In their new research, a team of researchers from Stanford University have said that on one of Jupiter’s moons Europa, a prime candidate for life in the solar system, there might be an abundance of water pockets beneath formations called double ridges.
GS III- Science and Technology
Dimensions of the Article:
- About Europa
- Implications of the recent findings
- Europa is slightly smaller than Earth’s moon and its diameter is about one-quarter that of the Earth.
- Even though Europa has a very thin oxygen atmosphere, it is considered one of the most promising places in the solar system to find present-day environments that are suitable for life beyond the Earth.
- It is also believed that underneath Europa’s icy surface the amount of water is twice that on Earth.
- NASA notes that scientists believe Europa’s ice shell is 15-25 km thick and is floating on an ocean, which is estimated to be between 60-150 km deep. Interestingly, while its diameter is less than the Earth’s, Europa probably contains twice the amount of the water in all of the Earth’s oceans.
- NASA is expected to launch its Europa Clipper in 2024. The module will orbit Jupiter and conduct multiple close flybys to Europa to gather data on the moon’s atmosphere, surface and its interior.
- The researchers are now saying that the double ridges – the formations which are most common on Europa’s surface and are similar to those seen on Earth’s Greenland ice sheet – are formed over shallow pockets of water.
Implications of the recent findings
- The central implication is that the shallow water pockets beneath the double ridge, like surfaces seen on the Greenland ice sheet on Earth and those seen on Europa’s ice shell, increase the potential habitability of the moon.
- The ice shell, which is potentially miles thick, has been a difficult prospect for scientists to sample. But according to the new evidence gathered by the Stanford team, the ice shell is believed to be less of a barrier and more of a dynamic system.
- This means that the ice shell does not behave like an inert block of ice, but rather undergoes a variety of geological and hydrological processes.
-Source: Indian Express