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- 20:13, 10 February 2022 diff hist +20,678 N Introduction to biosteering operation Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Thamer Alnasser and Fahad Badqaish, Saudi Aramco file:AlnasserBadqaish..."
- 19:20, 10 February 2022 diff hist 0 N File:AlnasserBadqaishFigure7.jpg current
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- 19:17, 10 February 2022 diff hist 0 N File:AlnasserBadqaishFigure2.jpg current
- 19:17, 10 February 2022 diff hist 0 N File:AlnasserBadqaishFigure1.jpg current
- 19:08, 10 February 2022 diff hist +13,892 N Biostratigraphic applications in hydrocarbon exploration Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Sultan Alghufaily, Ali Alwaheed, and Ali Halal, Saudi Aramco file:Algh..."
- 18:37, 10 February 2022 diff hist 0 N File:AlghufailyetalFigure5.jpg current
- 18:37, 10 February 2022 diff hist 0 N File:AlghufailyetalFigure4.jpg current
- 18:36, 10 February 2022 diff hist 0 N File:AlghufailyetalFigure3.jpg current
- 18:36, 10 February 2022 diff hist 0 N File:AlghufailyetalFigure2.jpg current
- 18:36, 10 February 2022 diff hist 0 N File:AlghufailyetalFigure1.jpg current
- 18:22, 10 February 2022 diff hist +12,088 N Perforation design Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Sulaiman Ureiga and Amr Almadani, Saudi Aramco file:UreigaAlmandiFigur..."
- 17:59, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure12.jpg current
- 17:59, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure11.jpg current
- 17:59, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure10.jpg current
- 17:58, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure9.jpg current
- 17:57, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure8.jpg current
- 17:56, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure7.jpg current
- 17:55, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure6.jpg current
- 17:55, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure5.jpg current
- 17:54, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure4.jpg current
- 17:54, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure3.jpg current
- 17:53, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure2.jpg current
- 17:53, 10 February 2022 diff hist 0 N File:UreigaAlmandiFigure1.jpg current
- 17:49, 10 February 2022 diff hist +1,148 Cross-well electromagnetic tomography monitoring of fluid distribution
- 17:40, 10 February 2022 diff hist +237 Cross-well electromagnetic tomography monitoring of fluid distribution
- 23:22, 3 February 2022 diff hist +10,964 Cross-well electromagnetic tomography monitoring of fluid distribution
- 22:40, 3 February 2022 diff hist +6,287 N Cross-well electromagnetic tomography monitoring of fluid distribution Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Sara Abu Alsaud and Klemens Katterbauer, Saudi Aramco file:AlsaudKatter..."
- 22:14, 3 February 2022 diff hist +183 N File:AlsaudKatterbauerFigure6.jpg Unit 3,4, and 5 time-lapse cross-sectional EM resistivity image of the observers and injector (Baseline) before water injection (Time lapse survey) After six months of water injection current
- 22:14, 3 February 2022 diff hist +126 N File:AlsaudKatterbauerFigure5.jpg – Time lapse EM resistivity image between OBS1 and OBS2. (A) before water injection (B) After four months of water injection current
- 22:13, 3 February 2022 diff hist +72 N File:AlsaudKatterbauerFigure4.jpg Wells location: five spot patterns (3 observers, 1 injector, 1 producer) current
- 22:12, 3 February 2022 diff hist +34 N File:AlsaudKatterbauerFigure3.jpg Cross-well EM System simple design current
- 22:12, 3 February 2022 diff hist +75 N File:AlsaudKatterbauerFigure2.jpg Cross-well EM current direction between the wells and to the targeted zone. current
- 22:11, 3 February 2022 diff hist +40 N File:AlsaudKatterbauerFigure1.jpg Cross-well EM Image between three wells. current
- 22:04, 3 February 2022 diff hist +14,396 Chromatography
- 21:25, 3 February 2022 diff hist +70 N File:AlotaibiFigure9.jpg Thin-layer chromatography (TLC). Image Source: MZ-Analysentechnik GmbH current
- 21:25, 3 February 2022 diff hist +66 N File:AlotaibiFigure8.jpg High-performance liquid chromatography (HPLC). Image Source: Toppr current
- 21:24, 3 February 2022 diff hist +46 N File:AlotaibiFigure7.jpg Column chromatography. Image Source: PrepGenie current
- 21:24, 3 February 2022 diff hist +100 N File:AlotaibiFigure6.jpg Anion exchange chromatography. Image Source: https://sites.google.com/site/chromospectrum/i-exchange current
- 21:24, 3 February 2022 diff hist +192 N File:AlotaibiFigure5.jpg Paper chromatography. Image Source: Ebere, E.C., Obinna, I.B., and Wirnkor, V.A.(November 2019). Applications of Column, Paper, Thin Layer and Ion Exchange Chromatography in Purifying Samples. current
- 21:23, 3 February 2022 diff hist +264 N File:AlotaibiFigure4.jpg Liquid chromatography system. Image Source: César Aquiles Lázaro de la Torre1, Juan Espinoza Blanco, Joab Trajano Silva, Vânia Margaret Flosi Paschoalin, Carlos Adam Conte Júnior. (March 2014) Chromatographic detection of nitrofurans in foods of an... current
- 21:23, 3 February 2022 diff hist +193 N File:AlotaibiFigure3.jpg A typical GC/MS system. Image source: Abdul-Hamid M. Emwas, Zeyad A. Al-Talla, Yang Yang, and Najeh M. Kharbatia. (March 2012). Gas Chromatography–Mass Spectrometry of Biofluids and Extracts. current
- 21:15, 3 February 2022 diff hist +54 N File:AlotaibiFigure2.jpg Gas chromatography system. Image Source: Bitesize Bio. current
- 21:15, 3 February 2022 diff hist +47 N File:AlotaibiFigure1.jpg Mobile and Stationary phases in chromatography. current
- 00:03, 1 February 2022 diff hist +213 Utilization of the industrial revolution 4.0 in oil and gas exploration
- 00:02, 1 February 2022 diff hist +21,594 N Utilization of the industrial revolution 4.0 in oil and gas exploration Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Najoud AlOtaibi and Fayrouz AlEssa, Saudi Aramco ==Background== Accele..."
