| Autor: |
Bertò, Michele, Cappelletti, David, Barbaro, Elena, Varin, Cristiano, Gallet, Jean-Charles, Markowicz, Krzysztof, Rozwadowska, Anna, Mazzola, Mauro, Crocchianti, Stefano, Poto, Luisa, Laj, Paolo, Barbante, Carlo, Spolaor, Andrea |
| Zdroj: |
Atmospheric Chemistry & Physics Discussions; 7/8/2020, p1-33, 33p |
| Abstrakt: |
Black Carbon (BC) is a major forcing agent in the Arctic but substantial uncertainty remains to quantify its climate effects due to the complexity of mechanisms involved. In this study, we provide unique information on processes driving the variability of BC mass concentration in surface snow in the Arctic. Two different snow-sampling strategies were adopted during spring 2014 and 2015, focusing on the refractory BC (rBC) mass Ny-Ålesund concentration daily/hourly variability on a seasonal/daily time scale (referred to as 80-days and 3-days experiments). Despite the low rBC mass concentrations (never exceeding 22 ng g-1), a daily variability of up to 4.5 ng g-1 was observed. Atmospheric, meteorological and snow-related physico-chemical parameters were considered in multiple statistical models to understand the factors behind the observed variation of rBC mass concentrations. Results indicate that the main drivers of the variation of rBC are the precipitations events, snow metamorphism (melting-refreezing cycles, surface hoar formation and sublimation) and the activation of local sources (wind resuspension) during the snow melting periods. The rBC in the snow seems de-coupled with the atmospheric BC load. Our results highlighted a common association of snow rBC with coarse mode particles number concentration and with snow precipitation events. [ABSTRACT FROM AUTHOR] |
| Databáze: |
Complementary Index |
| Externí odkaz: |
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