Dossier: European Hydrocarbon Resources
Open Access
Oil Gas Sci. Technol. – Rev. IFP Energies nouvelles
Volume 66, Number 6, November-December 2011
Dossier: European Hydrocarbon Resources
Page(s) 953 - 977
Published online 31 May 2011
  • Adriasola Munoz Y., Littke R., Brix M.R. (2007) Fluid systems and basin evolution of the western Lower Saxony Basin, Germany, Geofluids 7, 335-355. [CrossRef]
  • Andruleit, H., Rempel, H., Meßner, J., Babies, H.G., Schlömer, S., Schmidt, S., Cramer, B. (2010) Nicht-konventionelles Erdgas: Weltweite Ressourcen und Entwicklungen eines “Hoffnungsträgers” unter den fossilen Energierohstoffen, Erdöl Erdgas Kohle 126, 7/8, 277-282.
  • Armands G. (1972) Geochemical study of Uranium, Molybdenum and Vanadium in a Swedish Alum shale, Stockholm Contr. Geol. 27, 1-148.
  • Baker G., Slater S. (2008) The increasing significance of coal seam gas in eastern Australia, PESA Eastern Australasian Basins Symposium III, Sydney.
  • Berner U., Kahl T., Scheeder G. (2010) Shale Gas Exploration – Hydrocarbon Potential of Sediments of the German Wealden Basin, Erdöl-Erdgas-Kohle 126, 80-84.
  • BGR (2009) Energierohstoffe 2009. Reserven, Ressourcen, Verfügbarkeit, Tabellen, BGR, nn_330718/DE/Themen/Energie/Downloads/Energierohstoffe_20 09_gesamt,templateId = raw,property = publicationFile.pdf/Energier ohstoffe_2009_gesamt.pdf
  • Bond D., Wignall P.W., Racki G. (2004) Extent and duration of marine anoxia during the Frasnian–Famennian (Late Devonian) mass extinction in Poland, Germany, Austria and France, Geol. Mag. 141, 2, 173-193. [CrossRef]
  • Breitkreuz C., Geissler M., Schneider J., Kiernowski H. (2008) Basin initiation: volcanism and sedimentation, in Dynamics of complex intracontinental basins. The Central European Basin System, Littke R., Bayer U., Gajewski D., Nelskamp S. (eds), Springer- Verlag, Berlin-Heidelberg, pp. 125-153.
  • Buchardt B. (1999) Gas Potential of the Cambro-Ordovician Alum Shale in Southern Scandinavia and the Baltic Region, in The Search for Deep Gas Selected, Whiticar M.J., Faber E. (eds), Geol. Jahrb. Reihe D 107, 9-24.
  • Buchardt B., Nielsen A.T., Schovsbo N.H. (1997) Alun Skiferen i Skandinavien, Geol. Tidsskrift 3, 1-30.
  • Burnham A.K., Sweeney J.J. (1989) A chemical kinetick model of vitrinite maturation and reflectance, Geochim. Cosmochim. Acta 53, 2649-2657. [CrossRef]
  • Cameron T.D.J. (1993) Carboniferous and Devonian of the Southern North Sea, in Lithostratigraphic Nomenclatur of the U.K. North Sea, British Geol. Surv. and U.K. Offshore Operations Assoc. 91.
  • Cook T. (2003) Calculation of Estimated Ultimate Recovery for wells in continuous-type oil and gas accumulations of the Uinta- Piceance Province, Int. J. Coal Geol. 56, 1-2, 39-44. [CrossRef]
  • Curtis J.B. (2002) Fractured shale-gas systems, AAPG Bull. 86, 11, 1921-1938.
  • Drozdzewski G., Wrede V. (1994) Faltung und Bruchtektonik – Analyse der Tektonik im Subvariscikum, Fortschr. Geol. Rhld. u. Westf. 38, 7-187.
  • Drozdzewski G., Henscheid S., Hoth P., Juch D., Littke R., Vieth A., Wrede V. (2009) The pre-Permian of NW-Germany - Structure and coalification map, Z. Dt. Ges. Geowiss. 160, 2, 159-172.
  • Durham L.S. (2010) Poland Silurian shale ready for action, AAPG Expl. 31, 2, 14-18.
