A supercomputer has produced a predictive model detailing the tectonic catastrophe that would end life on Earth as we know it ...

Map shows how the major continents were arranged 220 million years ago in the Pangea supercontinent. "Isch" and "P" mark locations with sauropodomorph fossils up to 233 million years old.

The image shows the warmest, average, monthly temperature (Celsius) for Earth, and the projected supercontinent (Pangea Ultima) in 250 million years, when it would be difficult for almost any ...

Researchers simulated temperature trends and tectonic plate movement to monitor their impact on mammals. Supercomputer simulation shows that climate extremes are likely to drive land mammal ...

The next supercontinent will be known as Pangea Ultima, also referred to as Pangea Proxima, with an approximate time frame of coming to fruition in the next 250 million years. As part of the process ...

Back then, all the major continents formed one giant supercontinent, called Pangaea. Perhaps initiated by heat building up underneath the vast continent, Pangaea began to rift, or split apart ...

Around 250 million years ago, all of the continents were joined together as one supercontinent called Pangea. Over time, this huge mass of land split apart due to continental drift, eventually ...

By the start of the Triassic, all the Earth's landmasses had coalesced to form Pangaea, a supercontinent shaped like a giant C that straddled the Equator and extended toward the Poles. Almost as ...

At the start of the period, dinosaurs ruled the loosening remnants of the supercontinent Pangaea as rodents scurried at their feet through forests of ferns, cycads, and conifers. At the end of the ...