- 22:22, 31 January 2022 diff hist +1 Fluid inclusions: analysis and applications
- 22:17, 31 January 2022 diff hist +2 Fluid inclusions: analysis and applications
- 22:10, 31 January 2022 diff hist +3,165 Fluid inclusions: analysis and applications
- 20:09, 31 January 2022 diff hist +17,418 N Fluid inclusions: analysis and applications Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Ibrahim Alfraih and Maram AlSaif, EXPEC ARC file:AlfraihAlSaifFigure1...."
- 19:17, 31 January 2022 diff hist +115 N File:AlfraihAlSaifFigure9.jpg This is a burial history diagram interpreted from fluid inclusions studies. Thermal maturity can also be estimated. current
- 19:16, 31 January 2022 diff hist +104 N File:AlfraihAlSaifFigure8.jpg This map illustrates migration pathways and fluid types in Wealden Basin using fluid inclusions studies. current
- 19:15, 31 January 2022 diff hist +135 N File:AlfraihAlSaifFigure7.jpg A spider diagram illustrating source parameters. A) Aliphatic hydrocarbons, b) aromatic hydrocarbons from oil inclusions and crude oil. current
- 19:14, 31 January 2022 diff hist +272 N File:AlfraihAlSaifFigure6.jpg Illustration of comparison between API gravity of petroleum fluorescence emission color when excitation is by narrow-band (365 mm peak) ultraviolet light. The color of fluorescence may be controlled by multiple variables, so this should be used as a gr... current
- 19:13, 31 January 2022 diff hist +583 N File:AlfraihAlSaifFigure5.jpg Schematic representation of expected behavior of fluid inclusions during cycling to determine homogenization temperature. Symbols above indicate when the inclusionist should be straining to see the bubble. Numbers are hypothetical temperatures in °C. ... current
- 19:12, 31 January 2022 diff hist +76 N File:AlfraihAlSaifFigure4.jpg An example of an inclusion with four phases. HC = Hydrocarbons, AQ= Aqueous. current
- 19:11, 31 January 2022 diff hist +83 N File:AlfraihAlSaifFigure3.jpg Geological processes and their physical effects on fluid inclusion interpretations. current
- 19:10, 31 January 2022 diff hist +109 N File:AlfraihAlSaifFigure2.jpg Summary of the fluid inclusion analytical methods classified based on destructive and nondestructive methods. current
- 19:10, 31 January 2022 diff hist +172 N File:AlfraihAlSaifFigure1.jpg Photomicrographs of oil-bearing fluid inclusions in Mississippian rocks examined under transmitted plane light (left) and blue fluorescence under ultraviolet light (right). current
- 18:45, 31 January 2022 diff hist +2,130 Condensate banking effect
- 23:24, 9 November 2021 diff hist +17,869 Condensate banking effect
- 23:23, 9 November 2021 diff hist +135 N File:AlAhmadiTawfiqFigure10.jpg Lean gas condensate well test behavior with increasing and decreasing flow rates (Gringarten, Bozorgzadeh, Hashemi, & Daungkaew, 2006). current
- 23:21, 9 November 2021 diff hist +101 N File:AlAhmadiTawfiqFigure9.jpg Log-log plot of a well in two regions with varying mobility ratios (Houze, Viturat, & Fjaere, 2018) . current
- 23:12, 9 November 2021 diff hist +81 N File:AlAhmadiTawfiqFigure8.jpg Schematic of a Two Region Radial Composite Reservoir (H., Li, L., & Mu, A. 2018). current
- 23:09, 9 November 2021 diff hist +119 N File:AlAhmadiTawfiqFigure7.jpg Condensate saturation profile with condensate drop-out and velocity stripping (Gringarten, Ogunrewo & Uxukbayev, 2011). current
- 23:06, 9 November 2021 diff hist +122 N File:AlAhmadiTawfiqFigure6.jpg Pressure Derivative Response of Gas Condensate Well Producing Below the Dew Point (Halim, A., Nuri, F., & Adi P, S. 2015). current
- 23:03, 9 November 2021 diff hist +120 N File:AlAhmadiTawfiqFigure5.jpg Condensate Saturation versus Radial Distance from wellbore, with velocity stripping zone (Daungkaew & Gringarten, 2004). current
- 23:00, 9 November 2021 diff hist +132 N File:AlAhmadiTawfiqFigure4.jpg Condensate saturation versus radial distance from wellbore, with different condensate mobility zones (Daungkaew & Gringarten, 2004). current
- 22:55, 9 November 2021 diff hist +86 N File:AlAhmadiTawfiqFigure3.jpg Constant Volume Depletion (CVD) Test Experimental Setup (Panja, Velasco, & Deo, 2020). current
- 22:53, 9 November 2021 diff hist +91 N File:AlAhmadiTawfiqFigure2.jpg Constant Composition Expansion (CCE) Test Experimental Setup (Panja, Velasco, & Deo, 2020). current
- 22:49, 9 November 2021 diff hist +60 N File:AlAhmadiTawfiqFigure1.jpg Phase envelope of retrograde gas condensate (Parvizi, 2010). current
- 22:17, 8 November 2021 diff hist +82 2021 Middle East Wiki Write Off
- 22:16, 8 November 2021 diff hist +61 Super basins
- 22:15, 8 November 2021 diff hist +1,262 N Condensate banking effect Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Asma Al Ahmadi and Rowa Tawfiq, Saudi Aramco ==Introduction== Reservoir fl..."
