Dossier: Characterization of European CO2 Storage – European Project SiteChar
Open Access
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 70, Number 4, July–August 2015
Dossier: Characterization of European CO2 Storage – European Project SiteChar
Page(s) 713 - 728
Published online 05 November 2014
  • Ahr M. (2008) Geology of Carbonate Reservoirs: The Identification, Description, and Characterization of Hydrocarbon Reservoirs, in Carbonate Rocks, Wayne M. Ahr, John Wiley & Sons, Inc. [Google Scholar]
  • Anderson H., Jackson J. (1987) The deep seismicity of the Tyrrhenian Sea, Geophys. J. Roy. Astron. Soc. 91, 613–637. [CrossRef] [Google Scholar]
  • Argnani A., Rovere M., Bonazzi C. (2009) Tectonics of the Mattinata fault, offshore south Gargano (southern Adriatic Sea, Italy): Implications for active deformation and seismotectonics in the foreland of the Southern Apennines, Geological Society of America Bulletin 121, 9-10, 1421–1440. [CrossRef] [Google Scholar]
  • Bachu S., Bonijoly D.J., Bradshow J., Burruss R., Holloway S., Christensen N.P., Mathiassen O.M. (2007) CO2 storage capacity estimation: methodology and gaps, International Journal of Greenhouse Gas Control 1, 430–443. [CrossRef] [Google Scholar]
  • Benson S.M., Cook P.J. (2005) Underground geological storage of carbon dioxide, in Intergovernmental Panel on Climate Change Special Report on Carbon Dioxide Capture and Storage, Metz B., Davidson O., de Coninck H., Loos M., Meyer L. (eds), Cambridge University Press. [Google Scholar]
  • Bernoulli D. (2001) Mesozoic-Tertiary carbonate platforms, slope and basins of the external Appennines and Sicily, in Anatomy of an Orogen: The Appennines and adjacent Mediterranean Basins, Vai G.B., Martini I.P. (eds), Kluwer Academic Publishers, Great Britain. [Google Scholar]
  • Bertotti G., Picotti V., Bernoulli D., Castellarin A. (1993) From rifting to drifting: tectonic evolution of the South-Alpine upper crust from the Triassic to the Early Cretaceous, Sedimentary Geology 86, 1-2, 53–76. [CrossRef] [Google Scholar]
  • Bosellini A. (1989) Dynamics of Tethyan carbonate platforms, in Controls on carbonate Platform and Basin Platform, Crevello P.D., James L.W., Sarg J.F., Read J.F. (eds), Society of Economic Paleontologists and Mineralogists, Special Publication 44, 3–13. [CrossRef] [Google Scholar]
  • Bosellini A. (2004) The Western passive margin of Adria and its carbonate platforms, in Geology of Italy, Crescenti U., D’Offizi S., Merlini S., Sacchi L. (eds), Società Geologica Italiana, Special Volume, IGC 32 Florence, Italy, pp. 189–199. [Google Scholar]
  • Bradshaw J., Bachu S., Bonijoly D., Burruss R., Holloway S., Christensen N.P., Mathiassen O.M. (2007) CO2 storage capacity estimation: issues and development of standards, International Journal of Greenhouse Gas Control 1, 62–68. [Google Scholar]
  • Butler R.W.H., Mazzoli S., Corrado S., De Donatis M., Di Bucci D., Gambini R., Naso G., Nicoli C., Scrocca D., Shiner P., Zucconi V. (2004) Applying thick-skinned tectonic models to the Apennine thrust belt of Italy: limitations and implications, Mem. Am. Assoc. Petrol. Geol. 82, 647–667. [Google Scholar]
  • Casero P. (2004) Structural setting of petroleum exploration plays in Italy, in Geology of Italy, Crescenti U., D’Offizi S., Merlini S., Sacchi L. (eds), Società Geologica Italiana, Special Volume, IGC 32 Florence, Italy, pp. 189–199. [Google Scholar]
  • Casero P., Bigi S. (2013) Structural setting of the Adriatic basin and the main related petroleum exploration plays, Marine and Petroleum Geology 42, 135–147. [CrossRef] [Google Scholar]
  • Channell J.E.T., Horvath F. (1976) The Africa-Adriatic promontory as a paleogeographical premise for Alpine orogeny and plate movements in the Carpatho-Balkan region, Tectonophysics 35, 71–101. [CrossRef] [Google Scholar]
