Abstract
Observational daily precipitation data from a group of 1762 stations over north-central Italy and adjacent areas are used to produce a high resolution daily gridded precipitation analysis covering the period from 1961 to 2015. Input data are checked for quality, time consistency, synchronicity and statistical homogeneity and the final result has been used to describe the spatial and temporal variability of precipitation over the area. Data are interpolated using a modified Shepard scheme and the interpolation errors are compatible with those presented in Isotta et al. (Int J Climatol 34(5):1657–1675, 2014). The analysis is compared with other similar products available over the area considered, and differences and similarities are described, taking into account the impacts of different spatial resolution and time coverage. The data set is used to describe local climate with respect to precipitation, including mean values and seasonality, by using a group of climate annual and seasonal indices: cumulated precipitation, maximum number of consecutive dry days, frequency of wet days, mean precipitation intensity and 50th and 90th percentile of daily precipitation over a season. The linear trends over the full period of these indices are described and compared. It is shown that although the time series of area average total annual precipitation over north-central Italy does not show significant linear trends, these are present locally. In particular, significant negative trends of annual total precipitation are found in central Italy and in the inner part of northern plains, while significant positive linear trends are present in several areas over the Alps and over the Liguria coast. The seasons most affected by changes in precipitation are summer and autumn, which, in most areas, are the driest and wettest seasons. In summer, significant positive trends in total precipitation have been found in areas close to the northern national borders, while significant negative trends are located elsewhere. The number of wet days is significantly decreasing over most of the domain, but the 90th percentile of precipitation is significantly increasing over most of the Alpine area and northern Po Valley. Over the southern part of the Po Valley and central Italy summer precipitation is significantly becoming less frequent and, generally, less intense. In autumn, total precipitation is characterised by significant positive trends over large areas in Northern Italy and by significant negative trends in inner areas of the Central Apennines. The trend patterns present great similarities with those of the 90th percentile of daily precipitation for the same season. The maximum length of dry spell is significantly decreasing in autumn over most areas, including central Italy, while the number of wet days presents negative but mostly non significant trends over the whole domain.
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References
Alexander LV, Zhang X, Peterson TC, Caesar J, Gleason B, Klein Tank AMG, Haylock M, Collins D, Trewin B, Rahimzadeh F, Tagipour A, Rupa Kumar K, Revadekar J, Griffiths G, Vincent L, Stephenson DB, Burn J, Aguilar E, Brunet M, Taylor M, New M, Zhai P, Rusticucci M, Vazquez-Aguirre JL (2006) Global observed changes in daily climate extremes of temperature and precipitation. J Geophys Res 111:D05109. https://doi.org/10.1029/2005JD006290
Antolini G, Auteri L, Pavan V, Tomei F, Tomozeiu R, Marletto V (2016) A daily high-resolution gridded climatic data set for Emilia-Romagna, Italy, during 1961–2010. Int J Climatol 36(4):1970–1986
Bartolini G, Messeri A, Grifoni D, Mannini D, Orlandini S (2014a) Recent trends in seasonal and annual precipitation indices in Tuscany (Italy). Theor Appl Climatol 118(1–2):147–157. https://doi.org/10.1007/s00704-013-1053-3
Bartolini G, Grifoni D, Torrigiani Malaspina T, Vallorani R, Meneguzzo F, Gozzini B (2014b) Precipitation changes from two long-term hourly dataset in Tuscany (Italy). Int J Climatol 34:3977–3985. https://doi.org/10.1002/joc.3956
Bartolini G, Grifoni D, Magno R, Torrigiani T, Gozzini B (2017) Changes in temporal distribution of precipitation in a Mediterranean area (Tuscany, Italy) 1955–2013. Int J Climatol. https://doi.org/10.1002/joc.5251
Bucchignani E, Montesarchio M, Zollo AL, Mercogliano P (2016) High-resolution climate simulations with COSMO-CLM over Italy: performance evaluation and climate projections for the 21st century. Int J Climatol 36(2):735–756. https://doi.org/10.1002/joc.4379
Buzzi A, Davolio S, Malguzzi P, Drofa O, Mastrangelo D (2014) Heavy rainfall episodes over Liguria of autumn 2011: numerical forecasting experiments. Nat Hazard Earth Syst Sc 14:1325–1340
Cacciamani C, Nanni S, Tibaldi S (1994) Mesoclimatology of winter temperature and precipitation in the Po Valley of Northern Italy. Int J Climatol 14:777–814