- 22:15, 8 November 2021 diff hist +61 Fault seal analysis for reservoir development
- 22:15, 8 November 2021 diff hist +32 Structural restoration
- 22:12, 8 November 2021 diff hist +2,456 Structural restoration
- 21:51, 8 November 2021 diff hist -20 2021 Middle East Wiki Write Off
- 21:12, 8 November 2021 diff hist +14,199 Structural restoration
- 21:05, 8 November 2021 diff hist +477 N File:AlHawajAlQahtaniFigure6.jpg Examples from the deep-water Niger Delta of using channel geometry to constrain strike-slip displacement.[17] A) Faulted horizon surface. The small black box is the location of B-E. B-D) Channels lateral geometry on different horizon levels. E) Rest... current
- 21:01, 8 November 2021 diff hist +164 N File:AlHawajAlQahtaniFigure5.jpg Schematic 3D geometry of salt structures rising from a) line sources and b) point sources. Note the complexity in all directions resulting from salt deformation. current
- 21:00, 8 November 2021 diff hist +181 N File:AlHawajAlQahtaniFigure4.jpg Restoration steps on a 2D section at the Monagas Fold and Thrust Belt (Venezuela) showing how and when traps formed with respect to the migration and accumulation of oil and gas. current
- 20:56, 8 November 2021 diff hist +86 N File:AlHawajAlQahtaniFigure3.jpg Examples of 2D restoration at extensional (left) and compressional (right) regimes. current
- 20:52, 8 November 2021 diff hist +108 N File:AlHawajAlQahtaniFigure2.jpg Suggested restoration workflow that is summarized as a flowchart (Modified after Petroleum Experts 2018). current
- 20:44, 8 November 2021 diff hist +227 N File:AlHawajAlQahtaniFigure1.jpg 3D restoration conducted on a faulted and folded layer (Sub-Andean Zone, Bolivia), showing a) the deformed state and b) the restored state. c) Distribution of maximum principal stress that resulted from the deformation in a. current
- 20:39, 8 November 2021 diff hist +148 N Structural restoration Created page with "300px ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Ahmed Al Hawaj and Saleh Al Qahtani, Saudi Aramco"
- 20:36, 8 November 2021 diff hist -2 Super basins
- 20:36, 8 November 2021 diff hist -2 Fault seal analysis for reservoir development
- 20:35, 8 November 2021 diff hist +6 2021 Middle East Wiki Write Off
- 20:35, 8 November 2021 diff hist -8 2021 Middle East Wiki Write Off
- 20:35, 8 November 2021 diff hist 0 N File:GeoWikiLogo.jpg current
- 20:35, 29 October 2021 diff hist +18,668 Super basins
- 20:03, 29 October 2021 diff hist +69 N File:GiacomoneEtAlFigure7.jpg Upper Permian Stratigraphy of North West Shelf of the Delaware Basin. current
- 20:03, 29 October 2021 diff hist +88 N File:GiacomoneEtAlFigure6.jpg Location map of the Permian Basin, with its major structural features and drilled wells. current
- 19:59, 29 October 2021 diff hist +56 N File:GiacomoneEtAlFigure5.jpg Tectonostratigraphic phases in the Gulf of Mexico Basin. current
- 19:58, 29 October 2021 diff hist +72 N File:GiacomoneEtAlFigure4.jpg Location map of the United States (northern) Gulf of Mexico Super Basin. current
- 19:53, 29 October 2021 diff hist +168 N File:GiacomoneEtAlFigure3.jpg Chronostratigraphic chart of the Neuquén Basin with main reservoirs and source rocks. Tectonic history: cycle climax (solid arrow) versus cycle waning (dotted arrows). current
- 19:50, 29 October 2021 diff hist +41 N File:GiacomoneEtAlFigure2.jpg Geological regions of the Neuquén Basin. current
- 21:13, 28 October 2021 diff hist +8,260 N Super basins Created page with "file:AAPG-WIKI-Write-off.jpg ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Gabriel Giacomone (Pluspetrol S.A.), María Eugenia Novara (Pluspetrol S.A..."
