Committee Membership Information
A National Strategy for Advancing Climate Modeling
Dr. Chris Bretherton
University of Washington
Chris Bretherton is currently a Professor in the University of Washington Departments of Atmospheric Science and Applied Mathematics, where he teaches classes on weather, atmospheric turbulence and cumulus convection, tropical meteorology, geophysical fluid dynamics, numerical methods, and classical analysis of ODEs and PDEs. He directs the University of Washington Program on Climate Change, which organizes graduate courses, seminars, a summer institute, and research on climate science and its relevance to our society and future. His group developed the parameterizations of shallow cumulus convection used in the cutting-edge versions of two leading US climate models, the National Center for Atmospheric Research Community Atmosphere Model, version 5 (CAM5), and the Geophysical Fluid Dynamics Laboratory Atmosphere Model, version 3 (AM3). They also developed the turbulence parameterization used in CAM5, and have versions of both schemes for the Weather Research and Forecast (WRF) regional modeling system.
Dr. Richard B. Rood
NASA Goddard Space Flight Center
Richard B. Rood is currently a Professor of atmopheric, oceanic and space sciences at the University of Michigan. His current physical-climate research is focused on bridging the study of weather and climate. He is funded by NASA to study dynamical features as objects and to develop new methods for analyzing climate models. He is also funded by the Department of Energy to study sub-scale mixing processes in climate models. In addition, he has funding to study urban heat waves, human heat health warning systems, and how to govern open source / open innovation communities. He is a co-investigator on Michigan's NOAA-funded Regional Integrated Sciences and Assessments Center.
Dr. James J. Hack
National Center for Atmospheric Research
James J. Hack directs the National Center for Computational Sciences (NCCS), a leadership computing facility at Oak Ridge National Laboratory supporting transformational science. He identifies major high performance computing needs from scientific and hardware perspectives and puts forth strategies to meet those needs as machines evolve to the petascale, able to carry out a quadrillion calculations per second. An atmospheric scientist, Hack also leads ORNL???s Climate Change Initiative. Dr. Hack became a research staff member at the IBM Thomas J. Watson Research Center, where he worked on the design and evaluation of high-performance computing architectures. In 1984 he moved to the National Center for Atmospheric Research, a National Science Foundation-sponsored center, where his roles included Senior Scientist, head of the Climate Modeling Section, and Deputy Director of the Climate and Global Dynamics Division. He was one of the principal developers of the climate model that ran on NCCS supercomputers to provide more than one-third of the simulation data jointly contributed by the Department of Energy and the National Science Foundation to the most recent assessment report of the United Nations??? Intergovernmental Panel on Climate Change, the group that shared the 2007 Nobel Peace Prize with Al Gore.
Dr. Shawn Marshall
University of Calgary
Shawn Marshall joined University of Calgary???s Department of Geography in January 2000, following Ph.D. and Postdoctoral research at the University of British Columbia (UBC). Since earning a B.A.Sc. in Engineering Physics at the University of Toronto he has been on a progressively geographical path, with Ph.D. work in Geophysics and Postdoctoral work in UBC??s Department of Earth and Ocean Sciences. His research interests are in glacier and ice sheet dynamics, ice-climate interactions, and paleoclimatology.
Dr. Venkatramani Balaji
V. Balaji heads the Modeling Systems Group serving developers of Earth System models at GFDL and Princeton University. With a background in physics and climate science, he has become an expert in the area of parallel computing and scientific infrastructure, providing high-level programming interfaces for expressing parallelism in scientific algorithms. He has pioneered the use of frameworks (such as the Flexible Modeling System: FMS, as well as community standards such as ESMF and PRISM) allowing the construction of climate models out of independently developed components sharing a technical architecture; and of curators (FMS Runtime Environment FRE) for the execution of complex workflows to manage the complete climate modeling process. The Earth System Curator (US) and Metafor (EU) projects, in which he plays a key role, have developed the use of a common information model which allows the execution of complex scientific queries on model data archives. V. Balaji plays advisory roles on NSF, NOAA and DOE review panels, including the recent series of exascale workshops. He is a sought-after speaker and lecturer and is committed to provide training in the use of climate models in developing nations, leading workshops to advanced students and researchers in South Africa and India.
