Aerosols play an important role in the climatic system through their direct and indirect effects on radiation. Beside this, they are also part of the complex chain of chemical reactions taking place in the atmosphere. Indirect effects involve aerosols acting as cloud and ice condensation nuclei, brightening of clouds, modification of precipitation capabilities etc. After deposition, they also change reflectivity properties of bright surfaces, particularly important in polar regions. In the Artic few natural aerosol sources exist, except oceans for sea-salt and soil for dust, both of them increasing in magnitude due to global warming. Beside this, anthropogenic aerosols are easily transported to the Arctic by atmospheric transport from middle latitudes, in particular during winter and early spring, forming the so-called Artic Haze. In this contribution the processes causing the development of Arctic Haze and its characteristics are introduced. Following, a review of the physical and optical properties as well as chemical composition of Arctic aerosols are reviewed using data obtained from numerous monitoring stations in the Arctic.
Arctic Aerosols
Rita Traversi;Claudio Tomasi;Mauro Mazzola;Angelo Lupi;
2020
Abstract
Aerosols play an important role in the climatic system through their direct and indirect effects on radiation. Beside this, they are also part of the complex chain of chemical reactions taking place in the atmosphere. Indirect effects involve aerosols acting as cloud and ice condensation nuclei, brightening of clouds, modification of precipitation capabilities etc. After deposition, they also change reflectivity properties of bright surfaces, particularly important in polar regions. In the Artic few natural aerosol sources exist, except oceans for sea-salt and soil for dust, both of them increasing in magnitude due to global warming. Beside this, anthropogenic aerosols are easily transported to the Arctic by atmospheric transport from middle latitudes, in particular during winter and early spring, forming the so-called Artic Haze. In this contribution the processes causing the development of Arctic Haze and its characteristics are introduced. Following, a review of the physical and optical properties as well as chemical composition of Arctic aerosols are reviewed using data obtained from numerous monitoring stations in the Arctic.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.