  • Dyni J.R. (2006) Geology and resources of some world oil-shale deposits, U.S. Geol. Surv., Scientific Investigations Report, 2005–5294,
  • Freudenberg U., Lou S., Schlüter R., Schütz K., Thomas K. (1996) Main factors controlling coalbed methane distribution in the Ruhr district, Germany, in Coalbed methane and coal geology, Gayer R., Harris I. (eds), Geol. Soc. Spec. Publ. 109, 67-88. [CrossRef]
  • Gaschnitz R. (2000) Gas genese und Gasspeicherung im flözführenden Oberkarbon des Ruhr-Beckens, PhD Thesis, RWTH Aachen University.
  • Gaupp, R., Baunack, C., Pudlo, D., Solms, M., Trappe, H., Schubart-Engelschall J., Samiee R., Littke R., Schwarzer D., Oncken O., Krawczyk C.M., Tanner D. (2005) Paleo Oil- and Gasfields in the Rotliegend of the North German Basin: effects upon hydrocarbon reservoir quality, DGMK-Forschungsbericht 593, 8, 1-242.
  • Gaupp R., Möller P., Lüders V., di Primio R., Littke R. (2008) Fluids in sedimentary basins: an overview, in Dynamics of Complex Intracontinental Basins. The Central European Basin System, Littke R., Bayer U., Gajewski D., Nelskamp S. (eds), Springer, Berlin, pp. 345-359.
  • Gedenk, R., Hedemann, H.A., Rühl, W. (1964) Obekarbongase, ihr Chemismus und ihre Beziehungen zur Steinkohle, Congres. Av. Etudes Stratigr. Géol. Carbonifère, C.R. Paris 2, 431-450.
  • Geluk M.C. (2005) Stratigraphy and tectonics of Permo-Triassic basins in the Netherlands and surrounding areas, PhD Thesis, University of Utrecht.
  • Gerling, P., Kockel, F., Krull, P. (1999a) The HC Potential of pre- Westphalian sediments in the North German Basin – A Synthesis, DGMK-Forschungsbericht 433, 107.
  • Gerling P., Geluk M.C., Kockel F., Lokhorst A., Lott G.K., Nicholson R.A. (1999b) NW European Gas Atlas - new implications for the Carboniferous gas plays in the western part of the Southern Permian Basin, in Petroleum Geology of Northwest Europe: Proceedings of the Fifth Conference, Fleet A.J., Boldy S.A.R. (eds), Geol. Soc., London, pp. 799-808.
  • Hadro J. (2009) Shale-gas potential in Poland, EGU General Assembly 2009, Geophys. Res. Abstr. 11.
  • Haines L. (ed) (2005) Tight Gas. Supplement to Oil and Gas Investor, March, Tight%20Gas.pdf.
  • Hamblin A.P. (2006) The “shale gas” concept in Canada: a preliminary inventory of possibilities, Geol. Surv. Can., Open File Report 5384, 108.
  • Hartwig A., Schulz H.-M. (2010) Applying classical shale gas evolution concepts to Germany - Part I: The basin and slope deposits of the Stassfurt Carbonate (Ca2, Zechstein, Upper Permian) in Brandenburg (Germany), Chem. Erde - Geochem. 70, 77-91. [CrossRef]
  • Hickey J.J., Henk B. (2007) Lithofacies summary of the Mississippian Barnett Shale, Mitchell 2 T.P. Sims well, Wise County, Texas, AAPG Bull. 91, 4, 437-443. [CrossRef]
  • Hildenbrand A. (2003) Fluid Transport Processes in Mudstones, PhD Thesis, RWTH Aachen University.
  • Hildenbrand, A., Krooss, B.M., Busch, A., Gaschnitz, R. (2006) Evolution of methane sorption capacity of coal seams as a function of burial history – a case study from the Campine Basin, NE Belgium, Int. J. Coal Geol. 66, 179-203. [CrossRef]
  • Hill R.J., Zhang E., Katz B.J., Tang Y. (2007) Modeling of gas generation from the Barnett Shale, Fort Worth Basin, Texas, AAPG Bull. 91, 4, 501-521. [CrossRef]
  • Hinderfeld G., Kunz E., Opahle M., Stengel H. (1990) Die Gasführung des Ruhrkarbons in ihrer räumlichen Verteilung und Entstehung zur Prognose der Ausgasung, in DMT-Berichte aus Forschung und Entwicklung 14, DMT, Essen.
  • Hoffmann N., Jödicke H., Gerling P. (2001) The distribution of Pre- Westphalian source rocks in the North German Basin – Evidence from magnetotelluric and geochemical data, Neth. J. Geosci. 80, 1, 71-84.
