Publications

# denotes EDIPI project members

[1] WP6 #Ginesta-Fernandez, M., #Yiou, P., #Messori, G., #Faranda, D. (2022) A methodology for attributing severe extratropical cyclones to climate change based on reanalysis data: the case study of storm Alex 2020. Climate Dynamics. https://doi.org/10.1007/s00382-022-06565-x

Publisher version available in SpringerLink webpage
Institutional version available in Diva
 
[2] WP6 #Faranda, D., Bourdin, S., #Ginesta-Fernandez, M., Krouma, M., Noyelle, R., Pons, F., #Yiou, P., & #Messori, G. (2022). A climate-change attribution retrospective of some impactful weather extremes of 2021. Weather Climate Dynamics, 3, 1311–1340. https://doi.org/10.5194/wcd-3-1311-2022
 
Publisher version available in Weather and Climate Dynamics webpage
Institutional version available in Diva
 
[3] WP6 Rapella, L., #Faranda, D., Gaetani, M., Drobinski, P. J., & #Ginesta Fernandez, M. (2023). Climate change on extreme winds already affects off-shore wind power availability in Europe. Environmental Research Letters, 18, 034040.
 
Publisher version available in Environmental Research Letters webpage
Institutional version available in Hal Science
 
[4] WP6 #Holmberg, E. (née Allwright), #Messori, G., #Caballero, R., and #Faranda, D. (2023) The link between European warm-temperature extremes and atmospheric persistence, Earth System Dynamics, 14, 737–765, https://doi.org/10.5194/esd-14-737-2023, 2023.
 
Publisher version available in Earth System Dynamics webpage
Institutional version available in Diva
 
[5] WP7 #Shyrokaya, A., Pappenberger, F., Pechlivanidis, I., #Messori, G., Khatami, S., Mazzoleni, M., and #Di Baldassarre, G. (2023). Advances and gaps in the science and practice of impact-based forecasting of droughts, Wires Water. https://doi.org/10.1002/wat2.1698
 
Publisher version available in Wires Water
Institutional version available in Diva
 
[6] #Faranda, D., #Ginesta, M., Alberti, T., Copola, E. and Anzidei, M. (2023). Attributing Venice Acqua Alta events to a changing climate and evaluating the efficacy of MoSE adaptation strategy. npj Climate and Atmospheric Science, 6, 181. https://doi.org/10.1038/s41612-023-00513-0
 
Publisher version available in npj Climate and Atmospheric Science
Institutional version available in Hal Open Science
 
[7] WP7 #Shyrokaya, A., #Messori, G., Pechlivanidis, I., Pappenberger, F, Cloke, H. L., and #Di Baldassarre, G. (2023). Significant relationships between drought indicators and impacts for the 2018–2019 drought in Germany, Environmental Research Letters, 19, 014037. https://doi.org/10.1088/1748-9326/ad10d9
 
Publisher version available in Environmental Research Letters
Institutional version available in Diva
 

[8] WP6 #Xavier, A. K., Demaeyer, J., and #Vannitsem, S. (2023). Variability and Predictability of a reduced-order land atmosphere coupled model. Earth System Dynamics. https://doi.org/10.5194/egusphere-2023-2257

Publisher version: Earth System Dynamics
Institutional version: Arxiv

[9] WP7 #Biess, B., #Gudmundsson, L., & Seneviratne, S. I. (2024). Assessing global and regional trends in spatially co-occurring hot or wet annual maxima under climate change. Earth’s Future, 12, e2023EF004114. 

Publisher version: Earth’s Future
Institutional version: ETH Research Collection

 

[10] WP7 #Biess, B., #Gudmundsson, L., Windisch, M.G., & Seneviratne, S.I. (2024). Future changes in spatially compounding hot, wet or dry events and their implications for the world’s breadbasket regions. Environ. Res. Lett. 19, 064011. 

Publisher version: Environmental Research Letters
Institutional version: ETH Research Collection

 

[11] WP6 #Holmberg, E., Tietsche, S., and #Messori, G. (2024). Forecasting atmospheric persistence and implications for the predictability of temperature and temperature extremes (under review).

Publisher version: TBC
Institutional version: TBC

 

[12] WP6 #Ginesta Fernandez, M., Flaounas, M., Yiou, P., & #Faranda, D. (2024). Role of anthropogenic climate change on explosive storms in Europe. Journal of Climate.

Publisher version: Journal of Climate
Institutional version: HAL

 

[13] WP5 #Mascolo, V., Le Priol C., #D’Andrea F., #Bouchet, F. (2024). Compared influence of the Atlantic Multidecadal Variability and of spring soil moisture on summer heat waves in Europe. Oxford Open Climate Change.
https://doi.org/10.48550/arXiv.2405.10821

Publisher version: TBC
Institutional version: Arxiv

 

[14] WP5 #Mascolo, V., Lovo, A., Herbert, C., & #Bouchet, F. (2024). Gaussian Framework and Optimal Projection of Weather Fields for Prediction of Extreme Events. JAMES. https://arxiv.org/abs/2405.20903

Publisher version: TBC
Institutional version: Arxiv

 

