. Once you start with natural glass you could have them weathered and be polished to the end result you want - perhaps tumbled along a wadi by periodic floods?






share|improve this answer









$endgroup$






















    4












    $begingroup$

    There are 3 types of natural glass: obsidian (volcanic glass), impactite (meteor glass), and fulgurite (lightning glass).



    Naturally round impactite is virtually unheard of. Impactite tends to have strong striations in the direction of impact that gives it more of a cleaved shape. It is also very rare for it to be transparent. Technically, a round transparent piece of impactite might be possible, but probably not a whole field of the stuff.



    Obsidian can be naturally round, but due to volcanic ash that is mixed into it as it's made, it's not transparent, even when polished.



    Fulgurite is normally the most transparent type of natural glass because it is formed just from the sand that the lightning hits without being mixed up with impurities from ash, meteorite, or granite below the sand. That said, it's also the least round because it takes the shape that the lightning moved through the sand.



    Any of the above could be made very round and polished in a river bed, but desert sand would erode them unevently.



    It's pretty unlikely that any of these forms of glass would match your description, but perhaps a gemstone would. Your dream reminds me of a documentary I saw on desert diamonds a few years back. Because diamond is harder than sand, they don't errod into weird shapes like natural glass would.



    enter image description here



    They are naturally round and just sit around on the surface in certain areas of the deserts in Africa and the Middle East. Like most natural glasses & gemstones, uncut diamonds are typically translucent enough to see light through, but need to be polished to become transparent like glass. That said, uncut diamonds can sometimes have a very good natural clarity to them; so, it may be possible to find a desert strewn with diamonds much like the more round ones in the picture below.



    enter image description here



    The richest and most obvious of these diamond deserts have already been picked through, but there are (or at least were) places right here on Earth that very closely resemble your dream. You probably don't need to change the alien world to make this plausible, you just need to be in the right desert on it.






    share|improve this answer











    $endgroup$






















      2












      $begingroup$

      The following steps, inspired by the process used for manufacturing lead bullets in the past, can determine the formation of spheroidal glassy agglomerates:



      • take a sandy surface

      • let a meteor hit that surface

      • the impact will melt and splash material (sand) around

      • during its ballistic trajectory, the molten material will solidify in free fall

      • the solid shape will resemble that of a drop or o sphere

      • let the material impact a soft surface (i.e. water)

      • over geological times the water body can dry off, turning into a desert





      share|improve this answer











      $endgroup$














      • $begingroup$
        @Ash, addressed in the edit
        $endgroup$
        – L.Dutch
        7 hours ago










      • $begingroup$
        Yup just saw that, that'll work, they won't stay spheroidal for long on the surface but they'll start that way.
        $endgroup$
        – Ash
        7 hours ago



















      2












      $begingroup$

      Sorry no, at least not as a purely, earthbound, geological process, the environment doesn't allow for the amount of multi-directional rolling you would need to round glass into a ball.



      Glass yes, probably in the form of fulgerites like the Mauritanian example shown below:
      enter image description here



      Smooth wind sculpted surfaces yes, the below is a purely wind polished piece of desert glass from Libya:



      enter image description here



      But spherical or even near spherical no sorry.



      You might conceivably get away with a biological process, a creature that eats sand to extract surface nutrients/bacteria/algae on the grains and due to digestive deposition of waste silica cements the grains together in its dung.



      Given your newly stated goal the desert glass linked above is a good fit, it comes in quite large sections, it is however thought to be the result of a meteor impact rather than lightening strikes.






      share|improve this answer











      $endgroup$














      • $begingroup$
        Water is an effective way to polish them to spheres. Perhaps the desert is the bottom of a dried up lake or sea, or once contained a sea. Op mentions the sea is nearby. Any shoreline erosion would round any pebbles. The only difficulty I see here is getting the glass pebbles off the beach and into sand, as they'd naturally be located with similarly sized pebbles
        $endgroup$
        – Innovine
        7 hours ago











      • $begingroup$
        @Innovine But they won't stay round in a desert environment with windblown sand.
        $endgroup$
        – Ash
        7 hours ago


















      2












      $begingroup$

      Bring in a desert-dwelling animal or insect.
      There can be two ways to do this.



      One is have an animal/insect attracted to the glass itself.



      Depending on what it's made of, there could be minerals in it the animal needs, but the rest of the glass is useless or even poison. So the animal breaks off the glass and swallows it, leeching out the appropriate substances, then pukes up the rest. It comes out in a lovely glass marble shape, like a clam with it's pearl. It can come out the other end, too, but that's a little less...appealing.



      Insects are great for sheer number and being able to live practically anywhere, but animals can make larger or even variable sized ones. Though if you had several insects eating the glass chunks from the outside, they could leave behind "balls" of varying shapes and sizes.



      The other is an animal makes the glass.



      Same basic idea, but instead of being attracted to the glass itself, it's merely hunting for food. If the animal is something like a snake, it would have a hinged jaw that opens wide to grab it's prey. Since this is an alien world, we could posit that the prey is small, swift, and hides in the sand, and what's been best for this critter's survival (evolution-wise) is the hinge-jawed creature scooping up it's prey, sand and all. It then regurgitates the sand later, and what emerges are these beautiful glass (or glass-seeming but not true glass) balls.