  • Chilingar G.V., Bissell H.J., Wolf K.H. (1979) Diagenesis of carbonate sediments and epigenesis (or catagenesis) of Limestone, in Diagenesis in sediments and sedimentary rocks, Larsen G., Chilingar G.V. (eds), Elsevier, Amsterdam, pp. 249–422. [Google Scholar]
  • Choquette P.W., Pray L.C. (1970) Geologic nomenclature an classification of porosity in sedimentary carbonates, AAPG Bulletin 54, 2, 207–250. [Google Scholar]
  • Civile D., Zecchin M., Forlin E., Donda F., Volpi V., Merson B., Persoglia S. (2013) CO2 geological storage in the Italian carbonate successions, International Journal of Greenhouse Gas Control 19, 101–116. [CrossRef] [Google Scholar]
  • D’Argenio B. (1976) Le piattaforme carbonatiche periadriatiche. Una rassegna di problemi nel quadro geodinamico Mesozoico dell’area Mediterranea, Mem. Soc. Geol. Ital. 13, 137–159. [Google Scholar]
  • D’Argenio B., Horvath F. (1984) Some remarks on the deformation history of Adria, from the Mesozoic to the Tertiary, Annales geophysicae 2, 2, 143–146. [Google Scholar]
  • de Alteriis G., Aiello G. (1993) Stratigraphy and tectonics offshore of Puglia (Italy, southern Adriatic Sea), Marine Geology 113, 233–253. [CrossRef] [Google Scholar]
  • De Dominicis A., Mazzoldi G. (1987) Interpretazione geologico strutturale del margine orientale della Piattaforma Apula, Mem. Soc. Geol. Ital. 38, 163–176. [Google Scholar]
  • Dercourt J. (2000) Atlas Peri-Tethys, AGIP. [Google Scholar]
  • Dercourt J. (1972) The Canadian Cordillera, the Hellenides, and the sea-floor spreading theory, Canadian Journal of Earth Sciences 9, 6, 709–743. [CrossRef] [Google Scholar]
  • Dercourt J.E.A., Zonenshain L.P., Ricou L.-E., Kazmin V.G., Le Pichon X., Knipper A.L., Grandjacquet C., Sbortshikov I.M., Geyssant J., Lepvrier C., Pechersky D.H., Boulin J., Sibuet J.-C., Savostin L.A., Sorokhtin O., Westphal M., Bazhenov M.L., Lauer J.P., Biju-Duval B. (1986) Geological Evolution of the Tethys Belt from the Atlantic to the Pamirs since the LIAS, Tectonophysics 123, 1, 241–315. [CrossRef] [Google Scholar]
  • Dewey J.F., Burke K.C. (1973) Tibetan, Variscan, and Precambrian basement reactivation: products of continental collision, The Journal of Geology 683–692. [Google Scholar]
  • Di Bucci D., Ridente D., Fracassi U., Trincardi F., Valensise G. (2009) Marine palaeoseismology from very high resolution seismic imaging: the Gondola Fault Zone (Adriatic foreland), Terra Nova 21, 5, 393–400. [CrossRef] [Google Scholar]
  • DISS Working Group (2010) Database of Individual Seismogenic Sources (DISS), Version 3.1.1: A compilation of potential sources for earthquakes larger than M 5.5 in Italy and surrounding areas, Available at: [Google Scholar]
  • Doglioni C. (1987) Tectonics of the Dolomites (southern Alps, northern Italy), Journal of Structural Geology 9, 2, 181–193. [CrossRef] [Google Scholar]
  • Doglioni C., Mongelli F., Pieri P. (1994) The Puglia uplift (SE Italy): an anomaly in the foreland of the Apenninic subduction due to buckling of a thick continental lithosphere, Tectonics 13, 5, 1309–1321. [CrossRef] [Google Scholar]
  • Fantoni R., Franciosi R. (2010) Tectono-sedimentary setting of the Po Plain and Adriatic foreland, Rendiconti Lincei 21, 1, 197–209. [CrossRef] [Google Scholar]
  • Favali P., Funiciello R., Mattietti G., Mele G., Salvini F. (1993) An active margin across the Adriatic Sea (central Mediterranean Sea), Tectonophysics 219, 1, 109–117. [CrossRef] [Google Scholar]
  • Finetti I. (1982) Structure, stratigraphy and evolution of Central Mediterranean, Boll. Geof. Teor. Appl., 24, 75–155. [Google Scholar]
  • Finetti I.R. (2005) CROP Project: Deep seismic exploration of the Central Mediterranean and Italy, Atlases in Geoscience 1, Elsevier, Amsterdam. [Google Scholar]
  • Grandic S., Kolbah S. (2009) New commercial oil discovery at Rovesti structure in South Adriatic and its importance for Croatian part of Adriatic basin, Nafta 60, 2, 68–82. [Google Scholar]
