Thomas L. Delworth | |
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Born | St. Louis Missouri |
Education | Northwestern University, University of Wisconsin |
Scientific career | |
Institutions | GFDL, NOAA, Princeton University |
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Thomas L. Delworth is an atmospheric and oceanic climate scientist and Senior Scientist at the Geophysical Fluid Dynamics Laboratory (GFDL), part of NOAA. He also serves on the faculty of Oceanic Science at Princeton University.[1]
Delworth is a fellow of the American Geophysical Union and received its 2021 Bert Bolin Award for Climate research, for "major contributions in atmosphere ocean interactions through pioneering climate modeling that has advanced the understanding of climate variations, change, and extremes."[2] He has been recognized as a Highly Cited Researcher by Clarivate Analytics for 2021[3] and multiple previous years for having "demonstrated significant influence through publication of multiple highly cited papers during the last decade".[4][5]
Delworth grew up in St. Louis, Missouri.[6] He received his B.S. in Integrated Science in 1979 from Northwestern University. He earned his MS in meteorology (1983) and his Ph.D. in Atmospheric Science (1994) from the University of Wisconsin.[7][8]
In 1984,[7] Delworth joined the Climate Dynamics Group of the Geophysical Fluid Dynamics Laboratory (GFDL), part of the Office of Oceanic & Atmospheric Research of the National Oceanic & Atmospheric Administration (NOAA) of the U.S. Department of Commerce, in Princeton, NJ. He has served as a Research Meteorologist (1984-2001), a Group Leader (2001-2012) and Supervisory Physical Scientist (2012-). In addition Delworth has been a lecturer in atmospheric and oceanic sciences at Princeton University since 2008.[7][9]
Delworth has collaborated with many others including 2021 Nobel Laureate Syukuro Manabe, who created the first climate models to show the effects of carbon dioxide building up in the atmosphere, Ronald J. Stouffer, Michael E. Mann, and Rong Zhang.[10][11][12][13] Delworth serves on the Syukuro Manabe Climate Research Award Committee of the American Meteorological Society.[14]
Delworth studies the global climate system through long-term global climate modeling at timescales ranging from seasons to decades[6] and centuries[2] with an emphasis on understanding climate variability, change and predictability.[2] He has helped to develop climate modelling systems including CM2.1[15] and SPEAR.[16] He has used hierarchies of models to examine climate variability and related changes.[2] He compares the natural variability of the climate (changes that would occur without human influence) with responses to atmospheric changes in greenhouse gases and aerosols that result from human actions.[6]
Delworth's research focuses on the impact of oceans throughout the global climate system, affecting both oceans and continents worldwide.[6] Delworth has done key research into the operation of the Atlantic Meridional Overturning Circulation (AMOC) and the related Atlantic Multidecadal Variability (AMV) and North Atlantic Oscillation (NAO).[17][18][19] He is credited with "major contributions in atmosphere ocean interactions through pioneering climate modeling that has advanced the understanding of climate variations, change, and extremes."[2][20] He has collaborated widely on studies of the role of the ocean in extreme weather such as warming temperatures, drought, tropical cyclones, flooding and winter storms.[20]
"The ocean is big. It covers 70 percent of the Earth. It stores a lot of heat and it moves heat around. If the Atlantic Ocean is warm, how does that impact climate? If the Arctic sea ice is melting, what does that do?" - Thomas L. Delworth, 2021[6]