![]() A.A 3D-Earth viewer enables navigating through the virtual environment and can be easily downloaded from the internet.A.33 Earth Science Research from Operational Geostationary Satellite Systems.A.32 Interdisciplinary Science in Earth Science.A.30 Airborne Instrument Technology Transition.A.25 The Soil Moisture Active-Passive Mission Science Team.A.12 Surface Water and Ocean Topography Science Team.Decadal Survey Incubation Study Teams: Planetary Boundary Layer and Surface Topography and Vegetation.Past, open, and future solicitations can be searched and viewed on NSPIRES.Ģ019 solicitations of interest to the Weather and Atmospheric Dynamics community: Solicited program elements relevant to WAD are publicized through the Research Opportunities in Space and Earth Sciences (ROSES) NASA Research Announcements (NRAs) on the NASA Solicitation and Proposal Integrated Review and Evaluation System (NSPIRES) website. Weather and Atmospheric Dynamics Focus Area Strategy Working Group Open Session, July 13, 2021.WAD for Scientists Scientific Meetings and Conferences SPoRT aims to improve short-term forecasts on a regional scale. The Short-term Prediction Research and Transition Center (SPoRT) takes the data products and algorthims from NASA research satellites and transitions them to NOAA’s National Weather Service (NWS) Weather Forecast Offices (WFOs). Short-term Prediction Research and Transition Its mission is to accelerate and improve the quantitative use of research and operational satellite data in weather, ocean, and environmental analysis and prediction models. The Joint Center for Satellite Data Assimilation (JCSDA) is a partnership among NASA, NOAA, and DoD. To achieve this goal, GMAO develops models and assimilation systems for the atmosphere, ocean, and land surface generates products to support NASA instrument teams for field campaigns and the NASA Earth Science Research and Analysis program and undertakes scientific research to inform modeling system development pathways. The Global Modeling and Assimilation Office (GMAO) uses comprehensive global models and data assimilation techniques to maximize the impact of satellite observations in climate, weather, and atmospheric composition prediction. WAD supports research in two areas to help advance satellite data assimilation. Ultimately, WAD hopes to improve process models in these areas, provide initial conditions and assimilation of data to better characterize and understand weather systems, and develop long-term time series of atmospheric analyses to support weather and climate studies. To do this, WAD observes atmospheric phenomena associated with the water cycle – including precipitation, severe storms, lightning, and tropical cyclones – to determine the relationship between atmospheric thermodynamics, dynamics, storm structure, and convection ocean surface properties and radiation within weather systems. This research improves computer models, algorithms, and data assimilation that support short-term to seasonal weather prediction and understanding. WAD studies the dynamics of the atmosphere, precipitation, and wind to better understand the conditions that drive specific weather events. Research Programs Atmospheric Dynamics and Precipitation Science Weather and Atmospheric Dynamics addresses the following overarching questions: ![]() ![]() WAD further supports research into profiling winds, temperature, humidity, pressure, and aerosols air-sea and land-atmosphere interactions and lightning occurrences. ![]() WAD helps improve our knowledge of the fundamental processes that drive these systems and inform the operational infrastructure upon which other federal agencies rely, including the National Oceanic and Atmospheric Administration (NOAA), the Federal Aviation Administration (FAA), and the Department of Defense (DOD). Weather includes everything from localized microphysical processes that occur in minutes, to global-scale phenomena that can occur for an entire season. The Weather and Atmospheric Dynamics focus area (WAD) supports research to obtain accurate measurements of the atmosphere that help improve short-term, subseasonal, and seasonal weather predictions at local, regional, and global scales. ![]() WAD researches the dynamics of the atmosphere to improve our understanding of the fundamental processes that drive weather. ![]()
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