      In either of these scenarios, over time glass balls would have built up enormously. Even if people now harvest them, these animals continue to burrow beneath the surface, leaving their balls there, and the winds that shift the sand around can also bury them, sometimes deeply, only to unearth them again later. Over the course of centuries you could have quite the motherlode.



      Either idea would need more hammering out, of course, but it could be a viable way to get the effect you want.






      share|improve this answer









      $endgroup$














      • $begingroup$
        A biological process is about the only way to restore balls fast enough to have them build up.
        $endgroup$
        – John
        5 hours ago


















      0












      $begingroup$

      If you don't insist they be glass, then sure. Cave pearls are little spheres of calcium salts that form due to successive periods of wet followed by drying. Each dry period deposits another layer. They can be quite regular shaped. The shape arises due to the regularity of growth, and due to the fact a sphere is the most mass per surface area you can get.



      So if, instead of glass, it was some sedimentary process, you could get many spheres. Conceivably there are materials that could be produced this way that are transparent or translucent. I don't happen to know one, but it's possible.






      share|improve this answer









      $endgroup$






















        0












        $begingroup$

        The glass balls are fossilized honeydew.



        The volcanoes in the desert were originally islands. The aphids that lived there were huge due to insular gigantism. Now since they are insects, they don't fossilise as well. When tectonic activity cause the island to connect to the mainland, and then dried the ocean to one side of it, all that was left was the fossilised honeydew. Then the wind blew the fossilised balls and they spread through the desert.



        As to why this honeydew fossilised: a small part (~1%) of the giant aphids had a mutation that caused their honeydew to contain light activated resins, which caused it to harden and become inedible to the ants that tended them. The ants would still tend those aphids, but would leave their excrements alone. That is why you can find so much fossilised insect excrement from so many different ages around the desert.






        share|improve this answer









        $endgroup$

















          Your Answer








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          7 Answers
          7






          active

          oldest

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          7 Answers
          7






          active

          oldest

          votes









          active

          oldest

          votes






          active

          oldest

          votes









          4












          $begingroup$

          Your desert glass pebbles are volcanic glass. In the US they are called Apache Tears.



          apache tears in a bucket
          source



          These are unpolished, as found in the desert. When polished they are a very beautiful deep black and suitable for use in jewelry. Some of the round ones in this image ones look pretty close to that without polishing.



          https://en.wikipedia.org/wiki/Apache_tears




          Apache tears" is the popular term for rounded pebbles of obsidian or
          "obsidianites" composed of black or dark-colored natural volcanic
          glass, usually of rhyolite composition and bearing conchoidal
          fracture. Also known by the lithologic term "marekanite", this variety
          of obsidian occurs as subrounded to subangular bodies up to about 2
          inches in diameter, often bearing indented surfaces...




          Volcanic glass forms naturally and naturally breaks into these chunks, which are weathered into roundish shapes. Once you start with natural glass you could have them weathered and be polished to the end result you want - perhaps tumbled along a wadi by periodic floods?






          share|improve this answer









          $endgroup$



















            4












            $begingroup$

            Your desert glass pebbles are volcanic glass. In the US they are called Apache Tears.



            apache tears in a bucket
            source



            These are unpolished, as found in the desert. When polished they are a very beautiful deep black and suitable for use in jewelry. Some of the round ones in this image ones look pretty close to that without polishing.



            https://en.wikipedia.org/wiki/Apache_tears




            Apache tears" is the popular term for rounded pebbles of obsidian or
            "obsidianites" composed of black or dark-colored natural volcanic
            glass, usually of rhyolite composition and bearing conchoidal
            fracture. Also known by the lithologic term "marekanite", this variety
            of obsidian occurs as subrounded to subangular bodies up to about 2
            inches in diameter, often bearing indented surfaces...




            Volcanic glass forms naturally and naturally breaks into these chunks, which are weathered into roundish shapes. Once you start with natural glass you could have them weathered and be polished to the end result you want - perhaps tumbled along a wadi by periodic floods?






            share|improve this answer









            $endgroup$

















              4












              4








              4





              $begingroup$

              Your desert glass pebbles are volcanic glass. In the US they are called Apache Tears.



              apache tears in a bucket
              source



              These are unpolished, as found in the desert. When polished they are a very beautiful deep black and suitable for use in jewelry. Some of the round ones in this image ones look pretty close to that without polishing.



              https://en.wikipedia.org/wiki/Apache_tears




              Apache tears" is the popular term for rounded pebbles of obsidian or
              "obsidianites" composed of black or dark-colored natural volcanic
              glass, usually of rhyolite composition and bearing conchoidal
              fracture. Also known by the lithologic term "marekanite", this variety
              of obsidian occurs as subrounded to subangular bodies up to about 2
              inches in diameter, often bearing indented surfaces...




              Volcanic glass forms naturally and naturally breaks into these chunks, which are weathered into roundish shapes. Once you start with natural glass you could have them weathered and be polished to the end result you want - perhaps tumbled along a wadi by periodic floods?






              share|improve this answer









              $endgroup$



              Your desert glass pebbles are volcanic glass. In the US they are called Apache Tears.



              apache tears in a bucket
              source



              These are unpolished, as found in the desert. When polished they are a very beautiful deep black and suitable for use in jewelry. Some of the round ones in this image ones look pretty close to that without polishing.



              https://en.wikipedia.org/wiki/Apache_tears




              Apache tears" is the popular term for rounded pebbles of obsidian or
              "obsidianites" composed of black or dark-colored natural volcanic
              glass, usually of rhyolite composition and bearing conchoidal
              fracture. Also known by the lithologic term "marekanite", this variety
              of obsidian occurs as subrounded to subangular bodies up to about 2
              inches in diameter, often bearing indented surfaces...




