Meteorites and marsquakes hint at an underground ocean of liquid water on the red planet

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Meteorites and marsquakes hint at an underground ocean of liquid water on the red planet

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/applications/core/interface/js/spacer.png"> Credit: UAESA / MBRSC / Hope Mars Mission / EXI / Andrea Luck,

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Evidence is mounting that a secret lies beneath the dusty red plains of Mars, one that could redefine our view of the red planet: a vast reservoir of liquid water, locked deep in the crust.

Mars is covered in traces of ancient bodies of water. But the puzzle of exactly where it all went when the planet turned cold and dry has long intrigued scientists.

Our

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published in the National Science Review may offer an answer. Using seismic data from NASA’s InSight mission, we uncovered evidence that the seismic waves slow down in a layer between 5.4 and 8 kilometers below the surface, which could be because of the presence of liquid water at these depths.

The mystery of the missing water

Mars wasn’t always the barren desert we see today.

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, during the Noachian and Hesperian periods (4.1 billion to 3 billion years ago), rivers carved valleys and lakes shimmered.

As Mars’ magnetic field faded and its atmosphere thinned, most surface water vanished. Some escaped to space, some froze in polar caps, and some was trapped in minerals, where it remains today.

But evaporation, freezing and rocks can’t quite account for all the water that must have covered Mars in the distant past. Calculations

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the “missing” water is enough to cover the planet in an ocean at least 700 meters deep, and perhaps up to 900 meters deep.

One hypothesis has been that the missing water seeped into the crust. Mars was heavily bombarded by meteorites during the Noachian *******, which may have formed fractures that channeled water underground.

Deep beneath the surface, warmer temperatures would keep the water in a liquid state—unlike the frozen layers nearer the surface.

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/applications/core/interface/js/spacer.png"> Four billion years ago (top left), Mars may have hosted a huge ocean. But the surface water has slowly disappeared, leaving only frozen remnants near the poles today. Credit:

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A seismic snapshot of Mars’ crust

In 2018, NASA’s

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touched down on Mars to listen to the planet’s interior with a super-sensitive

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.

By studying a particular kind of vibration called “shear waves,” we found a significant underground anomaly: a layer between 5.4 and 8 kilometers down where these vibrations move more slowly.

This “low-velocity layer” is most likely highly porous rock filled with liquid water, like a saturated sponge. Something like Earth’s aquifers, where groundwater seeps into rock pores.

We calculated the “aquifer layer” on Mars could hold enough water to cover the planet in a global ocean 520–780m deep—several times as much water as is held in Antarctica’s ice sheet.

This volume is compatible with estimates of Mars’ “missing” water (710–920m), after accounting for losses to space, water bound in minerals, and modern ice caps.

Meteorites and marsquakes

We made our discovery thanks to two meteorite impacts in 2021 (named S1000a and S1094b) and a marsquake in 2022 (dubbed S1222a). These events sent seismic waves rippling through the crust, like dropping a stone into a pond and watching the waves spread.

InSight’s seismometer captured these vibrations. We used the high-frequency signals from the events—think of tuning into a crisp, high-definition radio station—to map the crust’s hidden layers.

We calculated “receiver functions,” which are signatures of these waves as they bounce and reverberate between layers in the crust, like echoes mapping a cave. These signatures let us pinpoint boundaries where rock changes, revealing the water-soaked layer 5.4 to 8 kilometers deep.

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Why it matters

Liquid water is essential for life as we know it. On Earth, microbes thrive in deep, water-filled rock.

Could similar life, perhaps relics of ancient Martian ecosystems, persist in these reservoirs? There’s only one way to find out.

The water may be a lifeline for more complex organisms, too—such as future human explorers. Purified, it could provide drinking water, oxygen, or fuel for rockets.

Of course, drilling kilometers deep on a distant planet is a daunting challenge. However, our data, collected near Mars’ equator, also hints at the possibility of other water-rich zones—such as the icy mud reservoir of Utopia Planitia.

What’s next for Mars exploration?

Our seismic data covers only a slice of Mars. New missions with seismometers are needed to map potential water layers across the rest of the planet.

Future rovers or drills may one day tap these reservoirs, analyzing their chemistry for traces of life. These water zones also require protection from Earthly microbes, as they could harbor native Martian biology.

For now, the water invites us to keep listening to Mars’ seismic heartbeat, decoding the secrets of a world perhaps more like Earth than we thought.

More information:
Weijia Sun et al, Seismic evidence of liquid water at the base of Mars’ upper crust, National Science Review (2025).

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Meteorites and marsquakes hint at an underground ocean of liquid water on the red planet (2025, May 12)
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