Planets and Moons  ID: 13000

Pluto's Underground Ocean

Over three and a half billion miles from the Sun, Pluto is too cold for liquid water to exist on its surface. Its interior however, may tell a different story. NASA research suggests that Pluto—and other small, icy bodies—may in fact be storing oceans of water beneath their surfaces, kept liquid by a process called tidal heating. Tidal heating occurs when orbiting bodies, such as Pluto and its largest moon, Charon, create heat due to the constant pulling of gravity between the bodies. An analysis of the light reflected from icy worlds in the outer solar system, including Pluto, reveals signatures of crystalline water ice and ammonia hydrates. At the extremely low surface temperatures on these objects, water ice takes a disordered, amorphous form instead of the regularly ordered crystals typical in warmer areas, such as snowflakes on Earth. Also, space radiation converts crystalline water ice to the amorphous form and breaks down ammonia hydrates, so they are not expected to survive long on the surfaces of these frozen worlds. This suggests that both compounds may have come from an interior liquid water layer that erupted to the surface, a process known as cryovolcanism. This discovery changes our understanding of where liquid water may form and opens up more options in the search for life within our solar system. Check out the images to learn more.

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Story Credits

Lead Writer:
William Steigerwald (NASA/GSFC)

Matthew Bernstein (Experiential Learning Program, UMD)

Please give credit for this item to:
NASA's Scientific Visualization Studio

Images courtesy of NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute

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