Geochemistry
This research group is primarily interested in the application of stable and radiogenic isotopes in conjunction with organic and inorganic geochemical approaches to understand bio- and geo-chemical processes, geochronology and physico-chemical records. Researchers in this group investigate the entire geologic record. The understanding of geochemical processes in the earth and environmental sciences is obtained through the use of state-of-the-art analytical equipment for measuring elements and isotopic abundances from a wide range of materials.
Information Box Group
Sang-Tae Kim
Professor
Research Goals
- Understanding of stable isotope effects in the carbonate-water systems based on laboratory-based experiments and field-based empirical studies.
- Providing the scientific community with new, accurate, and robust geochemical proxies for probing climatic, environmental, and biogeochemical processes.
- Developing novel analytical methods that greatly improve the existing analytical efficiency and cost effectiveness for Earth science communities.
Greg Slater
Professor
My research focuses on understanding the fate and transport of organic compounds, organic contaminants in particular, in the environment and on the microbial processes which control carbon cycling in both contaminated and natural environments. Research in my lab uses both traditional and novel techniques to investigate questions relating to topics ranging from organic contaminant sources and biodegradation in the environment to the metabolic processes and bio-signatures associated with microbial metabolism and carbon cycling in extreme environments. The common theme in this research is to understand the fundamental processes that control the environment around us and the impact that life, including industrial society, has on the environment and vice versa.
Sang-Tae Kim
Professor
Research Goals
- Understanding of stable isotope effects in the carbonate-water systems based on laboratory-based experiments and field-based empirical studies.
- Providing the scientific community with new, accurate, and robust geochemical proxies for probing climatic, environmental, and biogeochemical processes.
- Developing novel analytical methods that greatly improve the existing analytical efficiency and cost effectiveness for Earth science communities.
Sang-Tae Kim
Professor
Research Goals
- Understanding of stable isotope effects in the carbonate-water systems based on laboratory-based experiments and field-based empirical studies.
- Providing the scientific community with new, accurate, and robust geochemical proxies for probing climatic, environmental, and biogeochemical processes.
- Developing novel analytical methods that greatly improve the existing analytical efficiency and cost effectiveness for Earth science communities.
Greg Slater
Professor
My research focuses on understanding the fate and transport of organic compounds, organic contaminants in particular, in the environment and on the microbial processes which control carbon cycling in both contaminated and natural environments. Research in my lab uses both traditional and novel techniques to investigate questions relating to topics ranging from organic contaminant sources and biodegradation in the environment to the metabolic processes and bio-signatures associated with microbial metabolism and carbon cycling in extreme environments. The common theme in this research is to understand the fundamental processes that control the environment around us and the impact that life, including industrial society, has on the environment and vice versa.
Greg Slater
Professor
My research focuses on understanding the fate and transport of organic compounds, organic contaminants in particular, in the environment and on the microbial processes which control carbon cycling in both contaminated and natural environments. Research in my lab uses both traditional and novel techniques to investigate questions relating to topics ranging from organic contaminant sources and biodegradation in the environment to the metabolic processes and bio-signatures associated with microbial metabolism and carbon cycling in extreme environments. The common theme in this research is to understand the fundamental processes that control the environment around us and the impact that life, including industrial society, has on the environment and vice versa.