Publications

Road dust and PM10 in the Nordic countries. Measures to reduce road dust emissions from traffic.

Kupiainen, K.; Denby, B. R.; Gustafsson, M.; Johansson, C.; Ketzel, M.; Kukkonen, J.; Norman, M.; Pirjola, L.; Sundvor, I.; Bennett, C.; Blomqvist, G.; Janhäll, S.; Karppinen, A.; Kauhaniemi, M.; Malinen, A.; Stojijkovic, A.

Nordic countries suffer from periodic worsening of the air quality during spring with high peak PM10 concentrations (airborne particulate matter with diameter less than 10 µm or 0.01 mm). Characteristic for the high springtime PM10 concentrations are high shares of coarse particles (with diameters between 2.5 and 10µm), a signature of non-exhaust traffic dust formed via abrasion and wear of pavement, traction control materials, vehicle brakes and tyres. This Policy Brief summarizes the current understanding of the road dust system and presents the mitigation measures and policies currently in place in the Nordic countries. It has been compiled as part of the NORTRIP project funded by the Climate and air pollution working group of the Nordic Council of Ministers by researchers from 11 Nordic institutes studying different aspects of traffic non-exhaust emissions and road dust.

Road salt emissions: A comparison of measurements and modelling using the NORTRIP road dust emission model.

Denby, B.R.; Ketzel, M.; Ellermann, T.; Stojiljkovic, A.; Kupiainen, K.; Niemi, J.V.; Norman, M.; Johansson, C.; Gustafsson, M.; Blomqvist, G.; Janhäll, S.; Sundvor, I.

Road Traffic Microplastics Flooding World's Oceans: Study

Evangeliou, Nikolaos (interview subject); Galey, Patrick (journalist)

Road tunnels in Oslo. Assessment of air quality in relation to the Air Pollution Law. NILU OR

Tønnesen, D.

Roadmap for action for advancing aggregate exposure to chemicals in the EU

Lamon, L.; Doyle, J.; Paini, A.; Moeller, R.; Viegas, S.; Cubadda, F.; Hoet, P.; van Nieuwenhuyse, A.; Louro, H.; Dusinska, Maria; Galea, K. S.; Canham, R.; Martins, C.; Gama, A.; Teófilo, V.; Diniz-da-Costa, M.; João Silva, M.; Ventura, C.; Alvito, P.; El Yamani, Naouale; Ghosh, M.; Duca, R. C.; Siccardi, M.; Rundén-Pran, Elise; McNamara, C.; Price, P.

The European Food Safety Authority (EFSA) has a goal to efficiently conduct aggregate exposure assessments (AEAs) for chemicals using both exposure models and human biomonitoring (HBM) data by 2030. To achieve EFSA's vision, a roadmap for action for advancing aggregate exposure (AE) in the EU was developed. This roadmap was created by performing a series of engagement and data collection activities to map the currently available methods, data, and tools for assessing AE of chemicals, against the needs and priorities of EFSA. This allowed for the creation of a AEA framework, identification of data and knowledge gaps in our current capabilities, and identification of the challenges and blockers that would hinder efforts to fill the gaps. The roadmap identifies interdependent working areas (WAs) where additional research and development are required to achieve EFSA's goal. It also proposes future collaboration opportunities and recommends several project proposals to meet EFSA's goals. Eight proposal projects supported by SWOT analysis are presented for EFSA's consideration. The project proposals inform high-level recommendations for multi-annual and multi-partner projects. Recommendations to improve stakeholder engagement and communication of EFSA's work on AEA were gathered by surveying stakeholders on specific actions to improve EFSA's communication on AE, including webinars, virtual training, social media channels, and newsletters.

Robust evidence for reversal of the trend in aerosol effective climate forcing

Quaas, Johannes; Jia, Hailing; Smith, Chris; Albright, Anna Lea; Aas, Wenche; Bellouin, Nicolas; Boucher, Olivier; Doutriaux-Boucher, Marie; Forster, Piers M.; Grosvenor, Daniel; Jenkins, Stuart; Klimont, Zbigniew; Loeb, Norman G.; Ma, Xiaoyan; Naik, Vaishali; Paulot, Fabien; Stier, Philip; Wild, Martin; Myhre, Gunnar; Schulz, Michael

Anthropogenic aerosols exert a cooling influence that offsets part of the greenhouse gas warming. Due to their short tropospheric lifetime of only several days, the aerosol forcing responds quickly to emissions. Here, we present and discuss the evolution of the aerosol forcing since 2000. There are multiple lines of evidence that allow us to robustly conclude that the anthropogenic aerosol effective radiative forcing (ERF) – both aerosol–radiation interactions (ERFari) and aerosol–cloud interactions (ERFaci) – has become less negative globally, i.e. the trend in aerosol effective radiative forcing changed sign from negative to positive. Bottom-up inventories show that anthropogenic primary aerosol and aerosol precursor emissions declined in most regions of the world; observations related to aerosol burden show declining trends, in particular of the fine-mode particles that make up most of the anthropogenic aerosols; satellite retrievals of cloud droplet numbers show trends in regions with aerosol declines that are consistent with these in sign, as do observations of top-of-atmosphere radiation. Climate model results, including a revised set that is constrained by observations of the ocean heat content evolution show a consistent sign and magnitude for a positive forcing relative to the year 2000 due to reduced aerosol effects. This reduction leads to an acceleration of the forcing of climate change, i.e. an increase in forcing by 0.1 to 0.3 W m−2, up to 12 % of the total climate forcing in 2019 compared to 1750 according to the Intergovernmental Panel on Climate Change (IPCC).

Role of DNA damage and repair in pathogenesis of civilization diseases. NILU F

Dusinska, M.; Collins, A.

Role of human exposure assessment in air quality management. Report on the Joint Workshop of World Health Organization ... EUR 21052 EN

Krzyzanowski, M.; Jantunen, M.; Bartonova, A.; Oglesby, L.; Kephalopoulos, S, Kotzias, D. (eds.)

Role of planetary waves, gravity waves and tides in the downward transport of nitrogen oxides during elevated stratopause events.

Orsolini, Y.J.

Role of snow over the Himalaya-Tibet Plateau region on the onset of the Indian monsoon.

Orsolini, Y.

Rotational Raman scattering in the O2-A and O2-B bands: simulations for Carbonsat, FLEX/FLORIS, MERIS and OLCI. NILU OR

Kylling, A.

Rotational Raman scattering (RRS) causes filling-in of absorption lines in Earth shine spectra. It is routinely accounted for in analysis of UV and visible spectra measured both by satellite and ground-based instruments. RRS is also present at longer wavelengths, however, the magnitude generally decreases with increasing wavelength due to decrease in the scattering cross section. For high-resolution spectral measurements the effect may be noticeable. Depending on the application, RRS thus needs to be quantified and possibly corrected for. Of special interest is the effect of RRS in the O2-A (759-769 nm) and O2-B (686-697 nm) bands. Here, the effect of RRS in these bands is studied for the present and future satellite instruments CarbonSat, FLEX/FLORIS, MERIS and OLCI.

Routine PFAS Testing of Wastewater Samples using TOP Assay and the ACQUITY QDa II Mass Detector

Foddy, Henry; Cjocariu, Cristian; Nikiforov, Vladimir