While NASA scientists already suspected that methane gas was behind the curious coloring, it's only now that they've come up with the model to explain the process. See, Pluto has weak gravity that allows its atmosphere to escape, and the moon's gravity is strong enough to capture methane gas. It just so happens that the temperatures in Charon's pole can drop to as low as -430 Fahrenheit during wintertime, which can last for over a hundred years.

Methane itself has no color, but it transforms into a reddish organic material called "tholin" due to a process triggered by ultraviolet radiation. These tholins can stick to the pole even though it's no longer winter, making that area permanently red. The team now believes it's possible that other small planets in the Kuiper Belt with their own small moons could exhibit "atmospheric transfer features," as well. Of course, we won't know for sure until we see them, and if the New Horizons team is lucky, the spacecraft could find a similar moon in its exploration of the Kuiper Belt.