              Volcanic glass forms naturally and naturally breaks into these chunks, which are weathered into roundish shapes. Once you start with natural glass you could have them weathered and be polished to the end result you want - perhaps tumbled along a wadi by periodic floods?







              share|improve this answer












              share|improve this answer



              share|improve this answer










              answered 6 hours ago









              WillkWillk

              133k34 gold badges252 silver badges554 bronze badges




              133k34 gold badges252 silver badges554 bronze badges


























                  4












                  $begingroup$

                  There are 3 types of natural glass: obsidian (volcanic glass), impactite (meteor glass), and fulgurite (lightning glass).



                  Naturally round impactite is virtually unheard of. Impactite tends to have strong striations in the direction of impact that gives it more of a cleaved shape. It is also very rare for it to be transparent. Technically, a round transparent piece of impactite might be possible, but probably not a whole field of the stuff.



                  Obsidian can be naturally round, but due to volcanic ash that is mixed into it as it's made, it's not transparent, even when polished.



                  Fulgurite is normally the most transparent type of natural glass because it is formed just from the sand that the lightning hits without being mixed up with impurities from ash, meteorite, or granite below the sand. That said, it's also the least round because it takes the shape that the lightning moved through the sand.



                  Any of the above could be made very round and polished in a river bed, but desert sand would erode them unevently.



                  It's pretty unlikely that any of these forms of glass would match your description, but perhaps a gemstone would. Your dream reminds me of a documentary I saw on desert diamonds a few years back. Because diamond is harder than sand, they don't errod into weird shapes like natural glass would.



                  enter image description here



                  They are naturally round and just sit around on the surface in certain areas of the deserts in Africa and the Middle East. Like most natural glasses & gemstones, uncut diamonds are typically translucent enough to see light through, but need to be polished to become transparent like glass. That said, uncut diamonds can sometimes have a very good natural clarity to them; so, it may be possible to find a desert strewn with diamonds much like the more round ones in the picture below.



                  enter image description here



                  The richest and most obvious of these diamond deserts have already been picked through, but there are (or at least were) places right here on Earth that very closely resemble your dream. You probably don't need to change the alien world to make this plausible, you just need to be in the right desert on it.






                  share|improve this answer











                  $endgroup$



















                    4












                    $begingroup$

                    There are 3 types of natural glass: obsidian (volcanic glass), impactite (meteor glass), and fulgurite (lightning glass).



                    Naturally round impactite is virtually unheard of. Impactite tends to have strong striations in the direction of impact that gives it more of a cleaved shape. It is also very rare for it to be transparent. Technically, a round transparent piece of impactite might be possible, but probably not a whole field of the stuff.



                    Obsidian can be naturally round, but due to volcanic ash that is mixed into it as it's made, it's not transparent, even when polished.



                    Fulgurite is normally the most transparent type of natural glass because it is formed just from the sand that the lightning hits without being mixed up with impurities from ash, meteorite, or granite below the sand. That said, it's also the least round because it takes the shape that the lightning moved through the sand.



                    Any of the above could be made very round and polished in a river bed, but desert sand would erode them unevently.



                    It's pretty unlikely that any of these forms of glass would match your description, but perhaps a gemstone would. Your dream reminds me of a documentary I saw on desert diamonds a few years back. Because diamond is harder than sand, they don't errod into weird shapes like natural glass would.



                    enter image description here



                    They are naturally round and just sit around on the surface in certain areas of the deserts in Africa and the Middle East. Like most natural glasses & gemstones, uncut diamonds are typically translucent enough to see light through, but need to be polished to become transparent like glass. That said, uncut diamonds can sometimes have a very good natural clarity to them; so, it may be possible to find a desert strewn with diamonds much like the more round ones in the picture below.



                    enter image description here



                    The richest and most obvious of these diamond deserts have already been picked through, but there are (or at least were) places right here on Earth that very closely resemble your dream. You probably don't need to change the alien world to make this plausible, you just need to be in the right desert on it.






                    share|improve this answer











                    $endgroup$

















                      4












                      4








                      4





                      $begingroup$

                      There are 3 types of natural glass: obsidian (volcanic glass), impactite (meteor glass), and fulgurite (lightning glass).



                      Naturally round impactite is virtually unheard of. Impactite tends to have strong striations in the direction of impact that gives it more of a cleaved shape. It is also very rare for it to be transparent. Technically, a round transparent piece of impactite might be possible, but probably not a whole field of the stuff.



                      Obsidian can be naturally round, but due to volcanic ash that is mixed into it as it's made, it's not transparent, even when polished.



                      Fulgurite is normally the most transparent type of natural glass because it is formed just from the sand that the lightning hits without being mixed up with impurities from ash, meteorite, or granite below the sand. That said, it's also the least round because it takes the shape that the lightning moved through the sand.



                      Any of the above could be made very round and polished in a river bed, but desert sand would erode them unevently.