  • Halley R.B., Schmoker J.W. (1983) High porosity Cenozoic carbonate rocks of south Florida: progressive loss of porosity with depth, AAPG Bulletin 67, 191–200. [Google Scholar]
  • Harris P.J., Kendall G., Lerche I. (1985) Carbonate cementation—a brief review, in Carbonate Cements Society of Economic Paleontologists and Mineralogists, Special Publication 36, Schneidermann N., Harris P.M. (eds), pp. 79–95. [Google Scholar]
  • Kastelic V., Carafa M.M.C. (2012) Fault slip rates for the active external dinarides thrust-and-fold belt, Tectonics 31, TC3019. Available at [Google Scholar]
  • Land L.S. (1967) Diagenesis of skeletal carbonates, Journal of Sedimentary Petrology 37, 914–930. [Google Scholar]
  • Lucia F.J. (1993) Carbonate reservoir models: facies, diagenesis and flow characterization, in Development geology reference manual, AAPG Methods in Exploration 1, Morton-Thompson D., Woods A.M. (eds), pp. 269–274. [Google Scholar]
  • Makris J. (1981) Deep structure of the eastern Mediterranean deduced from refraction seismic data, Eos Trans. AGU 62, 17, 6247. [Google Scholar]
  • Mazzullo S.J. (1986) Stratigraphic approaches to hydrocarbon exploration and exploitation, Geological Journal 21, 265–281. [CrossRef] [Google Scholar]
  • Mazzullo S.J., Chilingarian G.V. (1992) Diagenesis and origin of porosity, in Developments in Petroleum Science, Chilingarian G.V., Mazzullo S.J., Rieke H.H. (eds), Elsevier, Amsterdam. [Google Scholar]
  • Moore C.H. (1989) Carbonate diagenesis and porosity, in Development in Sedimentology, Moore C.H. (ed.), Elsevier, Amsterdam. [Google Scholar]
  • Morelli D. (2002) Evoluzione tettonico-sedimentaria del Margine Adriatico compreso tra il Promontorio garganico e Brindisi, Mem. Soc. Geol. It. 57, 343–353. [Google Scholar]
  • Mostardini F., Merlini S. (1986) Appennino centro-meridionale. Sezioni geologiche e proposta di modello strutturale, Mem. Soc. Geol. Ital. 35, 177–202. [Google Scholar]
  • Nicolai C., Gambini R. (2007) Structural architecture of the Adria platform-and-basin system, Ital. J. Geosci. Spec Issue 7, 21–37. [Google Scholar]
  • Ricchetti G., Ciaranfi N., Luperto Sinni.E., Mongelli F., Pieri P. (1988) Geodinamica ed evoluzione sedimentaria e tettonica dell’avampaese apulo, Mem. Soc. Geol. It. 41, 57–82. [Google Scholar]
  • Ridente D., Trincardi F. (2006) Active foreland deformation evidenced by shallow folds and faults affecting late Quaternary shelf-slope deposits (Adriatic Sea, Italy), Basin Research 18, 2, 171–188. [CrossRef] [Google Scholar]
  • Ridente D., Fracassi U., Di Bucci D., Trincardi F., Valensise G. (2008) Middle Pleistocene to Holocene activity of the Gondola Fault Zone (Southern Adriatic Foreland): Deformation of a regional shear zone and seismotectonic implications, Tectonophysics 453, 110–121. [CrossRef] [Google Scholar]
  • Roehl P.O., Choquette P.W. (1985) Carbonate Petroleum Reservoirs, Springer-Verlag, New York. [CrossRef] [Google Scholar]
  • Scisciani V., Calamita F. (2009) Active intraplate deformation within Adria: Examples from the Adriatic region, Tectonophysics 476, 57–72. [CrossRef] [Google Scholar]
  • Stampfli G.M., Mosar J. (1999) The making and becoming of Apulia, Mem. Sci. Geol. 51, 1, 141–154. [Google Scholar]
  • Staub R. (1951) Über die Beziehungen zwischen Alpen und Apennin und die Gestaltung der alpinen Leitlinien Europas, Eclogae Geol. Helv. 44, 1, 29–130. [Google Scholar]
  • Winterer E.L., Bosellini A. (1981) Subsidence and sedimentation on Jurassic passive continental margin, Southern Alps, Italy, Am. Assoc. Pet. Geol. Bull. 65, 3, 394–421. [Google Scholar]
  • Wyllie M.R.J., Gregory A.R., Gardner L.W. (1956) Elastic wave velocities in heterogeneous and porous media, Geophysics 21, 1, 41–70. [CrossRef] [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.