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- ...of the field is also caused by syndepositional westward thickening of the Jurassic section. ...ed. The trap is found where the porous Cutbank Sandstone abuts impermeable Jurassic shales. Where the Cutbank Sandstone abuts the permeable Swift Sandstone, [[7 KB (977 words) - 20:39, 4 February 2022
- ...oss section showing highly deformed salt rooted within the in-place Middle Jurassic mother salt. Modified after Antoine et al.;<ref name=Antoine1974>Antoine, J ...th the in-place Middle Jurassic mother salt and displaced sheets of Middle Jurassic salt that have become detached from the mother salt. From Hall et al.;<ref11 KB (1,496 words) - 18:17, 22 February 2022
- ...rocks_fig6-3.png|300px|thumb|{{figure number|2}}Composite log of the Upper Jurassic Hanifa limestone in the Middle East. From Meyer and Nederlof.<ref name=Meye ...log in [[:file:evaluating-source-rocks_fig6-3.png|Figure 2]] of the Upper Jurassic Haifa [[limestone]] in the Middle East displays a typical response of organ5 KB (768 words) - 15:48, 9 February 2022
- ...Formation of Late Cretaceous age. Based on geochemical evidence, the Upper Jurassic (Kimmeridgian) to Lower Cretaceous source rock is the Mandal Formation. A p ...umulation|accumulates]] in various traps. The underburden rock is pre-Late Jurassic in age and is not involved in the petroleum system except as minor reservoi9 KB (1,184 words) - 18:46, 3 March 2016
- ...ee prolific source rocks including the Early Jurassic Los Molles, the Late Jurassic – Early Cretaceous Vaca Muerta, and the Early Cretaceous Agrio Formations ...the Neuquén Basin within multiple stacked petroleum systems from the Early Jurassic through the Cretaceous ([[:file:EMD2020-VacaMuerta-Figure2.png|Figure 2]]).11 KB (1,644 words) - 16:14, 11 May 2023
- * Generalized depth to basement (approximately the base of Jurassic sedimentary rock) * Known distribution of mid-Jurassic [[evaporite]]s (pre-marine evaporites)8 KB (1,069 words) - 20:03, 18 February 2022
- ...oughout the section but are concentrated in the Lower Cretaceous and Upper Jurassic. ...g|Figure 2]]. In particular, all the Bazhenov Formation samples (uppermost Jurassic) plot adjacent to the oil family that is relatively lean in the C<sub>29</s6 KB (950 words) - 13:46, 16 February 2022
- ...a179/a179/0001/0000/0027.htm Tectonic setting of the San Juan basin in the Jurassic], in C. E. Turner-Peterson, E. S. Santos, and N. S. Fishman, A Basin Analys3 KB (411 words) - 15:01, 11 January 2016
- ...Lower Cretaceous sands (10,000 bo/d); these sands are likely charged from Jurassic source rocks.<ref name=Dolsonetal_2014 /> <ref name=Marlow_2014 /> Although Jurassic and Cretaceous source rocks are very important for the Tethyan region, ther23 KB (3,325 words) - 14:52, 1 August 2016
- ...irs at 2800–3500 m true vertical depth. The source is presumed to be Upper Jurassic mudstones, based on a correlation of Ekofisk oil to Kimmeridgian [[source r8 KB (1,116 words) - 22:16, 15 February 2022
- ...Eocene Wilcox Formation. If lower Tertiary Wilcox equivalent or uppermost Jurassic mudstones are the source for hydrocarbons in the East Breaks 160-161 field,7 KB (1,080 words) - 17:44, 23 March 2022
- ...both marine and nonmarine environments. Marine diatoms range from [[Upper Jurassic]] or [[Lower Cretaceous]] to [[Holocene]] and are particularly useful for a5 KB (626 words) - 15:18, 31 January 2022
- ...6.</ref> The basic tectonic architecture developed as a consequence of the Jurassic breakup of Pangea (see [http://geology.com/pangea.htm Plate Tectonics] for4 KB (530 words) - 14:22, 22 February 2022
- ...ves.datapages.com/data/specpubs/seismic1/data/a166/a166/0001/0100/0129.htm Jurassic unconformities, chronostratigraphy and sea-level changes from seismic strat9 KB (1,239 words) - 16:58, 24 February 2022
- * Late [[Permian]] through the [[Jurassic]] [[Zagros]] Rifting ([[Gondwana]] [[supercontinent]] fragmentation and [[d .... A. Cole, E. L. Colling, and P. J. Jones, 1994, Geochemistry of the Upper Jurassic Tuwaiq Mountain and Hanifa Formation petroleum source rocks of eastern Saud18 KB (2,569 words) - 22:50, 8 January 2019
- ...én, p. 113–129.</ref> and Weaver<ref>Weaver, C., 1931, Paleontology of the Jurassic and Cretaceous of West Central Argentina: Memoir University of Washington 1 File:2.png|{{figure number|2}}Jurassic and Lower Cretaceous lithostratigraphy of the Neuquén Basin. Based on Spal16 KB (2,490 words) - 15:32, 8 January 2021
- * The Middle Jurassic petroleum system: Sargelu source rocks deposited in the Mesopotamian depres * The Late Jurassic petroleum system: Hanifa–Tuwaiq Mountains/Diyab source rocks that extend27 KB (3,901 words) - 13:51, 26 January 2017
- | Late Jurassic || 5 || Helez || Helez || 1955 || Nir'am || Shelf carbonate || Oil || Struc | Middle Jurassic || 7* || Yam || Yam || 1989 || || Carbonate gravity-flow || Oil || Struct10 KB (1,276 words) - 21:00, 19 July 2016
- ...ves.datapages.com/data/specpubs/seismic1/data/a166/a166/0001/0100/0129.htm Jurassic unconformities, chronostratigraphy and sea-level changes from seismic strat10 KB (1,394 words) - 21:47, 22 February 2022
- ...datapages.com/data/specpubs/fieldst2/data/a014/a014/0001/0300/0349.htm The Jurassic Snøhvit Gas Field, Hammerfest Basin, Offshore Northern Norway], in Michel ...mic characteristics of fluid leakage from an underfilled and overpressured Jurassic fault trap in the Norwegian North Sea: Petroleum Geoscience, v. 10, no. 1,23 KB (3,382 words) - 18:40, 10 January 2019