Encouraging discovery: Scientists detect presence of phosphorus on Enceladus, offering hope for life in space
According to The New York Times, a research team led by planetary scientist Frank Postberg from the Free University of Berlin has made a significant discovery regarding the potential for life on Enceladus. Using data collected by NASA's Cassini spacecraft during its exploration of Saturn in 2017, the research team found evidence of phosphate in the ocean beneath the icy crust of Enceladus.
- World
- Agencies and A News
- Published Date: 05:13 | 18 June 2023
- Modified Date: 05:14 | 18 June 2023
According to The New York Times, a recent study led by planetary scientist Frank Postberg from the Free University of Berlin has made a significant discovery regarding the potential for life on Enceladus.
Using data collected by NASA's Cassini spacecraft during its exploration of Saturn in 2017, the research team found evidence of phosphate in the ocean beneath the icy surface of Enceladus.
Phosphate is an essential element found in the structure of DNA and is necessary for life as we know it on Earth. Previous studies had already identified the presence of carbon, hydrogen, nitrogen, oxygen, and sulfur on the moon.
This discovery of phosphorus, combined with the presence of other essential elements, raises the possibility that Enceladus could be an ideal environment for life outside of Earth.
It challenges earlier assumptions that phosphorus is rare in extraterrestrial oceans and suggests that subsurface oceans on other moons and planets, such as Europa (a moon of Jupiter) or Pluto (a dwarf planet), may also have the necessary elements for life.
The study acknowledges the need for further analysis and a larger data sample to fully understand the potential habitability of Enceladus. However, the discovery of phosphorus opens up intriguing possibilities for the existence of life on other celestial bodies in our solar system and beyond.
Phosphorus is a vital component of human bones, teeth, and ATP (adenosine triphosphate), the main energy currency of cells. It also plays a crucial role in protein production and is one of the essential nutrients required for plant development.
The research findings have been published in the scientific journal "Nature," shedding new light on the potential for life on Enceladus and expanding our understanding of habitable environments in the universe.
- Russian attack cannot be ruled out, says Swedish parliamentary report - SVT
- Ukraine's Zelenskiy: 'very effective' repelling of assaults near Avdiivka in east
- Wagner chief says 32,000 ex-prisoners back in Russia after service
- Taiwan 'most prominent risk' in China-US relations: Beijing FM
- Russian official admits Ukrainian forces have captured village of Piatykhatky in Zaporizhzhya region