Science matters. Wonder matters. You matter. Join our 2025 Donation Campaign today.<\/strong><\/p>\n Is Venus still geologically active? The planet doesn\u2019t have tectonic plates like Earth does, but it does have many volcanoes, with growing evidence that at least some of them are still active. Now, there is new evidence that \u2013 despite the lack of tectonic plates \u2013 tectonic activity is still reshaping Venus\u2019 surface. Researchers said on May 14, 2025, that analysis of huge semicircular features called coronae revealed clues about ongoing tectonic processes on Venus. The scientists used archival data from NASA\u2019s Magellan mission for the study.<\/p>\n The researchers, from NASA\u2019s Goddard Space Flight Center, University of Maryland and University of Bern in Switzerland, published their peer-reviewed findings in Science Advances<\/em> on May 14, 2025.<\/p>\n Although Venus is rocky and almost the same size as Earth, it lacks tectonic plates. Tectonic plates are the pieces of Earth\u2019s crust that float on molten material beneath them. They are constantly shifting and recycling the material on the planet\u2019s surface. The scientific theory of them is known as plate tectonics<\/em>.<\/p>\n But just because Venus doesn\u2019t have tectonic plates doesn\u2019t mean it can\u2019t be tectonically active<\/em>. There could still be hot magma below the surface. Indeed, the growing evidence for still-active volcanoes on Venus suggests this. So is Venus still tectonically active as well? To try to answer that question, the researchers looked at features on Venus called coronae.<\/p>\n “#Coronae” are defined by a (partial) quasi-circular ring of closely spaced concentric fractures. They are hugely abundant on #Venus’ surface and considered key for Venus’ tectonic and volcanic history ???doi.org\/10.1029\/2024\u2026<\/p>\n \u2014 Dr. Anna G\u00fclcher (@planetaryanna.bsky.social) 2025-05-08T07:14:02.956Z<\/p>\n<\/blockquote>\n Coronae are huge semicircular or oval features ranging from dozens to hundreds of miles across. And scientists have identified hundreds of them on Venus. They have no counterparts on Earth. Scientists think they are spots where hot material, or magma, is pushing up to the surface from the mantle below. As a result, the coronae tend to have a fractured appearance.<\/p>\n For the new study, the researchers used data from the Magellan mission to Venus. Magellan launched in 1989 and orbited Venus until 1994. That data might be old, but it is still the most detailed gravity and topography data that scientists have to work with.<\/p>\n Lead author Gael Cascioli is an assistant research scientist at the University of Maryland and NASA\u2019s Goddard Space Flight Center in Greenbelt, Maryland. He said:<\/p>\n Coronae are not found on Earth today; however, they may have existed when our planet was young and before plate tectonics had been established. By combining gravity and topography data, this research has provided a new and important insight into the possible subsurface processes currently shaping the surface of Venus.<\/p>\n<\/blockquote>\n Scientists still aren\u2019t sure how coronae form. But there are a lot of them, and they\u2019re in regions where the lithosphere \u2013 the crust and solid upper part of the mantle \u2013 is thin and there is subsurface heat. There might be multiple explanations for them, as Anna G\u00fclcher, a scientist at the University of Bern, noted:<\/p>\n Coronae are abundant on Venus. They are very large features, and people have proposed different theories over the years as to how they formed. The most exciting thing for our study is that we can now say there are most likely various and ongoing active processes driving their formation. We believe these same processes may have occurred early in Earth\u2019s history.<\/p>\n<\/blockquote>\n The researchers used complex 3D geodynamic models to illustrate various formation scenarios for plume-induced coronae. Then, they combined that with both the gravity and topography data from Magellan. The researchers studied 75 coronae altogether. They found that 52 of them had hot, buoyant material, or magma, beneath them.<\/p>\n This might be evidence of subduction. On Earth, this happens when the edge of one tectonic plate slips beneath an adjacent plate. But on Venus, the plume of magma simply pushes upward, causing surface material to rise and spread outward.<\/p>\n Two other processes might also be occurring. One is called lithospheric dripping, where accumulations of cooler material sink back down from the lithosphere into the mantle. Also, in places where the lithosphere is thicker, plumes of magma could drive volcanism on the surface.<\/p>\n The findings show that, despite not having tectonic plates, the geological processes on Venus are still more Earth-like than previously thought.<\/p>\n NASA is planning a new orbiter mission to Venus called VERITAS, to launch no earlier than 2031. The gravity maps that VERITAS produces will be much higher in resolution than those of Magellan. They will help scientists better understand what is happening on and below Venus\u2019 surface. As noted in the paper, it will observe 427 coronae. Co-author Suzanne Smrekar, a planetary scientist at JPL and principal investigator for VERITAS, said:<\/p>\n The VERITAS gravity maps of Venus will boost the resolution by at least a factor of two to four, depending on location; a level of detail that could revolutionize our understanding of Venus\u2019 geology and implications for early Earth.<\/p>\n<\/blockquote>\n VERITAS will also use synthetic aperture radar to create 3D global maps, as well as a near-infrared spectrometer to study the composition of Venus\u2019 surface. In addition, it will measure Venus\u2019 gravitational field for clues about the overall structure of Venus\u2019 interior.<\/p>\n The European Space Agency\u2019s Envision mission, to launch in the early 2030s, will also study Venus\u2019 gravitational field in great detail.<\/p>\n Bottom line: Are there active tectonics on Venus? A new study of the planet\u2019s enigmatic coronae, based on old data from NASA\u2019s Magellan mission, says yes.<\/p>\n Source: A spectrum of tectonic processes at coronae on Venus revealed by gravity and topography<\/p>\n Via NASA<\/p>\n Read more: Active Venus volcanoes revealed again in Magellan data<\/p>\n Read more: Venus\u2019 clouds could soon be brought to Earth<\/p>\n <\/div>\n\n
Active tectonics on Venus?<\/h3>\n
Venus lacks tectonic plates<\/h3>\n
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Venus\u2019 enigmatic cornoae<\/h3>\n
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![\"4](\"https:\/\/earthsky.org\/upl\/2025\/05\/oronae-mosaic-Venus-Magellan-May-14-2025.jpg\")
<\/figcaption><\/figure>\nTheories about coronae and tectonics on Venus<\/h3>\n
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![\"Smiling](\"https:\/\/earthsky.org\/upl\/2025\/05\/Gael-Cascioli-University-of-Maryland-Goddard-Space-Flight-Center.png\")
Venus\u2019 geology more Earth-like than thought<\/h3>\n
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