MSL Curiosity is going about its business exploring Mars. The high-tech rover is currently exploring the sulphate-bearing unit on Mt. Sharp, the central peak in Mars’ Gale Crater. Serendipity placed a metal meteorite in its path.
The meteorite is made mostly of nickel and iron, and it has a name: Cacao. (Chocolate comes from cacao.) Cacao isn’t very large; it’s only about 30 cm (1 ft.) across. Curiosity has come across several meteorites since landing in Gale Crater in August 2012.
Cacao stands out visually from its surroundings. While the Martian surface is red from oxides, the meteorite is dark grey and metallic-looking. It’s also smooth and rounded, obvious signs that it passed through an atmosphere.
The image is a composite of six individual images taken with the rover’s Mastcam. Curiosity captured the images on Jan 27, 2023, the 3,724th Martian day, or sol, of the mission. The colours in the image have been corrected to match the lighting conditions as seen with human eyes on Earth.
A high-resolution TIFF is available at https://photojournal.jpl.nasa.gov/catalog/PIA25737 Credit: NASA/JPL-Caltech/MSSS
The grooves and pits are called regmaglypts. They’re particularly interesting on iron meteorites. They formed when Cacao was travelling through the atmosphere. Even though Mars’ atmosphere is much thinner than Earth’s, it still creates enough friction to heat the meteorite’s surface. The regmaglypts are likely created by vortices of hot gas that melted the rock as it travelled through the atmosphere.
MSL Curiosity found the iron-nickel meteorite “Cacao” on January 27th, 2023. Image Credit: NASA/JPL-Caltech/MSSS
The meteorite may have been on Mars’ surface for a long time, but nobody knows for sure.
This isn’t the first meteorite rovers have found on Mars. In 2016, MSL Curiosity found another metal meteorite about the size of a golf ball named “Egg Rock.” It examined that one with its ChemCam instrument to determine its composition. The grid pattern of five small white dots shows where the instrument’s laser struck the rock.
The dark, smooth-surfaced object at the center of this Oct. 30, 2016, image from the Mast Camera (Mastcam) on NASA’s Curiosity Mars rover was examined with laser pulses and confirmed to be an iron-nickel meteorite. Its surface is also marked with regmaglypts. Image Credit: NASA/JPL-Caltech/MSSS
Iron-nickel meteorites are the rarest type of meteorites, making up about 6% of witnessed falls. But because of their tell-tale visual appearance, they’re over-represented in collections. That’s because they’re more likely to survive passage through an atmosphere and are more resistant to weathering, even on Mars.
Most iron-nickel meteorites come from the cores of shattered planetesimals that formed in the early Solar System. Those objects were large enough to differentiate when they were molten. They formed a core of dense iron and nickel, much like Earth did. But life as a planetesimal was risky, and many of them were shattered into asteroids. That’s Cacao’s likely history.
Curiosity found this iron meteorite called “Lebanon” back in 2014. It’s about 2 yards or 2 meters wide (left to right, from this angle). The smaller piece in the foreground is called “Lebanon B.” This photo combines a series of high-resolution circular images across the middle taken by the Remote Micro-Imager (RMI). Credit: NASA/JPL-Caltech/LANL/CNES/IRAP/LPGNantes/CNRS/IAS/MSSS
That’s what makes meteorites, and especially metal ones, so scientifically interesting. They can date back billions of years to the beginning of the Solar System.
On Earth, meteorites like Cacao were humanity’s first source of iron. Long before smelting, people collected these meteorites when they could and made knives and other implements out of them. King Tut was buried with a dagger made of meteoric iron, and the Inuit people in the Arctic and in Greenland also used meteoric iron. They repeatedly visited one particularly large iron meteorite called the Cape York meteorite. They hammered off chunks of iron to shape into harpoon tips and started their own iron age without knowing anything about smelting. They even traded iron with other groups of people.
But only our robot explorers will ever set eyes on Cacao.
Cacao is only an interesting oddity to MSL Curiosity. Curiosity’s job is to study Gale Crater, Mt. Sharp, and features like the sulphur-bearing unit. The unit is rich in salty minerals that formed in the presence of water. By researching the area, Curiosity is shedding light on Mars’ ancient history, and how it dried up to become the dessicated wasteland it is now.
Finding Cacao is just a bonus.
Zooming into Cacao’s fascinating pits and ridges. Image Credit: NASA/JPL-Caltech/MSSS
Source: universetoday.com