Abstract
After the 1st May 2004, when new countries joined the European Union, the need was felt to link these states through an infrastructure network of motorway and railway links (high speed—HS/high capacity—HC) easily able to transport all possible goods throughout Europe. Within this framework, 14 different projects were developed with the aim of linking important cities. One of these links is the Corridor V connecting Lisbon (Portugal) to Kiev (Ukraine) and assigning a strategic role to Italy with respect to the integration process of these countries. In detail, part of the Corridor V is expected to start from Venice, reaching Trieste and from here on to Ljubljana (Slovenia) before proceeding to Budapest and finally reaching Kiev in Ukraine. The whole development (from Portugal to Ukraine) is approximately 4,000 km long of which, about 30 km (less than 1 % of the entire route), falls within the Italian Classical Karst area, a highly karstified zone, renowned worldwide as one of the best karst landscapes on the planet. The present paper regards the GIS statistical methodological approach used to identify the degree of karstification of the Italian Classical Karst providing the stakeholders all the necessary information while planning possible railway HS/HC solutions.
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References
Alija S, Torrijo FJ, Quinta-Ferreira M (2013) Geological engineering problems associated with tunnel construction in karst rock masses: The case of Gavarres tunnel (Spain). Eng Geol 157:103–111. doi:10.1016/j.enggeo.2013.02.010
Banzato C, De Waele J, Fiorucci A, Vigna B (2011) Study of springs and karst aquifers by monitoring and geochemical analysis. Proceedings of the 9th Conference on Limestone Hydrogeology (H2Karst), Besancon, pp 45–48, 1–3 September 2011
Calembert L (1975) Engineering geological problems in karstic regions. Bull IAEG 12:39–82
Cancian G (1987) L’idrologia del Carso goriziano-triestino tra l’Isonzo e le risorgive del Timavo. Studi Trentini di Scienze Naturali 64:77–98
Casagrande G, Zini L (2005) Variazioni del livello delle acque al fondo della grotta A. F. Lindner (829/3988 VG) in relazione alle piene del Timavo. Atti e Memorie della Commissione Grotte “E. Boegan” 40:37–44
Casagrande G, Cucchi F, Zini L (2005) Hazard connected to railway tunnel construction in karstic area: applied geomorphological and hydrogeological surveys. Nat Hazards Earth Syst Sci 5(2):243–250. doi:10.5194/nhess-5-243-2005
Catasto Regionale delle Grotte del Friuli Venezia Giulia (2014). http://www.catastogrotte.fvg.it/. Accessed 19 August 2014
Civita M, Cucchi F, Eusebio A, Garavoglia S, Maranzana F, Vigna B (1995) The Timavo hydrogeologic system: an important reservoir of supplementary water resources to be reclaimed and protected. Acta Carsol 24:169–186
Cucchi F, Piano C (2013) Brevi note illustrative della Carta Geologica del Carso Classico italiano. http://www.regione.fvg.it/rafvg/export/sites/default/RAFVG/ambiente-territorio/tutela-ambiente-gestione-risorse-naturali/FOGLIA201/FOGLIA9/allegati/Note_illustrative_Carta_geologica_del_Carso_Classico.pdf. Accessed 19 August 2014
Cucchi F, Zini L (2007) Le acque del Carso Classico. Memorie dell’Istituto Italiano di Speleologia II(XIX):33–40
Cucchi F, Forti F, Ulcigrai F (1994) Valori di abbassamento per dissoluzione di superfici carsiche. Acta Carsol 23:55–62
Cucchi F, Marinetti E, Potleca M, Zini L (2001) Influence of geostructural conditions on the speleogenesis of the Trieste karst (Italy). Geol Belg 4(3-4):241–250
Day MJ (2004) Karstic problems in the construction of Milwaukee’s deep tunnels. Env Geol 45(6):859–863
