Led by NASA and featuring key​ analysis from Imperial ⁣College London, the work⁤ has uncovered a range of minerals and organic ‌matter in Martian rocks that point to an ancient history of habitable conditions and potential biological processes ⁣on the Red Planet.

An international team,including researchers from ‍the Department of Earth Science and Engineering (ESE) at Imperial,propose that thes geological ‌features within the so-called‌ Bright Angel formation in Mars’s Jezero Crater are closely connected⁢ to‌ organic carbon,and could be a compelling potential biosignature of past life.

Professor Sanjeev gupta,Professor of Earth Science in ESE,and Academic Co-director of imperial ⁤Global India,said:‍ “This‌ is a‍ very exciting discovery of a potential biosignature but it does‌ not mean we‌ have discovered life on Mars.we now need to analyze this rock sample​ on Earth to truly confirm if ​biological processes were involved or not.”

Promising Signs

A core component of NASA’s Mars 2020 mission,the Perseverance⁣ Rover has been exploring the 45-kilometre-wide Jezero Crater since 2021,a site chosen because it once held a huge⁤ lake and a river delta – environments that are considered‍ prime targets in the search ‌for signs of past life. Its ‌key‌ goal is to collect and store ‍the first set of selected⁣ rock⁣ and soil samples that will be ⁤brought back to Earth‌ for detailed analysis.

the new study, published in Nature, focuses on a distinctly light-toned outcrop in the crater, dubbed ‘Bright Angel’, ‍located within an ancient ​river ‍valley⁣ which provided water to the Jezero lake.

While driving through the valley, called ‌neretva Vallis, Perseverance came across a thick succession of fine-grained mudstones and‍ muddy conglomerates. Hear, it conducted a detailed analysis of⁤ these rocks, using instruments such as the Planetary Instrument for X-ray Lithochemistry⁢ (PIXL) and⁢ Scanning Habitable Environments with Raman & Luminescence ‍for Organics & Chemicals (SHERLOC).

An Unexpected Lake

By‌ mapping the​ types and distributions of different sedimentary rocks at Bright Angel, ESE researchers (including Professor Gupta ⁢and dr