NASA has selected a new Earth science mission that will study the behavior of tropical storms and thunderstorms, including their impacts on weather and climate models. The mission will be a collection of three SmallSats, flying in tight coordination, called Investigation of Convective Updrafts (INCUS), and is expected to launch in 2027 as part of NASA’s Earth Venture Program.
NASA selected INCUS through the agency’s Earth Venture Mission-3 (EVM-3) solicitation that sought complete, space-based investigations to address important science questions and produce data of societal relevance within the Earth science field. NASA received 12 proposals for EVM-3 missions in March 2021. After detailed review by panels of scientists and engineers, the agency selected INCUS to continue into development.
“Every one of our Earth science missions is carefully chosen to add to a robust portfolio of research about the planet we live on,” said Thomas Zurbuchen, associate administrator for the agency’s Science Mission Directorate in Washington. “INCUS fills an important niche to help us understand extreme weather and its impact on climate models – all of which serves to provide crucial information needed to mitigate weather and climate effects on our communities.”
INCUS aims to directly address why convective storms, heavy precipitation, and clouds occur exactly when and where they form. The investigation stems from the 2017 Earth Science Decadal Survey by the National Academies of Sciences, Engineering, and Medicine, which lays out ambitious, but critically necessary, research and observation guidance.
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Image: Towering cumulonimbus thunderstorm clouds are seen in this photo taken Aug. 15, 2014, looking east toward the Atlantic Ocean from the Space Launch Complex 37 area at Cape Canaveral Air Force Station (now Cape Canaveral Space Force Station) in Florida. NASA has selected a new Earth science mission called Investigation of Convective Updrafts (INCUS) that will study the behavior of tropical storms and thunderstorms, including their impacts on weather and climate models.
(Credits: NASA/Jim Grossmann)