Ceres: A Rising Planet

Risabh Paul

SEDS-VIT
5 min readSep 10, 2024
Ceres | NASA Science

Ceres is a dwarf planet in the asteroid belt between Mars and Jupiter. It was modified into place in 1801 and turned out to be initially categorized as an asteroid before being diagnosed as a dwarf planet. Despite being the most important item within the asteroid belt, Ceres is too dim to be seen with the naked eye. NASA’s Dawn spacecraft, which orbited Ceres in 2015, located its floor in a combination of water ice and hydrated minerals. Gravity data indicates it has a muddy mantle/middle and a less dense, icy crust. Although it probably lacks a liquid-water ocean, brines go with the flow via the outer mantle, essential to cryovolcanic interest, much like the formation of Ahuna Mons. Ceres additionally has a tenuous environment, detected in 2014, made of water vapour. This, alongside the factor of its brines, indicates capability for microbial life.

History

The name Ceres was inspired by the goddess Ceres from Roman mythology. She is the goddess of harvest and agriculture. The name itself has been derived from the Porto-Italic word, Keres, which means “with grain”.

In the early 18th century, astronomers predicted that there was a gap between Mars and Jupiter, and mathematicians expected a planetary object hidden in the belt. This led to the speculation of the missing planet. In 1801, the great astronomer Giuseppe Piazzi discovered Ceres, initially identified as a comet. Later that year Carl Friedrich Gauss calculated and speculated the Ceres orbit which resembled the planetary orbits, henceforth it was titled a planet. Although it was now named a planet, it did not abide by Titius-Bode or Kepler’s law.

Physical Attributes

It is the largest among the other asteroids present in the asteroid belts. It encompasses a rocky core and an icy mantle. Its surface is a composite of frozen water, hydrated minerals, and mysterious bright spots. Among the many bright spots, there is a significant one in the Occator Crater, which is composed of sodium carbonate. It is a type of salt that suggests the presence of liquid water below the surface that dwells through cryovolcanic activity.

The composition of Ceres unravels its history of formation. Traces of ammonia-bearing clays suggest that it may have been formed in the outer solar system where ammonia ice is more abundant, and later migrated inwards.

The Dawn Mission

NASA’s Dawn mission, which orbited Ceres from 2015 to 2018 after orbiting Vesta, provided unrivalled details about this dwarf planet. With the help of modern scientific equipment, Dawn precisely mapped the surface, capturing it in high resolution, and collecting a lot of data on its composition and gravity field.

Among all the discoveries made by the Dawn spacecraft, the most notable one is the recognition of organic compounds on the surface of Ceres. These compounds found in the Ernutet Crater increase the possibility of sustainability of life. The possible explanation for the formation of these organics is an abiotic process, which also questions the possibility of such a process that might have occurred somewhere else in this vast solar system.

The Dawn Mission | NASA Science

Water and Habitability

Evidence suggests that there is water ice inside the subsurface of Ceres, which is why it has a very high possibility of possessing microbial life. Even though the extraction of water is not yet confirmed. Ceres carries all that is required for the growth of life. Microbes can easily live in any wet region, provided there is a presence of organic compounds. There might be many mysteries unresolved below the sub-surface of Ceres.

Geological Activity

From the Dawn mission, we can conclude that there are signs of geological activity on Ceres, particularly Ahuna mons, a cryovolcano. Cryovolcanism phenomenon refers to internal heat, the possible source might be radioactive decay within the rocky core, which indeed maintains geological balance and sub-surface liquid water. Observations indicate that small planetary bodies might be geologically inert and provide intel about the thermal evolution of the icy worlds.

Impact Craters and Surface Features

Ceres has a very rough surface due to its craters which were formed by high impacts. The largest crater, Kerwan, along with the other geological features such as mountains, troughs, and plains shed light on its geological past and formation.

The bright spots of Ceres, particularly in the Occator Crater, are one of the dwarf planet’s most intriguing features. First observed by NASA’s Dawn spacecraft in 2015, these luminous areas are primarily composed of sodium carbonate, a type of salt. This composition suggests that liquid water once existed beneath Ceres’ surface, reaching the surface and evaporating, leaving behind these reflective deposits. The presence of these salts indicates prolonged aqueous activity, hinting at the possibility of subsurface briny water reservoirs and highlighting Ceres’ dynamic geological history.

Bright Spot | The Indian Express

The Search for Life

From the earlier evidence, it was found that there is the possibility of water and organic substances. So, it has the potential to harbour simple life forms. Through future missions, we can discover further below the subsurface and unravel whether there was any source of life that was present which has ceased to exist.

Future Prospects

In the future, there shall be spacecraft with landers and rovers for exploring Ceres. It could study geology, mineralogy, and its potential habitability. Through modernized tech like ice-penetrating radar and drilling, we can achieve what is lying beneath the surface. Any form of water or organic compounds or any evidence that upholds the presence of life. However, there is another very important area of research that is left — the bright spots on the surface of Ceres, whose formation is suspected to be from the evaporation of briny water from the surface that deposited many salts and minerals. These regions might be resourceful for the history and geology of Ceres.

Conclusion

Is Ceres a dwarf planet or an asteroid? Though we cannot conclude that, it certainly has raised much curiosity among scientists. Is it habitable? Does life exist there in any form? What are the minerals present on it and below its surface? Though NASA’s Dawn mission was not able to answer all of these questions, it significantly uncovered the history of Ceres and its volcanic activity. It suggests there are planets with such complex geological activity. Even the presence of water as ice and the bright spots on the surface is intriguing. This evidence not only unravels the mysteries of dwarf planets, but also leads to the understanding of volcanic activity, chemical compositions, organic compounds, the formation of ice, and many other theories in our solar system and the universe. As future missions continue to explore Ceres and other destinations, we might discover even more fascinating and unexpected aspects of these intriguing worlds.

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SEDS-VIT
SEDS-VIT

Written by SEDS-VIT

The official blog of SEDS-VIT, Indian Headquarters of the Global NPO, Students for the Exploration and Development of Space.