A Mars orbiter has just taken a “deep dive” into an ancient Martian lake, figuratively, at least.
Larger than any lake currently on Earth, the dried-up remnants of this ancient lakebed were just captured in incredible detail by the European Space Agency (ESA) Mars Express spacecraft, which has been orbiting the Red Planet since 2003.
“This patch of Mars — shown in a new view from Mars Express’s High-Resolution Stereo Camera (HRSC) — is known as Caralis Chaos,” ESA scientists wrote in a statement. “We believe that water, and a lot of it, once existed here.”
In the Caralis Chaos region lie several now-empty basins that form the remnants of Lake Eridania, an ancient lake that had an area of roughly 424,712 square miles (1.1 million square kilometers) — about the size of Egypt!
ESA scientists believe the lake likely existed around 3.7 billion years ago and contained enough water to fill the Caspian Sea three times over.
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Lake Eridania eventually began to dry out, transitioning from a gargantuan body of water to a series of smaller lakes before disappearing completely alongside much of the rest of the water on Mars.
Unlike Earth, Mars does not possess a natural magnetic field. Without this magnetic “bubble” to protect the Red Planet against the solar wind, which consists of high-energy charged particles that stream from the sun, Mars’ atmosphere was eroded away. This led to the evaporation of its liquid water and then this water vapor leaking from the atmosphere to space.
The ancient lakebed is now dry and filled with raised mounds formed by winds that swept dust across the planet.
“This dust was later covered and altered by water before drying out again and breaking apart,” stated the ESA team.
The Mars Express images also showcase two long cracks that run through the region, cutting through the ancient lakebed. These are known as the Sirenum Fossae faults and are evidence of volcanic activity in the region.
They were formed as the Tharsis region of Mars, which hosts the solar system’s largest volcanoes, developed, putting incredible stress on Mars’s crust—the evidence of which can be seen here.
“Volcanic stress is also to blame for the many wrinkle ridges found here,” continued the ESA team. “These appear as wriggly lines weaving across the frame horizontally. Wrinkle ridges are common on volcanic plains, forming as new lava sheets are compressed while still soft and elastic, causing them to buckle and deform.”
More evidence of water can also be found in the region’s impact craters, which formed when objects from space collided with the Martian surface.
The large central crater shows evidence of material flowing away from the site of impact. The ESA team believes this may indicate that water existed in this area even after Lake Eridania disappeared.
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