Scientists discover ice volcanos on Ceres
Cryovolcanoes that eject ice instead of magma have been confirmed to exist on Ceres, which will help studying this formation on other planets and moons throughout the solar system.
- Cryovolcanoes that ooze out ice instead of shooting out magma have been confirmed to exist on the asteroid Ceres.
- Scientists believe that ice volcanoes may be prevalent throughout the solar system in places like Titan and Pluto.
- Further research is needed to find out if they serve an important function for planetary structure and exo geological systems.
When we think of volcanoes we often picture plumes of smoke and hellfire lava. These are the molten towers from the underworld. But new research has uncovered that ice volcanoes or cryovolcanoes are also just a stone's throw away in our own solar system. We don't have to go that far to look for strange features of the universe. These mountainous giants spew ice instead of fire and are active planetary features that many moons, planets and asteroids might all possess.
Scientists recently analyzed images of Ceres, an asteroid 588 miles wide and one of the largest asteroids in our asteroid belt. NASA's dawn spacecraft flew by and found that Ceres is one of the first confirmed celestial bodies to have multiple cryovolcanoes. A large mountain structure called Ahuna Mons was first discovered in 2016 and subsequently classified as a cryovolcano.
It's estimated that Ceres forms a new cryovolcano every 50 million years. Studying this asteroid will give scientists more evidence to look for and study Europa, Titan and Pluto to see if they also have cryovolcanoes.A paper published in Nature Astronomy detailed the findings. Scientists from the project stated:
"Ceres is the only plausibly cryovolcanic world to be orbited by a spacecraft up to now."
Science of a cryovolcano
Researchers behind the study looked at images taken by the spacecraft's onboard camera. They searched for any exo geological features that were dome shaped and larger than 10 kilometers in diameter. Scientists found and measured 22 of these features and found that these domes were composed of 50 percent of ice. On further analysis, it was found that on average these cryovolcanoes on Ceres spewed out roughly 10 thousand cubic meters per year of ice.
It was determined that a cryovolcano on Ceres doesn't serve an important function say compared to volcanic activity on Earth. But that doesn't rule out that other planet's with cryovolcanoes might be function as an important part to the geological pressures and planetary structural systems.
There were some limitations to the study, as this was all researched through pictures and there wasn't an on the ground rover or robotic presence. Also the scientists weren't able to get a real time reading of the amount of activity each cryovolcano produced.
Cryovolcano on Pluto? Maybe.
Planetary scientist Michael Sori, utilized calculations made from observations and simulations to uncover the mystery about Ceres's cryovolcanoes. His theory was that since Ceres is both made out of predominantly rock and ice, the formations on the planet flow and move due to their own weight – similar to how glaciers operate on Earth. The ice flows would then be affected by slight temperature variations throughout the asteroid.
"Ceres' poles are cold enough that if you start with a mountain of ice, it doesn't relax… But the equator is warm enough that a mountain of ice might relax over geological timescales."
It was observed through simulation with the set parameters that cryovolcanoes on the poles would remain frozen while places in the equator and other latitudes, a cryovolcano would begin to steepen and also grow rounder over time.
Volcanic eruptions on Ceres are much more subdued than what you'd see on Earth. They do not explode, but rather ooze. This output of ice, rock and other chemicals slowly seeps from the openings out onto the rest of the asteroid.
Further research will help yield answers to determine if other suspected formations on other planets and moons may also be cryovolcanoes. After scientists from NASA's New Horizons mission stitched together a high resolution color view of Pluto, it was thought that an area known as Wright Mons may be a cryovolcano. At 150 kilometers across and 4 kilometers high, it'd be one of the largest in the far reaches of the solar system – proving that this phenomenon is not rare
Are there any cryovolcanoes on earth?
There are no cryovolcanoes on earth. The material that erupts out of these formations is either in the form of an icy liquid or gas. Earth simply is too warm for this type of formation to occur, even in the deepest reaches of Antarctica or Greenland, it wouldn't be possible. The higher surface temperature on Earth combined with its thick atmosphere makes it unable to freeze volatiles that would include Nitrogen, Methane and carbon dioxide for example.
Overall, the processes on other astral bodies make them more conducive spots for hosting a cryovolcano.
Swipe right to make the connections that could change your career.
Swipe right. Match. Meet over coffee or set up a call.
No, we aren't talking about Tinder. Introducing Shapr, a free app that helps people with synergistic professional goals and skill sets easily meet and collaborate.
A completely unexpected discovery beneath the ice.
- Scientists find remains of a tardigrade and crustaceans in a deep, frozen Antarctic lake.
- The creatures' origin is unknown, and further study is ongoing.
- Biology speaks up about Antarctica's history.
Eight-dimensional octonions may hold the clues to solve fundamental mysteries.
- Physicists discover complex numbers called octonions that work in 8 dimensions.
- The numbers have been found linked to fundamental forces of reality.
- Understanding octonions can lead to a new model of physics.
It's one factor that can help explain the religiosity gap.
- Sociologists have long observed a gap between the religiosity of men and women.
- A recent study used data from several national surveys to compare religiosity, risk-taking preferences and demographic information among more than 20,000 American adolescents.
- The results suggest that risk-taking preferences might partly explain the gender differences in religiosity.
SMARTER FASTER trademarks owned by The Big Think, Inc. All rights reserved.