A new study reveals Mars’s missing water may have slowly seeped underground, becoming trapped in ancient aquifers beneath the surface.

Coupled with the complexity of subsurface flow routes, such as overflow behaviour from storage reservoirs, water movement to speleothems can be expected to display non-linear behaviour.

By listening to the echoes of "marsquakes" — seismic waves rippling through Mars ' crust — researchers uncovered signs of ...

Water movement in soil is closely linked with storage ... is fundamental to most land use decisions. B horizon: Subsurface soil horizons that are zones of accumulation of soil constituents ...

By studying seismic waves, researchers have found a layer deep beneath the surface of Mars that could contain enough liquid ...

From the water’s surface, you can easily appreciate the beauty, vastness, and intrigue of the Great Lakes. Yet a subsurface dive truly begins ... by an operator who dictates the vehicle’s movements ...

Through subsurface imaging and lab experiments, Stanford scientists have shown how pressure buildup from water and vapor in the reservoir under Campi Flegrei can lead to earthquakes when the ...