- 20:51, 28 October 2021 diff hist +452 N File:GiacomoneEtAlFigure1.jpg Location map of world’s super basins. 31 tier one global super basins (those with more than 5 billion BOE of cumulative production and remaining recoverable oil and gas) are shown in green. Tier two super basins (those with less than 5 billion BOE o... current
- 20:50, 28 October 2021 diff hist +19 Fault seal analysis for reservoir development
- 20:44, 28 October 2021 diff hist +1,407 Fault seal analysis for reservoir development
- 20:42, 28 October 2021 diff hist +81 N File:GumelarFigure9.jpg a) HCH from constant burial depth & b) using the formula Bretan, P. et al (2003). current
- 20:33, 28 October 2021 diff hist +193 N File:GumelarFigure8.jpg a) & b) are examples of leaks from a major structure. HCH in a) has a lower height than b). c) has a spill point value that is above the crest depth so that no leakage occurs (Schofield, 2016). current
- 18:41, 29 September 2021 diff hist +10 Fault seal analysis for reservoir development →Clay smear calculation
- 17:35, 29 September 2021 diff hist +4,346 Fault seal analysis for reservoir development
- 17:25, 29 September 2021 diff hist +183 N File:GumelarFigure7.jpg Plot of parameter relationship with formation ability for sealing capacity in reservoir (a) Clay Smear Potential; (b) Shale Gouge Ratio; (c) Shale Smear Factor (Yielding et al, 1997). current
- 17:25, 29 September 2021 diff hist +179 N File:GumelarFigure6.jpg Displacement factor algorithm for estimating clay smears in the fault plane. (a) Potential Clay Smear; (b) Shale Gouge Ratio; (c) Shale Smear Factor (redrawn from Yielding, 1997). current
- 23:34, 28 September 2021 diff hist +281 Fault seal analysis for reservoir development
- 23:10, 28 September 2021 diff hist +1,568 Fault seal analysis for reservoir development
- 23:10, 28 September 2021 diff hist +216 N File:GumelarFigure5.jpg Juxtaposition diagram (from Knipe, 1997). (A) Simple normal fault with increasing linear displacement from left to right. (B) Generic juxtaposition diagram with the order of the footwall completely offsetting itself. current
- 21:41, 28 September 2021 diff hist +554 Fault seal analysis for reservoir development
- 21:13, 28 September 2021 diff hist +3,006 Fault seal analysis for reservoir development
- 21:13, 28 September 2021 diff hist +482 N File:GumelarFigure4.jpg Allan Mapping Principles (Allan, 1989). (a) Fault displacement can provide a cross-fault seal by juxtaposing impermeable units against potential reservoir units. (B) In three dimensions, the interactions of juxtaposed units on the fault surface can be ... current
- 20:46, 28 September 2021 diff hist +143 N File:GumelarFigure3.jpg Illustration of three factors that influence fault analysis: juxtaposition seal, fault rock seal and fault reactivation (Yielding et al, 2010). current
- 20:38, 28 September 2021 diff hist +2,624 N Fault seal analysis for reservoir development Created page with "file:AAPG-WIKI-Write-off.jpg ==An Entry from the AAPG 2021 Middle East Wiki Write Off!== by Alfian Gilang Gumelar, BitCan Geoscience & Engineering Inc. Fault seal ..."
- 20:38, 28 September 2021 diff hist +30 N File:GumelarFigure2.jpg Fault seal analysis flowchart. current
- 20:26, 28 September 2021 diff hist +171 N File:GumelarFigure1.jpg Schematic illustration showing the presence of hydrocarbon traps (fault blocks) of normal faults by the interbedded between sandstones and shale (modified Færseth, 2006). current
- 17:27, 28 September 2021 diff hist +472 2021 Middle East Wiki Write Off
- 22:27, 27 September 2021 diff hist 0 2021 Middle East Wiki Write Off
- 22:18, 27 September 2021 diff hist +177 2021 Middle East Wiki Write Off
- 22:15, 27 September 2021 diff hist +994 2021 Middle East Wiki Write Off →Other entries
- 18:52, 27 September 2021 diff hist +63 2021 Middle East Wiki Write Off →Saudi Aramco
- 18:50, 27 September 2021 diff hist +632 N 2021 Middle East Wiki Write Off Created page with "file:AAPG-WIKI-Write-off.jpg ==Welcome to the AAPG Middle East Region Wiki Write Off!== ===Winners!=== Congratulations to Universitas Gadjah Mada for winning the Inaug..."
- 22:38, 2 June 2021 diff hist +4,694 N Update for Fayetteville Shale Gas Play in Arkansas, 2019 Created page with "'''By Peng Li, Arkansas Geological Survey, Little Rock, AR''' file:Figure1 FayettevilleShale2019-20CommRpt.jpg|300px|thumb|{{figure number|1}}Primary area of the Fayettevil..." current
- 22:22, 2 June 2021 diff hist +43 N File:Figure4FayettevilleShale2019-20CommRpt.jpg Fayetteville Shale well completion numbers. current
- 22:22, 2 June 2021 diff hist +72 N File:Figure3 FayettevilleShale2019-20CommRpt.jpg Weekly drill rig numbers in the Fayetteville Shale gas play (2011-2019). current
- 22:21, 2 June 2021 diff hist +72 N File:Figure2 FayettevilleShale2019-20CommRpt.jpg Annual and cumulative gas production of the Fayetteville Shale gas play. current
- 22:21, 2 June 2021 diff hist +79 N File:Figure1 FayettevilleShale2019-20CommRpt.jpg Primary area of the Fayetteville Shale exploration and development in Arkansas. current
- 22:15, 2 June 2021 diff hist +221 Barnett Shale (Mississippian), Fort Worth Basin, Texas current
- 22:14, 2 June 2021 diff hist +334 Barnett Shale (Mississippian), Fort Worth Basin, Texas
- 22:12, 2 June 2021 diff hist 0 N File:TexasBarnettDrillingPermits2000-2020 Barnett2019-20CommRpt.jpg current
- 22:10, 2 June 2021 diff hist +2,350 N Barnett Shale (Mississippian), Fort Worth Basin, Texas Created page with "'''By Kent A. Bowker, Bowker Petroleum, LLC''' file:TexasBarnettTotalNGP2000-2020 Barnett2019-20CommRpt.jpg|300px|thumb|{{figure number|1}}Texas Barnett Shale total natural..."
