Publikasjoner

The European hot spot of B[a]P and PM2.5 exposure - The Ostrava region, Czech Republic: Health research results.

Sram, R.J.; Dostal, M.; Libalova, H.; Rossner Jr.; P.; Rossnerova, A.; Svecova, V.; Topinka, J.; Bartonova, A.

The evaluation of atmospheric pollution in Europe, The EMEP Programme. Powerpoint presentation. NILU F

Aas, W.

The FAIR principles as a key enabler to operationalize safe and sustainable by design approaches

Karakoltzidis, Achilleas; Battistelli, Chiara Laura; Bossa, Cecilia; Bouman, Evert; Garmendia Aguirre, Irantzu; Iavicoli, Ivo; Jeddi, Maryam Zare; Karakitsios, Spyros; Leso, Veruscka; Løfstedt, Magnus; Magagna, Barbara; Sarigiannis, Denis; Schultes, Erik; Soeteman-Hernández, Lya G.; Subramanian, Vrishali; Nymark, Penny

Safe and sustainable development of chemicals, (advanced) materials, and products is at the heart of achieving a healthy future environment in line with the European Green Deal and the Chemicals Strategy for Sustainability. Recently, the Joint Research Center (JRC) of the European Commission (EC) developed the safe and sustainable by design (SSbD) framework for definition of criteria and evaluation procedure proposed to be established in Research and Innovation (R&I) activities. The framework aims to support the design of chemicals, materials and products that provide desirable functions (or services), while simultaneously minimizing the risk for harmful impacts to human health and the environment. While many industrial sectors already consider such aspects during R&I, the framework aims to harmonize safety and sustainability assessment across diverse sectors and innovation strategies to meet the mentioned overarching policy goals. A cornerstone to successfully implement and operationalize the SSbD framework lies in the availability of high-quality data and tools, and their interoperability, aspects which also play a key role in ensuring transparency and thereby trust in the assessment outcomes. Availability of data and tools depend on their machine-actionability in terms of findability, accessibility, interoperability, and reusability, in line with the FAIR principles. The principles were developed in order to harmonize digitalization across all data domains, supporting unanticipated data-driven “seamless” integration of information and generation of new knowledge. Here we discuss the essentiality of FAIR data and tools to operationalize SSbD providing views and examples of activities within the European Partnership for the Assessment of Risks from Chemicals (PARC). The discussion covers five areas previously brought up in relation to the SSbD framework, and which are highly dependent on implementation of the FAIR principles; (i) digitalization to leverage innovation towards a green transition; (ii) existing data sources and their interoperability; (iii) navigating SSbD with data from new scientific developments (iv) transparency and trust through automated assessment of data quality and uncertainty; and (v) “seamless” integration of SSbD tools.

Royal Society of Chemistry (RSC)

The FastRT UV simulation tool: recent updates, spin-offs and applications.

Engelsen, O.

The fingerprint of the summer 2018 drought in Europe on ground-based atmospheric CO2 measurements

Ramonet, Michel; Ciais, Philippe; Apadula, F.; Bartyzel, Jakub; Bastos, Ana; Bergamaschi, Peter; Blanc, P. E.; Brunner, D; Caracciolo di Torchiarolo, L.; Calzolari, F.; Chen, H.; Chmura, L.; Colomb, A.; Conil, S.; Cristofanelli, P.; Cuevas, E.; Curcoll, R.; Delmotte, M.; di Sarra, A.; Emmenegger, L.; Forster, G.; Frumau, A.; Gerbig, C.; Gheusi, F; Hammer, S.; Haszpra, L.; Hatakka, J.; Hazan, L.; Heliasz, M.; Henne, S.; Hensen, A.; Hermansen, Ove; Keronen, P.; Kivi, R.; Kominkova, K.; Kubistin, D.; Laurent, O.; Laurila, T; Lavric, J. V.; Lehner, I.; Lehtinen, K. E. J.; Leskinen, A.; Leuenberger, M.; Levin, I.; Lindauer, M.; Lopez, M.; Myhre, Cathrine Lund; Mammarella, I; Manca, G; Manning, A; Marek, M. V.; Marklund, P.; Martin, D.; Meinhardt, F; Mihalopoulos, N.; Mölder, M.; Morguí, J.A.; Necki, J.; O'Doherty, S.; O'Dowd, C; Ottosson, M.; Philippon, N.; Piacentino, S.; Pichon, J.M.; Plass-Duelmer, C.; Resovsky, A.; Rivier, L; Rodo, X; Sha, M. K.; Scheeren, H. A.; Sferlazzo, D.; Spain, T. G.; Stanley, K. M.; Steinbacher, M.; Trisolino, P.; Vermeulen, A.; Vitkova, G.; Weyrauch, D.; Xueref-Remy, I.; Yala, K.; Kwok, C. Yvwer

The first Ny-Ålesund - Pallas-Sodankylä atmospheric research workshop, Pallas, Finland 1-3 March 2004 - Extended abstracts. Reports 2004:7

Paatero, J. and Holmén, K. (eds.)

