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Tropical Convection through the Lens of the INCUS Mission

Authors :
Susan van den Heever
Ziad Haddad
Brenda Dolan
Sean Freeman
Leah Grant
Pavlos Kollias
Gabrielle Leung
Johnny Luo
Peter Marinescu
Derek Posselt
Kristen Rasmussen
Prasanth Sai
Richard Schulte
Graeme Stephens
Rachel Storer
Hanii Takahashi
Publication Year :
2023
Publisher :
Copernicus GmbH, 2023.

Abstract

The convective mass flux within tropical convection influences the large-scale circulation, drives cloud radiative forcing, has integral links to the production of fresh water, and impacts extreme weather. CMF forms the focus of the recently selected Investigation of Convective Updrafts (INCUS) mission to be launched in 2026. This NASA mission is comprised of 3 spacecraft, all of which will carry a Ka-band cloud radar. One spacecraft will also carry a passive microwave radiometer. The 3 smallsats are to be separated by time intervals of 30, 90 and 120 seconds, thus allowing for the rapid and systematic sampling of the same storm with all three spacecraft. These time intervals (delta-ts) also facilitate the investigation of the magnitude and evolution of CMF, which will be examined as a function of storm type, storm lifecycle and environmental properties. INCUS will therefore provide the first global systematic investigation into CMF and its evolution within deep tropical convection.A wide range of research tasks have been conducted in preparation for the INCUS mission and the development of the INCUS algorithms including: (1) running and analyzing extensive suites of large-domain, high-resolution model simulations; (2) examining ground-based Doppler radar observations obtained using adaptive scanning techniques during several recent field campaigns; and (3) evaluating anvil characteristics using passive microwave radiometer and geoIR data. This talk will focus on three specific highlights arising from these modeling and observational analyses. First, we will examine the temporal scales of updraft variability. Second, we will analyze the relationship between ice water path cores and convective updrafts. Finally, we will demonstrate proof of the INCUS delta-t concept linking changes in reflectivity to CMF through the use of ground-based radar analyses.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........07cbbb5b70872efdfbb124c157da08d7
Full Text :
https://doi.org/10.5194/egusphere-egu23-11285