Organic-rich Silurian black shale, stretching along the western margin of the East European Platform from the Baltic Sea to the Black Sea, represent a potential target for conventional and unconventional hydrocarbon exploration. In Western Ukraine, these strata occur in the most deeply buried part of the platform and their thickness reaches 1000–1500 m. On the basis of petrographic investigations of rocks enriched with total organic carbon (TOC) (up to 2.16 wt%), their mineral composition has been established and four types of rocks have been distinguished: mudstones, clayey mudstones, limy marlstones and marlstones. In these rocks quartz (30–60%) significantly (1.5 to 2 times) prevails over the clay minerals. They contain a large amount of carbonates (calcite, dolomite): from 5–15% in mudstones and limy mudstones to 51% in marlstones. It was established that quartz grains, by their size correspond to the very fine sand (0.125–0.062 mm) and coarse silt (0.062–0.031 mm) fractions. Such a proportion of minerals in the rocks and the quartz grain size indicates their high brittleness, and consequently, the possibility of the efficient hydraulic fracturing within these strata. X-ray diffraction investigations were used in order to obtain the quantitative estimate of the mineral composition of the rocks with the highest TOC content – mudstones and limy mudstones. Additionally, it was established that the clay fraction was represented by сhlorite and illite. These minerals are present in the rocks in different proportions, depending on the depth and the area of occurrence. Illite content decreases, while chlorite content increases with depth, contributing over 30% of the clay fraction. Smectite and mixed-layered minerals are lacking in the clay fraction of the rocks, which provides favourable conditions for their eventual hydraulic fracturing.
BSD-2 Clause 2016. PyXRD: A Model for the Simulation of 1-Dimensional X-Ray Diffraction Patterns of Disordered Layered Minerals. Software Manual. Boston, USA, 48 pp.
Burtner, R. L. & Warner, M. A. 1986. Relationship between illite/smectite diagenesis and hydrocarbon generation in Lower Cretaceous Mowry and Skull Creek Shales of the Northern Rocky Mountain area. Clays and Clay Minerals, 34, 390–402.
Chebanenko, I. I., Vishsnyakov, I. B. & Vlasov, B. I. 1990. Geotektonika Volyno-Podolii [Geotectonics of Volyno-Podolia]. Naukova Dumka, Kiev, 244 рр. [in Russian].
Curtis, J. B. 2002. Fractured shale-gas systems. AAPG Bulletin, 86, 1921–1938.
Decker, A. D., Coates, J. M. & Wicks, D. E. 1992. Stratigraphy, Gas Occurrence, Formation Evaluation and Fracture Characterization of the Antrimshale, Michigan Basin. GRI Topical Report, No. GRI-92/0258, 153 pp.
Ding, W. L., Li, C., Li, C. Y., Xu, C. C., Jiu, K., Zeng, W. & Wu, L. 2012. Fracture development in shale and its relationship to gas accumulation. Geoscience Frontiers, 3, 97–105.
Drygant, D. M. 2000. Lower and Middle Paleozoic of the Volyn-Podillyan margin of the East-European Platform and Carpathian Foredeep. Naukovi zapysky Derzhavnoho pryrodoznavchoho muzeyu, 15, 24–87 [in Ukrainian, with English summary].
Frank-Kamenetskiy, V. A. 1983. Rentgenografiya osnovnykh tipov porodoobrazuyushchikh mineralov (sloistye i karkasnye silikaty) [Radiography of the Main Types of Rock-Forming Minerals (Layered Silicates and Skeleton Silicates]. Nedra, Leningrad, 359 pp. [in Russian].
Jarvie, D. M., Hill, R. J., Pollastro, R. M., Wavrek, D. A., Claxton, B. L. & Tobey, M. H. 2003. Evaluation of unconventional natural gas prospects in the Barnett Shale: fractured shale gas model. In European Association of International Organic Geochemists Meeting, Poland, September 8–12. Poland, Krakow. Book of Abstracts, Part II, pp. 3–4.
Kruglov, С. С. & Tsypko, A. K. 1988. Tektonika Ukrainy [Tectonics of Ukraine]. Nedra, Moscow, 254 pp. [in Russian].
Modliński, Z. & Podhalańska, T. 2010. Outline of the lithology and depositional features of the lower Paleozoic strata in the Polish part of the Baltic region. Geological Quarterly, 54, 109–121.
Moore, D. M. & Reynolds, R. C., Jr. 1997. X-Ray Diffraction and the Identification and Analysis of Clay Minerals. Oxford University Press, Oxford, New York, 378 pp.
Nikiforova, O. I., Predtechensky, N. N., Abushik, A. F., Ignatovitch, M. M., Modzalevskaya, T. L., Berger, A. Y., Novoselova, L. S. & Burkov, Y. K. 1972. Opornyj razrez silura i nizhnego devona Podolii [Basic Section of the Silurian and Lower Devonian of Podolia]. Nauka, Leningrad, 262 pр. [in Russian].
Poprawa, P. 2010. Shale gas potential of the Lower Palaeozoic complex in the Baltic and Lublin-Podlasie basin. Przegląd Geologiczny, 58, 226–249 [in Polish, with English summary].
Radkovets, N. The Silurian of southwestern margin of the East European Platform (Ukraine, Moldova and Romania): lithofacies and palaeoenvironments. Geological Quarterly, 59, 105–118.
Rizun, B., Pavlyuk, M., Medvedev, A. & Kinakh, M. 2007. Silurian buried reefs of Volyn-Podillya in the context of oil and gas prospectives. Geologiya i Geokhimiya Goryuchykh Kopalyn, 4, 5–25 [in Ukrainian, with English abstract].
Sachsenhofer, R. F. & Koltun, Y. V. 2012. Black shales in Ukraine – A review. Marine and Petroleum Geology, 30, 125–136.
Tsegelnyuk, P. D., Gritsenko, V. P., Konstantinenko, L. I., Ishchenko, A. A., Abushik, A. F., Bogoyavlenskaya, O. V., Drygant, D. M., Zaika-Novatsky, V. S., Kadlets, N. M., Kiselev, G. N. & Sytova, V. A. 1983. The Silurian of Podolia. The Guide to Excursion. International Union of Geological Sciences, Subcommission on Silurian Stratigraphy. Naukova Dumka, Kiev, 224 pp.
Vashchenko, V. O., Turchynova, S. M., Turchynov, I. I. & Poliha, G. G. 2007. Derzhavna geologichna karta Ukrainy mashtabu 1:200 000. Karpatska seria. Arkush M-35-XXV (Ivano-Frankivsk) [State Geological Map of Ukraine at a Scale of 1:200 000. Carpathian Series. Sheet M-35-XXV (Ivano-Frankivsk)]. UkrDGRI, Kyiv [in Ukrainian].
Verniers, J., Maletz, J., Kříž, J., Žigaitė, Ž., Paris, F., Schönlaub, H. P. & Wrona, R. 2008. Silurian. In The Geology of Central Europe, Vol. 1 (McCann, T., ed.), pp. 249–302. Geological Society, London.
Zevin, L. S., Zavyalova, L. L. 1974. Kolichestvennyj rentgenograficheskij fazovyj analiz [Quantitative X-Ray Phase Analysis]. Nedra, Moscow, 183 pp. [in Russian].