  • Holditch, S.A. (2006) Tight Gas Sands, J. Petrol. Technol. 58, 86-93.
  • Horsfield B., Bharati S., Larter S.R., Leistner F., Littke R., Schenk H.J., Dypvik H. (1992) On the atypical petroleum-generating characteristics of alginite in the Cambrian Alum Shale, in Early Organic Evolution: Implications for Mineral and Energy, Schidlowski M., Golubic S., Kimberley M.M. (eds), Springer, Berlin.
  • Hoth P. (1997) Fazies und Diagenese von Präperm-Sedimenten der Geotraverse Harz-Rügen, Schriftenr. Geowissen. 4, 1-139.
  • Hurter S., Haenel R. (eds) (2002) Atlas of geothermal resources in the European Community, Austria and Switzerland, European Commission, Publ. EUR 17811.
  • Joachimski M.M., Ostertag-Henning C., Pancost R.D., Strauss H., Freeman K.H., Littke R., Damsté J.S.S., Racki G. (2001) Water column anoxia, enhanced productivity and concomitant changes in ä13 C and ä34 S across the Frasnian- Famennian boundary (Kowala- Holy Cross Moutains/Poland), Chem. Geol. 175, 109-131. [CrossRef]
  • Jones N.S., Holloway S., Creedy D.P., Garner K. (2005) Can UK coal resources contribute to a gas renaissance? Geol. Soc., London, Petroleum Geology Conference Series 6, 715-722.
  • Jordan H., Koch J. (1979) Inkohlung der Unterkarbon- und Eifelschichten im Nordwestharz und ihre Ursachen, Geol. Jb. A51, 39-55.
  • Joubert J.I., Grein C.T., Bienstock D. (1974) Effect of moisture on the methane capacity of American coals, Fuel 53, 3, 186-191. [CrossRef]
  • Karffanke H. (1985) Gasinhalt der Flöze der Explorationsbohrungen der Bergbau AG Lippe, Glückauf-Forschungsh. 49, 38-47.
  • Koehler M. (2006) Rotliegend „Tight Gas“ Germany. A Development with a Mutiple Hydraulically Fractures Horizontal Well: Project Leer Z4, Gaz de France Produktion Exploration Deutschland GmbH, Gas/ 08_Koehler_GDFandPEG_-_The_Leer_Z4_Case_Study.pdf.
  • Kombrink H. (2008) The Carboniferous of the Netherlands and surrounding areas; a basin analysis, in Geologica Ultraiectina, Universiteit Utrecht, 294, ISBN: 978-90-5744-160-8.
  • Królokowski C. (2006) Crustal-scale complexity of the contact zone between the Paleozoic Platform and the East European Craton in the NW Poland, Geol. Quart. 50, 1, 33-42.
  • Krebs W. (1978) Aspekte einer potentiellen Kohlenwasserstoff- Führung in den devonischen Riffen Nordwestdeutschlands, Erdöl Erdgas Zeitschrift 1, 15-25.
  • Krooss B.M., van Bergen F., Gensterblum Y., Siemons N., Pagnier H.J.M., David P. (2002) High-pressure methane and carbon dioxide adsorption on dry and moisture-equilibrated Pennsylvanian coal, Int. J. Coal Geol. 51, 69-92. [CrossRef]
  • Krooss, B.M., Friberg, L., Gensterblum, Y., Hollenstein, J., Prinz, D., Littke, R. (2005) Investigation of the pyrolytic liberation of molecular nitrogen from Paleozoic sedimentary rocks, Int. J. Earth Sci. 94, 5-6, 1023-1038. [CrossRef]
  • Krooss B.M., Plessen B., Machel H.G., Lüders V., Littke R. (2008) Origin and distribution of non-hydrocarbon gases, in Dynamics of Complex Intracontinental Basins - The Central European Basin System, Littke R., Bayer U., Gajewski D., Nelskamp S. (eds), Springer, Berlin, pp. 433-457.
  • Krooss B.M., Amann A., Gensterblum Y., Han F., Littke R., Weniger P. (2010) Gas Transport and Sorption Processes in Coals and Shales: New Insights and Concepts from Laboratory Experiments. Search and Discovery Article #110127 (2010) Posted June 14, 2020 ( 2010/110127krooss/ndx_krooss.pdf).
