A photo of the "mineral flower" alongside other diagenetic features on the surface of Mars captured by NASA's Curiosity rover on Feb. 25.

A photo of the “mineral flower”  alongside other diagenetic features on the surface of Mars captured by NASA’s Curiosity rover on Feb. 25. (Image credit: NASA/JPL-Caltech/MSSS)

NASA’s Curiosity rover recently got up close and personal with a tiny, flower-like mineral deposit on the surface of Mars. The beautiful branching rock, which is just 0.4 inch (1 centimeter) wide, looks a bit like a coral or a sponge. Despite its likeness to a living organism, however, the deposit is not alive and is a fairly common sight across the Martian landscape.  

Curiosity snapped a picture of the tiny mineral flower on Feb. 25 near Aeolis Mons, also known as Mount Sharp, at the heart of the 96-mile-wide (154 kilometers) Gale crater, which the rover has been studying since its arrival on the Red Planet in 2012. The image is a composite of multiple shots taken by Curiosity’s Mars Hand Lens Imager, which takes close-ups using a magnifying lens. This type of composite photo allows the rover to produce much more detailed images, according to NASA

The flower-like rock, which has been named the Blackthorn Salt, is a diagenetic feature, or one made from minerals that precipitated from ancient water that had previously been mixed with Martian rock, Abigail Fraeman, a planetary scientist and deputy project scientist for the Curiosity rover, told Live Science. Diagenetic features found on Mars are similar in size but can have either a branched shape, also known as dendritic form, like the Blackthorn Salt, or be more rounded or even spherical, like other rocks in the same photo, she added.

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“We’ve seen diagenetic features with similar shapes before,” Fraeman said, “but this dendritic shape is particularly beautiful.”

Curiosity has uncovered several other diagenetic features since its arrival in Gale crater. That’s not surprising given that the crater could once have been a lake that would have provided the water from which such features precipitate. In 2015, several other flower-like deposits were discovered in the Pahrump Hills area, and in 2019, other diagenetic features were found at the Murray formation

A black and white photo of the "Martian blueberries" on the Martian surface (left) and a close up of their surface (right), both taken by NASA's Opportunity rover on Feb. 9, 2004.

A black and white photo of the “Martian blueberries” on the Martian surface (left) and a close up of their surface (right), both taken by NASA’s Opportunity rover on Feb. 9, 2004. (Image credit: JPL-Caltech/Cornell/USGS)

And in 2004, Curiosity’s older sibling, the Opportunity rover, found a number of spherical features on Meridiani Planum — a plain-like area near the Martian equator —  with a bluish-silver hue, earning them the nickname “Martian blueberries.” These rocks were blue because they were composed of hematite, a type of iron oxide, Fraeman said. The Blackthorn Salt and other features photographed by Curiosity have a composition and color almost identical to those of the surrounding bedrock, she added. 

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Continuing to document new diagenetic features like the Blackthorn Salt is important because it could help researchers figure out when liquid water disappeared from Mars. “We can learn more about the complex and long-lived history of water at Mount Sharp,” Fraeman said. This could reveal more information about how long the environment could have been potentially habitable to life, she added.

Originally published on Live Science.

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