High temporal variability not trend dominates Mediterranean precipitation

Vicente-Serrano, S.M.; Tramblay, Y.; Reig, F.; González-Hidalgo, J.C.; Beguería, S.; Brunetti, M.; Kalin, K.C.; Patalen, L.; Kržič, A.; Lionello, P.; Lima, M.M.; Trigo, R.M.; El-Kenawy, A.M.; Eddenjal, A.; Türkes, M.; Koutroulis, A.; Manara, V.; Maugeri, M.; Badi, W.; Mathbout, S.; Bertalanič, R.; Bocheva, L.; Dabanli, I.; Dumitrescu, A.; Dubuisson, B.; Sahabi-Abed, S.; Abdulla, F.; Fayad, A.; Hodzic, S.; Ivanov, M.; Radevski, I.; Peña-Angulo, D.; Lorenzo-Lacruz, J.; Domínguez-Castro, F.; Gimeno-Sotelo, L.; García-Herrera, R.; Franquesa, M.; Halifa-Marín, A.; Adell-Michavila, M.; Noguera, I.; Barriopedro, D.; Garrido-Perez, J.M.; Azorin-Molina, C.; Andres-Martin, M.; Gimeno, L.; Nieto, R.; Llasat, M.C.; Markonis, Y.; Selmi, R.; Ben Rached, S.; Radovanović, S.; Soubeyroux, J.; Ribes, A.; Saidi, M.E.; Bataineh, S.; El Khalki, E.M.; Robaa, S.; Boucetta, A.; Alsafadi, K.; Mamassis, N.; Mohammed, S.; Fernández-Duque, B.; Cheval, S.; Moutia, S.; Stevkov, A.; Stevkova, S.; Luna, M.Y.; Potopová, V.

doi:10.1038/s41586-024-08576-6

State-of-the-art climate models project a substantial decline in precipitation for the Mediterranean region in the future. Supporting this notion, several studies based on observed precipitation data spanning recent decades have suggested a decrease in Mediterranean precipitation, with some attributing a large fraction of this change to anthropogenic influences. Conversely, certain researchers have underlined that Mediterranean precipitation exhibits considerable spatiotemporal variability driven by atmospheric circulation patterns maintaining stationarity over the long term. These conflicting perspectives underscore the need for a comprehensive assessment of precipitation changes in this region, given the profound social, economic and environmental implications. Here we show that Mediterranean precipitation has largely remained stationary from 1871 to 2020, albeit with significant multi-decadal and interannual variability. This conclusion is based on the most comprehensive dataset available for the region, encompassing over 23,000 stations across 27 countries. While trends can be identified for some periods and subregions, our findings attribute these trends primarily to atmospheric dynamics, which would be mostly linked to internal variability. Furthermore, our assessment reconciles the observed precipitation trends with Coupled Model Intercomparison Project Phase 6 model simulations, neither of which indicate a prevailing past precipitation trend in the region. The implications of our results extend to environmental, agricultural and water resources planning in one of the world’s prominent climate change hotspots.

High temporal variability not trend dominates Mediterranean precipitation / S.M. Vicente-Serrano, Y. Tramblay, F. Reig, J.C. González-Hidalgo, S. Beguería, M. Brunetti, K.C. Kalin, L. Patalen, A. Kržič, P. Lionello, M.M. Lima, R.M. Trigo, A.M. El-Kenawy, A. Eddenjal, M. Türkes, A. Koutroulis, V. Manara, M. Maugeri, W. Badi, S. Mathbout, R. Bertalanič, L. Bocheva, I. Dabanli, A. Dumitrescu, B. Dubuisson, S. Sahabi-Abed, F. Abdulla, A. Fayad, S. Hodzic, M. Ivanov, I. Radevski, D. Peña-Angulo, J. Lorenzo-Lacruz, F. Domínguez-Castro, L. Gimeno-Sotelo, R. García-Herrera, M. Franquesa, A. Halifa-Marín, M. Adell-Michavila, I. Noguera, D. Barriopedro, J.M. Garrido-Perez, C. Azorin-Molina, M. Andres-Martin, L. Gimeno, R. Nieto, M.C. Llasat, Y. Markonis, R. Selmi, S. Ben Rached, S. Radovanović, J. Soubeyroux, A. Ribes, M.E. Saidi, S. Bataineh, E.M. El Khalki, S. Robaa, A. Boucetta, K. Alsafadi, N. Mamassis, S. Mohammed, B. Fernández-Duque, S. Cheval, S. Moutia, A. Stevkov, S. Stevkova, M.Y. Luna, V. Potopová. - In: NATURE. - ISSN 0028-0836. - 639:8055(2025 Mar), pp. 3821.658-3821.666. [10.1038/s41586-024-08576-6]