  • Krull P. (2005) 1 Einführung. 1.2 Paläogeographischer Rahmen, Stratigraphie von Deutschland V. Das Oberkarbon (Pennsylvanium) in Deutschland, Dtsch. Stratigr. Kommission 254, 13-24.
  • Kuuskraa V.A. (2009) Worldwide gas shales and unconventional gas: a status, report, Advanced Resources International, Inc. Arlington, VA USA, 26 p.
  • Laubach S.E., Marrett R.A., Olson J.E., Scott A.R. (1998) Characteristics and origins of coal cleat: A review, Int. J. Coal Geol. 35, 1-4, 175-207.
  • Law B.E., Curtis J.B. (2002) Introduction to Unconventional Petroleum Systems, AAPG Bull. 86, 11, 1851-1852.
  • Lazauskiene, J., Sliaupa, S., Musteikis, P., Brazauskas, A. (2003) Sequence stratigraphy of the Baltic Silurian succession: Tectonic control on the foreland infill, Geol. Soc. Lond. Spec. Publ. 208, 95-115. [CrossRef]
  • Levine J.R. (1991) The impact of oil formed during coalification on generation and storage of natural gas in coalbed reservoir systems, 3rd Coalbed Methane Symp. Proc., Tuscaloosa, AL, pp. 307-315.
  • Liermann N., Jentsch M. (2003) Tight-Gas-Reservoir – Erdgas für die Zukunft, Erdöl Erdgas Kohle 119, 7-8, 270-273.
  • Littke R., Leythaeuser D. (1993) Migration of oil and gas in coals. Hydrocarbons from Coal, Law B.E., Rice D.D. (eds), Amer. Ass. Petr. Geol. Stud. Geol. 38, 219-236.
  • Littke R., Büker C., Hertle M., Karg H., Stroetmann-Heinen V., Oncken O. (2000) Heat flow evolution, subsidence and erosion in the Rheno-Hercynian orogenic wedge of central Europe, in Orogenic Processes: Quantification and Modelling in the Variscan Belt, Franke W., Haak V., Oncken O., Tanner D. (eds), Geol. Soc. London 179, 231-255.
  • Littke R., Bayer U., Gajewski D., Nelskamp S. (2008a) Dynamics of complex intracontinental basins. The example of the Central European Basin System, Springer-Verlag, Berlin-Heidelberg.
  • Littke R., Scheck-Wenderoth M., Brix M.R., Nelskamp S. (2008b) Subsidence, inversion and evolution of the thermal field, in Dynamics of complex intracontinental basins. The Central European Basin System, Littke R., Bayer U., Gajewski D., Nelskamp S. (eds), Springer-Verlag, Berlin-Heidelberg, pp. 125-153.
  • Lokhorst A., Adlam K., Brugge J.V.M., David P., Diapari L., Fermont W.J.J., Geluk M., Gerling P., Heckers J., Kockel F., Kotarba M., Laier T., Lott G.K., Milaczewski E., Milaczewski L., Nicholson R.A., Platen F.V., Pokorski J. (1998) NW European Gas Atlas – Composition and Isotope Ratios of Natural Gases, CD-ROM, Nederlands Inst. voor Toegepaste Geowetenschappen TNO, Haarlem.
  • Lutz M., Kaasschieter J.P.H., van Wijhe D.H. (1975) Geological factors controlling Rotliegend gas accumulations in the mid European Basin, Proceed. 9th World Petrol. Cong. Tokyo 2, Appl. Sci. Publ. Ltd., 93-103, London.
  • Maystrenko Y., Bayer U., Scheck-Wenderoth M. (2010) Structure and Evolution of the Central European Basin System according to 3D modeling, DGMK-Forschungsbericht 577-2/2, 90 p.
  • Mingram B., Hoth P., Lüders V., Harlov D. (2005) The significance of fixed ammonium in Paleozoic sediments for the generation of nitrogen-rich natural gases in the North German Basin, Int. J. Earth Sci. 94, 1010-1022. [CrossRef]
  • Muntendam-Bos A.G., Wassing B.B.T., ter Heege J.H., van Bergen F., Schavemaker Y.A., van Gessel S.F., de Jong M.L., Nelskamp S., van Thienen-Visser K., Guasti E., van den Belt F.J.G., Marges V.C. (2009) Inventory non-conventional gas, TNO report, TNO- 034-UT-2009-00774/B, 188 p., 5 App.
