NASA's SWOT satellite unveils hidden underwater peaks

Scientists from NASA have made a groundbreaking discovery, revealing thousands of hidden underwater formations, such as mountains and hills that lie on the ocean floors. This is all thanks to the SWOT satellite, a joint project between NASA and the French space agency CNES, which has provided detailed data. This allows for mapping the seafloor with unprecedented precision, facilitating a better understanding of all geological changes and uncovering new mineral deposits.

It turns out that we have more detailed maps of the Moon's surface than those of the ocean floor. Scientists have been trying to change this for years. New data sheds fresh light on Earth's geology and ecology, revealing mysteries that have remained unseen until now. A team supported by NASA has now made a significant advance, publishing one of the most detailed seafloor maps to date. The map was created using data from the SWOT (Surface Water and Ocean Topography) satellite, a joint mission of NASA and the French space agency CNES (Centre National d’Etudes Spatiales).

Seafloor maps play a vital role in various practical applications, including ship navigation, underwater cable installation, and hazard detection. Nadya Vinogradova Shiffer from NASA highlights that understanding the ocean floor is essential not only for current industries but also for emerging economic opportunities, such as deep-sea mineral extraction, improving maritime transport efficiency, and supporting military operations.

Thanks to data from the SWOT satellite, scientists can now better understand deep currents and geological processes, such as plate tectonics. Underwater mountains and hills influence the movement of heat and nutrients in the depths, attracting marine life and creating oases in barren parts of the seafloor.

The SWOT satellite, launched in December 2022, measures the water height over nearly the entire Earth's surface, including oceans, lakes, and rivers. This allows scientists to create topographic maps of water surfaces, which help monitor sea ice changes or track flood progress.

David Sandwell from the Scripps Institution of Oceanography, who has been analyzing satellite data to study the ocean floor since the 1990s, points out that the SWOT satellite represents a significant advancement in seafloor mapping. This technology could substantially expand the catalog of known underwater elevations, potentially more than doubling the current count and providing greater insights into Earth's geological past.

The SWOT mission is the result of international collaboration, in which the Canadian Space Agency and the UK Space Agency also participate. Thanks to joint efforts, the satellite provides high-resolution water surface measurements, helping scientists to better understand Earth's water cycle, ocean currents, and seafloor topography.

With these discoveries, scientists are getting closer to achieving the goal of fully mapping the seafloor by 2030, which will allow for an even better understanding of the processes occurring on our planet.