Mars' unique topography, with low-lying northern plains and elevated southern highlands, is linked to internal magnetic ...

Researchers have unveiled new findings that reshape our understanding of the Moon's formation and Earth's early hydration.

The mounds lie north of a feature of Mars known as the Martian dichotomy, where the towering, ancient highlands of the southern hemisphere give way to shallower, younger plains that stretch across the ...

Researchers from the University of Gottingen and the Max Planck Institute for Solar System Research have now revealed it could have formed from material ejected from the Earth's mantle.

A new way of measuring structures deep inside Earth has highlighted numerous previously unknown blobs within our planet's ...

Plate tectonics give Earth its mountains, earthquakes, continental drift and maybe even helped give rise to life itself. But ...

The mantle of the Earth, up to 1,800 miles (2,900 kms) thick and 84% of the Earth's volume, was assumed to be a simple ...

Mars has northern and southern hemispheres like Earth, but their defining characteristics are markedly different, a ...

A research team has discovered another piece in the puzzle of the formation of the Moon and water on Earth. The prevailing theory was that the Moon was the result of a collision between the early ...

A research team from the University of Göttingen and the Max Planck Institute for Solar System Research (MPS) has discovered ...

The latest research contradicts previous studies that proposed the Indian landmass's collision with Eurasian plates as the ...

The Earth's mantle isn't just a hot, dense layer of rock; it's a dynamic and diverse engine driving our planet's geology.