Historic Records and GIS Applications for Flood Risk Analysis in the Salento Peninsula (Southern Italy) F
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Historic records and GIS applications for flood risk analysis in the Salento peninsula (southern Italy) F. Forte, L. Pennetta, R. O. Strobl To cite this version: F. Forte, L. Pennetta, R. O. Strobl. Historic records and GIS applications for flood risk analysis in the Salento peninsula (southern Italy). Natural Hazards and Earth System Sciences, Copernicus Publ. / European Geosciences Union, 2005, 5 (6), pp.833-844. hal-00301659 HAL Id: hal-00301659 https://hal.archives-ouvertes.fr/hal-00301659 Submitted on 2 Nov 2005 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Natural Hazards and Earth System Sciences, 5, 833–844, 2005 SRef-ID: 1684-9981/nhess/2005-5-833 Natural Hazards European Geosciences Union and Earth © 2005 Author(s). This work is licensed System Sciences under a Creative Commons License. Historic records and GIS applications for flood risk analysis in the Salento peninsula (southern Italy) F. Forte1, L. Pennetta1, and R. O. Strobl2 1Sezione di Geografia fisica e Geomorfologia – Dipartimento di Geologia e Geofisica, Universita` degli Studi di Bari, via E. Orabona 4, 70125 Bari, Italy 2ITC – International Institute for Geoinformation Science and Earth Observation, Hengelosestraat 99, 7514 AE Enschede, The Netherlands Received: 17 November 2004 – Revised: 13 October 2005 – Accepted: 19 October 2005 – Published: 2 November 2005 Abstract. The occurrence of calamitous meteoric events rep- ing and emergency states to the population and economic ac- resents a current problem of the Salento peninsula (Southern tivity. Italy). In fact, flash floods, generated by very intense rainfall, occur not only in autumn and winter, but at the end of sum- 1.2 Geological and geomorphological settings mer as well. These calamities are amplified by peculiar geo- logical and geomorphological characteristics of Salento and The Salento peninsula, the southeast portion of the Apulia by the pollution of sinkholes. Floodings affect often large region (southern Italy), covers 7000 km2 of area and stretches areas, especially in the impermeable lowering zones. These over 150 km between the Ionian and Adriatic seas (Fig. 1). events cause warnings and emergency states, involving peo- The peninsula includes two extreme geographical points: the ple as well as socio-economic goods. Punta Palasc`ıa, near Capo d’Otranto and the Punta R`ıstola, A methodical investigation based on the historic flood near Capo S. Maria di Leuca, in the final strip of the Apulia records and an analysis of the geoenvironmental factors have region. been performed, using a Geographic Information System Geologically, the substratum of the Salento peninsula is (GIS) methodology for database processing in order to iden- a carbonatic shelf, 6000 m thick, represented by limestone, tify the distribution of areas with different risk degrees. The dolomitic limestone and dolomite strata, originating from data, referring to events that occurred from 1968 to 2004, the Jurassic to the Upper Cretaceous (Maastrichtian) peri- have been collected in a database, the so-called IPHAS ods (Ricchetti, 1988; De Giorgi, 1884, 1922, 1960). In the (Salento Alluvial PHenomena Inventory), extracted in an lowering zones, there are impermeable mio-plio-pleistocenic easily consultable table. The final goal is the development of sediments with clay insertions which stand on limestone, a risk map where the areas that are affected by floodings are dolomitic limestone and dolomite (Ciaranfi et al., 1988; included between small ridges, the so-called “Serre”. More Largaiolli et al., 1969) (Fig. 2). than 50% of the Salento peninsula shows high or very high Morphologically, the Salento area is a flat area with eleva- risk values. The numerous maps that were utilized and gen- tions just above sea level. It is characterized by small ridges, erated represent an important basis in order to quantify the the so-called “Serre salentine”, extending in a SE-NW direc- flood risk, according to the model using historic records. tion (Martinis, 1962, 1967a, b, 1970). They had originated by tectonic stresses acting during the Cretaceous period until the Upper Pleistocene period, mainly along SSE-NNW and SSW-NNE directions, resulting in slopes of normal fault and, 1 Introduction therefore, Horst and Graben structures (Battista et al., 1985) (Fig. 3). 