The clouds above Mars are likely composed of crystals of water ice

Hey, you! Get a load of my #clouds! These are my best views yet of Martian clouds, likely made of ice-water crystals https://t.co/yGmfsOBa0Lpic.twitter.com/rTQtkftwnI — Curiosity Rover (@MarsCuriosity) August 10, 2017

NASA's Mars Curiosity rover has captured its most clearly visible images of wispy, early-season clouds on the red planet which resemble the Earth's ice-crystal cirrus clouds.Clouds moving in the martian sky have been observed previously by Curiosity and other missions on the surface of Mars, including NASA's Phoenix Mars Lander in the martian arctic nine years ago.The clouds in the new images are the most clearly visible so far from Curiosity, which landed five years ago this month about five degrees south of Mars' equator, NASA said.Researchers used Curiosity's Navigation Camera (Navcam) to take two sets of eight images of the sky on an early martian morning last month.For one set, the camera pointed nearly straight up. For the other, it pointed just above the southern horizon.Cloud movement was recorded in both and was made easier to see by image enhancement. A midday look at the sky with the same camera the same day showed no clouds, NASA said."It is likely that the clouds are composed of crystals of water ice that condense out onto dust grains where it is cold in the atmosphere," said Curiosity science-team member John Moores of York University in Canada."The wisps are created as those crystals fall and evaporate in patterns known as 'fall streaks' or 'mare's tails.' While the rover does not have a way to ascertain the altitude of these clouds, on Earth such clouds form at high altitude," said Mr Moores.Mars' elliptical orbit makes that planet's distance from the Sun vary more than Earth's does.

In previous martian years, a belt of clouds has appeared near the equator around the time Mars was at its farthest from the Sun, according to the US space agency.The new images of clouds were taken about two months before that farthest point in the orbit, relatively early in the season for the appearance of this cloud belt.