                      It's pretty unlikely that any of these forms of glass would match your description, but perhaps a gemstone would. Your dream reminds me of a documentary I saw on desert diamonds a few years back. Because diamond is harder than sand, they don't errod into weird shapes like natural glass would.



                      enter image description here



                      They are naturally round and just sit around on the surface in certain areas of the deserts in Africa and the Middle East. Like most natural glasses & gemstones, uncut diamonds are typically translucent enough to see light through, but need to be polished to become transparent like glass. That said, uncut diamonds can sometimes have a very good natural clarity to them; so, it may be possible to find a desert strewn with diamonds much like the more round ones in the picture below.



                      enter image description here



                      The richest and most obvious of these diamond deserts have already been picked through, but there are (or at least were) places right here on Earth that very closely resemble your dream. You probably don't need to change the alien world to make this plausible, you just need to be in the right desert on it.






                      share|improve this answer











                      $endgroup$



                      There are 3 types of natural glass: obsidian (volcanic glass), impactite (meteor glass), and fulgurite (lightning glass).



                      Naturally round impactite is virtually unheard of. Impactite tends to have strong striations in the direction of impact that gives it more of a cleaved shape. It is also very rare for it to be transparent. Technically, a round transparent piece of impactite might be possible, but probably not a whole field of the stuff.



                      Obsidian can be naturally round, but due to volcanic ash that is mixed into it as it's made, it's not transparent, even when polished.



                      Fulgurite is normally the most transparent type of natural glass because it is formed just from the sand that the lightning hits without being mixed up with impurities from ash, meteorite, or granite below the sand. That said, it's also the least round because it takes the shape that the lightning moved through the sand.



                      Any of the above could be made very round and polished in a river bed, but desert sand would erode them unevently.



                      It's pretty unlikely that any of these forms of glass would match your description, but perhaps a gemstone would. Your dream reminds me of a documentary I saw on desert diamonds a few years back. Because diamond is harder than sand, they don't errod into weird shapes like natural glass would.



                      enter image description here



                      They are naturally round and just sit around on the surface in certain areas of the deserts in Africa and the Middle East. Like most natural glasses & gemstones, uncut diamonds are typically translucent enough to see light through, but need to be polished to become transparent like glass. That said, uncut diamonds can sometimes have a very good natural clarity to them; so, it may be possible to find a desert strewn with diamonds much like the more round ones in the picture below.



                      enter image description here



                      The richest and most obvious of these diamond deserts have already been picked through, but there are (or at least were) places right here on Earth that very closely resemble your dream. You probably don't need to change the alien world to make this plausible, you just need to be in the right desert on it.







                      share|improve this answer














                      share|improve this answer



                      share|improve this answer








                      edited 5 hours ago

























                      answered 7 hours ago









                      NosajimikiNosajimiki

                      8,1991 gold badge10 silver badges44 bronze badges




                      8,1991 gold badge10 silver badges44 bronze badges
























                          2












                          $begingroup$

                          The following steps, inspired by the process used for manufacturing lead bullets in the past, can determine the formation of spheroidal glassy agglomerates:



                          • take a sandy surface

                          • let a meteor hit that surface

                          • the impact will melt and splash material (sand) around

                          • during its ballistic trajectory, the molten material will solidify in free fall

                          • the solid shape will resemble that of a drop or o sphere

                          • let the material impact a soft surface (i.e. water)

                          • over geological times the water body can dry off, turning into a desert





                          share|improve this answer











                          $endgroup$














                          • $begingroup$
                            @Ash, addressed in the edit
                            $endgroup$
                            – L.Dutch
                            7 hours ago










                          • $begingroup$
                            Yup just saw that, that'll work, they won't stay spheroidal for long on the surface but they'll start that way.
                            $endgroup$
                            – Ash
                            7 hours ago
















                          2












                          $begingroup$

                          The following steps, inspired by the process used for manufacturing lead bullets in the past, can determine the formation of spheroidal glassy agglomerates:



                          • take a sandy surface

                          • let a meteor hit that surface

                          • the impact will melt and splash material (sand) around

                          • during its ballistic trajectory, the molten material will solidify in free fall

                          • the solid shape will resemble that of a drop or o sphere

                          • let the material impact a soft surface (i.e. water)

                          • over geological times the water body can dry off, turning into a desert





                          share|improve this answer











                          $endgroup$














                          • $begingroup$
                            @Ash, addressed in the edit
                            $endgroup$
                            – L.Dutch
                            7 hours ago










                          • $begingroup$
                            Yup just saw that, that'll work, they won't stay spheroidal for long on the surface but they'll start that way.
                            $endgroup$
                            – Ash
                            7 hours ago














                          2












                          2








                          2





                          $begingroup$

                          The following steps, inspired by the process used for manufacturing lead bullets in the past, can determine the formation of spheroidal glassy agglomerates:



                          • take a sandy surface

                          • let a meteor hit that surface

                          • the impact will melt and splash material (sand) around

                          • during its ballistic trajectory, the molten material will solidify in free fall

                          • the solid shape will resemble that of a drop or o sphere

                          • let the material impact a soft surface (i.e. water)

                          • over geological times the water body can dry off, turning into a desert





                          share|improve this answer











                          $endgroup$



                          The following steps, inspired by the process used for manufacturing lead bullets in the past, can determine the formation of spheroidal glassy agglomerates:



                          • take a sandy surface

                          • let a meteor hit that surface

                          • the impact will melt and splash material (sand) around

                          • during its ballistic trajectory, the molten material will solidify in free fall

                          • the solid shape will resemble that of a drop or o sphere

                          • let the material impact a soft surface (i.e. water)