  • Nielsen A.T., Schovsbo N.H. (2007) Cambrian to basal Ordovician lithostratigraphy in southern Scandinavia, Bull. Geol. Soc. Den. 53, 47-92.
  • Oncken O., von Winterfeld C., Dittmar U. (1999) Accretion of a rifted margin: the late Paleozoic Rhenohercynian fold and thrust belt (Middle European Variscides), Tectonics 18, 75-91. [CrossRef]
  • Pashin J.C. (2004) Cyclothems of the Black Warrior Basin in Alabama: eustatic snapshots of foreland basin tectonism, in Coal- Bearing Strata: Sequence Stratigraphy, Paleoclimate and Tectonics, Pashin J.C., Gastaldo R.A. (eds), Am. Ass. Petr. Geol. Stud. Geol. 51, 199-218.
  • Paul J. (1986) Environmental analysis of basin and schwellen facies in the lower Zechstein of Germany, Geol. Soc. London Spec. Publ. 22, 143-147. [CrossRef]
  • Poprawa P., Sliaupa S., Stephenson R.A., Lazauskiene J. (1999) Late Vendian-Early Paleozoic tectonic evolution of the Baltic Basin: regional implications from subsidence analysis, Tectonophysics 314, 1-3, 219-239. [CrossRef]
  • Prinz D., Littke R. (2005) Development of the micro- and ultramicroporous structure of coals with rank as deduced from the accessibility to water, Fuel 84, 12-13, 1645-1652.
  • Prinz D. (2004) Die Porenstruktur von Kohlen, PhD Thesis, RWTH Aachen University.
  • Pusch, G., Gaupp, R., Liermann, N. (2005) Integrated Research Contributions for Screening the Tight Gas Potential in the Rotliegendes Formation of North- Germany, Oil Gas - Eur. Mag. 31, 4, 187-193.
  • Richwien J., Schuster R., Teichmüller R., Wolburg J. (1963) Überblick über das Profil der Bohrung Münsterland 1, in Fortschritte in der Geologie von Rheinland und Westfalen. Die Aufschlussbohrung Münsterland 1, Andres J., Arnold H., Beeg H. (eds), Fortschr. Geol. Rhld. u. Westf. 11, 9-18, Krefeld.
  • Ricken W., Schrader S., Oncken O., Plesch A. (2000) Turbidite basin and mass dynamics related to orogenic wedge growth: the Rheno-Hercynian case, in Orogenic Processes: Quantification and Modelling in the Variscan Belt, Franke W., Haak V., Oncken O., Tanner D. (eds), Geol. Soc. Spec. Publ. 179, 257-280.
  • Riquier L., Tribovillard N., Averbuch O., Devleeschouwer X., Riboulleau A. (2006) The Late Frasnian Kellwasser horizons of the Harz Mountains (Germany): Two oxygen-deficient periods resulting from different mechanisms, Chem. Geol. 233, 1-2, 137-155. [CrossRef]
  • Rogner H.-H. (1997) An assessment of world hydrocarbon resources, Annu. Rev. Energ. Env. 22, 217-262. [CrossRef]
  • Scheidt G., Littke R. (1989) Comparative organic petrology of interlayered sandstones, siltstones, mudstones and coals in the Upper Carboniferous Ruhr basin, northwest Germany, and their thermal history and methane generation, Geol. Rundsch. 78, 375-390. [CrossRef]
  • Schindler E. (1992) Kellwasser Horizons, in Organic Carbon-rich Pelitic Sediments in the Federal Republic of Germany, Zimmerle W., Stribrny B. (eds), Courier Forschungsinstitut Senckenberg 152, 56-58, Frankfurt.
  • Schöner R., Gaupp R. (2005) Contrasting red bed diagenesis. The southern and northern margin of the Central European Basin, Int. J. Earth Sci. 94, 897-916. [CrossRef]
  • Schovsbo N.H. (2002) Uranium enrichment shorewards in black shales: A case study from the Scandinavian Alum Shale, Geol. Foeren. Stockholm Foerh. 124, 2, 107-115.
  • Schovsbo N.H. (2003) The geochemistry of Lower Paleozoic sediments deposited on the margins of Baltica, Bull. Geol. Soc. Den. 50, 1, 11-27.
  • Schretzenmayr S. (2004) Erdöl und Erdgas, in Geologie von Mecklenburg-Vorpommern, Katzung G. (ed), Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, pp. 451-458.
