有料盒子视频 scientist offers evidence that Venus is volcanically active
Rod Boyce
907-474-7185
March 15, 2023
Venus appears to have volcanic activity, according to a new research paper that offers strong evidence to answer the lingering question about whether Earth鈥檚 sister planet currently has eruptions and lava flows.
Venus, although similar to Earth in size and mass, differs markedly in that it does not have plate tectonics. The boundaries of Earth鈥檚 moving surface plates are the primary locations of volcanic activity.
New research by University of 有料盒子视频 Fairbanks Geophysical Institute research professor Robert Herrick revealed a nearly 1-square-mile volcanic vent that changed in shape and grew over eight months in 1991. Changes on such a scale on Earth are associated with volcanic activity, whether through an eruption at the vent or movement of magma beneath the vent that causes the vent walls to collapse and the vent to expand.
The research was published today in the journal Science.
Herrick studied images taken in the early 1990s during the first two imaging cycles of NASA鈥檚 Magellan space probe. Until recently, comparing digital images to find new lava flows took too much time, the paper notes. As a result, few scientists have searched Magellan data for feature formation.
鈥淚t is really only in the last decade or so that the Magellan data has been available at full resolution, mosaicked and easily manipulable by an investigator with a typical personal workstation,鈥 Herrick said.
The new research focused on an area containing two of Venus鈥 largest volcanoes, Ozza and Maat Mons.
鈥Ozza and Maat Mons are comparable in volume to Earth鈥檚 largest volcanoes but have lower slopes and thus are more spread out,鈥 Herrick said.
Maat Mons contains the expanded vent that indicates volcanic activity.
Herrick compared a Magellan image from mid-February 1991 with a mid-October 1991 image and noticed a change to a vent on the north side of a domed shield volcano that is part of the Maat Mons volcano.
The vent had grown from a circular formation of just under 1 square mile to an irregular shape of about 1.5 square miles.
The later image indicates that the vent鈥檚 walls became shorter, perhaps only a few hundred feet high, and that the vent was nearly filled to its rim. The researchers speculate that a lava lake formed in the vent during the eight months between the images, though whether the contents were liquid or cooled and solidified isn鈥檛 known.
The researchers offer one caveat: a nonvolcanic, earthquake-triggered collapse of the vent鈥檚 walls might have caused the expansion. They note, however, that vent collapses of this scale on Earth鈥檚 volcanoes have always been accompanied by nearby volcanic eruptions; magma withdraws from beneath the vent because it is going somewhere else.
The surface of Venus is geologically young, especially compared to all the other rocky bodies except Earth and Jupiter's moon Io, Herrick said.
鈥淗owever, the estimates of how often eruptions might occur on Venus have been speculative, ranging from several large eruptions per year to one such eruption every several or even tens of years,鈥 he said.
Herrick contrasts the lack of information about Venusian volcanism with what is known about Jupiter鈥檚 moon Io and about Mars.
鈥淚o is so active that multiple ongoing eruptions have been imaged every time we鈥檝e observed it,鈥 he said.
On a geological time scale, relatively young lava flows indicate Mars remains volcanically active, Herrick said.
&苍产蝉辫;鈥淗辞飞别惫别谤, nothing has occurred in the 45 years that we have been observing Mars, and most scientists would say that you鈥檇 probably need to watch the surface for a few million years to have a reasonable chance of seeing a new lava flow,鈥 he said.
Herrick鈥檚 research adds Venus to the small pool of volcanically active bodies in our solar system.
鈥淲e can now say that Venus is presently volcanically active in the sense that there are at least a few eruptions per year,鈥 he said. 鈥淲e can expect that the upcoming Venus missions will observe new volcanic flows that have occurred since the Magellan mission ended three decades ago, and we should see some activity occurring while the two upcoming orbital missions are collecting images.鈥
Co-author Scott Hensley of NASA鈥檚 Jet Propulsion Laboratory performed the modeling for the research.
ADDITIONAL CONTACT: Robert Herrick, University of 有料盒子视频 Fairbanks Geophysical Institute, rrherrick@alaska.edu, 907-474-6445
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