de Smith M, Goodchild M, Longley P (2013) Geospatial analysis—a comprehensive guide to principles, techniques and software tools. The Winchelsea Press, Winchelsea
Doctor HD, Lojen S, Hrovat M (2000) A stable isotope investigation of the classical Karst aquifer: evaluating karst groundwater componentsfor water quality preservation. Acta Carsol 29(1):79–92
Fiorillo F (2014) The recession of spring hydrograph, focused on karst aquifer. Water Resour Manage 28:1781–1805. doi:10.1007/s11269-014-0597-z
Ford D, Williams P (2007) Karst hydrology and geomorphology. Wiley, England
Ford D, Palmer A, White W (1988) Landform development; Karst. The geology of North America, hydrogeology. Geol Soc Am O 2:401–412
Furlani S, Cucchi F, Forti F, Rossi A (2009) Comparison between coastal and inland Karst limestone lowering rates in the northeastern Adriatic Region (Italy and Croatia). Geomorphology 104:73–81. doi:10.1016/j.geomorph.2008.05.015
Gabrovšek F, Peric B (2006) Monitoring the flood pulses in the epiphreatic zone of karst aquifer: the case of Reka river system, karst plateau, SW Slovenia. Acta Carsol 35(1):35–45
Galleani L, Vigna B, Banzato C, Lo Russo S (2011) Validation of a Vulnerability estimator for spring protection areas: the VESPA index. J Hydrol 396:233–245 (ISSN 0022–1694)
Gemiti F (1984) La portata del Timavo alle risorgive di S. Giovanni di Duino. Ann Gruppo Grotte Ass XXX Ott 7:23–41
Gemiti F (1995) Portata liquida e portata solida del Timavo alle risorgive di S. Giovanni di Duino Hydrores 13:75–88
Gemiti F, Licciardello M (1977) Indagini sui rapporti di alimentazione delle acque del Carso triestino e goriziano mediante l’utilizzo di alcuni traccianti naturali. Ann Gruppo Grotte Ass XXX Ott 6:43–61
Hershey RL, Mizell SA, Earman S (2010) Chemical and physical characteristics of springs discharging from regional flow systems of the carbonate-rock province of the Great Basin, western United States. Hydrogeol J. doi:10.1007/s10040-009-0571-7
Ismail S, Mansor S, Rodsi A, Bujang BK (2010) Geotechnical modeling of fractures and cavities that are associated withgeotechnical engineering problems in Kuala Lumpur limestone, Malaysia. Environ Earth Sci 62(1):61–68. doi:10.1007/s12665-010-0497-3
Jenks GF (1967) The data model concept in statistical mapping. Int Yearb Cartogr 7:186–190
Knez M, Slabe T, Sebela S, Gabrovsek F (2008) The largest karst cave discovered in a tunnel during motorway construction in Slovenia’s Classical Karst (Kras). Environ Geol 54(4):711–718
Linan Baena C, Andreo B, Mudry J (2009) Groundwater temperature and electrical conductivity as tools to characterize flow patterns in carbonate aquifers: the Sierra de las Nievas karst aquifer, southern Spain. Hydrogeol J 17:843–853
Marinos P (2001) Tunneling and mining in karstic terraine; an engineering challenge. Geotechnical environmental applications of karst geology and hydrogeology. Beck and Herring (eds)
Marinos P (2005) Experiences in tunneling through karstic rocks. In: Eds Stevanovic Z, Milanović P (eds) Water resources and environmental problems in Karst. pp 617–644
Milanović P (2000) Geological engineering in karst. Zebra Publishing Co, Belgrade
Mosetti F, D’Ambrosi C (1963) Alcune ricerche preliminari in merito a supposti legami di alimentazione fra il Timavo e l’Isonzo. Boll Geogr Teor Appl 5(17):69–84
Mudry J, Andreo B, Charmoille A, Linan C, Carrasco F (2008) Some applications of geochemical and isotopic techniques to hydrogeology of the caves after research in two sites (Nerja Cave-S Spain, and Fourbanne system-French Jura). Int J Speleol 37:64–67
Palmer A (1991) Origin and morphology of limestone caves. Geol Soc Am Bull 103:1–21