- 22:07, 2 June 2021 diff hist 0 N File:TexasBarnettCondensateProduction2000-2020 Barnett2019-20CommRpt.jpg current
- 22:02, 2 June 2021 diff hist 0 N File:TexasBarnettTotalNGP2000-2020 Barnett2019-20CommRpt.jpg current
- 20:20, 2 June 2021 diff hist +369 Bakken and Three Forks Formations, Williston Basin, North Dakota and Montana (USGS) current
- 20:16, 2 June 2021 diff hist 0 N File:GenTypeLog Bakken2019-20CommRpt.jpg current
- 20:14, 2 June 2021 diff hist +8 Mancos Shale Play in New Mexico current
- 20:12, 2 June 2021 diff hist +2,165 Bakken and Three Forks Formations, Williston Basin, North Dakota and Montana (USGS)
- 20:08, 2 June 2021 diff hist 0 N File:2013USGSBakkenAssessment Bakken2019-20CommRpt.jpg current
- 19:49, 2 June 2021 diff hist 0 N File:UpperBakkenShaleHIMap Bakken2019-20CommRpt.jpg current
- 19:49, 2 June 2021 diff hist 0 N File:LowerBakkenShaleHIMap Bakken2019-20CommRpt.jpg current
- 19:36, 2 June 2021 diff hist 0 N File:BakkenFmExtentsMap Bakken2019-20CommRpt.jpg current
- 19:36, 2 June 2021 diff hist 0 N File:GenStratigraphy Bakken2019-20CommRpt.jpg current
- 19:27, 2 June 2021 diff hist 0 N File:GenStructureMap Bakken2019-20CommRpt.jpg current
- 19:27, 2 June 2021 diff hist 0 N File:GenBasinMap Bakken2019-20CommRpt.jpg current
- 22:18, 15 April 2021 diff hist +1,221 Bakken and Three Forks Formations, Williston Basin, North Dakota and Montana (USGS)
- 22:13, 15 April 2021 diff hist 0 N File:StratColumnBakken2019-20CommRpt.jpg current
- 21:52, 15 April 2021 diff hist +2,011 Bakken and Three Forks Formations, Williston Basin, North Dakota and Montana (USGS)
- 21:16, 15 April 2021 diff hist +3,330 Bakken and Three Forks Formations, Williston Basin, North Dakota and Montana (USGS)
- 21:07, 15 April 2021 diff hist 0 File:Figure3Bakken2019-20CommRpt.jpg Molyneux uploaded a new version of "File:Figure3Bakken2019-20CommRpt.jpg" current
- 20:42, 15 April 2021 diff hist 0 N File:Figure3Bakken2019-20CommRpt.jpg
- 21:52, 14 April 2021 diff hist +2,431 N Bakken and Three Forks Formations, Williston Basin, North Dakota and Montana (USGS) Created page with "'''By Kristen Marra, U.S. Geological Survey, Denver, Colorado, USA''' 300px|thumb|{{figure number|1}} The Bakken Petroleum System o..."
- 21:48, 14 April 2021 diff hist 0 N File:Figure2Bakken2019-20CommRpt.jpg current
- 21:48, 14 April 2021 diff hist 0 N File:Figure1Bakken2019-20CommRpt.jpg current
- 20:52, 14 April 2021 diff hist 0 File:Figure5MancosCommRept.jpg Molyneux uploaded a new version of "File:Figure5MancosCommRept.jpg" current
- 20:52, 14 April 2021 diff hist 0 File:Figure4MancosCommRept.jpg Molyneux uploaded a new version of "File:Figure4MancosCommRept.jpg" current
- 20:51, 14 April 2021 diff hist 0 File:Figure3MancosCommRept.jpg Molyneux uploaded a new version of "File:Figure3MancosCommRept.jpg" current
- 20:50, 14 April 2021 diff hist 0 File:Figure2MancosCommRept.jpg Molyneux uploaded a new version of "File:Figure2MancosCommRept.jpg" current
- 20:49, 14 April 2021 diff hist 0 File:Figure1MancosCommRept.jpg Molyneux uploaded a new version of "File:Figure1MancosCommRept.jpg" current
- 22:01, 8 April 2021 diff hist +1,113 Eagle Ford Group in southwest Texas (USGS)
- 18:01, 8 April 2021 diff hist +9,863 N Eagle Ford Group in southwest Texas (USGS) Created page with "'''By Justin E. Birdwell, U.S. Geological Survey, Denver, CO ''' file:Figure1EagleFord2019-20CommRept.jpg|300px|thumb|{{figure number|1}}Initial gas-to-oil ratios, play foo..."
