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Arctic Peat and Forest Fires Look from Sentinel-5P

Aun, Margit; George, Jan-Peter; Stebel, Kerstin

2024

Understudied BVOC Emissions Across Diverse Ecosystems in Europe and Africa

Hellén, Heidi; Tykkä, Toni; Schallhart, Simon; Thomas, Steven; Aas, Wenche; Wegener, Robert; Salameh, Therese; Rissanen, Kaisa; Thakur, Roseline; Losoi, Mari; Laakso, Lauri; Seppälä, Jukka; Kraft, Kaisa; Hakola, Hannele; Praplan, Arnaud

2024

An in vitro 3D advanced lung model for hazard assessment of nanomaterials on human health

Camassa, Laura Maria Azzurra; Anmarkrud, Kristine Haugen; Sadeghiankaffash, Hamed; Elje, Elisabeth; Ervik, Torunn Kringlen; Congying, Z.; Shaposhnikov, Sergey; Rundén-Pran, Elise; Zienolddiny-Narui, Shan

2024

Dårlig luftkvalitet

Grythe, Henrik (intervjuobjekt); Baisotti, Valentina (journalist)

2024

Reassessing the role of urban green space in air pollution control

Venter, Zander; Hassani, Amirhossein; Stange, Erik; Schneider, Philipp; Castell, Nuria

The assumption that vegetation improves air quality is prevalent in scientific, popular, and political discourse. However, experimental and modeling studies show the effect of green space on air pollutant concentrations in urban settings is highly variable and context specific. We revisited the link between vegetation and air quality using satellite- derived changes of urban green space and air pollutant concentrations from 2,615 established monitoring stations over Europe and the United States. Between 2010 and 2019, stations recorded declines in ambient NO2, (particulate matter) PM10, and PM2.5 (average of −3.14% y−1), but not O3 (+0.5% y−1), pointing to the general success of recent policy interventions to restrict anthropogenic emissions. The effect size of total green space on air pollution was weak and highly variable, particularly at the street scale (15 to 60 m radius) where vegetation can restrict ventilation. However, when isolating changes in tree cover, we found a negative association with air pollution at borough to city scales (120 to 16,000 m) particularly for O3 and PM. The effect of green space was smaller than the pollutant deposition and dispersion effects of meteorological drivers including precipitation, humidity, and wind speed. When averaged across spatial scales, a one SD increase in green space resulted in a 0.8% (95% CI: −3.5 to 2%) decline in air pollution. Our findings suggest that while urban greening may improve air quality at the borough- to- city scale, the impact is moderate and may have detrimental street- level effects depending on aerodynamic factors like vegetation type and urban form.
vegetation | urban planning | green infrastructure | ecosystem service | public health

2024

Impact of Biomass Burning on Arctic Aerosol Composition

Gramlich, Yvette; Siegel, Karolina; Haslett, Sophie L.; Cremer, Roxana S.; Lunder, Chris Rene; Kommula, Snehitha M.; Buchholz, Angela; Yttri, Karl Espen; Chen, Gang; Krejci, Radovan; Zieger, Paul; Virtanen, Annele; Riipinen, Ilona; Mohr, Claudia

Emissions from biomass burning (BB) occurring at midlatitudes can reach the Arctic, where they influence the remote aerosol population. By using measurements of levoglucosan and black carbon, we identify seven BB events reaching Svalbard in 2020. We find that most of the BB events are significantly different to the rest of the year (nonevents) for most of the chemical and physical properties. Aerosol mass and number concentrations are enhanced by up to 1 order of magnitude during the BB events. During BB events, the submicrometer aerosol bulk composition changes from an organic- and sulfate-dominated regime to a clearly organic-dominated regime. This results in a significantly lower hygroscopicity parameter κ for BB aerosol (0.4 ± 0.2) compared to nonevents (0.5 ± 0.2), calculated from the nonrefractory aerosol composition. The organic fraction in the BB aerosol showed no significant difference for the O:C ratios (0.9 ± 0.3) compared to the year (0.9 ± 0.6). Accumulation mode particles were present during all BB events, while in the summer an additional Aitken mode was observed, indicating a mixture of the advected air mass with locally produced particles. BB tracers (vanillic, homovanillic, and hydroxybenzoic acid, nitrophenol, methylnitrophenol, and nitrocatechol) were significantly higher when air mass back trajectories passed over active fire regions in Eastern Europe, indicating agricultural and wildfires as sources. Our results suggest that the impact of BB on the Arctic aerosol depends on the season in which they occur, and agricultural and wildfires from Eastern Europe have the potential to disturb the background conditions the most.