                          • over geological times the water body can dry off, turning into a desert






                          share|improve this answer














                          share|improve this answer



                          share|improve this answer








                          edited 7 hours ago

























                          answered 7 hours ago









                          L.DutchL.Dutch

                          107k33 gold badges254 silver badges516 bronze badges




                          107k33 gold badges254 silver badges516 bronze badges














                          • $begingroup$
                            @Ash, addressed in the edit
                            $endgroup$
                            – L.Dutch
                            7 hours ago










                          • $begingroup$
                            Yup just saw that, that'll work, they won't stay spheroidal for long on the surface but they'll start that way.
                            $endgroup$
                            – Ash
                            7 hours ago

















                          • $begingroup$
                            @Ash, addressed in the edit
                            $endgroup$
                            – L.Dutch
                            7 hours ago










                          • $begingroup$
                            Yup just saw that, that'll work, they won't stay spheroidal for long on the surface but they'll start that way.
                            $endgroup$
                            – Ash
                            7 hours ago
















                          $begingroup$
                          @Ash, addressed in the edit
                          $endgroup$
                          – L.Dutch
                          7 hours ago




                          $begingroup$
                          @Ash, addressed in the edit
                          $endgroup$
                          – L.Dutch
                          7 hours ago












                          $begingroup$
                          Yup just saw that, that'll work, they won't stay spheroidal for long on the surface but they'll start that way.
                          $endgroup$
                          – Ash
                          7 hours ago





                          $begingroup$
                          Yup just saw that, that'll work, they won't stay spheroidal for long on the surface but they'll start that way.
                          $endgroup$
                          – Ash
                          7 hours ago












                          2












                          $begingroup$

                          Sorry no, at least not as a purely, earthbound, geological process, the environment doesn't allow for the amount of multi-directional rolling you would need to round glass into a ball.



                          Glass yes, probably in the form of fulgerites like the Mauritanian example shown below:
                          enter image description here



                          Smooth wind sculpted surfaces yes, the below is a purely wind polished piece of desert glass from Libya:



                          enter image description here



                          But spherical or even near spherical no sorry.



                          You might conceivably get away with a biological process, a creature that eats sand to extract surface nutrients/bacteria/algae on the grains and due to digestive deposition of waste silica cements the grains together in its dung.



                          Given your newly stated goal the desert glass linked above is a good fit, it comes in quite large sections, it is however thought to be the result of a meteor impact rather than lightening strikes.






                          share|improve this answer











                          $endgroup$














                          • $begingroup$
                            Water is an effective way to polish them to spheres. Perhaps the desert is the bottom of a dried up lake or sea, or once contained a sea. Op mentions the sea is nearby. Any shoreline erosion would round any pebbles. The only difficulty I see here is getting the glass pebbles off the beach and into sand, as they'd naturally be located with similarly sized pebbles
                            $endgroup$
                            – Innovine
                            7 hours ago











                          • $begingroup$
                            @Innovine But they won't stay round in a desert environment with windblown sand.
                            $endgroup$
                            – Ash
                            7 hours ago















                          2












                          $begingroup$

                          Sorry no, at least not as a purely, earthbound, geological process, the environment doesn't allow for the amount of multi-directional rolling you would need to round glass into a ball.



                          Glass yes, probably in the form of fulgerites like the Mauritanian example shown below:
                          enter image description here



                          Smooth wind sculpted surfaces yes, the below is a purely wind polished piece of desert glass from Libya:



                          enter image description here



                          But spherical or even near spherical no sorry.



                          You might conceivably get away with a biological process, a creature that eats sand to extract surface nutrients/bacteria/algae on the grains and due to digestive deposition of waste silica cements the grains together in its dung.



                          Given your newly stated goal the desert glass linked above is a good fit, it comes in quite large sections, it is however thought to be the result of a meteor impact rather than lightening strikes.






                          share|improve this answer











                          $endgroup$














                          • $begingroup$
                            Water is an effective way to polish them to spheres. Perhaps the desert is the bottom of a dried up lake or sea, or once contained a sea. Op mentions the sea is nearby. Any shoreline erosion would round any pebbles. The only difficulty I see here is getting the glass pebbles off the beach and into sand, as they'd naturally be located with similarly sized pebbles
                            $endgroup$
                            – Innovine
                            7 hours ago











                          • $begingroup$
                            @Innovine But they won't stay round in a desert environment with windblown sand.
                            $endgroup$
                            – Ash
                            7 hours ago













                          2












                          2








                          2





                          $begingroup$

                          Sorry no, at least not as a purely, earthbound, geological process, the environment doesn't allow for the amount of multi-directional rolling you would need to round glass into a ball.



                          Glass yes, probably in the form of fulgerites like the Mauritanian example shown below:
                          enter image description here



                          Smooth wind sculpted surfaces yes, the below is a purely wind polished piece of desert glass from Libya:



                          enter image description here



                          But spherical or even near spherical no sorry.



                          You might conceivably get away with a biological process, a creature that eats sand to extract surface nutrients/bacteria/algae on the grains and due to digestive deposition of waste silica cements the grains together in its dung.



                          Given your newly stated goal the desert glass linked above is a good fit, it comes in quite large sections, it is however thought to be the result of a meteor impact rather than lightening strikes.






                          share|improve this answer











                          $endgroup$



                          Sorry no, at least not as a purely, earthbound, geological process, the environment doesn't allow for the amount of multi-directional rolling you would need to round glass into a ball.



