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Organic geochemical signatures of the Upper Miocene (Tortonian—Messinian) sedimentary succession onshore Crete Island, Greece: implications for hydrocarbon prospectivity

Maravelis Angelos, Kontakiotis, George, Bellas Spyridon, Antonarakou, Assimina, Botziolis Chrysanthos, Janjuhah Hammad Tariq, Makri Panayota, Moissette, Pierre, Cornée, Jean-Jacques, Pasadakis Nikos, Manoutsoglou Emmanouil, Zelilidis, Avraam, Karakitsios, Vassilis, 19..-

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URI: http://purl.tuc.gr/dl/dias/C92F43F0-1CED-4EFB-9F54-9AB298B14D88
Year 2022
Type of Item Peer-Reviewed Journal Publication
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Bibliographic Citation A. G. Maravelis, G. Kontakiotis, S. Bellas, A. Antonarakou, C. Botziolis, H. T. Janjuhah, P. Makri, P. Moissette, J.-J. Cornée, N. Pasadakis, E. Manoutsoglou, A. Zelilidis and V. Karakitsios, “Organic geochemical signatures of the Upper Miocene (Tortonian—Messinian) sedimentary succession onshore Crete Island, Greece: implications for hydrocarbon prospectivity,” J. Mar. Sci. Eng., vol. 10, no. 9, Sep. 2022, doi: 10.3390/jmse10091323. https://doi.org/10.3390/jmse10091323
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Summary

The definition of pre-Messinian source rocks in the eastern Mediterranean is of paramount importance for hydrocarbon exploration because of the ability of salt to act as a high-quality seal rock. This research evaluates the organic geochemical features of the Upper Miocene (Tortonian—Messinian) sedimentary succession onshore Crete Island, Greece. The study employs original (Messinian, Agios Myron Fm) and published (Tortonian, Viannos Fm, Skinias Fm, Moulia Fm, and Messinian Ploutis section) results from organic geochemical analyses of mudstone samples. One hundred and one samples were examined using standard organic geochemistry methodology (Rock-Eval II and VI-TOC) to define the origin, type, and degree of organic matter maturity. The data indicate that the studied samples have poor to fair gas-prone source rock potential. These possible source rock units have not experienced great temperatures during burial, and, thus, their organic matter is thermally immature. The sub-salt (Tortonian—Messinian) source rock units are likely to be of higher thermal maturity in the western and eastern south Cretan trenches because of tectonic subsidence and a thicker sedimentary overburden. Several traps can grow in these regions, associated with normal faults, rotated blocks and unconformities (both below and above the unconformities). This research provides a basis for the further evaluation of the hydrocarbon potential in Crete Island. It is an area that shares geological similarities with the surrounding regions that contain proven reserves and is of crucial economic and strategic importance.

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