- 21:55, 6 April 2021 diff hist +113 N File:Figure3EagleFord2019-20CommRept.jpg Average monthly daily production rates for crude oil from the Eagle Ford (U.S. EIA, Jan. 2008 through Sep. 2020). current
- 21:54, 6 April 2021 diff hist +211 N File:Figure2EagleFord2019-20CommRept.jpg Top: Eagle Ford wells with production in IHS Enerdeq from May 2019 through May 2020 (accessed May 27, 2020). Bottom: rig counts in the Eagle Ford from May 2019 through November 2020 (source: Baker Hughes, 2020). current
- 21:52, 6 April 2021 diff hist +340 N File:Figure1EagleFord2019-20CommRept.jpg Initial gas-to-oil ratios, play footprint, elevation contours, and thickness contours for the Eagle Ford play in southwest Texas. Source: U.S. Energy Information Administration, DrillingInfo, Inc., Texas Natural Resources Information, U.S. Geological S... current
- 20:58, 6 April 2021 diff hist +30 m Austin Chalk, Tokio, and Eutaw Formations, U.S. Onshore Gulf Coast (USGS) added Category:Unconventionals using HotCat current
- 20:58, 6 April 2021 diff hist +30 m Mancos Shale Play in New Mexico added Category:Unconventionals using HotCat
- 20:58, 6 April 2021 diff hist +30 m EMD Tight Oil & Gas Committee 2020-21 Annual Report added Category:Unconventionals using HotCat
- 20:57, 6 April 2021 diff hist +30 m EMD Tight Oil & Gas Committee 2019-20 Annual Report added Category:Unconventionals using HotCat current
- 20:57, 6 April 2021 diff hist +30 m EMD Tight Oil & Gas Committee 2018-19 Annual Report added Category:Unconventionals using HotCat current
- 20:57, 6 April 2021 diff hist +30 m EMD Tight Oil & Gas Committee Annual Reports added Category:Unconventionals using HotCat
- 20:57, 6 April 2021 diff hist +40 N Category:Unconventionals Created page with "All unconventional sources of petroleum." current
- 20:56, 6 April 2021 diff hist +30 m EMD Tight Oil & Gas Committee added Category:Unconventionals using HotCat current
- 20:48, 6 April 2021 diff hist +3 Mancos Shale Play in New Mexico
- 20:46, 6 April 2021 diff hist +6,492 N Mancos Shale Play in New Mexico Created page with "'''By Bruce Hart, Western University, London, Ontario, Canada''' file:Figure1MancosCommRept.jpg|300px|thumb|{{figure number|1}}Type logs through the Cretaceous section of t..."
- 19:58, 6 April 2021 diff hist +203 N File:Figure1MancosCommRept.jpg Type logs through the Cretaceous section of the San Juan Basin, showing the principle stratigraphic units. Note the interval commonly drilled in the Offshore Mancos Shale play. Modified from Hart (2021).
- 19:57, 6 April 2021 diff hist +350 N File:Figure2MancosCommRept.jpg Two examples of wells that produce from the Mancos Shale. The main completion target is an interval of the Upper Mancos that is sometimes referred to as Niobrara, El Vado and even Gallup. In both cases, note that Mancos production from these vertical w...
- 19:57, 6 April 2021 diff hist +196 N File:Figure3MancosCommRept.jpg Oil (green) and gas (red) wells drilled in Mancos pools. A) In the period 2017-2020 (125 wells). B) In 2020 alone (11 wells). Contours show the top Dakota elevation, simplified from Craigg (2001).
- 19:56, 6 April 2021 diff hist +103 N File:Figure4MancosCommRept.jpg Histogram of wells drilled in 2017-2020. Only one of these wells, drilled in 2017, was a vertical well.
- 19:55, 6 April 2021 diff hist +218 N File:Figure5MancosCommRept.jpg Production from two Mancos wells drilled in 2019. The well on the left (A) is designated as a gas well by the New Mexico Oil and Gas Conservation Division whereas the well on the right (B) is designated as an oil well.
- 19:43, 6 April 2021 diff hist +1,548 N EMD Tight Oil & Gas Committee 2020-21 Annual Report Created page with "center|800px ''PLEASE NOTE THAT THIS ANNUAL REPORT IS UNDER DEVELOPMENT. AS PORTIONS OF THE REPORT ARE COMPLETED, THEY WILL BE..."
- 22:15, 5 April 2021 diff hist +82 Main Page
- 22:14, 5 April 2021 diff hist 0 N File:MainPageM115CH02FG02.jpg current
- 22:11, 5 April 2021 diff hist 0 N File:MainPageFigure1AustinChalk2019-20CommRept.jpg current
- 22:02, 5 April 2021 diff hist -6 Austin Chalk, Tokio, and Eutaw Formations, U.S. Onshore Gulf Coast (USGS)
- 21:57, 5 April 2021 diff hist +190 Austin Chalk, Tokio, and Eutaw Formations, U.S. Onshore Gulf Coast (USGS)
- 21:51, 5 April 2021 diff hist +5,595 N Austin Chalk, Tokio, and Eutaw Formations, U.S. Onshore Gulf Coast (USGS) Created page with "'''By Justin E. Birdwell, U.S. Geological Survey, Denver, CO''' file:Figure1AustinChalk2019-20CommRept.jpg|500px|thumb|{{figure number|1}}Stratigraphic columns for Upper Cr..."