American Chemical Society (ACS)

2024

The time for ambitious action is now: Science-based recommendations for plastic chemicals to inform an effective global plastic treaty

Brander, Susanne M.; Senathirajah, Kala; Fernandez, Marina; Weis, Judith S.; Kumar, Eva; Jahnke, Annika; Hartmann, Nanna B.; Alava, Juan José; Farrelly, Trisia; Almroth, Bethanie Carney; Groh, Ksenia J.; Syberg, Kristian; Buerkert, Johanna Sophie; Abeynayaka, Amila; Booth, Andy; Cousin, Xavier; Herzke, Dorte; Monclús, Laura; Morales-Caselles, Carmen; Bonisoli-Alquati, Andrea; Al-jaibachi, Rana; Wagner, Martin

The ubiquitous and global ecological footprint arising from the rapidly increasing rates of plastic production, use, and release into the environment is an important modern environmental issue. Of increasing concern are the risks associated with at least 16,000 chemicals present in plastics, some of which are known to be toxic, and which may leach out both during use and once exposed to environmental conditions, leading to environmental and human exposure. In response, the United Nations member states agreed to establish an international legally binding instrument on plastic pollution, the global plastics treaty. The resolution acknowledges that the treaty should prevent plastic pollution and its related impacts, that effective prevention requires consideration of the transboundary nature of plastic production, use and pollution, and that the full life cycle of plastics must be addressed. As a group of scientific experts and members of the Scientists' Coalition for an Effective Plastics Treaty, we concur that there are six essential “pillars” necessary to truly reduce plastic pollution and allow for chemical detoxification across the full life cycle of plastics. These include a plastic chemical reduction and simplification, safe and sustainable design of plastic chemicals, incentives for change, holistic approaches for alternatives, just transition and equitable interventions, and centering human rights. There is a critical need for scientifically informed and globally harmonized information, transparency, and traceability criteria to protect the environment and public health. The right to a clean, healthy, and sustainable environment must be upheld, and thus it is crucial that scientists, industry, and policy makers work in concert to create a future free from hazardous plastic contamination.

Elsevier

2024

Meeting an escalating Lithium-Ion Battery demand: Global Graphite Supply-Demand Scenarios

Barre, Francis Isidore; Billy, Romain Guillaume; Aguilar Lopez, Fernando; Mueller, Daniel Beat

2024

Forskningsdagene

Hanssen, Linda; Markusson, Helge M. (intervjuobjekter)

2024

Cross-cutting studies of per- and polyfluorinated alkyl substances (PFAS) in Arctic wildlife and humans

Lohmann, Rainer; Abass, Khaled; Bonefeld-Jørgensen, Eva Cecilie; Bossi, Rossana; Dietz, Rune; Ferguson, Steve; Fernie, Kim J.; Grandjean, Philippe; Herzke, Dorte; Houde, Magali; Lemire, Mélanie; Letcher, Robert J.; Muir, Derek; De Silva, Amila O.; Ostertag, Sonja K.; Rand, Amy A.; Søndergaard, Jens; Sonne, Christian; Sunderland, Elsie M.; Vorkamp, Katrin; Wilson, Simon; Weihe, Pal

