Calabria is a region of Southern Europe that presents most of the typical geomorphological features that characterize the Mediterranean area, in response to active tectonics and climate, through coastal and river dynamics, as well as gravity-related processes. Such a geomorphological complexity implies multi-hazards scenarios that include frequent landslides and flash floods. Furthermore, due to the presence of numerous historical villages, the number of tourists and the wide variety of outdoor activities, the exposure of local population and infrastructure to natural hazards is generally high in the whole region.
The area selected for this School is located along the Ionian coast, in the surroundings of Rossano Calabro village, that was hit by an extreme weather event that triggered landslides and floods in August 2015.
The Intensive Course will first offer the possibility for ECS to train their skills in field recognition and survey of natural-hazard-related landforms as well as in geomorphological mapping. Students will work in group and will be asked to perform field activities of geomorphological survey and collection of geomorphological data from selected training areas, under the supervision of the organizers.
The present-day challenges associated to natural hazard management require young researchers in geomorphology to combine field activity with digital skills for data analysis and modelling, especially in statistics, computer programming and remote sensing. Accordingly, the Intensive Course will also provide the participants with practical exercises on some of the internationally used analyses of geomorphological data in the field of natural hazards. Computer activities and practical lessons on spatial predictive modelling through statistical methods, GIS computations and remote-sensing-based mapping processes will be given by an international team of teachers. Participants will learn how to translate the collected field data into useful information for a wide array of scientific applications and geo-spatial problems.
As the area of the Intensive Course offers tricky challenges for people operating in risk assessment, being a perfect spot to represent analogous threats across the Mediterranean sector, the participants will learn the key components required in the design of a regional and/or local Early Warning System (EWS). In particular, they will learn how the skills gained during the Course can be applied when forecasting natural hazards. Finally, participants will also gain knowledge of the responsibilities of the actors involved in disaster risk management through a role-playing game: real cases of natural hazards occurred in Calabria will be used to learn the roles of Civil Protection, scientists and policy makers.
The Training School will be focused on specific techniques of Geomorphology of Natural Hazards like:
Basic concepts on Natural Hazards
Geomorphological field survey and mapping of geomorphological features related to natural hazards
Automatic mapping of Geomorphological features by the mean of Remote Sensing imagery and dedicated software
GIS and statistical analysis
Spatial predictive models for landslide susceptibility
Organization of Early Warning Systems and emergency response (i.e. Civil Protection activities)
Natural Hazards communication
Multidisciplinary collaboration in managing the risks posed by natural hazards
University of Modena and Reggio Emilia, Italy
University of Hull, UK
President of EGU Geomorphology Division
Norwegian Water Resources and Energy Directorate, Norway
Friedrich Schiller University Jena, Germany
Chair of the IAGEOMHAZ Working Group
European Space Agency,
ECSAT - ESA Climate Office,
Marta Della Seta
Sapienza University of Rome, Italy
IAG Training Officer
Bianca C. Vieira
Universidade de São Paulo, Brasil
Chair of the IAGEOMHAZ Working Group
Institute of Geography,
President of Romanian Association of Geomorphologists
Roma Tre University, Italy
Irene Maria Bollati
University of Milan, Italy
General Secretary of AIGeo