Peila D, Pelizza S (2009) Ground probing and treatments in rock TBM tunnel to overcome limiting conditions. J Min Sci 45(6):602–619. doi:10.1007/s10913-009-0075-9
Placer L (1981) Geologic structure of southwestern Slovenia. Geologija 24(1):27–60
Samez D, Casagrande G, Cucchi F, Zini L (2005) Idrodinamica dei laghi di Doberdò e di Pietrarossa (Carso Classico, Italia). relazioni con le piene dei fiumi Isonzo, Vipacco e Timavo. Atti e Memorie Commissione Grotte “E. Boegan” 40:13–152
Song K, Cho G, Chang S (2012) Identification, remediation and analysis of karst sinkholes in the longest railroad tunnel in South Korea. Eng Geol. doi:10.1016/j.enggeo.2012.02.018
Timeus G (1928) Nei misteri del mondo sotterraneo: risultati delle ricerche idrogeologiche sul Timavo 1895–1914, 1918–1927. Atti e Memorie Commissione Grotte “E. Boegan” 22:117–133
Vigna B (2002) Monitoring and evaluation of the vulnerability of karst aquifers. Conference proceedings “Le risorse idriche sotterranee delle Alpi Apuane: conoscenze attuali e prospettive di utilizzo”. Forno di Massa, Italy—22 giugno 2002, 23–35
Visintin L (2007) Carsogenesi del settore meridionale del Carso Classico. Dipartimento di Matematica e Geoscienze, Università degli Studi di Trieste. p 218, unpublished thesis
Waltham T, Bell F, Culshaw M (2005) Sinkholes and subsidances. Karst and cavernous rocks in engineering and construction. Springer, Chichester. ISBN 3-540-20725-2
White W (2007) Evolution and age relations of karst landscape. TIME KARST POSTOJNA 2007:45–52
Wong DWS, Lee J (2005) Statistical analysis of geographic information with ArcView GIS and ArcGIS. Wiley, Hoboken
Xeidakis GS, Torok A, Skias S, Kleb B (2004) Engineering geological problems associated with karst terrains: their investigation, monitoring, and mitigation and design of engineering structures on karst terrains. Bulletin of the Geological Society of Greece, vol XXXVI, Proceedings of the 10th International Congress, Thessaloniki, p 1932–1941, April 2004
Zabidi H, De Freitas MH (2011) Re-evaluation of rock core logging for the prediction of preferred orientations of karst in Kuala Lumpur Limestone Formation. Eng Geol 117:159–169. doi:10.1016/j.enggeo.2010.10.006
Zini L, Visintin L, Cucchi F, Boschin W (2011) Potential impact of a proposed railway tunnel on the karst environment: the example of Rosandra valley, classical karst region, Italy-Slovenia. Acta Carsol 40(1):207–218
Zini L, Calligaris C, Treu F, Zavagno E, Iervolino D, Lippi F (2013) Groundwater sustainability in the Friuli Plain. AQUA mundi 4:41–54
Zini L, Calligaris C, Zavagno E (2014) Classical karst hydrodynamics: a shared aquifer within Italy and Slovenia. Evolving Water Resources Systems :499–504 (ISSN 0144–7815)
Acknowledgments
The research presented was carried out within the framework of the European Project Corridor V and funded by ITALFERR S. p. A. The authors would like to thank all the researchers who, over the years, carried out the field surveys and the data analysis and began to develop the proposed methodological approach including Giacomo Casagrande, Walter Boschin, Barbara Grillo and especially Luca Visintin who, for the first time for part of the study area, calculated KF using a GIS methodology in his Ph.D. thesis.
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Zini, L., Chiara, C. & Franco, C. The challenge of tunneling through Mediterranean karst aquifers: the case study of Trieste (Italy). Environ Earth Sci 74, 281–295 (2015). https://doi.org/10.1007/s12665-015-4165-5
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DOI: https://doi.org/10.1007/s12665-015-4165-5