This cross-cutting review focuses on the presence and impacts of per- and polyfluoroalkyl substances (PFAS) in the Arctic. Several PFAS undergo long-range transport via atmospheric (volatile polyfluorinated compounds) and oceanic pathways (perfluorinated alkyl acids, PFAAs), causing widespread contamination of the Arctic. Beyond targeting a few well-known PFAS, applying sum parameters, suspect and non-targeted screening are promising approaches to elucidate predominant sources, transport, and pathways of PFAS in the Arctic environment, wildlife, and humans, and establish their time-trends. Across wildlife species, concentrations were dominated by perfluorooctane sulfonic acid (PFOS), followed by perfluorononanoic acid (PFNA); highest concentrations were present in mammalian livers and bird eggs. Time trends were similar for East Greenland ringed seals (Pusa hispida) and polar bears (Ursus maritimus). In polar bears, PFOS concentrations increased from the 1980s to 2006, with a secondary peak in 2014–2021, while PFNA increased regularly in the Canadian and Greenlandic ringed seals and polar bear livers. Human time trends vary regionally (though lacking for the Russian Arctic), and to the extent local Arctic human populations rely on traditional wildlife diets, such as marine mammals. Arctic human cohort studies implied that several PFAAs are immunotoxic, carcinogenic or contribute to carcinogenicity, and affect the reproductive, endocrine and cardiometabolic systems. Physiological, endocrine, and reproductive effects linked to PFAS exposure were largely similar among humans, polar bears, and Arctic seabirds. For most polar bear subpopulations across the Arctic, modeled serum concentrations exceeded PFOS levels in human populations, several of which already exceeded the established immunotoxic thresholds for the most severe risk category. Data is typically limited to the western Arctic region and populations. Monitoring of legacy and novel PFAS across the entire Arctic region, combined with proactive community engagement and international restrictions on PFAS production remain critical to mitigate PFAS exposure and its health impacts in the Arctic.

Elsevier

2024

Skogbrannene herjer i Europa – Natasha sitter klar til å rømme med 35 hester

Kaiser, Johannes (intervjuobjekt); Rotbakken-Gundersen, Amund; Thommessen, Julia Kirsebom; Knežević, Milana (journalister)

2024

Effect of Thermal Stratification on Pollutant Dispersion in the Atmospheric Boundary Layer

Barulli, Marilina; Cassiani, Massimo; Marro, Massimo; Emmanuelli, Ariane; Salizzoni, Pietro

2024

Skadelige mengder bisfenoler lekker ut av forpakning til næringsmidler

Skaar, Jøran Solnes; Lysberg, Ingeborg Antonsen

2024

Vinterlufta

Grythe, Henrik (intervjuobjekt); Leine, Jan Erlend (journalist)

2024

Energetic particle precipitation influences global secondary ozone distribution

Jia, Jia; Murberg, Lise Eder; Løvset, Tiril; Orsolini, Yvan; Espy, Patrick Joseph; Zeller, Lilou C. G.; Salinas, Cornelius Csar Jude H.; Lee, Jae N.; Wu, Dong; Zhang, Jiarong

The secondary ozone layer is a global peak in ozone abundance in the upper mesosphere-lower thermosphere (UMLT) around 90-95 km. The effect of energetic particle precipitation (EPP) from geomagnetic processes on this UMLT ozone remains largely unexplored. In this research we investigated how the secondary ozone responds to EPP using satellite observations. In addition, the residual Mean Meridional Circulation (MMC) derived from model simulations and the atomic oxygen [O], atomic hydrogen [H], temperature measurements from satellite observations were used to characterise the residual circulation changes during EPP events. We report regions of secondary ozone enhancement or deficit across low, mid and high latitudes as a result of global circulation and transport changes induced by EPP. The results are supported by a sensitivity test using an empirical model.

Springer Nature

2024

Monitoring of long-range transported air pollutants in Norway. Annual report 2023.

Aas, Wenche; Eckhardt, Sabine; Evangeliou, Nikolaos; Hjellbrekke, Anne-Gunn; Platt, Stephen Matthew; Solberg, Sverre; Yttri, Karl Espen

This report presents results from the monitoring of atmospheric composition and deposition of air pollution in 2023, and focuses on main components in air and precipitation, particulate and gaseous phase of inorganic constituents, particulate carbonaceous matter, ground level ozone and particulate matter. The level of pollution in 2023 was generally low though a few episodes occurred. There was an increase in the PM levels in southern Norway during June, caused by a mixture of sources, including emissions from wildfires in Canada

NILU

2024

Carbon and Greenhouse Gas Budgets of Europe: Trends, Interannual and Spatial Variability, and Their Drivers

