Aerosol radiative effects in the ultraviolet, visible, and near-infrared spectral ranges using long-term aerosol data series over the Iberian Peninsula
Tipus de documentArticle
Condicions d'accésAccés obert
Projecte de la Comissió EuropeaACTRIS - Aerosols, Clouds, and Trace gases Research Infrastructure Network (EC-FP7-262254)
A better understanding of aerosol radiative properties is a crucial challenge for climate change studies. This study aims at providing a complete characterization of aerosol radiative effects in different spectral ranges within the shortwave (SW) solar spectrum. For this purpose, long-term data sets of aerosol properties from six AERONET stations located in the Iberian Peninsula (southwestern Europe) have been analyzed in terms of climatological characterization and inter-annual changes. Aerosol information was used as input for the libRadtran model in order to determine the aerosol radiative effect (ARE) at the surface in the ultraviolet (ARE(UV)), visible (ARE(VIS)), near-infrared (ARE(NIR)), and the entire SW range (ARE(SW)) under cloud-free conditions. Over the whole Iberian Peninsula, yearly aerosol radiative effects in the different spectral ranges were found to be -1.1 < ARE(UV) < -0.7, -5.7 < ARE(VIS) < -3.5, -2.6 < ARE(NIR) < -1.6, and -8.8 < ARE(SW) < -5.7 (in Wm 2). Monthly means of ARE showed a seasonal pattern with larger values in spring and summer. The aerosol forcing efficiency (AFE), ARE per unit of aerosol optical depth, has also been evaluated in the four spectral ranges. AFE exhibited a dependence on single scattering albedo as well as a weaker one on the Angstrom exponent. AFE is larger (in absolute value) for small and absorbing particles. The contributions of the UV, VIS, and NIR ranges to the SW efficiency varied with the aerosol types. The predominant aerosol size determined the fractions AFE(VIS)/AFE(SW) and AFE(NIR)/AFE(SW). The AFE(VIS) was the dominant contributor for all aerosol types, although non-absorbing large particles caused more even contribution of VIS and NIR intervals. The AFE(UV)/AFE(SW) ratio showed a higher value in the case of absorbing fine particles.
CitacióMateos, D. [et al.]. Aerosol radiative effects in the ultraviolet, visible, and near-infrared spectral ranges using long-term aerosol data series over the Iberian Peninsula. "Atmospheric chemistry and physics", 01 Gener 2014, vol. 14, núm. 24, p. 13497-13514.