NASA released a significant update from the Perseverance Mars rover on Wednesday, focusing on a particularly juicy tidbit for those watching from home: A small rock sample called Sapphire Canyon showed signs of potential biosignatures, or ancient alien life that may have once grown on Mars. That's possible because of the unique location where Perseverance located the sample in July 2024. It came from a rock named Cheyava Falls. This particular rock is in Jezero Crater, home to an ancient dry riverbed. In other words, water once flowed abundantly in this spot, one of the most essential requirements for life as we know it. A representative for NASA did not immediately respond to a request for comment. While exploring, Perseverance's cameras picked up colorful, leopard-like spots that eventually led to the Sapphire Canyon discovery. "This finding is the direct result of NASA's effort to strategically plan, develop, and execute a mission able to deliver exactly this type of science — the identification of a potential biosignature on Mars," said Nicky Fox, associate administrator, Science Mission Directorate at NASA headquarters in Washington. Life on Mars? So, does this finally confirm that life once existed on Mars? It's a very good start, and the most significant lead NASA has found so far. The data collected by Perseverance using its onboard instruments (X-ray lithochemistry and NASA's SHERLOC scanner) was peer-reviewed and appears promising, but it doesn't absolutely confirm life. More tests and input are needed for that, and the samples could have been generated from a natural chemical process without the presence of life. But scientists are excited about these signs and eager to learn more. What kind of Mars life are we talking about? It's not the sort that comes in peace, or goes much of anywhere. The possible biosignatures indicate small, microbial life. Sapphire Canyon showed signs of vivianite and greigite. Vivianite, in particular, is found on Earth's peat bogs and swamps, while greigite is a byproduct some earth microbes leave behind. Think of this finding like a potential algae or swamp scum. NASA is working on analyzing the data, running more tests and sharing the results with other scientists around the world to see what more they can learn. There's a lot to rule out, from accidental sample contamination to the likelihood of nonorganic origins. That's tough to do from millions of miles away, but NASA is on the case.