Opposite World: Pluto’s Ice Caps Made of Methane, Turns Earth’s Process Upside Down

Pluto as seen from data taken by New Horizon’s flyby in 2015 of the dwarf planet, with a close-up view of the Pigafetta Montes mountain range. The colorization on the right indicates the concentrations of methane ice, with the highest concentrations at higher elevations in red, decreasing downslope to the lowest concentrations in blue.
Credit: NASA/JHUAPL/SwRI and Ames Research Center/Daniel Rutter

The mountains discovered on Pluto during the New Horizons spacecraft’s flyby of the dwarf planet in 2015 are covered by a blanket of methane ice, creating bright deposits strikingly like the snow-capped mountain chains found on Earth.

New research conducted by an international team of scientists, including researchers at NASA’s Ames Research Center in California’s Silicon Valley, analyzed New Horizons data from Pluto’s atmosphere and surface, using numerical simulations of Pluto’s climate to reveal that these ice caps are created through an entirely different process than they are on Earth.

“It is particularly remarkable to see that two very similar landscapes on Earth and Pluto can be created by two very dissimilar processes,” said Tanguy Bertrand, a postdoctoral researcher at Ames and lead author on the paper detailing these results, which was published in Nature Communications. “Though theoretically objects like Neptune’s moon Triton could have a similar process, nowhere else in our solar system has ice-capped mountains like this besides Earth.”

On our planet, atmospheric temperatures decrease with altitude, mostly because of the cooling induced by the expansion of the air in upward motions. The cool atmosphere in turn cools temperatures at the surface. When a moist wind approaches a mountain on Earth, its water vapor cools and condenses, forming clouds and then the snow seen on mountain tops. But on Pluto, the opposite occurs. The dwarf planet’s atmosphere actually gets warmer as altitude increases because the methane gas that’s more concentrated higher up absorbs solar radiation. However, the atmosphere is too thin to impact the surface temperatures, which remain constant. And unlike Earth’s upward winds, on Pluto, winds that travel down mountain slopes dominate.

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