par Van Damme, Martin 
;Clarisse, Lieven ;Stavrakou, Trissevgeni;Wichink Kruit, Roy;Sellekaerts, Louise;Viatte, Camille;Clerbaux, Cathy ;Coheur, Pierre
Référence Scientific Reports, 12, 1
Publication Publié, 2022-12
;Clarisse, Lieven ;Stavrakou, Trissevgeni;Wichink Kruit, Roy;Sellekaerts, Louise;Viatte, Camille;Clerbaux, Cathy ;Coheur, Pierre Référence Scientific Reports, 12, 1
Publication Publié, 2022-12
Article révisé par les pairs
| Résumé : | Abstract The presence of a weekly cycle in the abundance of an atmospheric constituent is a typical fingerprint for the anthropogenic nature of its emission sources. However, while ammonia is mainly emitted as a consequence of human activities, a weekly cycle has never been detected in its abundances at large scale. We expose here for the first time the presence of a weekend effect in the NH 3 total columns measured by the IASI satellite sounder over the main agricultural source regions in Europe: northwestern Europe (Belgium-the Netherlands-northwest Germany), the Po Valley, Brittany, and, to a lesser extent, the Ebro Valley. A decrease of 15% relative to the weekly mean is seen on Sunday–Monday observations in northwestern Europe, as a result of reduced NH 3 emissions over the weekend. This is confirmed by in situ NH 3 concentration data from the National Air Quality Monitoring Network in the Netherlands, where an average reduction of 10% is found around midnight on Sunday. The identified weekend effect presents a strong seasonal variability, with two peaks, one in spring and one in summer, coinciding with the two main (manure) fertilization periods. In spring, a reduction on Sunday–Monday up to 53 and 26% is found in the NH 3 satellite columns and in situ concentrations, respectively, as fertilization largely drives atmospheric NH 3 abundances at this time of the year. |
