Publications

Towards the development of a commom EMEP global modeling framework. EMEP/MSC-W Technical report, 1/2008

Tarrasón, L. Gusev, A. (eds.) Travnikov, O.; Sokovych, V.; Tørseth, K.; Gauss, M.; Jonson, J.E.; Nyíri, Á.; Simpson, D.; Wind, P.

Towards seamless environmental prediction–development of Pan-Eurasian EXperiment (PEEX) modelling platform

Mahura, Alexander; Baklanov, Alexander; Makkonen, Risto; Boy, Michael; Petäjä, Tuukka; Lappalainen, Hanna K.; Nuterman, Roman; Kerminen, Veli-Matti; Arnold, Stephen R.; Jochum, Markus; Shvidenko, Anatoly; Esau, Igor; Sofiev, Mikhail; Stohl, Andreas; Aalto, Tuula; Bai, Jianhui; Chen, Chuchu; Cheng, Yafang; Drofa, Oxana; Huang, Mei; Järvi, Leena; Kokkola, Harri; Kouznetsov, Rostislav; Li, Tingting; Malguzzi, Piero; Monks, Sarah; Poulsen, Mads Bruun; Noe, Steffen M.; Palamarchuk, Yuliia; Foreback, Benjamin; Clusius, Petri; Rasmussen, Till Andreas Soya; She, Jun; Sørensen, Jens Havskov; Spracklen, Dominick; Su, Hang; Tonttila, Juha; Wang, Siwen; Wang, Jiandong; Wolf, Tobias; Yu, Yongqiang; Zhang, Qing; Zhang, Wei; Zhang, Wen; Zheng, Xunhua; Li, Siqi; Li, Yong; Zhou, Putian; Kulmala, Markku

The Pan-Eurasian Experiment Modelling Platform (PEEX-MP) is one of the key blocks of the PEEX Research Programme. The PEEX MP has more than 30 models and is directed towards seamless environmental prediction. The main focus area is the Arctic-boreal regions and China. The models used in PEEX-MP cover several main components of the Earth’s system, such as the atmosphere, hydrosphere, pedosphere and biosphere, and resolve the physical-chemical-biological processes at different spatial and temporal scales and resolutions. This paper introduces and discusses PEEX MP multi-scale modelling concept for the Earth system, online integrated, forward/inverse, and socioeconomical modelling, and other approaches with a particular focus on applications in the PEEX geographical domain. The employed high-performance computing facilities, capabilities, and PEEX dataflow for modelling results are described. Several virtual research platforms (PEEX-View, Virtual Research Environment, Web-based Atlas) for handling PEEX modelling and observational results are introduced. The overall approach allows us to understand better physical-chemical-biological processes, Earth’s system interactions and feedbacks and to provide valuable information for assessment studies on evaluating risks, impact, consequences, etc. for population, environment and climate in the PEEX domain. This work was also one of the last projects of Prof. Sergej Zilitinkevich, who passed away on 15 February 2021. Since the finalization took time, the paper was actually submitted in 2023 and we could not argue that the final paper text was agreed with him.

Towards reliable data: Validation of a machine learning-based approach for microplastics analysis in marine organisms using Nile red staining

Meyers, Nelle; Everaert, Gert; Hostens, Kris; Schmidt, Natascha; Herzke, Dorte; Fuda, Jean-Luc; Janssen, Colin R.; Witte, Bavo De

Towards personal exposure estimates using low-cost air quality sensors and data fusion techniques.

Schneider, P.; Castell, N.; Lahoz, W.A.

Towards near-real-time estimates of greenhouse gas budgets

Ciais, Philippe; Davis, S; Saatchi, Sassan S.; Deng, Z.; Poulter, B.; Chevallier, F; Liu, Z.; Grassi, G.; Thompson, Rona Louise; McKinley, G. A.; Gruber, N.; Wigneron, Jean Pierre; Gentine, P.; d'Aspremont, Alexandre; Lauvaux, Thomas

Towards FAIR nanosafety data

Jeliazkova, Nina; Apostolova, Margarita D.; Andreoli, Cristina; Barone, Flavia; Barrick, Andrew; Battistelli, Chiara L.; Bossa, Cecilia; Botea-Petcu, Alina; Chatel, Amelie; Angelis, Isabella De; Dusinska, Maria; Yamani, Naouale El; Gheorghe, Daniela; Giusti, Anna; Gómez-Fernández, Paloma; Grafström, Roland; Gromelski, Maciej; Jacobsen, Nicklas Raun; Jeliazkov, Vedrin; Jensen, Keld Alstrup; Kochev, Nikolay; Kohonen, Pekka; Manier, Nicolas; Mariussen, Espen; Mech, Agnieszka; Navas, José María; Paskaleva, Vesselina; Precupas, Aurica; Puzyn, Tomasz; Rasmussen, Kirsten; Ritchie, Peter; Llopis, Isabel Rodriguez; Rundén-Pran, Elise; Sandu, Romica; Shandilya, Neeraj; Tanasescu, Sperenta; Haase, Andrea; Nymark, Penny

Towards creating a ESA CCI soil moisture root-zone product.

Blyverket, J.; Hamer, P.; Bertino, L.; Gruber, A.; Lahoz, W.

Towards consistent land surface temperature products from multiple satellite instruments: validation results from WACMOS-ET.

Schneider, P.; Martins, J.; Pires, A.; Trigo, I.; Jimenez, C.; Prigent, C.; Prata, F.; Goettsche, F.; Hook, S.

Towards cleaner air for Europe. Science, tools and applications. Part 1: Results from the EUROTRAC-2 synthesis and integration project.

Midgley, P.; Builtjes, P.; Fowler, D.; Harrison, R.; Hewitt, N.; Moussiopoulos, N.; Noone, K.; Tørseth, K.; Volz-Thomas, A.

Towards better exploitation of Satellite data for monitoring Air Quality in Norway using downscaling techniques

Stebel, Kerstin; Schneider, Philipp; Kylling, Arve; Svendby, Tove Marit

Towards an understanding of the link between environmental emissions and human body burdens of PCBs using CoZMoMAN.

Breivik, K.; Czub, G.; McLachlan, M.S.; Wania, F.

Towards an integrated data-driven infrastructure (InfraNor)

Denkmann, Rudolf; Aas, Wenche; Pedersen, Åshild Ønvik; Berge, Jørgen; Storvold, Rune; Godøy, Øystein; Isaksen, Kjetil; Fjæraa, Ann Mari; Gulbrandsen, Njål; Christiansen, Hanne H; Gallet, Jean-Charles; Mevold, Kjetil; Malnes, Eirik; Ravolainen, Virve; Schuler, Thomas; Tømmervik, Hans; Nilsen, Frank; Fer, Ilker; Sivertsen, Agnar Holten; Jawak, Shridhar Digambar; Lihavainen, Heikki

The Arctic is warming almost four times faster compared to the rest of the world (Rantanen et al. 2022). Svalbard and its surroundings have warmed faster than most of the Arctic (Cai et al. 2021; Isaksen et al. 2022). The Svalbard archipelago also shows large temperature variations from south to north and east to west (Østby et al. 2017). Svalbard has good infrastructure, logistics and communications (airport, port, laboratories), and excellent possibilities for data transfer. This makes Svalbard and its surroundings an attractive living natural laboratory for long-term and campaign-based Arctic studies.