Dr. Lai-Yung R. Leung
Pacific Northwest National Laboratory
L. Ruby Leung is a recognized leader in modeling regional climate and the hydrological cycle. Her research focuses on understanding and modeling of regional climate variability and change, land-atmosphere interactions, orographic processes, and aerosol effects on the water cycle. She has led important efforts in defining research priorities and needs in regional climate modeling and coordinated community efforts to develop capability in community mesoscale models to simulate regional climate. Her research on climate change and aerosol effects has been featured in Science, Popular Science, Wall Street Journal, National Public Radio, and many major newspapers. Her research crosses scientific disciplines to advance the state of the art in predicting climate change and its regional impacts.
Dr. Thomas L. Delworth
Geophysical Fluid Dynamics Laboratory
Thomas L. Delworth is a Research Scientist and group leader in the Climate Change, Variability and Prediction Group at NOAA???s GFDL. His research is largely focused around decadal to centennial climate variability and change through the synthesis of climate models and observational data. On these time scales the behavior of the climate system is a mixture of natural variability combined with the response of the climate system to changing radiative forcing induced by changing greenhouse gases and aerosols. Understanding the natural variability of the climate system on decadal scales is critical to their ability to detect climate change, and to understand the processes responsible for observed change from the global to the regional scale.
Dr. James L. Kinter, III
Center for Ocean-Land-Atmospher Studies
James L. Kinter is Director of the Center for Ocean-Land-Atmosphere Studies (COLA) where he manages all aspects of basic and applied climate research conducted by the Center. Dr. Kinter's research includes studies of climate predictability on seasonal and longer time scales. Of particular interest in his research are prospects for prediction of El Ni??o and the extratropical response to tropical sea surface temperature anomalies using high-resolution coupled general circulation models of the Earth's atmosphere, oceans and land surface. Dr. Kinter is also an Associate Professor in the Climate Dynamics Ph.D. Program and the Atmospheric, Oceanic and Earth Sciences department at George Mason University, where he has responsibilities for curriculum development and teaching undergraduate and graduate courses on climate change, as well as advising Ph.D. students. After earning his doctorate in geophysical fluid dynamics at Princeton University in 1984, Dr. Kinter served as a National Research Council Associate at NASA Goddard Space Flight Center, and as a faculty member of the University of Maryland (teaching faculty 1984-1987; research faculty 1987-1993) prior to joining COLA. Dr. Kinter has served on many national review panels for both scientific research programs and supercomputing programs for computational climate modeling.
Dr. Robert E. Dickinson
The University of Texas at Austin
Robert E. Dickinson joined the Department of Geological Sciences in August of 2008. For the previous 9 years, he was Professor of Atmospheric Sciences and held the Georgia Power/ Georgia Research Alliance Chair at the Georgia Institute of Technology, the 9 years before that he was Professor of Atmospheric Sciences and Regents Professor at the University of Arizona, and for the previous 22 years a Senior Scientist at the National Center for Atmospheric Research. He was elected to the U.S. National Academy of Sciences in 1988, to the U.S. National Academy of Engineering in 2002, and a foreign member of the Chinese Academy of Sciences in 2006. His research interests are in climate modeling, climate variability and change, aerosols, the hydrological cycle and droughts, land surface processes, the terrestrial carbon cycle, and the application of remote sensing data to modeling of land surface processes.
Dr. James A. Edmonds
Joint Global Change Research Institute
Jae Edmonds is a Chief Scientist and Laboratory Fellow at the Pacific Northwest National Laboratory???s Joint Global Change Research Institute, a collaboration with the University of Maryland at College Park. His research in the areas of long-term, global, energy, technology, economy, and climate change spans three decades, producing several books, numerous scientific papers and countless presentations. He is one of the pioneers in the field of integrated assessment modeling of climate change. His principal research focus is the role of energy technology in addressing climate change. He is the Chief Scientist for the Integrated Assessment Research Program in the Office of Science at the U.S. Department of Energy. He has been an active participant in all of the major assessments of the Intergovernmental Panel on Climate Change.
Dr. Daniel J. Jacob
Daniel J. Jacob is a Professor of atmospheric chemistry and environmental engineering at Harvard University. The goal of his research is to understand the chemical composition of the atmosphere, its perturbation by human activity, and the implications for climate change and life on Earth. His approaches include global modeling of atmospheric chemistry and climate, aircraft measurement campaigns, satellite data retrievals, and analyses of atmospheric observations.
