Today we are witnessing rapid global sea level rise attributable mostly to climate change–driven melting of ice sheets and ...

Using radioactive isotope systems to determine the age and origins of minerals and rocks, primarily as tracers of magmatic processes and the evolution of the earth. Organic molecules in natural waters ...

The Center for Isotope Geochemistry is a world-class facility for high-precision analysis of both radiogenic and stable isotopes on a wide range of materials. The Center is spread over two ...

Feb. 19, 2025 — An improvement in freshwater biodiversity in England's rivers was linked to reductions in pollution of zinc and copper, largely due to the decline of coal burning and heavy ...

Understanding the chemical processes affecting minerals, water, and air at high temperatures and pressures, typically deep below earth's surface. Specializing in high-precision isotopic analyses, ...

and qualitative chemical analyses are performed on a variety of instruments in the Aqueous Geochemistry Lab. We can analyze for most inorganic elements in aqueous samples, and organic elements in ...

Our lab is a shared analytical facility for multidisciplinary and collaborative research. The Organic Geochemistry Group studies the interplay between microorganisms, biogeochemical processes, and ...

Application of geochemical principles to environmental problems including air pollution and atmospheric processes, climate change, water chemistry and water-rock interactions, and the transport and ...

This research area includes the study of the processes (both inorganic and microbially mediated) that control the chemical composition of surface and ground waters. We have an active program tracing ...

The Organic Geochemistry Unit (OGU) is an international research group that uses high-end analytical techniques such as gas chromatography mass spectrometry and compound specific light stable isotope ...