  • Schwarzer D., Littke R. (2007) Petroleum generation and migration in the “Tight Gas” area of the German Rotliegend natural gas play: a basin modelling study, Petrol. Geosci. 13, 1, 37-62. [CrossRef]
  • Senglaub Y., Littke R., Brix M.R. (2006) Numerical modeling of burial and temperature history as an approach for an alternative interpretation of the Bramsche anolmaly, Lower Saxony Basin, Int. J. Earth Sci. 95, 204-224. [CrossRef]
  • Shanley K.W., Cluff R.M., Robinson J.W. (2004) Factors controlling prolific gas production from low-permeability sandstone reservoirs: Implications for resource assessment, prospect development, and risk analysis, AAPG Bull. 88, 8, 1083-1121. [CrossRef]
  • Siegmund H., Trappe J., Oschmann W. (2002) Sequence stratigraphic and genetic aspects of the Tournaisian “Liegender Alaunschiefer” and adjacent beds, Int. J. Earth Sci. 91, 934-949. [CrossRef]
  • Snäll S. (1988) Mineralogy and maturity of the alum shales of south-central Jämtland, Sweden, Geol. Sur. Swed. C818.
  • Stollhofen H., Bachmann G.H., Barnasch J., Bayer U., Beutler G., Franz M., Kästner M., Legler B., Mutterlose J., Radies D. (2008) Upper Rotliegend to Early Cretaceous basin development, in Dynamics of complex intracontinental basins. The Central European Basin System, Littke R., Bayer U., Gajewski D., Nelskamp S. (eds), Springer-Verlag, Berlin-Heidelberg, pp. 181-210.
  • Sweeney J.J., Burnham A.K. (1990) Evaluation of a simple model of vitrinite reflectance based on chemical kinetics, AA PG Bull. 74, 1559-1570.
  • Teichmüller M., Teichmüller R., Bartenstein H. (1979) Inkohlung und Erdgas in Nordwestdeutschland. Eine Inkohlungskarte der Oberfläche des Oberkarbons, Fortschr. Geol. Rhld. u. Westf. 27.
  • Thickpenny A. (1984) The sedimentology of the Swedish Alum Shales, in Fine-grained Sediments: Deep-water Processes and Facies, Stow D.A.V., Piper D.J.W. (eds), Geol. Soc. London Spec. Publ. 15, 511-525.
  • Thielemann T. (2002) Kohleflözgas in Deutschland, Commodity Top News 17.
  • Thielemann T., Cramer B., Schippers A. (2004) Kohleflözgas im Ruhrbecken: Fossil oder erneuerbar? DGMK-Tagungsbericht, Fachbereich Aufsuchung und Gewinnung, Celle, pp. 449-459.
  • Uffmann A.K., Bruns B., Jurisch A., Littke R. (2010) Dynamics of the Central European Basin System (CEBS): Large scale Paleozoic petroleum systems models of the North German Basin, DGMK Research Report, 577-2/3, 129 p.
  • van Buggenum J.M., den Hartog Jager D.G. (2007) Silesian, in Geology of the Netherlands, Wong Th.E., Batjes D.A.J., de Jager J. (eds), Royal Netherlands Academy of Arts and Sciences, pp. 43-62.
  • Voigt T., Reicherter K., von Eynatten H., Littke R., Voigt S., Kley J. (2008) Sedimentation during basin inversion, in Dynamics of complex intracontinental basins. The Central European Basin System, Littke R., Bayer U., Gajewski D., Nelskamp S. (eds), Springer-Verlag, Berlin-Heidelberg, pp. 211-232.
  • Williams P. (2009) Euro Shales, Oil Gas Inv., 57-59. Yahi N., Schaefer R.G., Littke R. (2001) Petroleum generation and accumulation in the Berkine basin, eastern Algeria, AAPG Bull. 85, 8, 1439-1467.
  • Zdanaviciute, O.,Lazauskiene J. (2004) Hydrocarbon migration and entrapment in the Baltic Syneclise, Org. Geochem. 35, 4, 517-527. [CrossRef]
  • Zdanaviciute, O.,Lazauskiene J. (2007) The petroleum potential of the Silurian succession in Lithuania, J. Petrol. Geol. 30, 4, 325-337. [CrossRef]
  • Ziegler A.M. (1990) Phytogeographic patterns and continental configurations during the Permian Period, Geol. Soc. London Mem. 12, 363-379. [CrossRef]

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.