- 21:21, 5 April 2021 diff hist +264 N File:Figure3AustinChalk2019-20CommRept.jpg Conventional (left) and continuous (right) assessment unit boundaries determined as part of the 2019 USGS assessment of undiscovered, technically recoverable oil and gas resources in the Austin Chalk and related units in Texas and Louisiana. (Pitman et... current
- 21:13, 5 April 2021 diff hist +359 N File:Figure2AustinChalk2019-20CommRept.jpg Austin Chalk production (combining Texas and Louisiana) from January 2010 through September 2020 in millions of barrels per day. Blue line shows the onset of increased production from the Austin due to the application of modern drilling methods and the... current
- 20:54, 5 April 2021 diff hist +332 N File:Figure1AustinChalk2019-20CommRept.jpg Stratigraphic columns for Upper Cretaceous rocks from South Texas to Mississippi (Pearson, 2012). Shows reservoir rocks (Austin Chalk, Tokio and Eutaw Formations outlined in red), source rocks (Eagle Ford Group and Smackover Formation - not shown), and... current
- 19:51, 5 April 2021 diff hist +370 EMD Tight Oil & Gas Committee 2019-20 Annual Report
- 19:50, 5 April 2021 diff hist +35 N File:Figure5 2019-20 Comm Rept.jpg Global tight oil and gas resources. current
- 19:44, 5 April 2021 diff hist +195 N File:Figure4 2019-20 Comm Rept.jpg Status of major U.S. tight oil & gas plays: Rig counts over the last 12 months according to Baker Hughes (oil wells in green, gas wells in red); https://rigcount.bakerhughes.com/na-rig-count. current
- 19:35, 5 April 2021 diff hist +209 EMD Tight Oil & Gas Committee 2019-20 Annual Report
- 19:34, 5 April 2021 diff hist +137 N File:Figure3 2019-20 Comm Rept.jpg Status of major U.S. tight gas plays. Data source: U.S. EIA, U.S. Tight gas production report (all y-axis values in billions of scf/day). current
- 19:03, 5 April 2021 diff hist 0 EMD Tight Oil & Gas Committee 2019-20 Annual Report
- 19:02, 5 April 2021 diff hist +210 EMD Tight Oil & Gas Committee 2019-20 Annual Report
- 18:57, 5 April 2021 diff hist +138 N File:Figure2 2019-20 Comm Rept.jpg Status of major U.S. tight oil plays. Data source: U.S. EIA, U.S. Tight oil production report (all y-axis values in millions of bbls/day). current
- 18:51, 5 April 2021 diff hist +268 EMD Tight Oil & Gas Committee 2019-20 Annual Report
- 18:40, 5 April 2021 diff hist +192 N File:Figure1 2019-20 Comm Rept.jpg U.S. total oil production forecasts. Solid lines indicate actual production, dashed lines show forecast production through the end of 2021. Data Source: U.S. Energy Information Administration. current
- 18:34, 5 April 2021 diff hist +8,516 N EMD Tight Oil & Gas Committee 2019-20 Annual Report Created page with "center|800px '''Committee Members''' Chair - Justin Birdwell, Government Representative (through October 2020) Vice-Chair - ..."
- 18:05, 5 April 2021 diff hist +8 EMD Tight Oil & Gas Committee 2018-19 Annual Report
- 18:03, 5 April 2021 diff hist +2,432 EMD Tight Oil & Gas Committee
- 18:01, 5 April 2021 diff hist +1,947 EMD Tight Oil & Gas Committee Annual Reports
- 17:53, 5 April 2021 diff hist +8 EMD Tight Oil & Gas Committee Annual Reports
- 17:50, 5 April 2021 diff hist +8 EMD Tight Oil & Gas Committee
- 17:49, 5 April 2021 diff hist 0 File:TightOilCommittee 2018-19 Figure1.jpg Molyneux uploaded a new version of "File:TightOilCommittee 2018-19 Figure1.jpg" current
- 01:53, 20 January 2021 diff hist +303 EMD Tight Oil & Gas Committee 2018-19 Annual Report
- 01:48, 20 January 2021 diff hist +45 N File:TightOilCommittee 2018-19 Figure2.jpg Monthly dry shale gas production (EIA, 2019). current
- 01:33, 20 January 2021 diff hist +53 EMD Tight Oil & Gas Committee Annual Reports
- 01:33, 20 January 2021 diff hist +53 EMD Tight Oil & Gas Committee
- 01:32, 20 January 2021 diff hist +1 m EMD Tight Oil & Gas Committee 2018-19 Annual Report
- 01:32, 20 January 2021 diff hist +5,584 N EMD Tight Oil & Gas Committee 2018-19 Annual Report Created page with "center '''Committee Members''' Chair - Ursula Hammes, Hammes Energy & Consultants, Austin, TX Vice-Chair - Brian Cardott, Okla..."
- 01:18, 20 January 2021 diff hist 0 N File:TightOilCommittee 2018-19 Figure1.jpg
- 23:53, 19 January 2021 diff hist 0 N File:Shale-Gas-Discussion-Group-hero.jpg current
- 23:47, 19 January 2021 diff hist +845 N EMD Tight Oil & Gas Committee Annual Reports Created page with "Brief text as background to the Committee's Annual Reports needs to go here. ==See also== * Energy Minerals Division * EMD Bitumen/Heavy Oil Committee * EMD Coal ..."
- 23:42, 19 January 2021 diff hist +1,614 N EMD Tight Oil & Gas Committee Created page with "The EMD Tight Oil and Gas Committee (formerly the Shale Gas & Liquids and Tight Gas Sands Committees) provides AAPG members with an outlet for technical information related to..."