The forum for air quality modelling in Eurupe (FAIRMODE): Results and activities 2011-2012. NILU F

Denby, B.R.; Tarrasón, L.; Galmarini, S.; Belis, C.; Thunis, P.; Lükewille, A.; Douros, J.; Borge, R.; Lumbreras, J.

The Fukushima inverse problem.

Martinez-Camara, M.; Dokmanic, I.; Ranieri, J.; Scheibler, R.; Vetterli, M.; Stohl, A.

The GAW World Data Centre for Aerosol - features and recent improvements. NILU PP

Fiebig, M.; Fjæraa, A.M.; Tørseth, K.

The Global Fire Assimilation System (GFAS) & Peat fire emissions

Kaiser, Johannes; Stebel, Kerstin; Schneider, Philipp

The Global Nitrous Oxide Budget: A joint new activity of GCP and INI.

Tian, H.; Thompson, R.; Canadell, J.; Jackson, R. B.; Sutton, M. A.

The Greenhouse Gas Budget of Terrestrial Ecosystems in East Asia Since 2000

Wang, Xuhui; Gao, Yuanyi; Jeong, Sujong; Ito, Akihiko; Bastos, Ana; Poulter, Benjamin; Wang, Yilong; Ciais, Philippe; Tian, Hanqin; Yuan, Wenping; Chandra, Naveen; Chevallier, Frédéric; Fan, Lei; Hong, Songbai; Lauerwald, Ronny; Li, Wei; Lin, Zhengyang; Pan, Naiqing; Patra, Prabir K.; Peng, Shushi; Ran, Lishan; Sang, Yuxing; Sitch, Stephen; Takashi, Maki; Thompson, Rona Louise; Wang, Chenzhi; Wang, Kai; Wang, Tao; Xi, Yi; Xu, Liang; Yan, Yanzi; Yun, Jeongmin; Zhang, Yao; Zhang, Yuzhong; Zhang, Zhen; Zheng, Bo; Zhou, Feng; Tao, Shu; Canadell, Josep G.; Piao, Shilong

East Asia (China, Japan, Koreas, and Mongolia) has been the world's economic engine over at least the past two decades, exhibiting a rapid increase in fossil fuel emissions of greenhouse gases (GHGs) and has expressed the recent ambition to achieve climate neutrality by mid-century. However, the GHG balance of its terrestrial ecosystems remains poorly constrained. Here, we present a synthesis of the three most important long-lived greenhouse gases (CO2, CH4, and N2O) budgets over East Asia during the decades of 2000s and 2010s, following a dual constraint approach. We estimate that terrestrial ecosystems in East Asia is close to neutrality of GHGs, with a magnitude of between −46.3 ± 505.9 Tg CO2eq yr−1 (the top-down approach) and −36.1 ± 207.1 Tg CO2eq yr−1 (the bottom-up approach) during 2000–2019. This net GHG sink includes a large land CO2 sink (−1229.3 ± 430.9 Tg CO2 yr−1 based on the top-down approach and −1353.8 ± 158.5 Tg CO2 yr−1 based on the bottom-up approach) being offset by biogenic CH4 and N2O emissions, predominantly coming from the agricultural sectors. Emerging data sources and modeling capacities have helped achieve agreement between the top-down and bottom-up approaches, but sizable uncertainties remain in several flux terms. For example, the reported CO2 flux from land use and land cover change varies from a net source of more than 300 Tg CO2 yr−1 to a net sink of ∼−700 Tg CO2 yr−1. Although terrestrial ecosystems over East Asia is close to GHG neutral currently, curbing agricultural GHG emissions and additional afforestation and forest managements have the potential to transform the terrestrial ecosystems into a net GHG sink, which would help in realizing East Asian countries' ambitions to achieve climate neutrality.

American Geophysical Union (AGU)