A case study of the radiative forcing of persistent contrails evolving into contrail-induced cirrus

The radiative forcing due to a distinct pattern of persistent contrails that form into contrail‐induced cirrus near and over the UK is investigated in detail for a single case study during March 2009. The development of the contrail‐induced cirrus is tracked using a number of high‐resolution polar o...

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Bibliographic Details
Published in:Journal of Geophysical Research. B. Solid Earth 2009-12, Vol.114 (D24), p.n/a
Main Authors: Haywood, James M., Allan, Richard P., Bornemann, Jorge, Forster, Piers M., Francis, Peter N., Milton, Sean, Rädel, Gaby, Rap, Alexandru, Shine, Keith P., Thorpe, Robert
Format: Article
Language:English
Subjects:
Aircraft
Atmosphere
Atmospheric sciences
Aviation
Case studies
cirrus
climate
Climate change
Climate effects
Clouds
Contrail formation
Contrails
Daylight
Earth
Earth sciences
Earth, ocean, space
Estimates
Exact sciences and technology
Geophysics
Geostationary satellites
Prediction models
Radiation
Radiative forcing
Remote sensing
Satellite instruments
Satellite observation
Satellite tracking
Satellites
Synchronous satellites
Weather forecasting
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Summary:The radiative forcing due to a distinct pattern of persistent contrails that form into contrail‐induced cirrus near and over the UK is investigated in detail for a single case study during March 2009. The development of the contrail‐induced cirrus is tracked using a number of high‐resolution polar orbiting and lower‐resolution geostationary satellite instruments and is found to persist for a period of around 18 h, and at its peak, it covers over 50,000 km2. The shortwave (SW) and longwave (LW) radiative forcing of the contrail‐induced cirrus is estimated using a combination of geostationary satellite instruments, numerical weather prediction models, and surface observation sites. As expected, the net radiative effect is a relatively small residual of the much stronger but opposing SW and LW effects, locally totaling around 10 W m−2 during daylight hours and 30 W m−2 during nighttime. A simple estimate indicates that this single localized event may have generated a global‐mean radiative forcing of around 7% of recent estimates of the persistent contrail radiative forcing due to the entire global aircraft fleet on a diurnally averaged basis. A single aircraft operating in conditions favorable for persistent contrail formation appears to exert a contrail‐induced radiative forcing some 5000 times greater (in W m−2 km−1) than recent estimates of the average persistent contrail radiative forcing from the entire civil aviation fleet. This study emphasizes the need to establish whether similar events are common or highly unusual for a confident assessment of the total climate effect of aviation to be made.
ISSN:0148-0227
2169-897X
2156-2202
2169-8996
DOI:10.1029/2009JD012650