The theory may play a vital role in securing the Earth's fresh water supplies, especially in heavily populated regions like India and China, researchers said.
The latest Earth-based groundwater theories may aid mankind in its quest for water on other planets, said Professor Craig Simmons of the National Centre for Groundwater Research and Training (NCGRT) and Flinders University.
Simmons and his colleagues have been working on a theory that groundwater flows faster when it contains salt, heat, radioactive waste or contaminated liquids from landfills - all of which increase the water's density and hence the speed it travels downwards.
"Similarly, warmer water that's less dense than cold water rises to the top. This rapid mixing caused by varying water densities appears to drive groundwater much faster than previously thought," Simmons said.
He said density effects can be seen when seawater intrudes into coastal aquifers, when polluted water escapes from landfills, when radioactive waste leaches out of underground repositories, in geothermal energy production and deep carbon storage, and in the movement of groundwater underneath salt lakes.
"We can model where and how fast contaminated or saline water will travel, and so try to prevent it from polluting nearby fresh aquifers which people rely on for drinking or domestic use.
In a recent study, US scientists applied the theory to the freezing and thawing of salt water on the Martian surface, using it to explain some of the water phenomena that Mars rovers are now seeing on the Red Planet.
"The search for water on Mars is part of the search for life, which requires water to survive," Simmons said.
"Various studies as well as spacecraft and satellite observations hint that water exists beneath Mars's icy crust, and in this latest study, the scientists have found evidence of water - in the form of ice and brine - at its equator.
The study was published in Journal of Geophysical research.