Publikasjoner

Sources and fate of atmospheric microplastics revealed from inverse and dispersion modelling: From global emissions to deposition

Evangeliou, Nikolaos; Tichý, Ondřej; Eckhardt, Sabine; Zwaaftink, Christine Groot; Brahney, Janice

We combine observations from Western USA and inverse modelling to constrain global atmospheric emissions of microplastics (MPs) and microfibers (MFs). The latter are used further to model their global atmospheric dynamics. Global annual MP emissions were calculated as 9.6 ± 3.6 Tg and MF emissions as 6.5 ± 2.9 Tg. Global average monthly MP concentrations were 47 ng m-3 and 33 ng m-3 for MFs, at maximum. The largest deposition of agricultural MPs occurred close to the world’s largest agricultural regions. Road MPs mostly deposited in the East Coast of USA, Central Europe, and Southeastern Asia; MPs resuspended with mineral dust near Sahara and Middle East. Only 1.8% of the emitted mass of oceanic MPs was transferred to land, and 1.4% of land MPs to ocean; the rest were deposited in the same environment. Previous studies reported that 0.74–1.9 Tg y-1 of land-based atmospheric MPs/MFs (

Elsevier

Sources and levels of pharmaceuticals and personal care products. Powerpoint presentation. NILU F

Mariussen, E.; Kallenborn, R.

Sources and mixing state of size-resolved elemental carbon particles in a European megacity: Paris.

Healy, R. M.; Sciare, J.; Poulain, L.; Kamili, K.; Merkel, M.; Müller, T.; Wiedensohler, A.; Eckhardt, S.; Stohl, A.; Sarda-Estève, R.; McGillicuddy, E.; O'Connor, I. P.; Sodeau, J. R.; Wenger, J. C.

Sources and Seasonal Variations of Per- and Polyfluoroalkyl Substances (PFAS) in the Arctic: a Snow and Ice Core Perspective

Hartz, William Frederik; Björnsdotter, Maria; Yeung, Leo W. Y.; Hodson, A.; Thomas, E.; Humby, Jack D.; Eckhardt, Sabine; Evangeliou, Nikolaos; Jogsten, Ingrid Ericson; Kärrman, Anna; Kallenborn, Roland

Sources and significance of natural and man-made aerosols in the Arctic. Report of a workshop supported and organised by the U.S. Office of Naval Resarch and the Norwegian Institute for Air Research, Lillestrøm, 27-28 April 1977. [First International Symposium on Arctic Air Chemistry]. NILU TR

Ottar, B. (eds.)

Sources and trends in atmospheric CH4 and N2O

Thompson, Rona Louise

Sources of environmental contaminants into Lake Mjøsa. Action-oriented prestudy. NILU OR

Breivik, K.; Schlabach, M.; Berg, T.

Sources of particulate matter in the northeastern United States in summer: 2. Evolution of chemical and microphysical properties.

Brock, C.A.; Sullivan, A.P.; Peltier, R.E.; Weber, R.J.; Wollny, A.; de Gouw, J.A.; Middlebrook, A.M.; Atlas, E.L.; Stohl, A.; Trainer, M.K.; Cooper, O.R.; Fehsenfeld, F.C.; Frost, G.J.; Holloway, J.S.; Hübler, G.; Neuman, J.A.; Ryerson, T.B.; Warneke, C.; Wilson, J.C.

Sources of POPs to the European atmosphere - an initial evaluation of available emission data. EUR 22876 EN

Breivik, K.; Vestreng, V.; Rozovskaya, O.; Pacyna, J.M.

Sources of ultrafine particles at a rural midland site in Switzerland

Dada, Lubna; Brem, Benjamin T.; Amarandi-Netedu, Lidia-Marta; Coen, Martine Collaud; Evangeliou, Nikolaos; Hueglin, Christoph; Nowak, Nora; Modini, Robin L.; Steinbacher, Martin; Gysel-Beer, Martin

Ultrafine particles (UFPs; i.e., atmospheric aerosol particles smaller than 100 nm in diameter) are known to be responsible for a series of adverse health effects as they can deposit in humans' bodies. So far, most field campaigns studying the sources of UFPs have focused on urban environments. This study investigates the outdoor sources of UFPs at the atmospheric monitoring station in Payerne, which represents a typical rural location in Switzerland. We aim to quantify the primary and secondary fractions of UFPs based on specific measurements between July 2020 and July 2021 complementing a series of operational meteorological, trace gas and in situ aerosol observations. To distinguish between primary and secondary contributions, we use a method that relies on measuring the fraction of non-volatile particles as a proxy for primary particles. We further compare our measurement results to previously established methods. We find that primary particles resulting from traffic and residential wood burning (direct emissions – mostly non-volatile BC-rich) contribute less than 40 % to the total number of UFPs, mostly in the Aitken mode. On the other hand, we observe local new particle formation (NPF) events (observed from ∼ 1 nm) evident from the increase in cluster ions (1.5–3 nm) and nucleation-mode particle (2.5–25 nm) concentrations, especially in spring and summer. These events, mediated by sulfuric acid, contribute to increasing the UFP number concentration, especially in the nucleation mode. Besides NPF, the chemical processing of particles emitted from multiple sources (including traffic and residential wood burning) contributes substantially to the nucleation-mode particle concentration. Under the present conditions investigated here, we find that secondary processes mediate the increase in UFP concentration to levels equivalent to those in urban locations, affecting both air quality and human health.

Sources of water vapour contributing to the Elbe flood in August 2002 - A tagging study in a mesoscale model.

Sodemann, H.; Wernli, H.; Schwierz, C.

South Asia Basins: LOICZ global change assessment and synthesis of river catchment - coastal sea interaction and human dimensions. LOICZ Reseach and Studies, 32

Ramesh, R.; Purvaja, R.; Lakshmi, A.; Newton, A.; Kremer, H.H.; Weichselgartner, J. (eds.)

Sovereignty in Automated Stroke Prediction and Recommendation System with Explanations and Semantic Reasoning

Chatterjee, Ayan

Personalized approaches are required for stroke management due to the variability in symptoms, triggers, and patient characteristics. An innovative stroke recommendation system that integrates automatic predictive analysis with semantic knowledge to provide personalized recommendations for stroke management is proposed by this paper. Stroke exacerbation are predicted and the recommendations are enhanced by the system, which leverages automatic Tree-based Pipeline Optimization Tool (TPOT) and semantic knowledge represented in an OWL Ontology (StrokeOnto). Digital sovereignty is addressed by ensuring the secure and autonomous control over patient data, supporting data sovereignty and compliance with jurisdictional data privacy laws. Furthermore, classifications are explained with Local Interpretable Model-Agnostic Explanations (LIME) to identify feature importance. Tailored interventions based on individual patient profiles are provided by this conceptual model, aiming to improve stroke management. The proposed model has been verified using public stroke dataset, and the same dataset has been utilized to support ontology development and verification. In TPOT, the best Variance Threshold + DecisionTree Classifier pipeline has outperformed other supervised machine learning models with an accuracy of 95.2%, for the used datasets. The Variance Threshold method reduces feature dimensionality with variance below a specified threshold of 0.1 to enhance predictive accuracy. To implement and evaluate the proposed model in clinical settings, further development and validation with more diverse and robust datasets are required.

Elsevier