Harry Beine
Harry Beine is an associate researcher in the Land, Air and Water Resources Department at the University of California, Davis. His current research focuses on how snow-atmosphere interactions affect global change, and he coordinates the international, multidisciplinary Ocean, Atmosphere, Sea Ice, Snowpack Interactions (OASIS) program.
Florent Domine
Florent Domine is currently a "Directeur de Recherche", Laboratoire de Glaciologie et Géophysique de l'Environnement (LGGE). His current fields of research are snow physics and snow chemistry, as related to climate change and polar atmospheric chemistry.
Frank Flocke
Frank Flocke is a scientist with the Atmospheric Chemistry Division, National Center for Atmospheric Research (NCAR) in Boulder, Colo. As a part of this group, Frank conducts measurements of a variety of gases that play important roles in the chemistry of the atmosphere. Among these are ozone, nitrogen oxides, carbon monoxide, carbon dioxide, water vapor, hydrocarbons and other organic compounds, and organic nitrogen compounds. All these chemicals tell us about processes going on in the atmosphere that affect the quality of the air we breathe.
Amanda Grannas
Amanda Grannas is an assistant professor in the Department of Chemistry at Villanova University. Her current research is focused on better understanding the cycling of persistent organic pollutants in air/snow/ice in the Arctic and the chemistry these pollutants may undergo in sunlit snow and ice. At Villanova, she has an active research group and teaches analytical and environmental chemistry.
Greg Kos
Greg is a research associate at McGill University and part-time faculty member at Concordia University in Montreal, Quebec. His main research interest is the transformation of organic compounds in snow and air. He teaches general and analytical chemistry.
John Orlando
John Orlando is a scientist at NCAR. John studies the rates and mechanisms of chemical reactions that occur in Earth's atmosphere, and much of his work is related to air quality. His participation in the OASIS project stems from his interest in the atmospheric chemistry of halogen species (i.e., those containing chlorine and bromine), which are generally accepted as being responsible for the surface ozone and mercury depletion events seen in the lower atmosphere of the Arctic in springtime.