[15] WP5 #Mathews, J. P., #Czaja, A., Vitart, F., & Roberts, C. (2024). Gulf Stream Moisture Fluxes Impact Atmospheric Blocks Throughout the Northern Hemisphere. Geophysical Research Letters. First published: 04 July 2024. https://doi.org/10.1029/2024GL108826

Publisher version: Geophysical Research Letters
Institutional version: Doaj

 

[16] WP7 #Moemken, J., #Alifdini, I., Ramos, A. M., Georgiadis, A., Brocklehurst, A., Braun, L., and #Pinto, J. G. (2024). Insurance loss model vs meteorological loss index – How comparable are their loss estimates for European windstorms? Nat. Hazards Earth Syst. Sci. Discuss. [preprint], in review. https://doi.org/10.5194/nhess-2024-16 

Publisher version: TBC
Institutional version: TBC

 

[17] WP7 #Alifdini, I., #Moemken, J., Ramos, A. M., and #Pinto, J. G. (2024). Future Changes of European windstorm loss in EURO-CORDEX simulations under RCP8.5 scenario (TBC).

Publisher version: TBC
Institutional version: TBC


[18] WP7 #Stainoh, F., #Moemken, J., Gouveia, C.M., & #Pinto, J.G. (2024). A comparison of climate drivers’ impacts on silage maize yield shock in Germany. Theoretical and Applied Climatology

Publisher version: Springer Link 
Institutional version: TBC


[19] WP5 #Deshmukh, V., Rivière, G., Fromang, S., & Saint-Lu, M. (2024). How Does a Dry General Circulation Model Represent Atmospheric Blocking? ESS Open Archive. DOI: 10.22541/essoar.172526777.76024963/v1 (under review)

Publisher version: ESS Open Archive
Institutional version: TBC

[20] WP6 #Suresan, S., Harnik, N., & Caballero, R. (2024). Extreme weather anomalies and surface signatures associated with merged Atlantic-African jets during winter.  DOI: 10.5194/egusphere-2024-2745 [preprint]

Publisher version: EGUsphere Preprint
Institutional version: TBC

[21] WP5 Mathews, J., Czaja, A. (2024). Oceanic maintenance of atmospheric blocking in wintertime in the North Atlantic. Climate Dynamics, 62, 6159–6172. https://doi.org/10.1007/s00382-024-07196-0

Publisher version: SpringerLink
Institutional version: TBC

[22] WP5 Stanković, A., Messori, G., Pinto, J. G., & Caballero, R. (2024). Large-scale perspective on extreme near-surface winds in the central North Atlantic. Weather and Climate Dynamics, 5, 821–837. https://doi.org/10.5194/wcd-5-821-2024

Publisher version: Weather and Climate Dynamics
Institutional version: TBC

 

EDIPI is further acknowledged in the following publications by EDIPI’s senior researchers:

[1] Marcos Quijal-Zamorano, Èrica Martínez-Solanas, Hicham Achebak, Desislava Petrova, Jean-Marie Robine, François R Herrmann, Xavier Rodó, and #Joan Ballester (2021). Seasonality reversal of temperature attributable mortality projections due to previously unobserved extreme heat in Europe. The Lancet, Vol. 5, 9, E573-E575. https://doi.org/10.1016/S2542-5196(21)00211-4

Publisher version available in The Lancet webpage
Institutional version available in ScienceDirect webpage
 

[2] Èrica Martínez-Solanas, Marcos Quijal-Zamorano, Hicham Achebak, Desislava Petrova, Jean-Marie Robine, François R Herrmann, Xavier Rodó and #Joan Ballester (2021). Projections of temperature-attributable mortality in Europe: a time series analysis of 147 contiguous regions in 16 countries. Lancet Planet Health, 5: e446–54. https://doi.org/10.1016/S2542-5196(21)00150-9

Publisher version available in Lancet Planet Health webpage
Institutional version available in ScienceDirect webpage
 

[3] #Faranda, D., #Messori, G., Jézéquel, A., Vrac, M., Yiou, P. (2023) Atmospheric circulation compounds anthropogenic warming and impacts of climate extremes in Europe, Proc. Nat. Acad. Sci. https://doi.org/10.1073/pnas.2214525120

Publisher version available in PNAS webpage
Institutional version available in Diva webpage
 
[4] van Daalen, K.R., Tonne, C., Semenza, J.C, Rocklöv, J., Markandya, A., Dasandi, N., Jankin, S., Achebak, H., et al. (2024). The 2024 Europe report of the Lancet Countdown on health and climate change: unprecedented warming demands unprecedented action. The Lancet Public Health. https://doi.org/10.1016/S2468-2667(24)00055-0
Publisher version available in Lancet Planet Health webpage
Institutional version available in Diva webpage
 

[5] Faranda, D., Messori, G. (equal contribution), Alberti, T., Alvarez-Castro, M. C., Caby, T., Cavicchia, L., Coppola, E., Donner, R., Dubrulle, B., Galfi, V. M., #Holmberg, E., Lembo, V., Noyelle, R., Spagnolo, B., Vaienti, S., Valenti, D., Yiou, P., Wormell, C. (2024). A statistical physics and dynamical systems perspective on geophysical extreme events. Physical Review E, accepted.

Publisher version: Physical Review E
Institutional version: TBC