OUR RESEARCH
We use field, geochemical observations and modeling approaches to understand the evolution of Earth's surface environments through time. In addition, we are interested in connecting the modern with ancient environments as well as deep Earth processes.
We use field and geochemical observations and modeling to understand the possible correlations between the temporary variations of trace metals and isotopic compositions with atmospheric and ocean oxygen level evolution.
We use field and geochemical observations and modeling to understand the possible correlations between the temporary variations of trace metals and isotopic compositions with atmospheric and ocean oxygen level evolution.
We use field, geochemical observations and modeling approaches to understand the evolution of Earth's surface environments through time. In addition, we are interested in connecting the modern with ancient environments as well as deep Earth processes.
We combine laboratory and field observations including weathering profiles and water geochemistry to investigate the chemical changes accompanying continental weathering using various geochemical proxies. Our current field focus is on the Galapagos and Hawaii Islands.
We combine laboratory and field observations including weathering profiles and water geochemistry to investigate the chemical changes accompanying continental weathering using various geochemical proxies. Our current field focus is on the Galapagos and Hawaii Islands.
We investigate geochemical changes during in Earth's environments at various scales from mineral surfaces, soil outcrops to subduction zones.
We investigate geochemical changes during in Earth's environments at various scales from mineral surfaces, soil outcrops to subduction zones.