• The WMO Vegetation Fire and Smoke Pollution Warning Advisory and Assessment System (VFSP-WAS): Concept, Current Capabilities, Research and Development Challenges and the Way Ahead, DOI: 10.37002/biobrasil.v11i2.1738
  • WMO GAW Report No. 235 – Vegetation Fire and Smoke Pollution Warning and Advisory System (VFSP-WAS): Concept Note and Expert Recommendations
  • Interdisciplinary Research Aspects of Open Biomass Burning and its Impact on the Atmosphere Special Issue (2015) Eds. J.W. Kaiser and M. Keywood. Atmos. Env.. 121: IBBI Special Issue
  • Alari, A., Ballester, J., Milà, C., Benmarhnia, T., Sofiev, M., Uppstu, A., Hänninen, R., Tonne, C., 2025. Quantifying the short-term mortality effects of wildfire smoke in Europe: a multicountry epidemiological study in 654 contiguous regions. The Lancet Planetary Health 101296. https://doi.org/10.1016/j.lanplh.2025.101296
  • Chowdhury, S., Hänninen, R., Sofiev, M., Aunan, K., 2024. Fires as a source of annual ambient PM2.5 exposure and chronic health impacts in Europe. Science of The Total Environment 922, 171314. https://doi.org/10.1016/j.scitotenv.2024.171314
  • Chuvieco, E., Yebra, M., Martino, S., Thonicke, K., Gómez-Giménez, M., San-Miguel, J., Oom, D., Velea, R., Mouillot, F., Molina, J.R., Miranda, A.I., Lopes, D., Salis, M., Bugaric, M., Sofiev, M., Kadantsev, E., Gitas, I.Z., Stavrakoudis, D., Eftychidis, G., Bar-Massada, A., Neidermeier, A., Pampanoni, V., Pettinari, M.L., Arrogante-Funes, F., Ochoa, C., Moreira, B., Viegas, D., 2023. Towards an Integrated Approach to Wildfire Risk Assessment: When, Where, What and How May the Landscapes Burn. Fire 6, 215. https://doi.org/10.3390/fire6050215
  • Daalen, K.R. van, Romanello, M., Rocklöv, J., Semenza, J.C., Tonne, C., Markandya, A., Dasandi, N., Jankin, S., Achebak, H., Ballester, J., Bechara, H., Callaghan, M.W., Chambers, J., Dasgupta, S., Drummond, P., Farooq, Z., Gasparyan, O., Gonzalez-Reviriego, N., Hamilton, I., Hänninen, R., Kazmierczak, A., Kendrovski, V., Kennard, H., Kiesewetter, G., Lloyd, S.J., Batista, M.L., Martinez-Urtaza, J., Milà, C., Minx, J.C., Nieuwenhuijsen, M., Palamarchuk, J., Quijal-Zamorano, M., Robinson, E.J.Z., Scamman, D., Schmoll, O., Sewe, M.O., Sjödin, H., Sofiev, M., Solaraju-Murali, B., Springmann, M., Triñanes, J., Anto, J.M., Nilsson, M., Lowe, R., 2022. The 2022 Europe report of the Lancet Countdown on health and climate change: towards a climate resilient future. The Lancet Public Health. https://doi.org/10.1016/S2468-2667(22)00197-9
  • Historic global biomass burning emissions based on merging satellite observations with proxies and fire models (1750–2015). van Marle, M., Kloster, S., Magi, B., Marlon, J., Daniau, A., Field, R., Arneth, A., Forrest, M., Hantson, S., Kehrwald, N., Knorr, W., Lasslop, G., Li, F., Mangeon, S., Yue, C., Kaiser, J., and van der Werf, G. (2017). Geosci. Model Dev., 10:3329–3357.
  • Partanen, T.M., Sofiev, M., 2022. Forecasting the regional fire radiative power for regularly ignited vegetation fires. Nat. Hazards Earth Syst. Sci. 22, 1335–1346. https://doi.org/10.5194/nhess-22-1335-2022
  • Soares, J., Sofiev, M., Hakkarainen, J., 2015. Uncertainties of wild-land fi res emission in AQMEII phase 2 case study. Atmospheric Environment. https://doi.org/10.1016/j.atmosenv.2015.01.068
  • Sofiev, M., Vankevich, R., Lotjonen, M., Prank, M., Petukhov, V., Ermakova, T., Koskinen, J., Kukkonen, J., 2009. An operational system for the assimilation of the satellite information on wild-land fires for the needs of air quality modelling and forecasting. Atmospheric Chemistry and Physics 9, 6833–6847. https://doi.org/10.5194/acp-9-6833-2009
  • Sofiev, M., Ermakova, T., Vankevich, R., 2012. Evaluation of the smoke-injection height from wild-land fires using remote-sensing data. Atmospheric Chemistry and Physics 12, 1995–2006. https://doi.org/10.5194/acp-12-1995-2012