Прати
Mika Rantanen
Mika Rantanen
Researcher, Finnish Meteorological Institute
Верификована је имејл адреса на fmi.fi - Почетна страница
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The Arctic has warmed nearly four times faster than the globe since 1979
M Rantanen, AY Karpechko, A Lipponen, K Nordling, O Hyvärinen, ...
Communications earth & environment 3 (1), 168, 2022
19512022
The characteristics and structure of extra-tropical cyclones in a warmer climate
VA Sinclair, M Rantanen, P Haapanala, J Räisänen, H Järvinen
Weather and Climate Dynamics 1 (1), 1-25, 2020
87*2020
The summer 2018 heatwave in Finland
VA Sinclair, JW Mikkola, M Rantanen, J Raisanen
Weather 74 (11), 403-409, 2019
532019
High-resolution analysis of observed thermal growing season variability over northern Europe
J Aalto, P Pirinen, PE Kauppi, M Rantanen, C Lussana, ...
Climate Dynamics 58 (5), 1477-1493, 2022
322022
The extratropical transition of Hurricane Ophelia (2017) as diagnosed with a generalized omega equation and vorticity equation
M Rantanen, J Räisänen, VA Sinclair, J Lento, H Järvinen
Tellus A: Dynamic Meteorology and Oceanography 72 (1), 1-26, 2020
282020
Review on winds, extratropical cyclones and their impacts in Northern Europe and Finland
H Gregow, M Rantanen, TK Laurila, A Mäkelä
Finnish Meteorological Institute, 2020
212020
The jump in global temperatures in September 2023 is extremely unlikely due to internal climate variability alone
M Rantanen, A Laaksonen
npj Climate and Atmospheric Science 7 (1), 34, 2024
202024
Climate change in the Baltic Sea: 2021 fact sheet
M Ahola, L Bergström, M Blomqvist, D Boedeker, F Börgel, I Carlén, ...
Baltic Marine Environment Protection Commission, 2021
152021
Sensitivity of idealised baroclinic waves to mean atmospheric temperature and meridional temperature gradient changes
M Rantanen, J Räisänen, VA Sinclair, H Järvinen
Climate Dynamics 52, 2703-2719, 2019
142019
OZO v. 1.0: software for solving a generalised omega equation and the Zwack–Okossi height tendency equation using WRF model output
M Rantanen, J Räisänen, J Lento, O Stepanyuk, O Räty, VA Sinclair, ...
Geoscientific Model Development 10 (2), 827-841, 2017
112017
Introduction [in “State of the Climate in 2022 “]
T Boyer, E Bartow-Gillies, A Abida, M Ades, R Adler, S Adusumilli, ...
102023
Bioclimatic atlas of the terrestrial Arctic
M Rantanen, M Kämäräinen, P Niittynen, GK Phoenix, J Lenoir, I Maclean, ...
Scientific data 10 (1), 40, 2023
92023
Storm Aila: An unusually strong autumn storm in Finland
M Rantanen, TK Laurila, VA Sinclair, H Gregow
Weather, 2021
72021
A method for estimating the effect of climate change on monthly mean temperatures: September 2023 and other recent record‐warm months in Helsinki, Finland
M Rantanen, J Räisänen, J Merikanto
Atmospheric Science Letters 25 (6), e1216, 2024
62024
Ilmasto-ja sosioekonomiset skenaariot ilmastonmuutokseen sopeutumisen suunnittelussa
R Ruuhela, TR Carter, M Rantanen, S Polade, A Lipsanen, K Jylhä, ...
fi= Maa-ja metsätalousministeriö| sv= Jord-och skogsbruksministeriet| en …, 2023
52023
Natural variability boosts Arctic warming
M Rantanen
nature geoscience 17 (6), 485-486, 2024
42024
Asymmetric warming rates between warm and cold weather regimes in Europe
M Rantanen, SH Lee, J Aalto
Atmospheric Science Letters 24 (10), e1178, 2023
42023
The Arctic
TA Moon, R Thoman, ML Druckenmiller, B Ahmasuk, SA Backensto, ...
Bulletin of the American Meteorological Society 104 (9), S271-S321, 2023
32023
The atmospheric ‘cold blob’ over Fennoscandia from October 2023 to January 2024
M Rantanen, O Hyvärinen, A Vajda, A Karpechko
Weather, 2024
22024
The impact of serial cyclone clustering on extremely high sea levels in the Baltic Sea
M Rantanen, D van den Broek, J Cornér, VA Sinclair, MM Johansson, ...
Geophysical Research Letters 51 (6), e2023GL107203, 2024
22024
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