                          Glass yes, probably in the form of fulgerites like the Mauritanian example shown below:
                          enter image description here



                          Smooth wind sculpted surfaces yes, the below is a purely wind polished piece of desert glass from Libya:



                          enter image description here



                          But spherical or even near spherical no sorry.



                          You might conceivably get away with a biological process, a creature that eats sand to extract surface nutrients/bacteria/algae on the grains and due to digestive deposition of waste silica cements the grains together in its dung.



                          Given your newly stated goal the desert glass linked above is a good fit, it comes in quite large sections, it is however thought to be the result of a meteor impact rather than lightening strikes.







                          share|improve this answer














                          share|improve this answer



                          share|improve this answer








                          edited 7 hours ago

























                          answered 8 hours ago









                          AshAsh

                          33.6k5 gold badges80 silver badges179 bronze badges




                          33.6k5 gold badges80 silver badges179 bronze badges














                          • $begingroup$
                            Water is an effective way to polish them to spheres. Perhaps the desert is the bottom of a dried up lake or sea, or once contained a sea. Op mentions the sea is nearby. Any shoreline erosion would round any pebbles. The only difficulty I see here is getting the glass pebbles off the beach and into sand, as they'd naturally be located with similarly sized pebbles
                            $endgroup$
                            – Innovine
                            7 hours ago











                          • $begingroup$
                            @Innovine But they won't stay round in a desert environment with windblown sand.
                            $endgroup$
                            – Ash
                            7 hours ago
















                          • $begingroup$
                            Water is an effective way to polish them to spheres. Perhaps the desert is the bottom of a dried up lake or sea, or once contained a sea. Op mentions the sea is nearby. Any shoreline erosion would round any pebbles. The only difficulty I see here is getting the glass pebbles off the beach and into sand, as they'd naturally be located with similarly sized pebbles
                            $endgroup$
                            – Innovine
                            7 hours ago











                          • $begingroup$
                            @Innovine But they won't stay round in a desert environment with windblown sand.
                            $endgroup$
                            – Ash
                            7 hours ago















                          $begingroup$
                          Water is an effective way to polish them to spheres. Perhaps the desert is the bottom of a dried up lake or sea, or once contained a sea. Op mentions the sea is nearby. Any shoreline erosion would round any pebbles. The only difficulty I see here is getting the glass pebbles off the beach and into sand, as they'd naturally be located with similarly sized pebbles
                          $endgroup$
                          – Innovine
                          7 hours ago





                          $begingroup$
                          Water is an effective way to polish them to spheres. Perhaps the desert is the bottom of a dried up lake or sea, or once contained a sea. Op mentions the sea is nearby. Any shoreline erosion would round any pebbles. The only difficulty I see here is getting the glass pebbles off the beach and into sand, as they'd naturally be located with similarly sized pebbles
                          $endgroup$
                          – Innovine
                          7 hours ago













                          $begingroup$
                          @Innovine But they won't stay round in a desert environment with windblown sand.
                          $endgroup$
                          – Ash
                          7 hours ago




                          $begingroup$
                          @Innovine But they won't stay round in a desert environment with windblown sand.
                          $endgroup$
                          – Ash
                          7 hours ago











                          2












                          $begingroup$

                          Bring in a desert-dwelling animal or insect.
                          There can be two ways to do this.



                          One is have an animal/insect attracted to the glass itself.



                          Depending on what it's made of, there could be minerals in it the animal needs, but the rest of the glass is useless or even poison. So the animal breaks off the glass and swallows it, leeching out the appropriate substances, then pukes up the rest. It comes out in a lovely glass marble shape, like a clam with it's pearl. It can come out the other end, too, but that's a little less...appealing.



                          Insects are great for sheer number and being able to live practically anywhere, but animals can make larger or even variable sized ones. Though if you had several insects eating the glass chunks from the outside, they could leave behind "balls" of varying shapes and sizes.



                          The other is an animal makes the glass.



                          Same basic idea, but instead of being attracted to the glass itself, it's merely hunting for food. If the animal is something like a snake, it would have a hinged jaw that opens wide to grab it's prey. Since this is an alien world, we could posit that the prey is small, swift, and hides in the sand, and what's been best for this critter's survival (evolution-wise) is the hinge-jawed creature scooping up it's prey, sand and all. It then regurgitates the sand later, and what emerges are these beautiful glass (or glass-seeming but not true glass) balls.



                          In either of these scenarios, over time glass balls would have built up enormously. Even if people now harvest them, these animals continue to burrow beneath the surface, leaving their balls there, and the winds that shift the sand around can also bury them, sometimes deeply, only to unearth them again later. Over the course of centuries you could have quite the motherlode.



                          Either idea would need more hammering out, of course, but it could be a viable way to get the effect you want.






                          share|improve this answer









                          $endgroup$














                          • $begingroup$
                            A biological process is about the only way to restore balls fast enough to have them build up.
                            $endgroup$
                            – John
                            5 hours ago















                          2












                          $begingroup$

                          Bring in a desert-dwelling animal or insect.
                          There can be two ways to do this.



                          One is have an animal/insect attracted to the glass itself.



                          Depending on what it's made of, there could be minerals in it the animal needs, but the rest of the glass is useless or even poison. So the animal breaks off the glass and swallows it, leeching out the appropriate substances, then pukes up the rest. It comes out in a lovely glass marble shape, like a clam with it's pearl. It can come out the other end, too, but that's a little less...appealing.



