Venture beyond Guatemala’s famed Maya ruins at Tikal and you’ll find family-run museums and communities preserving age-old ...

El Argar used regional pottery networks to enforce political and economic dominance over its neighbors, revealing early state ...

Fossils from China’s Turpan-Hami Basin reveal it was a rare land refuge during the end-Permian extinction, with fast ...

Ancient oceans, which were heavy on iron, interacted differently with light wavelengths, retracting green light into the ...

2024 Subterranean map that comes with the threat of earthquakes, high-temperature zones, poison mushrooms, and more. The Corrupted Earth Map (Extinction) December 19th, 2024 A post-apocalyptic ...

Geemap is intended for students and researchers, who would like to utilize the Python ecosystem of diverse libraries and tools to explore Google Earth Engine. It is also designed for existing GEE ...

A total lunar eclipse on March 13-14, 2025, will be visible across Earth's night side. See detailed maps of where and when to watch the dramatic 'Blood Moon'. The first total lunar eclipse since ...

“We built upon our shared experience with using similar models for other times and purposes, refining and coupling different components together to simulate the dynamic behavior of the late-Archean ...

Focusing on the late Archean eon (3 billion years to 2.5 billion years ago), Professor Eiichi Tajika and his team simulated crucial aspects of Earth’s biological, chemical, and geological history.

Tajika and his team used a numerical model to simulate key aspects of biological, geological and chemical changes during the late Archean eon (3.0–2.5 billion years ago) of Earth's geologic history.

Tajika and his team used a numerical model to simulate key aspects of biological, geological and chemical changes during the late Archean eon (3.0-2.5 billion years ago) of Earth’s geologic history.