Publikasjoner

Chemical composition and sources of aerosol particles at Zeppelin Mountain (Ny Ålesund, Svalbard): an electron microscopy study.

Weinbruch, S.; Wiesemann, D.; Ebert, M.; Schütze, K.; Kallenborn, R.; Ström, J.

Chemical characteristics of North American surface layer outflow: Insights from Chebogue Point, Nova Scotia.

Millet, D.J.; Goldstein, A.H.; Holzinger, R.; Williams, B.J.; Allan, J.D.; Jimines, J.L.; Worsnop, D.R.; Roberts, J.M.; White, A.B.; Hudman, R.C.; Bertschi, I.T.; Stohl, A.

Chemical characterisation of polar organic compounds in ambient aerosols by high resolution mass spectrometry: a non-target approach. Poster presentation. NILU F

Dye, C.; Yttri, K.E.

Chemical and microphysical properties of particles in aged forest fire plumes from Alaska and Western Canada observed in the summer 2004 over the Northeastern U.S.

Wollny, A.G.; Brock, C.A.; Cooper, O.R.; de Gouw, J.A.; Hudson, P.K.; Middlebrook, A.M.; Stohl, A.; Warneke, C.; Peltier, R.; Weber, R.

Chemical and dynamical effects of energetic particle precipitation through formation of stratospheric nitric acid by a hydrated ion cluster reaction. NILU F

Orsolini, Y.; Kvissel, O.-K.; Stordal, F.; Isaksen, I.

Cheaper air quality sensors arrived just in time for the climate catastrophe

Castell, Nuria (intervjuobjekt); Calma, Justine (journalist)

Characterizing the levels of persistent organic substances in soils from the Vaal Triangle area, South Africa. Abstract. NILU F

Nieuwoudt, C.; Bouwman, H.; Kylin, H.; Pieters, R.

Characterizing direct emissions of perfluoroalkyl substances from ongoing fluoropolymer production sources: A spatial trend study of Xiaoqing River, China.

Shi, Y.; Vestergren, R.; Xu, L.; Song, X.; Niu, X.; Zhang, C.; Cai, Y.

Characterizing aerosol sources based on aerosol optical properties and dispersion modelling in a Scandinavian Coastal Area (Aarhus, Denmark)

Coastal aerosols are formed through the complex mixing between marine air masses and continental emissions, which originate from both natural and anthropogenic sources. The properties of coastal aerosols are decisive for their interaction with sunlight and their influence on clouds, as well as the potential health implications for the population in these areas. In this study, the aerosol properties and sources at Aarhus Bay, Denmark, were investigated by combining in situ aerosol light scattering and absorption with size distribution measurements and footprint analysis by FLEXPART. Our analysis demonstrates a considerable contribution of anthropogenic aerosols from both fossil fuel combustion and biomass burning, as well as periods with highly scattering aerosols. Furthermore, good agreement was found between in situ and modelled black-carbon data. Combining in situ measurements and FLEXPART analysis further evidenced a major impact of local emissions, as well as a few long-range transport intrusions.

Characterization of urban air quality indoor/outdoor particulate matter chemical characteristics and source-to-inhaled dose relationships - URBAN-AEROSOL. Final report. ESD Report - URBAN-AEROSOL

Lazaridis, M. (Coord.).

Characterization of the atmospheric environment during extreme precipitation events associated with atmospheric rivers in Norway - Seasonal and regional aspects

Extreme precipitation events in Norway in all seasons are often linked to atmospheric rivers (AR). We show that during the period 1979–2018 78.5% of the daily extreme precipitation events in Southwestern Norway are linked to ARs, this percentage decreasing to 59% in the more northern coastal regions and ~40% in the inland regions. The association of extreme precipitation with AR occurs most often in fall for the coastal areas and in summer inland. All Norwegian regions experience stronger winds and 1–2°C increase of the temperature at 850 hPa during AR events compared to the climatology, the extreme precipitation largely contributing to the wet climatology (only considering rainy days) in Norway but also in Denmark and Sweden when the rest of Europe is dry. A cyclone is found nearby the AR landfall point in 70% of the cases. When the cyclone is located over the British Isles, as it is typically the case when ARs reach Southeastern Norway, it is associated with cyclonic Rossby wave breaking whereas when the ARs reach more northern regions, anticyclonic wave breaking occurs over Northern Europe. Cyclone-centered composites show that the mean sea level pressure is not significantly different between the eight Norwegian regions, that baroclinic interaction can still take place although the cyclone is close to its decay phase and that the maximum precipitation occurs ahead of the AR. Lagrangian air parcel tracking shows that moisture uptake mainly occurs over the North Atlantic for the coastal regions with an additional source over Europe for the more eastern and inland regions.

Characterization of inhalation exposure to gaseous elemental mercury during artisanal gold mining and e-waste recycling through combined stationary and personal passive sampling

While occupational inhalation exposure to gaseous elemental mercury (GEM) has decreased in many workplaces as mercury is being removed from most products and processes, it continues to be a concern for those engaged in artisanal and small-scale gold mining or in recycling mercury-containing products. Recently, stationary and personal passive air samplers based on activated carbon sorbents and radial diffusive barriers have been shown to be suitable for measuring GEM concentrations across the range relevant for chronic health effects. Here, we used a combination of stationary and personal passive samplers to characterize the inhalation exposure to GEM of individuals living and working in two Ghanaian gold mining communities and working at a Norwegian e-waste recycling facility. Exposure concentrations ranging from <7 ng m−3 to >500 μg m−3 were observed, with the higher end of the range occurring in one gold mining community. Large differences in the GEM exposure averaged over the length of a workday between individuals can be rationalized by their activity and proximity to mercury sources. In each of the three settings, the measured exposure of the highest exposed individuals exceeded the highest concentration recorded with a stationary sampler, presumably because those individuals were engaged in an activity that generated or involved GEM vapors. High day-to-day variability in exposure for those who participated on more than one day, suggests the need for sampling over multiple days for reliable exposure characterization. Overall, a combination of personal and stationary passive sampling is a cost-effective approach that cannot only provide information on exposure levels relative to regulatory thresholds, but also can identify emission hotspots and therefore guide mitigation measures.