Scientists have made a breakthrough in understanding the origins of the enigmatic dwarf planet Ceres, using data collected from the retired NASA Dawn spacecraft. Ceres, which resides in the main asteroid belt between Mars and Jupiter, has long puzzled scientists due to its unique characteristics. While previous theories suggested that Ceres was born in the asteroid belt, recent findings challenge this notion.
One of the most intriguing aspects of Ceres is the presence of frozen ammonia, a substance typically found only in the outer solar system. This led scientists to speculate that Ceres may have formed farther away from its current location and migrated inward over time. However, new data from the Consus crater on Ceres suggests a different story.
Researchers from the Max-Planck Institute studied the 40-mile-wide Consus crater, one of the oldest impact craters on Ceres, and discovered evidence that supports the hypothesis that Ceres originated in the main asteroid belt. By analyzing the remnants of brine that have risen to the surface from Ceres’ interior, the team found a high concentration of ammonium, a type of ammonia with an extra hydrogen ion. This finding connects ammonium with salty brine and supports the idea that Ceres is native to the asteroid belt.
The team postulates that ammonium formed during the initial stages of Ceres’ creation and accumulated in the brine layer between its mantle and surface. Over billions of years, cryovolcanic activity on Ceres brought this brine, along with its ammonium content, to the crust where it absorbed into layered crystalline structures. These structures, known as phyllosilicates, act like sponges, absorbing and retaining the ammonium over an extended period.
The presence of yellowish ammonium-rich material within impact craters, both within and outside the Consus crater, further reinforces the asteroid belt origin theory. These concentrations of ammonium are believed to have been exposed through asteroid collisions, with deeper craters containing higher amounts of ammonium.
These groundbreaking findings provide new insights into the formation and evolution of dwarf planet Ceres, shedding light on its unique geological features and furthering our understanding of the solar system’s early history.
FAQ
1. What is Ceres?
Ceres is a dwarf planet that resides in the main asteroid belt between Mars and Jupiter.
2. What is the unique characteristic of Ceres?
Ceres has frozen ammonia, a substance typically found in the outer solar system.
3. Where was Ceres previously thought to have formed?
Previously, it was believed that Ceres was born in the asteroid belt.
4. What does the new data suggest about the origin of Ceres?
New data from the Consus crater on Ceres supports the idea that Ceres originated in the asteroid belt.
5. What evidence was found in the Consus crater?
Researchers discovered a high concentration of ammonium, a type of ammonia, in the remnants of brine that have risen to the surface from Ceres’ interior.
6. How did the ammonium accumulate in Ceres?
Ammonium formed during the initial stages of Ceres’ creation and accumulated in the brine layer between its mantle and surface.
7. What are phyllosilicates?
Phyllosilicates are layered crystalline structures that absorb and retain the ammonium content brought to the surface by cryovolcanic activity on Ceres.
8. How was the asteroid belt origin theory reinforced?
The presence of yellowish ammonium-rich material within impact craters, both within and outside the Consus crater, supports the asteroid belt origin theory.
9. What do these findings contribute to our understanding?
These findings provide new insights into the formation and evolution of Ceres, shedding light on its unique geological features and the early history of the solar system.
Definitions
– Dwarf planet: A celestial body that orbits the Sun and meets the criteria for a planet, except that it has not cleared its orbit of debris.
– Ammonia: A compound made up of nitrogen and hydrogen, usually found in gaseous form but can freeze under certain conditions.
– Asteroid belt: The region of space between the orbits of Mars and Jupiter where many asteroids are found.
– Brine: Water saturated or strongly impregnated with salt.
– Cryovolcanic activity: Volcanic activity that involves the eruption of cold materials, such as water ice or ammonia.
– Phyllosilicates: Layered crystalline structures that are composed of sheets of silicate minerals. They are often associated with the presence of water.
The source of the article is from the blog revistatenerife.com