Pollution trends over Europe constrain global aerosol forcing as simulated by climate models

An increasing trend in surface solar radiation (solar brightening) has been observed over Europe since the 1990s, linked to economic developments and air pollution regulations and their direct as well as cloud‐mediated effects on radiation. Here, we find that the all‐sky solar brightening trend (199...

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Bibliographic Details
Published in:Geophysical research letters 2014-03, Vol.41 (6), p.2176-2181
Main Authors: Cherian, Ribu, Quaas, Johannes, Salzmann, Marc, Wild, Martin
Format: Article
Language:English
Subjects:
Aerosols
Air pollution
Anthropogenic factors
Atmospheric aerosols
Brightening
Climate models
CMIP5
Computer simulation
Environmental regulations
radiative forcing
Simulation
solar brightening
Solar radiation
Stations
Trends
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Summary:An increasing trend in surface solar radiation (solar brightening) has been observed over Europe since the 1990s, linked to economic developments and air pollution regulations and their direct as well as cloud‐mediated effects on radiation. Here, we find that the all‐sky solar brightening trend (1990–2005) over Europe from seven out of eight models (historical simulations in the Fifth Coupled Model Intercomparison Project) scales well with the regional and global mean effective forcing by anthropogenic aerosols (idealized “present‐day” minus “preindustrial” runs). The reason for this relationship is that models that simulate stronger forcing efficiencies and stronger radiative effects by aerosol‐cloud interactions show both a stronger aerosol forcing and a stronger solar brightening. The all‐sky solar brightening is the observable from measurements (4.06±0.60 W m−2 decade−1), which then allows to infer a global mean total aerosol effective forcing at about −1.30 W m−2 with standard deviation ±0.40 W m−2. Key Points Surface radiation trends in Europe scale with aerosol forcing in climate models All‐sky surface solar radiation trends analyzed from GEBA stations Observed trend used as constraint on TOA total aerosol forcing
ISSN:0094-8276
1944-8007
DOI:10.1002/2013GL058715