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- Mars has many volcanoes, just like Earth.<\/strong> Earth\u2019s volcanoes are still active. But on Mars, they\u2019ve been extinct or dormant for millions of years. But how active were they?<\/li>\n
- Using data taken from orbit around Mars,<\/strong> scientists have been able to analyze the minerals from the Pavonis Mons volcanic system.<\/li>\n
- The most recent volcanoes on Mars<\/strong> were more active and complex than previously thought, the analysis shows. The volcanoes erupted many times, fed by long-lasting magma systems below the surface.<\/li>\n<\/ul>\n
EarthSky\u2019s 2026 lunar calendar is available now. Get yours today! Makes a great gift.<\/p>\n
Mars\u2019 most recent active volcanoes<\/h3>\n
Mars is well-known for its many volcanoes, including the largest one in the solar system, Olympus Mons. On February 11, 2026, a new study from researchers in Poland, the U.S. and the U.K., said the most recent volcanic systems on Mars were more complex and active than previously thought. Instead of just single, short eruptions, there were long-lasting and complex magma systems that fed the volcanoes.<\/p>\n
The new evidence comes from high-resolution morphological observations and mineral analyses from spacecraft in orbit. The study focused on a volcanic system south of Pavonis Mons, another of Mars\u2019 largest volcanoes.<\/p>\n
The researchers published their peer-reviewed findings in the journal Geology<\/em> on January 29, 2026.<\/p>\n
Recent volcanoes on Mars more active than 1st thought<\/h3>\n
In the study, the researchers combined detailed surface maps of Pavonis Mons with orbital mineral data. By doing so, they could trace back the volcanic history of this area. Since each eruptive phase preserved a distinct mineral signature, this allowed scientists to trace how the magma changed through time. First author Bartosz Pieterek at Adam Mickiewicz University in Poland said:<\/p>\n
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Our results show that even during Mars\u2019 most recent volcanic period, magma systems beneath the surface remained active and complex. The volcano did not erupt just once; it evolved over time as conditions in the subsurface changed.<\/p>\n<\/blockquote>\n
![\"Reddish-brown](\"https:\/\/earthsky.org\/upl\/2026\/02\/Tharsis-volcanoes-Mars-Mars-Express-ESA-March-27-2024.jpg\")
View larger. | Perspective view of the Tharsis volcanoes on Mars. Pavonis Mons is the middle volcano in the line of 3 volcanoes. The largest volcano, Olympus Mons, is at the planet\u2019s limb in this view. Image via ESA\/ DLR\/ FU Berlin (CC BY-SA 3.0 IGO).<\/figcaption><\/figure>\n ![\"Man](\"https:\/\/earthsky.org\/upl\/2026\/02\/Bartosz-Pieterek-Adam-Mickiewicz-University.jpeg\")
Bartosz Pieterek at Adam Mickiewicz University in Poland led the new research study about recent volcanoes on Mars. Image via Google Scholar.<\/figcaption><\/figure>\n \n
Mars\u2019 \u201cYoung\u201d Volcanoes Were More Complex Than Scientists Once Thoughtastrobiology.com\/2026\/02\/mars\u2026 #astrobiology #mars #astrogeology<\/p>\n
\u2014 Astrobiology (@astrobiology.bsky.social) 2026-02-12T20:40:19.275Z<\/p>\n<\/blockquote>\n
Multiple phases of eruptions<\/h3>\n
Although extinct or dormant now, the Pavonis Mons volcanic system experienced multiple eruptions. Over time, it transitioned from early fissure-fed lava emplacement to point-source activity that produced cone-forming vents.<\/p>\n
The mineral signatures of each eruptive phase provided important clues, as Pieterek noted:<\/p>\n
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These mineral differences tell us that the magma itself was evolving. This likely reflects changes in how deep the magma originated and how long it was stored beneath the surface before erupting.<\/p>\n<\/blockquote>\n
![\"View](\"https:\/\/earthsky.org\/upl\/2025\/12\/Phobos-over-Mars-dust-storm-ESADLRFUBerlinAndreaLuck-CC-BY.jpg\")
View larger. | In this stunning view, ESA\u2019s Mars Express is looking down at 3 of the Tharsis volcanoes on Mars as the moon Phobos passed by. To the lower right of Phobos is the Noctis Labyrinthus (Labyrinth of the Night) and Valles Marineris, the largest canyon in the solar system. Image via ESA\/ DLR\/ FUBerlin\/ Andrea Luck (CC BY 4.0).<\/figcaption><\/figure>\n ![\"Large](\"https:\/\/earthsky.org\/upl\/2024\/06\/Olympus-Mons-Mars-Express-frost.jpeg\")
View larger. | Olympus Mons, the largest volcano in the solar system, as seen by Mars Express. Image via ESA\/ DLR\/ FU Berlin\/ University of Berlin.<\/figcaption><\/figure>\n Volcanoes on Mars were diverse<\/h3>\n
In 2024, another study showed Martian volcanoes in general were more diverse than previously known. This was despite Mars lacking plate tectonics.<\/p>\n
That research suggested Mars\u2019 volcanoes, when active, were driven by vertical tectonics. That is, the crust shifted up and down instead of sideways.<\/p>\n
Overall, these studies illustrate how geologically active Mars was billions of years ago, even though the processes might be different in some ways from Earth. And while Mars\u2019 volcanoes are no longer erupting, there is growing evidence for some residual volcanic activity still occurring underground today. Evidence for this comes from NASA\u2019s InSight lander, which detected thousands of marsquakes, the equivalent of earthquakes.<\/p>\n
Bottom line: Scientists used orbital data to study minerals from volcanoes on Mars. They found recent volcanoes on Mars were more complex than they expected, with ongoing eruptions fed by long-lived magma systems.<\/p>\n
Source: Spectral evidence for magmatic differentiation within a Martian plumbing system<\/p>\n
Via The Geological Society of America<\/p>\n
Read more: New study reveals hidden Mars volcano near NASA rover<\/p>\n
Read more: Spotted! Water frost on Mars volcanoes for 1st time<\/p>\n<\/div>\n
\n - Using data taken from orbit around Mars,<\/strong> scientists have been able to analyze the minerals from the Pavonis Mons volcanic system.<\/li>\n