At the end of the last global ice age, the deep-frozen Earth reached a built-in limit of climate change and thawed into a ...

By 3.6 billion years ago, Mars should have become too cold for liquid water, but something kept the rivers flowing.

Melting Arctic sea-ice may disrupt global climate, altering ocean currents and weather patterns, reveals new research.

Ice sheets in Greenland, Antarctica melting faster than previously thought ... coastal communities as climate change melts the polar ice caps and sea levels rise.

At the end of the last global ice age, the deep-frozen Earth reached a built-in limit of climate change and thawed into a slushy planet. Results provide the first direct geochemical evidence of the ...

A student-led project comparing satellite images of the Arctic has discovered that a small Russian island has recently ...

Arctic has lost more sea ice this year ... Warmer seas could lead to more melting of Greenland's ice cap which would contribute to raising sea levels and changing the salinity of the sea, which ...

While there has been ample previous research on related phenomena like ice melt and sea ice melt ... Research Council of Turkiye (TUBITAK) MAM Polar Research Institute with the joint ...

A study finds that Arctic sea ice melting can disrupt ocean circulation and cooling, echoing scientists' concerns of ...

On a cold, ancient Mars, rivers flowed and a lake the size of the Mediterranean Sea swelled under the protection of thick ice ...

Insulation provided by carbon dioxide ice above the martian polar caps could explain many of the Red Planet’s ancient river features.

New research suggests that ancient Mars, despite its icy conditions, once had rivers, lakes, and even a vast ...