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Bio
RESEARCH
Tropical Meteorology
My research focuses on a wide range of atmospheric convective processes in the tropics, from small cumulus to large mesoscale convective systems. I am interested in the environmental factors that affect precipitation production and convective organization.
Radar Meteorology
Radar is a key tool in my work because of its ability to observe precipitation and storm structure over large time and space scales. I've used both ground-based and space-borne radars to create climatologies useful in understanding tropical convective processes and subtropical precipitating systems.
Mesoscale-climate interactions
This component of my research pairs observations of precipitation and storm structure with mesoscale and global circulation models to better understand the interaction between mesoscale systems and the large-scale circulation.
She currently holds the E.D. Brockett Professorship in Geosciences and is a Fellow of the American Meteorological Society.Dr. Schumacher is an observer of storms who works with theoreticians, numerical modelers, mathematicians, and chemists to push the bounds of knowledge on how storms become large and long lasting and what storm organization means for rain and climate processes. Her recent work spans studies of storms occurring 30,000 years ago as represented by cave isotope records to using climate models and advanced statistical and machine learning techniques to predict extreme rain and lightning occurrence into the next 100 years. Her research also focuses on fundamental physical processes within storms, especially the heat they release, and how storms interact with larger scale flows that vary on times scales that range from daily to interannual. Dr. Schumacher has been heavily involved in field campaigns throughout the tropics and is an active contributor to NASA’s satellite radar missions, both the implementation of current missions and the planning of next missions. She has also held scientific leadership positions in the Department of Energy and other national and international organizations.
PROFESSIONAL EXPERIENCE
I was highly involved in the ARM deployments during TWP-ICE in Darwin, Australia, AMIE in the equatorial Indian Ocean, and GoAmazon2014/15 in the central Amazon. I also served on the ARM Radar Science steering committee and am an active member of ASR.
Tropical Meteorology
My research focuses on a wide range of atmospheric convective processes in the tropics, from small cumulus to large mesoscale convective systems. I am interested in the environmental factors that affect precipitation production and convective organization.
Radar Meteorology
Radar is a key tool in my work because of its ability to observe precipitation and storm structure over large time and space scales. I've used both ground-based and space-borne radars to create climatologies useful in understanding tropical convective processes and subtropical precipitating systems.
Mesoscale-climate interactions
This component of my research pairs observations of precipitation and storm structure with mesoscale and global circulation models to better understand the interaction between mesoscale systems and the large-scale circulation.
She currently holds the E.D. Brockett Professorship in Geosciences and is a Fellow of the American Meteorological Society.Dr. Schumacher is an observer of storms who works with theoreticians, numerical modelers, mathematicians, and chemists to push the bounds of knowledge on how storms become large and long lasting and what storm organization means for rain and climate processes. Her recent work spans studies of storms occurring 30,000 years ago as represented by cave isotope records to using climate models and advanced statistical and machine learning techniques to predict extreme rain and lightning occurrence into the next 100 years. Her research also focuses on fundamental physical processes within storms, especially the heat they release, and how storms interact with larger scale flows that vary on times scales that range from daily to interannual. Dr. Schumacher has been heavily involved in field campaigns throughout the tropics and is an active contributor to NASA’s satellite radar missions, both the implementation of current missions and the planning of next missions. She has also held scientific leadership positions in the Department of Energy and other national and international organizations.
PROFESSIONAL EXPERIENCE
I was highly involved in the ARM deployments during TWP-ICE in Darwin, Australia, AMIE in the equatorial Indian Ocean, and GoAmazon2014/15 in the central Amazon. I also served on the ARM Radar Science steering committee and am an active member of ASR.
Research Interests
Papers共 127 篇Author StatisticsCo-AuthorSimilar Experts
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crossref(2024)
GEOSCIENCESno. 9 (2023): 264-264
SCIENTIFIC REPORTSno. 1 (2023)
Scientific Reportsno. 1 (2023): 1-2
QUARTERLY JOURNAL OF THE ROYAL METEOROLOGICAL SOCIETYno. 756 (2023): 2820-2837
GEOPHYSICAL RESEARCH LETTERSno. 14 (2023): n/a-n/a
Artificial Intelligence for the Earth Systems (2023)
Shuaiqi Tang,Shaocheng Xie,Zhun Guo,Song-You Hong,Boualem Khouider,Daniel Klocke,Martin Kohler,Myung-Seo Koo, Phani Murali Krishna,Vincent E. Larson, Sungsu Park,Paul A. Vaillancourt,
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