1.1 Foreward The landforms described represent the main aspect of “Terra d’Otranto”, but not the only one: in fact, also the rain- This paper has been extracted from a PhD thesis submitted fall effects and karstic phenomena are easily recognizable in in the Department of Geology and Geophysics of Bari Uni- this landscape. versity and deals with flood phenomena which occur periodi- Furthermore, on the Salento peninsula two kinds of cally in the Salento peninsula (southern Italy), causing warn- streams can be distinguished: on the one hand, an endoreic type, which is comprised by relatively wider canals and on Correspondence to: F. Forte the other hand, an exoreic one, which is represented by small ([email protected]) canals, but hierarchized (Battista et al., 1985). The endoreic 834 F. Forte et al.: Historic records and GIS applications for flood risk analysis Fig. 1. Municipal limits. Fig. 3. DTM (Digital Terrain Model) of Salento peninsula from the isolines of 1956. Fig. 2. Geolithological map of Salento peninsula. network, represented by canals, the so - called “Asso” canals, is asymmetric and aligned along a SSE-NNW direction. It is converging towards a natural karstic sinkhole, the so - called “Vora Colucci”, near Leverano municipality. The channels in the exoreic network, in turn, are in many places deep and located in the coastal zone. This network is conditioned by tectonic stresses. Numerous small valleys are parallel to each other, but perpendicular to the coastline (Fig. 4). These peculiar geological and morpho-structural charac- teristics make some areas of the Salento peninsula suscepti- ble to floodings, mainly when the rainfall is very intense. Fig. 4. Location of karstic sinkholes, wellpoints and main drainage canals. 1.3 The rainfall distribution on the Salento peninsula Rainfalls that are very intense but short are the main cause part of Salento, where 790 mm/year of rainfall are registered of flood occurrences. Generally, the climate of the Salento on average. On the other hand, low values of mean annual peninsula can be defined as “Mediterranean”. The rainfall is rainfall are concentrated (590 mm/year) in the western part not homogeneous, so that areas with different rainfall distri- (Fig. 5). Figure 5 was obtained by an interpolation method butions can be recognized in the Salento peninsula. This con- in a GIS (Geographic Information System) software and de- cept has been exposed already by De Giorgi (1884), Colam- picts the distribution of mean annual rainfall values and the onico (1917, 1956), Bissanti (1968) and subsequently by Zito location of 14 pluviometric stations, continuously in opera- et al. (1988). The processing of rainfall data shows that high tion since 1921. However, recently, the average rainfall has values of annual mean rainfall are concentrated in the eastern strongly decreased, giving rise to a long period of drought F. Forte et al.: Historic records and GIS applications for flood risk analysis 835 Fig. 5. Rainfall map of Salento peninsula. Fig. 6. “Susceptibility to flood” map of Salento peninsula. (Arnell, 1999). The results obtained from a recent study of – A “return times” calculation; Zito (1989) show that drought periods of 50 consecutive days occur very frequently in summer, in the Salento peninsula. – Identification of the elements at risk and vulnerability, For instance, at Gallipoli municipality, these drought spells depending on the expected damage; occur every two years, while at Otranto municipality, every 3.1 years. Therefore, the Salento area actually shows cli- – Analysis of the flood risk, expressed by indices. matic characteristics which can be defined as almost semi- The initial phase of this research effort has entailed the arid (temperatures over 40◦C and insufficient precipitation); creation of an alphanumerical database, the so-called IPHAS the dryness is concentrated in the summer months, whereas (Salento Alluvial PHenomena Inventory), in which the mu- the rainfall is mainly concentrated in autumn-winter, but also nicipalities affected by floodings in the time interval from at the end of summer (Battista et al., 1987). 1968 to 2004 have been catalogued. For the data processing, However, in Salento, the meteorological changes are very data of the AVI (Italian Vulnerable Areas) project of CNR- frequent, giving the climate a characteristic of an “unstable GNDCI (National Council of Research) for the time interval whim”, already recognized by Costa (1834), two centuries of 1968–1999 as well as data of local/national newspapers ago. (“Gazzetta del Mezzogiorno”, “Quotidiano di Lecce”, “La Repubblica” and “Il Messaggero”) and data of a field survey 2 Methods conducted for the subsequent time interval 1999–2004, have been taken into account and integrated.