There is a mass reservoir of water floating in space that is 100,000 times bigger than our sun and holds 140 trillion times more water than all of our oceans.
The Universe's Biggest Water Cloud Dwarfs Our Oceans
Floating 12 billion light-years from Earth is the largest known reservoir of water in the universe—and it makes our planet's oceans look like a puddle. This cosmic water cloud holds 140 trillion times more water than all of Earth's oceans combined, and it's 100,000 times more massive than our Sun.
The water isn't liquid, ice, or even steam as we know it. It exists as vapor molecules spread across hundreds of light-years of space, surrounding a feeding supermassive black hole in a system called APM 08279+5255. Astronomers detected it in 2011 using specialized instruments that can identify water's unique spectral signature across vast cosmic distances.
A Black Hole's Humid Neighborhood
The water vapor surrounds a quasar—an intensely bright region powered by a black hole eating matter at an extraordinary rate. This particular black hole weighs 20 billion times more than our Sun and pumps out energy equal to a thousand trillion suns. All that activity heats the surrounding gas to temperatures that allow water molecules to form and persist despite the hostile environment.
The vapor exists at about -53°C (warmer than you'd expect for deep space), with molecules spread thin across the region—about 300 trillion times less dense than Earth's atmosphere. Despite this diffuse distribution, the sheer volume creates that staggering total mass of water.
Why This Changes Our Understanding
Finding this much water so far away—and therefore so far back in cosmic history—tells scientists that water has been common in the universe for most of its existence. Since we're seeing this system as it was 12 billion years ago (light takes that long to reach us), water was abundant when the universe was only 1.6 billion years old.
This discovery shattered assumptions about how rare or recent water might be on cosmic scales. Water isn't just an Earth phenomenon or even a solar system oddity—it's woven into the fabric of the universe itself, present in quantities that make our "water planet" seem almost dry by comparison.
Perspective Check
To wrap your mind around these numbers: if you could somehow collect all of Earth's ocean water, you'd need to repeat that collection 140 trillion times to match what's floating around this single quasar. That's roughly 4,000 times the water contained in every comet, planet, moon, and ice cloud in our solar system—multiplied by every star in the Milky Way.
The universe, it turns out, is not only stranger than we imagine—it's considerably wetter.