Not exact matches
But proof is lacking: the lakes might not
evaporate, the
clouds might not
rain, and the river beds might be relics from a wetter past.
It may
evaporate from the surface and condense in the atmosphere to form
clouds, which in turn release
rain.
The mountains are made primarily of rock - hard water ice; the dunes are most likely ice granules coated with hydrocarbons; volcanoes probably belch methane and ammonia, and methane fills the lakes,
evaporates to form
clouds, and
rains back down to carve out river channels.
Titan is the only other body in the solar system to show evidence of an active weather cycle, where liquid
evaporates from lakes to form
clouds, and
rains back down to the surface, forming rivers and channels.
Water constantly moves through a vast global cycle,
evaporating from lakes and oceans, forming
clouds, precipitating as
rain or snow, then flowing back down to the ocean.
The methane in Titan's atmosphere has a similar cycle to water on Earth; it
evaporates into the atmosphere from the large lakes, condenses as
clouds and falls as methane
rain on Titan's hydrocarbon - rich landscape, creating rivers and sculpting valleys.
sheesh 2 DEGREES just look at the s ** t we are getting at 0.8 degrees Its like goodbye coral reefs, goodbye amazon rainforest, goodbye himalayan glaciers that provide water to 40 % worlds population (lot of poeple in china), goodbye east india monsoon
rains needed to grow crops, hello more droughts, hello more forest fires, hello more heat waves, hello more stronger huricanes / typhones / cyclones, hello more floods (because warmer oceans have even more water
evaporated from them turned into
clouds and blown over land so even more
rain pours down at once), hello more jellyfish (they thrive in acidified oceans because of CO2 absorbtion).
When water
evaporates from the oceans, the vapour can rise over nine miles to form
rain clouds that reflect sunlight; or it may rise just a few miles and drift back down without forming
clouds.