There is a newer version of the record available.

Published February 22, 2022 | Version v1
Journal article Open

Impact of parametrizing microphysical processes in the jet and vortex phase on contrail cirrus properties and radiative forcing

  • 1. 1 Deutsches Zentrum für Luft- und Raumfahrt, Institut für Physik der Atmosphäre, Oberpfaffenhofen, Germany

Description

Abstract of the manuscript

Contrail ice nucleation and ice crystal loss during the vortex phase control ice crystal numbers in young contrails and can have a strong impact on the properties and the life cycle of contrail cirrus. For current soot number emissions, ice nucleation is controlled by the number of emitted soot particles and atmospheric conditions while ice crystal loss during the vortex phase depends predominantly on the nucleated ice crystal numbers and the relative humidity over ice. 

Initial ice crystal numbers after the vortex phase are close to the emitted soot particle number only for very low ambient temperatures (< 210 K) and for highly ice-supersaturated conditions. Higher temperatures and lower relative humidities lead to significantly decreased ice crystal numbers.

Global climate model simulations show that ice crystal numbers per fuel mass of young contrails are on average significantly lower than the soot number emission index. In the extratropics this is caused by a high ice crystal loss during the vortex phase and in the subtropics, tropics and at lower flight levels by decreased ice nucleation. Simulated ice crystal numbers per newly formed contrail length agree well with in-situ measurements over Central Europe within the variability of present-day soot number emissions. Our estimated global mean contrail cirrus radiative forcing (gRF) for the year 2006 is 44 mWm-2, around 22% lower than estimated in a previous study. When reducing soot number emissions, the gRF decreases slightly weaker than proposed by a recent study due to the ice crystal loss during the vortex phase.

Files

Figure1.zip

Files (1.8 MB)

Name Size Download all
md5:3bf8d2ddc304be4fd33addff167fdf69
16.1 kB Download
md5:178e31a024063a508fd5dc0674d6430c
19.8 kB Preview Download
md5:d2f8bf9837b1ff57bee0dc1caad9a839
1.1 MB Preview Download
md5:a48e8c95c46c716d12eefad534ffada5
317.0 kB Preview Download
md5:13f88945b573a98294a8c778123c2b16
177.3 kB Preview Download
md5:11d4b62c949916e37383efaaa6c0884f
177.7 kB Preview Download

Additional details