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Detection and Height Measurement of Tenuous Clouds and Blowing Snow in ICESat‐2 ATLAS Data

U. C. Herzfeld, Adam N Hayes, Stephen P. Palm, D. W. Hancock, Mark Vaughan, K. A. Barbieri

2021Geophysical Research Letters36 citationsDOI

Abstract

Abstract Tenuous atmospheric layers, such as high, thin cirrus clouds and blowing snow over Antarctica, play an important role in the climate system, affecting energy fluxes between the Earth and the atmosphere. Our knowledge of the structure of the atmosphere is largely derived from atmospheric satellite measurements. Yet tenuous layers can be hard to detect in satellite lidar data, especially in daylight data characterized by high solar background. In this study, we introduce an approach to detect tenuous atmospheric layers in the atmospheric lidar measurements of NASA's ICESat‐2. The density‐dimension algorithm for ICESat‐2 atmospheric data (DDA‐atmos) identifies atmospheric layers while automatically adapting to different background conditions of night, twilight, and daylight data. This capability, demonstrated for tenuous clouds and blowing snow, offers a data‐based solution to an important climate modeling problem. Atmospheric layer boundaries, detection confidence, and density fields resultant from the DDA‐atmos are reported in ICESat‐2 atmospheric data product ATL09.

Topics & Concepts

LidarEnvironmental scienceCirrusAtmosphere (unit)SnowSatelliteMeteorologyRemote sensingAtmospheric sciencesGeologyGeographyEngineeringAerospace engineeringAtmospheric and Environmental Gas DynamicsAtmospheric aerosols and cloudsAtmospheric chemistry and aerosols