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- 21:56, 18 April 2016 diff hist +12,878 Jordan petroleum geology
- 21:41, 18 April 2016 diff hist +275 N File:M106Ch07Fig07.jpg Overview of hydrocarbon shows in Jordanian petroleum wells. After NRA (2001). 100 km (62.1 mi). From Luning, S., and J. Kuss, 2014, Petroleum geology of Jordan, in L. Marlow, C. Kendall, and L. Yose, eds., Petroleum systems of the Tethyan region: AAPG ... current
- 21:10, 18 April 2016 diff hist +536 N File:M106Ch07Fig06.jpg a) Schematic east-west structural cross section from the Jordan Valley, through the northern Highlands, Azraq Depression, Basakt Plateau, and Risha Limestone Plateau to the Iraqi border. b) Schematic north-south structural cross section from the Damasc... current
- 21:06, 18 April 2016 diff hist +448 N File:M106Ch07Fig05.jpg Permo-Triassic paleogeographic map of the Middle East illustrating the opening of the Neotethys that was associated with major extensional movements in northern Arabia and Northeast Africa. After Stampfli and Borel (2002). 1500 km (932 mi). From Lünin... current
- 20:49, 18 April 2016 diff hist +540 N File:M106Ch07Fig04.jpg Isopach map of organic-rich Silurian shales with total gamma-ray values exceeding 150 API, corresponding to organic richness values of greater than 1–2%, depending on the degree of thermal maturation. Gamma-ray values in some wells have been adjusted... current
- 20:47, 18 April 2016 diff hist +318 N File:M106Ch07Fig03.jpg Structural west-east section of the Risha area. Hercynian subcrop becomes progressively older toward the west. From Lüning et al. (2006). From Luning, S., and J. Kuss, 2014, Petroleum geology of Jordan, in L. Marlow, C. Kendall, and L. Yose, eds., Pet... current
- 20:34, 18 April 2016 diff hist +297 N File:M106Ch07Fig02.jpg Stratigraphic column of Jordan, play parameters, main tectonic events, and hydrocarbon occurrences. After NRA (2001). From Luning, S., and J. Kuss, 2014, Petroleum geology of Jordan, in L. Marlow, C. Kendall, and L. Yose, eds., Petroleum systems of the... current
- 20:28, 18 April 2016 diff hist +379 N File:M106Ch07Fig1.jpg Surface geology and locations of sedimentary basins, structural elements, key petroleum wells, and hydrocarbon fields in Jordan. Modified after Beydoun et al. (1994) and NRA (2001). 100 km (62.1 mi). From Luning, S., and J. Kuss, 2014, Petroleum geolog... current
- 19:39, 30 March 2016 diff hist +2,832 N Jordan petroleum geology Created page with "{{publication | image = M106_cover_proof.jpg | series = AAPG Memoir | title = Petroleum systems of the Tethyan region | part = | chapter = Petroleum Geology of ..."
- 21:34, 28 March 2016 diff hist +31 Libya hydrocarbon provinces →See also
- 21:34, 28 March 2016 diff hist +31 Israel petroleum systems →See also
- 21:34, 28 March 2016 diff hist +31 Phanerozoic Tethys region →See also
- 21:33, 28 March 2016 diff hist +31 Tethys region
- 21:05, 28 March 2016 diff hist +12,970 Libya hydrocarbon provinces
- 20:20, 28 March 2016 diff hist +34 Tethys region
- 20:18, 28 March 2016 diff hist +442 N File:M106Ch04Fig04.jpg Five major hydrocarbon reservoirs and source-rock intervals in Libya. (Sources: Campbell, 1991; Baird et al., 1996; Boote et al., 1998; USGS, 2000; Hallett, 2002; Burwood et al., 2003; Energy Intelligence Research, 2004). From Hassan, H. S., and C. C. ... current
- 20:13, 28 March 2016 diff hist +307 N File:M106Ch04Fig03.jpg Sedimentary basins of Libya (productive basins, future prospective) 200 km (124.3 mi). From Hassan, H. S., and C. C. G. Kendall, 2014, Hydrocarbon provinces of Libya: A petroleum system study, in L. Marlow, C. Kendall, and L. Yose, eds., Petroleum syst... current
- 19:44, 28 March 2016 diff hist +548 N File:M106Ch04Fig2A.jpg Paleogeographic maps of Libya. (A) Pan-African structures that formed during late Precambrian to Late Carboniferous tectonism. (B) Hercynian structural trends caused by the Late Carboniferous collision between Gondwana and Laurasia. Sources: Klitzsch (... current
- 19:43, 28 March 2016 diff hist +548 N File:M106Ch04Fig2B.jpg Paleogeographic maps of Libya. (A) Pan-African structures that formed during late Precambrian to Late Carboniferous tectonism. (B) Hercynian structural trends caused by the Late Carboniferous collision between Gondwana and Laurasia. Sources: Klitzsch (... current
- 19:11, 28 March 2016 diff hist +4,052 N Libya hydrocarbon provinces Created page with "{{publication | image = M106_cover_proof.jpg | series = AAPG Memoir | title = Petroleum systems of the Tethyan region | part = | chapter = Hydrocarbon Provinces..."
