1. On the effect of sea breeze regime on aerosols and gases properties in the urban area of Rome, Italy
- Author
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Anna Maria Siani, Giampietro Casasanta, Monica Campanelli, Marco Cacciani, Alexander Cede, Anna Maria Iannarelli, Annalisa Di Bernardino, Stefano Casadio, Elena Spinei, Gabriele Mevi, and Martin Tiefengraber
- Subjects
Sea breeze ,Urban aerosol ,Atmospheric Science ,Angstrom exponent ,geography ,geography.geographical_feature_category ,Geography, Planning and Development ,Front (oceanography) ,Remote sensing ,Environmental Science (miscellaneous) ,Particulates ,Atmospheric boundary layer ,Atmospheric sciences ,Urban area ,Aerosol ,Urban Studies ,Troposphere ,Volume (thermodynamics) ,Air quality ,Environmental science - Abstract
Several ground-based remote sensing and in-situ instruments were used to investigate the development of the sea-breeze front and its effect on both the optical and physical aerosol properties, the Particulate Matter (PM) content and the tropospheric and near-surface NO2 concentrations. Most of the instruments belongs to the Boundary-layer Air Quality-analysis Using Network of Instruments (BAQUNIN) supersite, in the urban area of Rome (Italy). Two characteristic sea-breeze patterns were identified: the front days, in which the sea-breeze front develops in a few minutes, and the gentle breeze days, in which the onset of the front is gradual (more than 20 min). In the case of front days, Aerosol Optical Depth (AOD) increases during the onset of the breeze. The angstrom ngstro center dot m Exponent (AE), tropospheric and near surface NO2 amounts are almost constant during the day, while the aerosols volume size distribution follows a trimodal distribution. PM2.5 and PM10 concentrations decrease before the development of the sea-breeze front and then increase. Conversely, during gentle breeze days, AOD and AE do not change significantly. The tropospheric and near surface amount of NO2, PM2.5 and PM10 concentrations decrease, suggesting a significant dispersion of pollutants, while the aerosol size distribution shows a trimodal predominance.
- Published
- 2021
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