Robert Knox, a former associate director of Scripps Institution of Oceanography at UC San Diego and a visionary who helped ...

I was excited to arrive at this year’s meeting of the United Nations Framework Convention on Climate Change (UNFCCC), the ...

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 ...

Supports Internet-data applications in the research, education, and public safety realms in San Diego, Riverside, and Imperial counties. Processes and archives high-precision GPS data for the study of ...

Collecting and processing data on the earth, oceans, and atmosphere using cameras, lasers, and a variety of electromagnetic sensors.

Instruments and systems used to measure and monitor changes in the earth, from seismometers to strainmeters, satellites to infrasound arrays.

Studying the tectonic forces within the Earth give rise to continents, ocean basins, mountain ranges, earthquake belts, and most volcanoes, along with the resulting deformation of geological ...

The study of the radiation, transmission, and scattering of sound, with particular emphasis on low-frequency sounds related to earth processes.

Tracking the flow of natural and manmade elements through the environment to better understand physical systems.

Measuring the movement of defined points on the earth's surface to better understand the stresses and strains affecting the crust and upper mantle.

Quantitative descriptions of processes fundamental to the Earth, often focusing on modeling and inverse theory.

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, ...