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  • Between oceans, glaciers, polar ice caps, and lakes,

  • watery goodness covers almost 71% of Earth’s surface.

  • And that’s pretty specialEarth is the only one of the rocky planets in our solar system with this much water.

  • So when it comes to BIG questions, one of the biggest is where did Earth’s water originally come from?

  • One new study says maybethe Sun?

  • But to get there, we gotta start a little further back.

  • For decades, planetary scientists and astrobiologists have been building two competing hypotheses

  • for just how Earth got so gosh dang WET.

  • Option one: Water was inside the Earth when it formed in the first place.

  • The idea goes that minerals in the mantle of our ancient, primordial Earth stored hydrogen and oxygen.

  • When those minerals melted in the natural course of geothermal activity,

  • the hydrogen and oxygen dissolved together in the magma as water.

  • When that magma got spewed out onto Earth’s surface via volcanoes, the water came too.

  • Alternatively, maybe those elements stored in Earth’s minerals were vaporized by an impact from some comet or asteroid

  • possibly even the BIG impact we think created our moon!

  • Those vaporized elements combined and settled on the Earth’s surface, resulting in our life-giving liquid.

  • But option two is an answer that doesn’t come from so close to home.

  • Many scientists think that water was just chillinon comets, meteorites, asteroids, etc., out in space.

  • When these guys crashed into ushey presto, water on Earth!

  • Where this gets a little sticky though, is the numbers.

  • Scientists have studied the remnants of asteroids and meteorites that crashed into us

  • wayyyyy back at our planet’s beginning.

  • These do contain certain kinds of hydrogen, what are called isotopes.

  • But the ratio of the hydrogen isotopes on these ancient astrophysical bodies

  • doesn’t match the ratio in our oceans today.

  • To get the right ratio, the water from these crashed objects would have needed to mix with another,

  • lighter isotope of hydrogen for us to get the kind of water we have today.

  • So, where’d thatdifferentwater come from?

  • This is where we come back to the Sun.

  • It seems pretty bizarre that our WATER could have come from a giant ball of burning gas, but stay with me.

  • See, our Sun is constantly undergoing nuclear fusion.

  • That’s an incredibly energetic process that means its outermost atmospheric layer, the corona,

  • reaches over one million degrees Celsius.

  • This extreme heat flings particles out from the Sun’s surface, mostly protons and electrons,

  • creating streams of particles that can travel all throughout our solar system

  • at around 1.6 million kilometers per hour.

  • In 2021, a team analyzed minuscule grains of dust collected by the Hayabusa space probe

  • from a near-Earth asteroid called Itokawa.

  • They irradiated this dust with protons like those found in solar wind, and that process made water!

  • And this water fits the profile of what would have been needed to even out our hydrogen imbalance.

  • An asteroid like that could definitely have been the start to our waterworld oasis

  • scientistscalculations found that Itokawa may contain up to 20 liters of water for every cubic meter of rock.

  • So now thespace rocks crashing into Earthoption has another strong argument in its favor.

  • But the other contending hypothesis isn’t going down without a fight.

  • Because exciting new evidence from Mars indicates that the Red planet also had water right from the beginning,

  • meaning thewater was with us all longhypothesis may apply to more than just Earth.

  • But whether water came from the outside in OR the inside out

  • if eitheror bothof those happened, that means there may be water on other rocky planets too

  • that are also a perfect distance from THEIR star.

  • Andwell.

  • As we know, where there’s water, there’s life.

  • It's just another piece of the puzzle clicking into place, telling us that we are almost certainly not alone in our universe.

  • If you want more on perfect planetary candidates for extraterrestrial life, then check out this video here.

  • If you have questions about this work or want us to cover something similar, leave us a comment down below,

  • and subscribe to Seeker for all your space dust updates.

  • As always, thanks for watching, and I’ll see ya next time.

Between oceans, glaciers, polar ice caps, and lakes,

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Did Water Crash Into Earth From Space?

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    Summer に公開 2021 年 12 月 01 日
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