Dr. James S. Famiglietti
University of California, Irvine
James S. Famiglietti holds a joint faculty appointment in Earth System Science and in Civil and Environmental Engineering at the University of California, Irvine, where he is the Founding Director of the system-wide UC Center for Hydrologic Modeling. He holds a B.S. in Geology from Tufts University, an M.S. in Hydrology from the University of Arizona, and an M.A. and a Ph.D. in Civil Engineering and Operations Research from Princeton University. He completed his postdoctoral studies in hydrology and climate system modeling at Princeton and at the National Center for Atmospheric Research. Before joining the faculty at UCI in 2001, Dr. Famiglietti was an Assistant and Associate Professor in the Department of Geological Sciences at the University of Texas at Austin, and was the Associate Director of the UT Environmental Science Institute. He is the past Chair of the Board of the Consortium of Universities for the Advancement of Hydrologic Science, Inc. (CUAHSI), and past Editor-in-Chief of Geophysical Research Letters. His research concerns the role of hydrology in the coupled Earth system. Areas of activity include the continued development of the hydrologic components of climate models; climate system modeling for studies of land-ocean-atmosphere-human interaction; and remote sensing of the terrestrial and global water cycles, including groundwater depletion and freshwater availability. Famiglietti is currently leading the Community Hydrologic Modeling Platform (CHyMP) effort to accelerate the development of hydrological models for use in addressing national and international priorities related to water, food, economic, climate, and national security.
Dr. James W. Hurrell
National Center for Atmospheric Research
James (Jim) W. Hurrell is Senior Scientist in the Climate and Global Dynamics Division of the Earth System Laboratory at the National Center for Atmospheric Research (NCAR). NCAR is a federally funded research and development center that works with partners at universities and researchers to explore and understand the atmosphere and its interactions with the sun, the oceans, the biosphere, and human society. Jim joined NCAR after earning his doctorate in atmospheric science from Purdue University. Jim???s research has centered on empirical and modeling studies and diagnostic analyses to better understand climate, climate variability and climate change. Jim has been involved in assessment activities of the Intergovernmental Panel on Climate Change and the U.S. Global Change Research Program. Jim has been extensively involved in the World Climate Research Programme (WCRP) on Climate Variability and Predictability (CLIVAR), including roles as co-chair of the Scientific Steering Group (SSG) of both U.S. and International CLIVAR and membership on several other CLIVAR panels. His current position at NCAR is Chief Scientist of the Community Earth System Model (CESM). Jim has given testimony on climate change issues for congressional subcommittees and has received numerous prestigious honors and awards in his field of atmospheric science.
Dr. Inez Y. Fung
University of California, Berkeley
Inez Fung is a Professor in the Department of Earth and Planetary Science and the Department of Environmental Science, Policy and Management. Since 2005, she has also been a Founding Co-Director of the Berkeley Institute of the Environment. Inez Fung has been studying climate change for the last 20 years. She is a principal architect of large-scale mathematical modeling approaches and numerical models to represent the geographic and temporal variations of sources and sinks of CO2, dust and other trace substances around the globe. Dr. Fung???s recent work in climate modeling predicts the co-evolution of CO2 and climate and concludes that the diminishing capacities of the land and oceans to store carbon act to accelerate global warming. Inez Fung received her S.B. in Applied Mathematics and her Sc.D. in Meteorology from MIT. She joined the Berkeley faculty in 1998 as the first Richard and Rhoda Goldman Distinguished Professor in the Physical Sciences and the founding Director of the Berkeley Atmospheric Sciences Center.
Dr. Larry L. Smarr
University of California, San Diego
Larry Smarr is the founding Director of the California Institute for Telecommunications and Information Technology (Calit2), a UC San Diego/UC Irvine partnership, and holds the Harry E. Gruber professorship in Computer Science and Engineering (CSE) at UCSD???s Jacobs School. At Calit2, Smarr has continued to drive major developments in information infrastructure-- including the Internet, Web, scientific visualization, virtual reality, and global telepresence--begun during his previous 15 years as founding Director of the National Center for Supercomputing Applications (NCSA). Smarr served as principal investigator on NSF???s OptIPuter project and currently is principal investigator of the Moore Foundation???s CAMERA project and co-principal investigator on NSF???s GreenLight project.