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Pluto's 'Unprecedented' Ice Provinces and Other Surprises from NASA's New Horizons Pluto, known for more than eight decades as just a faint, fuzzy and faraway point of light, is shaping up to be one of the most complex and diverse worlds in the solar system. Pluto's frigid surface varies tremendously from place to place, featuring provinces dominated by different types of ices — methane in one place, nitrogen in another and water in yet another, newly analyzed photos and measurements from NASA's New Horizons mission reveal. "That is unprecedented," said New Horizons principal investigator Alan Stern, who's based at the Southwest Research Institute in Boulder, Colorado. "I don't know any other place in the entirety of the outer solar system where you see anything like this," Stern told Space.com. "The closest analogy is the Earth, where we see water-rich surfaces and rock-rich surfaces that are completely different." That's just one of the new Pluto results, which are presented in a set of five New Horizons papers published online today (March 17) in the journal Science. Taken together, the five studies paint the Pluto system in sharp detail, shedding new light on the dwarf planet's composition, geology and evolution over the past 4.6 billion years. A distant world coming into focus New Horizons becomes the first probe to explore Pluto in mid-2015. Pluto was discovered in 1930 by American astronomer Clyde Tombaugh. The dwarf planet remained largely mysterious for many years thereafter, because it lies so far from Earth. Pluto orbits in the Kuiper Belt, the icy realm beyond Neptune, at an average distance from the sun of about 40 astronomical units (AU). (One AU is the distance from the Earth to the sun — about 93 million miles, or 150 million kilometers.) On July 14,2015, New Horizons performed the first-ever flyby of Pluto, coming within just 7,800 miles (12,550 km) of its surface. The spacecraft saw towering water-ice mountains; flowing nitrogen-ice glaciers; pebbly "snakeskin" terrain; a vast, crater-free plain known as Sputnik Planum; and many other features that scientists are still trying to figure out. One of the new studies dives deeply into the geology of these features, revealing new insights about their possible origin and evolution. The 620-mile-wide (1,000 km), nitrogen-icedominated Sputnik Planum, for example, apparently sits atop a huge and ancient impact basin, mission scientists say. Sputnik Planum is smooth and pristine, bearing no impact scars. This shows that the region was resurfaced extremely recently — 10 million years ago at most, and possibly much more recently than that, researchers said. But other parts of Pluto harbor lots of visible craters, and some regions have a middling (small) number, suggesting that the dwarf planet has been geologically active on a large scale over its entire history. This finding came as a big surprise when it was first announced last year. Earth remains geologically active because it has a hot, molten core. Some icy satellites, such as Saturn's moon Enceladus and the Jovian moon Europa, also harbor substantial internal heat, which is generated by the powerful gravitational tug of their giant parent planets. But something else is likely happening at Pluto. "I think we have to rethink our whole understanding of geophysics — how you keep small planets active over time," Stern said. Stern isn't sure what exactly is going on, but he has a favorite hypothesis: that a subsurface Pluto ocean has been slowly freezing over the eons. predicted, researchers said. In addition, the dwarf planet is losing its atmosphere at a much lower rate than scientists had thought. "As it freezes, it releases latent heat," he said. "It may be the freezing of this ocean that's powering all this geology." Modeling studies had predicted that Pluto would be outgassing at extremely fast rates, losing lots of gas molecules to space every second. But New Horizons' measurements showed a mere leak rather than a gush — in fact, the model estimates were off by a factor of about 5,000. "That shows the power of having a spacecraft there — actually going to see," Stern said. More geology insights The new geology study also discusses and interprets a number of other Pluto features, such as the huge, dark-red Cthulhu Regio — which appears to owe its color to hefty concentrations of tholins, complex organic molecules that drifted down out of the dwarf planet's atmosphere — and the towering peaks Wright Mons and Piccard Mons. New Horizons also spotted long tectonic faults with very steep associated scarps — characteristics that suggest Pluto has a thick crust composed of water ice, mission team members said. One of the other new Science papers maps out the distribution of various ices across Pluto's surface. This material — primarily frozen methane, nitrogen, carbon monoxide and water — is deposited in a curiously distinct way, researchers found; some Pluto provinces are dominated by nitrogen ice, others by methane and so on (though there are places, such as Sputnik Planum, where several different ices are found in abundance). This pattern suggests that volatile material (nitrogen, methane and carbon monoxide) is being moved around by sublimation, condensation and glacial flows on both seasonal and geological time scales, the researchers said. Surprising atmosphere New Horizons found that Pluto's upper atmosphere — the part that's more than 120 miles (200 km) above the surface — is a lot colder than pre-flyby modeling work had These twin atmospheric surprises — the cold high-altitude temperatures and the low escape rate — are closely related, Stern added. Cold molecules are less energetic, and are therefore less likely to break free of Pluto's gravitational bonds. Pluto's moons, too Pluto does not cruise through space by itself. The dwarf planet has five moons — Charon, Nix, Hydra, Kerberos and Styx. The latter four are tiny, measuring just a few dozen miles wide at most, but Charon is 750 miles (1,200 km) across — more than half as wide as Pluto itself. Indeed, scientists regard Pluto and Charon as a binary system. More data coming There is still a lot of flyby data left to analyze. New Horizons has beamed only half of the close-encounter images and measurements back to mission control, Stern said; the entire treasure likely won't be on the ground until October. New Horizons may also perform another flyby that could help scientists better understand Pluto's neighborhood. The spacecraft is currently cruising toward a small Kuiper Belt object called 2014 MU69, which lies about 1 billion miles (1.6 billion km) beyond Pluto. If NASA approves and funds a proposed extended mission, New Horizons will study 2014 MU69 up close on Jan. 1, 2019.