                          Insects are great for sheer number and being able to live practically anywhere, but animals can make larger or even variable sized ones. Though if you had several insects eating the glass chunks from the outside, they could leave behind "balls" of varying shapes and sizes.



                          The other is an animal makes the glass.



                          Same basic idea, but instead of being attracted to the glass itself, it's merely hunting for food. If the animal is something like a snake, it would have a hinged jaw that opens wide to grab it's prey. Since this is an alien world, we could posit that the prey is small, swift, and hides in the sand, and what's been best for this critter's survival (evolution-wise) is the hinge-jawed creature scooping up it's prey, sand and all. It then regurgitates the sand later, and what emerges are these beautiful glass (or glass-seeming but not true glass) balls.



                          In either of these scenarios, over time glass balls would have built up enormously. Even if people now harvest them, these animals continue to burrow beneath the surface, leaving their balls there, and the winds that shift the sand around can also bury them, sometimes deeply, only to unearth them again later. Over the course of centuries you could have quite the motherlode.



                          Either idea would need more hammering out, of course, but it could be a viable way to get the effect you want.






                          share|improve this answer









                          $endgroup$














                          • $begingroup$
                            A biological process is about the only way to restore balls fast enough to have them build up.
                            $endgroup$
                            – John
                            5 hours ago













                          2












                          2








                          2





                          $begingroup$

                          Bring in a desert-dwelling animal or insect.
                          There can be two ways to do this.



                          One is have an animal/insect attracted to the glass itself.



                          Depending on what it's made of, there could be minerals in it the animal needs, but the rest of the glass is useless or even poison. So the animal breaks off the glass and swallows it, leeching out the appropriate substances, then pukes up the rest. It comes out in a lovely glass marble shape, like a clam with it's pearl. It can come out the other end, too, but that's a little less...appealing.



                          Insects are great for sheer number and being able to live practically anywhere, but animals can make larger or even variable sized ones. Though if you had several insects eating the glass chunks from the outside, they could leave behind "balls" of varying shapes and sizes.



                          The other is an animal makes the glass.



                          Same basic idea, but instead of being attracted to the glass itself, it's merely hunting for food. If the animal is something like a snake, it would have a hinged jaw that opens wide to grab it's prey. Since this is an alien world, we could posit that the prey is small, swift, and hides in the sand, and what's been best for this critter's survival (evolution-wise) is the hinge-jawed creature scooping up it's prey, sand and all. It then regurgitates the sand later, and what emerges are these beautiful glass (or glass-seeming but not true glass) balls.



                          In either of these scenarios, over time glass balls would have built up enormously. Even if people now harvest them, these animals continue to burrow beneath the surface, leaving their balls there, and the winds that shift the sand around can also bury them, sometimes deeply, only to unearth them again later. Over the course of centuries you could have quite the motherlode.



                          Either idea would need more hammering out, of course, but it could be a viable way to get the effect you want.






                          share|improve this answer









                          $endgroup$



                          Bring in a desert-dwelling animal or insect.
                          There can be two ways to do this.



                          One is have an animal/insect attracted to the glass itself.



                          Depending on what it's made of, there could be minerals in it the animal needs, but the rest of the glass is useless or even poison. So the animal breaks off the glass and swallows it, leeching out the appropriate substances, then pukes up the rest. It comes out in a lovely glass marble shape, like a clam with it's pearl. It can come out the other end, too, but that's a little less...appealing.



                          Insects are great for sheer number and being able to live practically anywhere, but animals can make larger or even variable sized ones. Though if you had several insects eating the glass chunks from the outside, they could leave behind "balls" of varying shapes and sizes.



                          The other is an animal makes the glass.



                          Same basic idea, but instead of being attracted to the glass itself, it's merely hunting for food. If the animal is something like a snake, it would have a hinged jaw that opens wide to grab it's prey. Since this is an alien world, we could posit that the prey is small, swift, and hides in the sand, and what's been best for this critter's survival (evolution-wise) is the hinge-jawed creature scooping up it's prey, sand and all. It then regurgitates the sand later, and what emerges are these beautiful glass (or glass-seeming but not true glass) balls.



                          In either of these scenarios, over time glass balls would have built up enormously. Even if people now harvest them, these animals continue to burrow beneath the surface, leaving their balls there, and the winds that shift the sand around can also bury them, sometimes deeply, only to unearth them again later. Over the course of centuries you could have quite the motherlode.



                          Either idea would need more hammering out, of course, but it could be a viable way to get the effect you want.







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                          answered 6 hours ago









                          FirelockeFirelocke

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                          • $begingroup$
                            A biological process is about the only way to restore balls fast enough to have them build up.
                            $endgroup$
                            – John
                            5 hours ago
















                          • $begingroup$
                            A biological process is about the only way to restore balls fast enough to have them build up.
                            $endgroup$
                            – John
                            5 hours ago















                          $begingroup$
                          A biological process is about the only way to restore balls fast enough to have them build up.
                          $endgroup$
                          – John
                          5 hours ago




                          $begingroup$
                          A biological process is about the only way to restore balls fast enough to have them build up.
                          $endgroup$
                          – John
                          5 hours ago











                          0












                          $begingroup$

                          If you don't insist they be glass, then sure. Cave pearls are little spheres of calcium salts that form due to successive periods of wet followed by drying. Each dry period deposits another layer. They can be quite regular shaped. The shape arises due to the regularity of growth, and due to the fact a sphere is the most mass per surface area you can get.