- 19:01, 28 March 2016 diff hist +378 N File:M106h04Fig01.jpg Map of Libya, showing location, the surface geology, and the major tectonic elements (modified after Rusk, 2001; Ramos et al., 2006) 500 km (310.7 mi). From Hassan, Hassan S. and Christopher C. G. Kendall, Hydrocarbon provinces of Libya: A petroleum sy... current
- 18:58, 28 March 2016 diff hist 0 Israel petroleum systems →See also
- 18:58, 28 March 2016 diff hist +34 Israel petroleum systems
- 18:57, 28 March 2016 diff hist +34 Phanerozoic Tethys region →See also
- 18:47, 28 March 2016 diff hist +2,816 Israel petroleum systems
- 23:51, 23 February 2016 diff hist +888 Israel petroleum systems
- 16:43, 23 February 2016 diff hist +6,498 N Israel petroleum systems Created page with "{{publication | image = M106_cover_proof.jpg | series = AAPG Memoir | title = Petroleum systems of the Tethyan region | part = | chapter = The petroleum systems..."
- 15:29, 23 February 2016 diff hist +464 N File:M106Ch06Fig03.jpg Map showing the location of oil and gas wells and active petroleum rights (licenses and leases) in Israel. The information in the map is updated to April 2012 (adapted from information in the Israel Ministry of Energy and Water Resources website). 50 k... current
- 15:25, 23 February 2016 diff hist +780 N File:M106Ch06Fig02.jpg Map showing the main tectonic elements and petroleum occurrences of Israel. The two most prominent tectonic features are the Levantine Basin and Margin in the west and the Dead Sea rift in the east. Most of the hydrocarbon accumulations found in Israel... current
- 15:02, 23 February 2016 diff hist +31 Phanerozoic Tethys region →See also
- 14:58, 23 February 2016 diff hist +31 Tethys region →See also
- 14:50, 23 February 2016 diff hist -141 Phanerozoic Tethys region
- 22:31, 22 February 2016 diff hist +9 Phanerozoic Tethys region →Paleogeography and petroleum plays
- 22:29, 22 February 2016 diff hist -553 Phanerozoic Tethys region
- 21:22, 22 February 2016 diff hist +603 Phanerozoic Tethys region →Paleogeography and petroleum plays
- 21:18, 22 February 2016 diff hist +3,684 Phanerozoic Tethys region →Paleogeography and petroleum plays
- 20:34, 22 February 2016 diff hist +339 Phanerozoic Tethys region →Eocene-Oligocene Boundary (about 34 Ma)
- 20:15, 22 February 2016 diff hist +1,653 Phanerozoic Tethys region →K-T Boundary (65.5 Ma)
- 19:49, 22 February 2016 diff hist +21 Phanerozoic Tethys region →Aptian (about 120 Ma)
- 17:33, 22 February 2016 diff hist +164 Phanerozoic Tethys region →Callovian (about 164 Ma)
- 17:15, 22 February 2016 diff hist 0 Phanerozoic Tethys region →Norian (about 205 Ma)
- 17:14, 22 February 2016 diff hist +1,471 Phanerozoic Tethys region →Norian (about 205 Ma)
- 16:54, 19 February 2016 diff hist +312 Phanerozoic Tethys region →Norian (about 205 Ma)
- 22:46, 18 February 2016 diff hist +221 Phanerozoic Tethys region →Permian-Triassic Boundary (251 Ma)
- 22:44, 18 February 2016 diff hist +3,749 Phanerozoic Tethys region →Permian-Triassic Boundary (251 Ma)
- 22:11, 18 February 2016 diff hist +720 Phanerozoic Tethys region
- 20:38, 18 February 2016 diff hist +28 Phanerozoic Tethys region →Eocene-Oligocene Boundary (about 34 Ma)
- 20:37, 18 February 2016 diff hist +410 N File:M106Ch01Fig11.jpg Global paleogeography (top) and major depositional settings in the southern margin of the Tethys (below) at the time of the Eocene-Oligocene boundary (about 34 Ma). From F. Berra and L. Angiolini, 2014, The evolution of the Tethys region throughout the... current
- 20:36, 18 February 2016 diff hist +28 Phanerozoic Tethys region →K-T Boundary (65.5 Ma)
- 20:35, 18 February 2016 diff hist +416 N File:M106Ch01Fig10.jpg Global paleogeography (top) and major depositional settings in the southern margin of the Tethys (below) at the time of the Cretaceous-Paleocene boundary (about 65.5 Ma). From F. Berra and L. Angiolini, 2014, The evolution of the Tethys region througho... current