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

Cherian, Ribu, Quaas, Johannes, Salzmann, Marc, Wild, Martin

14 August 2015

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 ± 0.60Wm−2 decade−1), which then allows to infer a global mean total aerosol effective forcing at about −1.30Wm−2 with standard deviation ±0.40Wm−2.

Meteorologie

Aerosol

Klima

Umweltverschmutzung

meteorology

aerosol

climate

pollution

ddc:551

Global mean cloud feedbacks in idealized climate change experiments

Ringer, Mark A., McAvaney, Bryant J., Andronova, Natasha, Buja, Lawrence E., Esch, Monika, Ingram, William J., Li, Bin, Quaas, Johannes, Roeckner, Erich, Senior, Catherine Ann, Soden, Brian J., Volodin, Evgeny M., Webb, Mark J., Williams, Keith D.

24 November 2015

Global mean cloud feedbacks in ten atmosphere-only climate models are estimated in perturbed sea surface temperature (SST) experiments and the results compared to doubled CO2 experiments using mixed-layer ocean versions of these same models. The cloud feedbacks in any given model are generally not consistent: the sign of the net cloud radiative feedback may vary according to the experimental design. However, both sets of experiments indicate that the variation of the total climate feedback across the models depends primarily on the variation of the net cloud feedback. Changes in different cloud types show much greater consistency between the two experiments for any individual model and amongst the set of models analyzed here. This suggests that the SST perturbation experiments may provide useful information on the processes associated with cloud changes which is not evident when analysis is restricted to feedbacks defined in terms of the change in cloud radiative forcing.

Meteorologie

Klima

Umweltverschmutzung

meteorology

climate

pollution

ddc:551

Contrasts in the effects on climate of anthropogenic sulfate aerosols between the 20th and the 21st century

Dufresne, Jean-Louis, Quaas, Johannes, Boucher, Olivier, Denvil, Sébastien, Fairhead, Laurent

24 November 2015

In this study, we examine the time evolution of the relative contribution of sulfate aerosols and greenhouse gases to anthropogenic climate change. We use the new IPSL-CM4 coupled climate model for which the first indirect effect of sulfate aerosols has been calibrated using POLDER satellite data. For the recent historical period the sulfate aerosols play a key role on the temperature increase with a cooling effect of 0.5 K, to be compared to the 1.4 K warming due to greenhouse gas increase. In contrast, the projected temperature change for the 21st century is remarkably independent of the effects of anthropogenic sulfate aerosols for the SRES-A2 scenario. Those results are interpreted comparing the different radiative forcings, and can be extended to other scenarios. We also highlight that the first indirect effect of aerosol strongly depends on the land surface model by changing the cloud cover.

Meteorologie

Klima

Umweltverschmutzung

Aerosol

meteorology

climate

pollution

aerosol

ddc:551

Constraining the first aerosol indirect radiative forcing in the LMDZ GCM using POLDER and MODIS satellite data

Quaas, Johannes, Boucher, Olivier

24 November 2015

The indirect effects of anthropogenic aerosols are expected to cause a significant radiative forcing of the Earth’s climate whose magnitude, however, is still uncertain. Most climate models use parameterizations for the aerosol indirect effects based on so-called ‘‘empirical relationships’’ which link the cloud droplet number concentration to the aerosol concentration. New satellite datasets such as those from the POLDER and MODIS instruments are well suited to evaluate and improve such parameterizations at a global scale. We derive statistical relationships of cloud-top droplet radius and aerosol index (or aerosol optical depth) from satellite retrievals and fit an empirical parameterization in a general circulation model to match the relationships. When applying the fitted parameterizations in the model, the simulated radiative forcing by the first aerosol indirect effect is reduced by 50% as compared to our baseline simulation (down to -0.3 and -0.4 Wm-2 when using MODIS and POLDER satellite data, respectively).

Meteorologie

Klima

Umweltverschmutzung

Aerosol

meteorology

climate

pollution

aerosol

ddc:551

Which of satellite- or model-based estimates is closer to reality for aerosol indirect forcing?

Quaas, Johannes, Boucher, Olivier, Bellouin, Nicolas, Kinne, Stefan

24 November 2015

In their contribution to PNAS, Penner et al. (1) used a climate model to estimate the radiative forcing by the aerosol first indirect effect (cloud albedo effect) in two different ways: first, by deriving a statistical relationship between the logarithm of cloud droplet number concentration, ln Nc, and the logarithm of aerosol optical depth, ln AOD (or the logarithm of the aerosol index, ln AI) for present-day and preindustrial aerosol fields, a method that was applied earlier to satellite data (2), and, second, by computing the radiative flux perturbation between two simulations with and without anthropogenic aerosol sources. They find a radiative forcing that is a factor of 3 lower in the former approach than in the latter [as Penner et al. (1) correctly noted, only their “inline” results are useful for the comparison].

Meteorologie

Klima

Umweltverschmutzung

Aerosol

meteorology

climate

pollution

aerosol

ddc:551

Evaluation of the statistical cloud scheme in the ECHAM5 model using satellite data

Weber, Torsten, Quaas, Johannes, Räisänen, Petri

24 November 2015

An evaluation of a statistical cloud scheme taking into account subgrid-scale variability for water vapour and cloud condensate in the ECHAM5 general circulation model of the atmosphere is presented. Three-dimensional modelled water vapour, cloud liquid water and cloud ice were distributed stochastically into subcolumns of each grid box and vertically integrated to total water path (TWP). Thus the lower atmosphere is emphasized in the evaluation of TWP due to its exponential profile. The edited model dataset was compared with the globally analyzed distribution of TWP measured by the Moderate Resolution Imaging Spectroradiometer (MODIS) satellite instrument. The results show that the mean TWP and mean cloud cover are on average relatively well simulated. However, large deficiencies are revealed by the evaluation of both variance and skewness of the probability density function (PDF). Systematically negative deviations of variance are found for almost all regions of the globe. Skewness of theTWPis overestimated in the Tropics and underestimated at high latitudes. Moreover, sensitivity experiments were performed to reveal the deficiencies in the parametrization leading to the observed deviations of variance and skewness of TWP. It was found that the positive bias in skewness in the Tropics can be reduced by modifying the influence of convection on the PDF.

Meteorologie

Klima

Umweltverschmutzung

meteorology

climate

pollution

ddc:551

Homogenisierung langer Klimareihen, dargelegt am Beispiel der Lufttemperatur /

Baudenbacher, Mathias.

January 1900

Zugleich: Diss. Naturwiss. Bern. / Literaturverz.

Auswirkungen der globalen Erwärmung auf die Vegetation alpiner Kalk-Magerrasen im Nationalpark Berchtesgaden

Kudernatsch, Thomas.

Unknown Date

Techn. Universiẗat, Diss., 2005--München.

Effects of recent warming events on coral reef communities of Costa Rica (Central America)

Jiménez Centeno, Carlos.

Unknown Date

University, Diss., 2002--Bremen.

Bestimmung von strahlungsbedingten, atmosphärischen Erwärmungsraten aus MSG-Daten

Sievers, Oliver.

Unknown Date

Universiẗat, Diss., 2004--Hamburg.