Navarra Antonio

CMCC President

Via Augusto Imperatore 16, I-73100 Lecce, Italy

+39 051 0301610 - 0832 288650

Antonio Navarra is the President of the Euro-Mediterranean Center on Climate Change. Born in Naples in 1956, he graduated in Physics in Bologna in 1980 and returned to Italy in 1986 after a PhD at the Geophysical Fluid Dynamics Laboratory in Princeton. He is Dirigente di Ricerca of the National Institute of Geophysics and Volcanology. Dr. Navarra has been a member of the Consiglio Direttivo of the National Institute of Geophysics and Volcanology and of the National Institute of Astrophysics. He’s an Affiliate Scientist of the National Center for Atmospheric Research in the US and a member of the Scientific Advisory Committee of the Asia-Pacific Climate Center in South Korea. He has been active in the investigation of the dynamical mechanisms that control climate on a global scale, with a special focus on the natural climatic variability of the atmosphere-ocean system on interannual to decadal or centennial scale. The broad aim of his research is to understand the principal modes of climate variability on interannual and decadal scale (teleconnections) through statistical models, numerical simulation and simplified models. A second sector of activity concerns the simulation and evaluation of climate change through future climate scenarios. Dr. Navarra teaches in the “Climate Change Science and Management” Ph.D program at Ca’ Foscari University in Venice. During his career, he has published more than 90 articles in international peer-reviewed journals; he has also edited and written numerous professional books. Moreover, he has published several popular books and shorter articles of broader interest in the general press.


  • The typhoon-induced drying of the Maritime Continent
  • Global Mean Climate and Main Patterns of Variability in the CMCC-CM2 Coupled Model
  • Remote subsurface ocean temperature as a predictor of Atlantic hurricane activity
  • RP0285 – CMCC-SPS3: The CMCC Seasonal Prediction System 3
  • North and equatorial Pacific Ocean circulation in the CORE-II hindcast simulations
  • Tropical cyclone rainfall changes in a warmer climate
  • Tropical cyclone interaction with the ocean: the role of high frequency (sub-daily) coupled processes
  • RP0269 - A New Approach to Extract Monthly High Resolution Information for Precipitation from GCM Scenarios and Predictions
  • North Atlantic simulations in Coordinated Ocean-ice Reference Experiments phase II (CORE-II). Part II: Inter-annual to decadal variability
  • Twenty-first century projected summer mean climate in the Mediterranean interpreted through the monsoon-desert mechanism

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