Casanueva A, Kotlarski S, Herrera S, Fernández J, Gutiérrez JM, Boberg F, Colette A, Christensen OB, Goergen K, Jacob D, Keuler K, Nikulin G, Teichmann C, Vautard (2016) Daily precipitation statistics in a EURO–CORDEX RCM ensemble: added value of raw and bias-corrected high-resolution simulations. Clim Dyn 47:719–737
Catellari S, Artale V (eds) (2009) I cambiamenti climatici in Italia: evidenze, vulnerabilità e impatti. Bononia University Press, Bologna, Italy
Ciccarelli N, von Hardenberg J, Provenzale A, Ronchi C, Vargiu A (2009) Climate variability in north-western Italy during the second half of the 20th century. Glob Planet Change 63:185–195
Crespi A, Brunetti M, Lentini G, Maugeri M (2018) 1961–1990 high-resolution monthly precipitation climatologies for Italy. Int J Climatol 38:878–895. https://doi.org/10.1002/joc.5217
Davolio S, Diomede T, Marsigli C, Miglietta MM, Montani A, Morgillo A (2012) Comparing different meteorological ensemble approaches: hydrological predictions for a flood episode in Northern Italy. Adv Sci Res 8:33–37
Davolio S, Miglietta MM, Diomede T, Marsigli C, Montani A (2013) A flood episode in Northern Italy: multi-model and single-model mesoscale meteorological ensembles for hydrological predictions. Hydrol Earth Sys Sci 17:2107–2120
Giorgi F, Jones C, Asrar GR (2009) Addressing climate information needs at the regional level: the CORDEX framework. WMO Bull 58(3):175–183
Giorgi F, Coppola E, Solmon F, Mariotti L, Sylla MB, Bi X, Elguindi N, Diro GT, Nair V, Giuliani G, Cozzini S, Güttler I, O’Brien TA, Tawfik AB, Shalaby A, Zakey AS, Steiner AL, Stordal F, Sloan LC, Brankovic C (2012) RegCM4: model description and preliminary tests over multiple CORDEX domains. Clim Res 52:7–29
Haylock MR, Hofstra N, Klein Tank AMG, Klok EJ, Jones PD, New M (2008) A European daily high-resolution gridded dataset of surface temperature and precipitation. J Geophys Res 113:D20119. https://doi.org/10.1029/2008JD10201
Isotta FA, Frei C, Weilguni V, Percec Tadic M, Lassegues P, Rudolf B, Pavan V, Cacciamani C, Antolini G, Ratto SM, Munari M, Micheletti S, Bonati V, Lussana C, Ronchi C, Panettieri E, Marigo G, Vertacnik G (2014) The climate of daily precipitation in the Alps: development and analysis of a high-resolution grid dataset from pan-Alpine rain-gauge data. Int J Climatol 34(5):1657–1675
Manzato A, Cicogna A, Pucillo A (2016) 6-hour maximum rain in Friuli Venezia Giulia: Climatology and ECMWF-based forecasts. Atm Res 169B:465–484
Nuissier O, Marsigli C, Vincendon B, Hally A, Bouttier F, Montani A, Paccagnella T (2016) Evaluation of two convection-permitting ensemble systems in the HyMeX Special Observation Period (SOP1) framework. QJR Meteorol Soc 142:404–418. https://doi.org/10.1002/qj.2859
Pavan V, Tomozeiu R, Cacciamani C, Di Lorenzo M (2008) Daily precipitation observations over Emilia-Romagna: mean values and extremes. Int J Climatol 28:2065–2079
Pavan V, Antolini G, Agrillo G, Auteri L, Barbiero R, Bonati V, Brunier F, Cacciamani C, Cazzuli O, Cicogna A, De Luigi C, Maraldo L, Marigo G, Millini R, Panettieri E, Ratto S, Ronchi C, Saibanti S, Sulis A, Tomei F, Tomozeiu R, Torlai I, Villani G (2013) The ARCIS project. Ital J Agrometeorol 2(2013):51–55
Toreti A, Fioravanti G, Perconti W, Desiato F (2009) Annual and seasonal precipitation over Italy from 1961 to 2006. Int J Climatol 29:1976–1987
Toreti A, Xoplaki E, Maraun D, Kuglitsch FG, Wanner H, Luterbacher J (2010) Characterisation of extreme winter precipitation in Mediterranean coastal sites and associated anomalous atmospheric circulation patterns. Nat Hazard Earth Syst Sci 10:1037–1050
Uboldi F, Lussana C (2018) Evidence of non-stationarity in a local climatology of rainfall extremes in northern Italy. Int J Climatol 38:506–516. https://doi.org/10.1002/joc.5183
USGS-United States Geological Survey (1996) GTOPO30 documentation. http://eros.usgs.gov/#/Find_Data/Products_and_Data_Available/gtopo30_info
Acknowledgements
We thank Météo-France, MeteoSwiss, the Zentralanstalt für Meteorologie und Geodynamik (ZAMG) and the Meteorological Service of Slovenia for making available to the ARCIS consortium daily precipitation data for the period 1960–2015 at several stations close to the Italian border. We acknowledge the use of E-OBS dataset from the EU-FP6 project ENSEMBLES (http://ensembles-eu.metoffice.com) and the data providers in the ECAD project (http://www.ecad.eu). We thank Regione Friuli Venezia Giulia - Servizio Gestione Risorse Idriche, Agenzia Regionale per la Protezione dell’Ambiente della Valle d’Aosta and Agenzia Regionale per lo Sviluppo e l’Innovazione del settore Agricolo forestale della Toscana for providing part of the daily observational data used within this work. Finally, we thank three anonymous reviewers for helping us to improve the quality of this paper.
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Pavan, V., Antolini, G., Barbiero, R. et al. High resolution climate precipitation analysis for north-central Italy, 1961–2015. Clim Dyn 52, 3435–3453 (2019). https://doi.org/10.1007/s00382-018-4337-6
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DOI: https://doi.org/10.1007/s00382-018-4337-6