                          So if, instead of glass, it was some sedimentary process, you could get many spheres. Conceivably there are materials that could be produced this way that are transparent or translucent. I don't happen to know one, but it's possible.






                          share|improve this answer









                          $endgroup$



















                            0












                            $begingroup$

                            If you don't insist they be glass, then sure. Cave pearls are little spheres of calcium salts that form due to successive periods of wet followed by drying. Each dry period deposits another layer. They can be quite regular shaped. The shape arises due to the regularity of growth, and due to the fact a sphere is the most mass per surface area you can get.



                            So if, instead of glass, it was some sedimentary process, you could get many spheres. Conceivably there are materials that could be produced this way that are transparent or translucent. I don't happen to know one, but it's possible.






                            share|improve this answer









                            $endgroup$

















                              0












                              0








                              0





                              $begingroup$

                              If you don't insist they be glass, then sure. Cave pearls are little spheres of calcium salts that form due to successive periods of wet followed by drying. Each dry period deposits another layer. They can be quite regular shaped. The shape arises due to the regularity of growth, and due to the fact a sphere is the most mass per surface area you can get.



                              So if, instead of glass, it was some sedimentary process, you could get many spheres. Conceivably there are materials that could be produced this way that are transparent or translucent. I don't happen to know one, but it's possible.






                              share|improve this answer









                              $endgroup$



                              If you don't insist they be glass, then sure. Cave pearls are little spheres of calcium salts that form due to successive periods of wet followed by drying. Each dry period deposits another layer. They can be quite regular shaped. The shape arises due to the regularity of growth, and due to the fact a sphere is the most mass per surface area you can get.



                              So if, instead of glass, it was some sedimentary process, you could get many spheres. Conceivably there are materials that could be produced this way that are transparent or translucent. I don't happen to know one, but it's possible.







                              share|improve this answer












                              share|improve this answer



                              share|improve this answer










                              answered 6 hours ago









                              puppetsockpuppetsock

                              2,6063 silver badges13 bronze badges




                              2,6063 silver badges13 bronze badges
























                                  0












                                  $begingroup$

                                  The glass balls are fossilized honeydew.



                                  The volcanoes in the desert were originally islands. The aphids that lived there were huge due to insular gigantism. Now since they are insects, they don't fossilise as well. When tectonic activity cause the island to connect to the mainland, and then dried the ocean to one side of it, all that was left was the fossilised honeydew. Then the wind blew the fossilised balls and they spread through the desert.



                                  As to why this honeydew fossilised: a small part (~1%) of the giant aphids had a mutation that caused their honeydew to contain light activated resins, which caused it to harden and become inedible to the ants that tended them. The ants would still tend those aphids, but would leave their excrements alone. That is why you can find so much fossilised insect excrement from so many different ages around the desert.






                                  share|improve this answer









                                  $endgroup$



















                                    0












                                    $begingroup$

                                    The glass balls are fossilized honeydew.



                                    The volcanoes in the desert were originally islands. The aphids that lived there were huge due to insular gigantism. Now since they are insects, they don't fossilise as well. When tectonic activity cause the island to connect to the mainland, and then dried the ocean to one side of it, all that was left was the fossilised honeydew. Then the wind blew the fossilised balls and they spread through the desert.



                                    As to why this honeydew fossilised: a small part (~1%) of the giant aphids had a mutation that caused their honeydew to contain light activated resins, which caused it to harden and become inedible to the ants that tended them. The ants would still tend those aphids, but would leave their excrements alone. That is why you can find so much fossilised insect excrement from so many different ages around the desert.






                                    share|improve this answer









                                    $endgroup$

















                                      0












                                      0








                                      0





                                      $begingroup$

                                      The glass balls are fossilized honeydew.



                                      The volcanoes in the desert were originally islands. The aphids that lived there were huge due to insular gigantism. Now since they are insects, they don't fossilise as well. When tectonic activity cause the island to connect to the mainland, and then dried the ocean to one side of it, all that was left was the fossilised honeydew. Then the wind blew the fossilised balls and they spread through the desert.



                                      As to why this honeydew fossilised: a small part (~1%) of the giant aphids had a mutation that caused their honeydew to contain light activated resins, which caused it to harden and become inedible to the ants that tended them. The ants would still tend those aphids, but would leave their excrements alone. That is why you can find so much fossilised insect excrement from so many different ages around the desert.






                                      share|improve this answer









                                      $endgroup$



                                      The glass balls are fossilized honeydew.



                                      The volcanoes in the desert were originally islands. The aphids that lived there were huge due to insular gigantism. Now since they are insects, they don't fossilise as well. When tectonic activity cause the island to connect to the mainland, and then dried the ocean to one side of it, all that was left was the fossilised honeydew. Then the wind blew the fossilised balls and they spread through the desert.



                                      As to why this honeydew fossilised: a small part (~1%) of the giant aphids had a mutation that caused their honeydew to contain light activated resins, which caused it to harden and become inedible to the ants that tended them. The ants would still tend those aphids, but would leave their excrements alone. That is why you can find so much fossilised insect excrement from so many different ages around the desert.







                                      share|improve this answer












                                      share|improve this answer



                                      share|improve this answer










                                      answered 5 hours ago









                                      RenanRenan

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