Lauerwald, Ronny; Bastos, Ana; McGrath, Matthew J.; Petrescu, Ana Maria Roxana; Ritter, François; Andrew, Robbie; Berchet, Antoine; Broquet, Grégoire; Brunner, Dominik; Chevallier, Frédéric; Cescatti, Alessandro; Filipek, Sara; Fortems-Cheiney, Audrey; Forzieri, Giovanni; Friedlingstein, Pierre; Fuchs, Richard; Gerbig, Christoph; Houweling, Sanne; Ke, Piyu; Lerink, Bas J. W.; Li, Wanjing; Li, Wei; Li, Xiaojun; Luijkx, Ingrid; Monteil, Guillaume; Munassar, Saqr; Nabuurs, Gert-Jan; Patra, Prabir K.; Peylin, Philippe; Pongratz, Julia; Regnier, Pierre; Saunois, Marielle; Schelhaas, Mart-Jan; Scholze, Marko; Sitch, Stephen; Thompson, Rona Louise; Tian, Hanqin; Tsuruta, Aki; Wilson, Chris; Wigneron, Jean-Pierre; Yao, Yitong; Zaehle, Sönke; Ciais, Philippe

In the framework of the RECCAP2 initiative, we present the greenhouse gas (GHG) and carbon (C) budget of Europe. For the decade of the 2010s, we present a bottom-up (BU) estimate of GHG net-emissions of 3.9 Pg CO2-eq. yr−1 (using a global warming potential on a 100 years horizon), which are largely dominated by fossil fuel emissions. In this decade, terrestrial ecosystems acted as a net GHG sink of 0.9 Pg CO2-eq. yr−1, dominated by a CO2 sink that was partially counterbalanced by net emissions of CH4 and N2O. For CH4 and N2O, we find good agreement between BU and top-down (TD) estimates from atmospheric inversions. However, our BU land CO2 sink is significantly higher than the TD estimates. We further show that decadal averages of GHG net-emissions have declined by 1.2 Pg CO2-eq. yr−1 since the 1990s, mainly due to a reduction in fossil fuel emissions. In addition, based on both data driven BU and TD estimates, we also find that the land CO2 sink has weakened over the past two decades. A large part of the European CO2 and C sinks is located in Northern Europe. At the same time, we find a decreasing trend in sink strength in Scandinavia, which can be attributed to an increase in forest management intensity. These are partly offset by increasing CO2 sinks in parts of Eastern Europe and Northern Spain, attributed in part to land use change. Extensive regions of high CH4 and N2O emissions are mainly attributed to agricultural activities and are found in Belgium, the Netherlands and the southern UK. We further analyzed interannual variability in the GHG budgets. The drought year of 2003 shows the highest net-emissions of CO2 and of all GHGs combined.

American Geophysical Union (AGU)

2024

Heavy metals and POP measurements 2022

Aas, Wenche; Halvorsen, Helene Lunder; Pfaffhuber, Katrine Aspmo

This report presents an overview of the annual statistics and results from the monitoring programme of heavy metals and persistent organic pollutants (POPs) in EMEP in 2022.

NILU

2024

Hvor kommer miljøgifter i Arktis fra? Møt NEM-modellen

Solbakken, Christine Forsetlund

Norges forskningsråd

2024

NEM – et verktøy for å granske endringsdrivere for miljøgifter i Arktis

Krogseth, Ingjerd Sunde; Breivik, Knut; Eckhardt, Sabine; Pedersen, Lovise Skogeng

2024

Recent European F-gas Emissions from Multiple Inverse Modelling Systems

De Longueville, Helene; Melo, Daniela Brito; Ramsden, Alice; Redington, Alison; Danjou, Alexandre; Andrews, Peter; Pitt, Joseph R.; Murphy, Brendan; Saboya, Eric; Stanley, Kieran M.; O'Doherty, Simon; Wenger, Angelina; Young, Dickon; Engel, Andreas; Vollmer, Martin K.; Reimann, Stefan; Maione, Michela; Arduini, Jgor; Lunder, Chris Rene; Wagenhaeuser, Thomas; Schmidbauer, Norbert; Frumau, Arnoud; Haszpra, László; Molnar, Mihaly; Tunnicliffe, Rachel; Western, Luke M.; Rigby, Matthew; Henne, Stephan; Manning, Alistair J.; Ganesan, Anita L.

2024

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