Pluto’s heart-shaped surface feature pumps out nitrogen winds NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute
Pluto鈥檚 atmosphere is spinning backwards because of a strange 鈥渉eartbeat鈥. Cyclical changes in nitrogen ice on the surface drive winds that blow in the opposite direction to the frigid world鈥檚 spin.
When NASA鈥檚 New Horizons spacecraft flew past Pluto in 2015, it spotted an enormous, bright heart shape on the surface. One lobe of the heart is a deep basin called Sputnik Planitia, which is filled with nitrogen ice.
When the sun rises over Sputnik Planitia, the ice heats up and some of it turns into gas, floating up into the atmosphere. At night, it cools down and settles back into the basin as ice again. Tanguy Bertrand at NASA鈥檚 Ames Research Center in California and his colleagues used a weather forecast simulation to determine how this cycle would affect the circulation of Pluto’s atmosphere.
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鈥淓very day you have what we call a heartbeat,鈥 says Bertrand. 鈥淵ou release nitrogen into the atmosphere and condense it back onto the surface 鈥 it鈥檚 like a heart pumping blood in the body.鈥
They found that this cycle causes nitrogen winds that blow westward around Pluto. They are strongest at the western edge of Sputnik Planitia, where they appear to create dark streaks as they rush out of the basin.
These winds cause the atmosphere to rotate in the opposite direction to the dwarf planet, which spins toward the east. This isn鈥檛 confirmed to happen anywhere else in the solar system. 鈥淧luto鈥檚 atmosphere gives us a new laboratory to explore how atmospheres behave in general,鈥 says Bertrand. It is surprisingly different from the other atmospheres we know, he says.
Journal of Geophysical Research: Planets
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