We use cookies to ensure that we give you the best experience on our website. You can change your cookie settings at any time. Otherwise, we'll assume you're OK to continue.

Institute of Advanced Study

Professor Ezio Todini

IAS Fellow at Hatfield College, Durham University (October - December 2009)

Ezio Todini is a Professor of Hydrology at the University of Bologna, a position he has held since 1980. Prior to this he combined his role as a Research Scientist at the IBM Pisa Scientific Centre (1970-79) with that of Professor of Applied Hydromechanics at the University of Pisa (1973-80) and of Water Resources Planning at the University of Florence (1979-81). His background and experience includes Hydrology, Hydraulics, Statistics, Numerical Methods and Operations Research.

Professor Todini is currently a member of the High Risks Commission of the Emilia Romagna Region; of the Scientific Committee of WWF Italy; and of the Italian Statistical Society, the European Geophysical Union, and the American Geophysical Union. In the past he has been Vice-President of the International Water Resources Management Committee of IAHS as well as Vice-President of IAHS, and he is presently a member of the Willis Research Network. Professor Todini has also been the co-ordinator for the writing of a report on "Understanding and Reducing Uncertainty in Flood Forecasting", within the frame of the Concerted Action ACTIF; the author of "Hydrological Models for Flood Forecasting", Chapter HSA131 of the Encyclopedia of Hydrological Sciences (J. Wiley & Sons) and is currently a member of the of WMO OPACHE group for the writing of the WMO Manual on Real Time Flood Forecasting.

Professor Todini's research activity, documented by more than 200 articles, has always been directed towards both theory as well as practical application. His original studies in synthetic hydrology have produced a stochastic generation model, which preserves both long and short-term correlation for the statistical assessment of the Aswan reservoir operating policy. His research in rainfall-runoff modelling has produced several models, the CLS (1976), the ARNO (1989) (which was also included as the soil moisture balance component of the ECHAM GCM model) and the TOPKAPI (1998) models, that have been and still are extensively applied all over the world. His approach to flood routing has produced models such as the PAB and the PABL, particularly suited for real-time flood forecasting. These models are now in operation on many rivers, together with a 1D/2D package based upon Control Volume Finite Elements. More recently Professor Todini has found the reason for the non conservation of mass in the Muskingum-Cunge method and has produced a corrected algorithm, which compares favourably with the results of full de Saint Venant equations based commercial packages such as Mike11, Hec and Sobek.

His current research includes the clarification of the concept of predictive uncertainty in Hydrological Forecasting and the development of uncertainty post processors. Professor Todini also deals with the development of Decision Support Systems aimed at Sustainable Water Resources Planning and Management.

Fellow's Home Page


Professor Ezio Todini Publications

Todini, E (201) 'Extending the global gradient algorithm to unsteady flow extended period simulations of water distribution systems', Journal of Hydroinformatics, 13(2), pp. 167-180. 

IAS Insights Paper


The aim of this paper is to illustrate a model for developing planning strategies towards sustainable energy and water resource development.  Water resources management policies around the world have used widely diversified approaches, since the pattern of development varied in different countries, but general trends are discernible. The traditional planning
approaches that dominated last century showed a reliance on physical solutions, major new constructions and large scale water transfers from one region to the other. Today, the planning and decision processes begin to explore efficiency improvements, implement options for managing demand, and reallocate water among users to reduce projected gaps and meet future needs. Following the general principles set forth by the World Commission on Environment and Development (1987), the European Water Framework Directive (WFD) has stressed the necessity of an integrated and sustainable water resources management approach, for improving and maintaining environmental quality, using tools such as full recovery of the costs incurred in water supply, including environmental costs.

Insights Paper