Anisovolumetric weathering is much more common than previously thought, and variations in this process can be explained by climate and erosion. Research led by the University of Wyoming shows that ...

Magnesium isotope geochemistry has emerged as a pivotal tool in deciphering Earth’s surface and subsurface processes, particularly in the context of chemical weathering. By studying the subtle ...

Reverse weathering is one of the ocean's most important yet least understood geochemical processes. During this natural process, dissolved minerals and chemicals combine to form new clay minerals in ...

CAMBRIDGE, Mass., Nov. 7, 2007 — Researchers at Harvard University and Pennsylvania State University have invented a technology, inspired by nature, to reduce the accumulation of atmospheric carbon ...

Uranium-series isotopes, in particular the activity ratio of 234U to 238U, have emerged as robust tracers for investigating the complexities of weathering and sediment transport processes. These ...

Research led by the University of Wyoming shows that physical weathering is far more important than previously recognized in the breakdown of rock in mountain landscapes. Because it is difficult to ...

Brad Carr, a UW associate research scientist in geology and geophysics, uses the Geoprobe instrument to sample the subsurface in the foothills of the southern Sierra Nevada in California. Carr ...