High temporal variability not trend dominates Mediterranean precipitation

Vicente-Serrano, Sergio M.;Tramblay, Yves;Reig, Fergus;González-Hidalgo, José C.;Beguería, Santiago;Brunetti, Michele;Kalin, Ksenija Cindrić;Patalen, Leonardo;Kržič, Aleksandra;Lionello, Piero;Lima, Miguel M.;Trigo, Ricardo M.;El-Kenawy, Ahmed M.;Eddenjal, Ali;Türkes, Murat;Koutroulis, Aristeidis;V. Manara;M. Maugeri;Badi, Wafae;Mathbout, Shifa;Bertalanič, Renato;Bocheva, Lilia;Dabanli, Ismail;Dumitrescu, Alexandru;Dubuisson, Brigitte;Sahabi-Abed, Salah;Abdulla, Fayez;Fayad, Abbas;Hodzic, Sabina;Ivanov, Mirjana;Radevski, Ivan;Peña-Angulo, Dhais;Lorenzo-Lacruz, Jorge;Domínguez-Castro, Fernando;Gimeno-Sotelo, Luis;García-Herrera, Ricardo;Franquesa, Magí;Halifa-Marín, Amar;Adell-Michavila, Maria;Noguera, Ivan;Barriopedro, David;Garrido-Perez, Jose M.;Azorin-Molina, Cesar;Andres-Martin, Miguel;Gimeno, Luis;Nieto, Raquel;Llasat, Maria Carmen;Markonis, Yannis;Selmi, Rabeb;Ben Rached, Soumaya;Radovanović, Slavica;Soubeyroux, Jean-Michel;Ribes, Aurélien;Saidi, Mohamed Elmehdi;Bataineh, Siham;El Khalki, El Mahdi;Robaa, Sayed;Boucetta, Amina;Alsafadi, Karam;Mamassis, Nikos;Mohammed, Safwan;Fernández-Duque, Beatriz;Cheval, Sorin;Moutia, Sara;Stevkov, Aleksandra;Stevkova, Silvana;Luna, M. Yolanda;Potopová, Vera

2025

Abstract

State-of-the-art climate models project a substantial decline in precipitation for the Mediterranean region in the future. Supporting this notion, several studies based on observed precipitation data spanning recent decades have suggested a decrease in Mediterranean precipitation, with some attributing a large fraction of this change to anthropogenic influences. Conversely, certain researchers have underlined that Mediterranean precipitation exhibits considerable spatiotemporal variability driven by atmospheric circulation patterns maintaining stationarity over the long term. These conflicting perspectives underscore the need for a comprehensive assessment of precipitation changes in this region, given the profound social, economic and environmental implications. Here we show that Mediterranean precipitation has largely remained stationary from 1871 to 2020, albeit with significant multi-decadal and interannual variability. This conclusion is based on the most comprehensive dataset available for the region, encompassing over 23,000 stations across 27 countries. While trends can be identified for some periods and subregions, our findings attribute these trends primarily to atmospheric dynamics, which would be mostly linked to internal variability. Furthermore, our assessment reconciles the observed precipitation trends with Coupled Model Intercomparison Project Phase 6 model simulations, neither of which indicate a prevailing past precipitation trend in the region. The implications of our results extend to environmental, agricultural and water resources planning in one of the world’s prominent climate change hotspots.

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	Settori scientifico-disciplinari dell'articolo (validi dal 09/05/2024)
	
				Settore PHYS-05/B - Fisica del sistema Terra, dei pianeti, dello spazio e del clima
Settore GEOS-04/C - Oceanografia, meteorologia e climatologia
			
	Data di pubblicazione
	
				mar-2025
			
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				NATURE
			
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				https://dx.doi.org/10.1038/s41586-024-08576-6
			
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