- 23:39, 19 January 2021 diff hist +2,129 N Energy Minerals Division Created page with "The Energy Minerals Division (EMD) is one of three divisions of the American Association of Petroleum Geologists (AAPG), the largest professional association of geoscientists ..." current
- 04:04, 31 July 2020 diff hist +2 Seal capacity →See also
- 04:03, 31 July 2020 diff hist -2 Seal capacity →See also
- 22:14, 23 January 2019 diff hist +4 Faults: structural geology
- 22:04, 23 January 2019 diff hist +8 Depositional environments
- 22:03, 23 January 2019 diff hist +40 Sandstone sedimentology and stratigraphy
- 22:02, 23 January 2019 diff hist +4 Subduction zone
- 22:01, 23 January 2019 diff hist +4 Strain partitioning current
- 22:01, 23 January 2019 diff hist +20 Sandstone
- 22:00, 23 January 2019 diff hist +4 Reservoir
- 22:00, 23 January 2019 diff hist +4 Cuba: Geologic history current
- 21:59, 23 January 2019 diff hist +8 Sandstone permeability prediction from texture
- 21:48, 23 January 2019 diff hist +20 Predicting sandstone reservoir porosity
- 21:42, 23 January 2019 diff hist +12 Influence of depositional environment on sandstone diagenesis
- 21:40, 23 January 2019 diff hist +8 Hydrology and sandstone diagenesis
- 21:40, 23 January 2019 diff hist +8 Sandstone diagenesis: composition and texture
- 21:39, 23 January 2019 diff hist +8 Sandstone diagenetic processes
- 20:47, 23 January 2019 diff hist +4 Displacement pressure estimation from sedimentary facies and well logs
- 20:46, 23 January 2019 diff hist +8 Diagenesis: information from petrology
- 20:45, 23 January 2019 diff hist +8 SEM, XRD, CL, and XF methods
- 20:45, 23 January 2019 diff hist +4 Wettability
- 20:40, 23 January 2019 diff hist +8 Thin section analysis
- 20:28, 23 January 2019 diff hist +16 Rock-water reaction: formation damage
- 20:28, 23 January 2019 diff hist +4 Diagenetically complex reservoir evaluation
- 20:26, 23 January 2019 diff hist +8 Reservoir quality
- 20:26, 23 January 2019 diff hist +12 Quick-look lithology from logs
- 20:25, 23 January 2019 diff hist +12 Log analysis: lithology
- 20:24, 23 January 2019 diff hist +12 Scanning electron microscopy (SEM) current
- 20:23, 23 January 2019 diff hist +16 Rock-water reaction
- 20:22, 23 January 2019 diff hist +4 Capillary pressure
- 20:21, 23 January 2019 diff hist +515 Quartz current
- 20:20, 23 January 2019 diff hist +616 N File:M109CH01Monocrystalline.jpg Lower Cretaceous Travis Peak Formation, Eastland County, Texas, Monocrystalline quartz grain with exceptionally abundant vacuoles (probably liquid-filled inclusions) and semicomposite extinction (Krynine’s “hydrothermal” quartz). Such vacuole-ric... current
- 20:07, 23 January 2019 diff hist +7,892 N Quartz Created page with "{{publication | image = M109pc1250.jpg | width = 120px | series = Memoir | title = A Color Guide to the Petrography of Sandstones, Siltstones, Shales, and Associat..."
- 20:07, 23 January 2019 diff hist +514 N File:M109CH01Polychristalline.jpg Triassic Sherwood Sandstone Group, County Antrim, Northern Ireland, U.K., a polycrystalline quartz grain of metamorphic origin. The grain has sutured internal boundaries between composite crystals and a preferential alignment of the constituent crystal... current
- 19:24, 23 January 2019 diff hist +437 N File:M109CH01FG01.jpg Plot of modern beach sands and their source terranes shows how the amount of nonundulatory, undulatory, and polycrystalline quartz grains and the number of crystals in polycrystalline grains can help determine quartz provenance (from [[Quartz|Basu et a... current
- 18:14, 23 January 2019 diff hist +321 N File:M109Quartz300dpi.jpg Quartz crystals with adularia (orthoclase) from Dona Anna Co., New Mexico. Photograph courtesy of the New Mexico Bureau of Geology and Mineral Resources. From AAPG Memoir 109—A Color Guide to the Petrography of Sandstones, Siltstones, Shales, and Ass... current
- 21:06, 22 January 2019 diff hist +1 Petroleum system naming
- 21:01, 22 January 2019 diff hist +4,181 Thelma field
- 15:28, 22 January 2019 diff hist +369 N File:M115CH11FG10.jpg Thelma area preproduction formation pressure distribution illustrating different free water levels on a common aquifer pressure gradient that is overpressured by 1272 psi above hydrostatic. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine F... current
- 15:27, 22 January 2019 diff hist +366 N File:M115CH11FG09.jpg Thelma area well correlation illustrating the distribution of free water levels (horizontal dashed blue lines), intraformational seals, and the resultant compartmentalization of regions. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan ... current
- 15:27, 22 January 2019 diff hist +339 N File:M115CH11FG08.jpg Thelma area regions (Top Brae member depth structure map). Blue lines represent some of the various free water levels illustrated in Figure 9. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, ... current
- 15:26, 22 January 2019 diff hist +315 N File:M115CH11FG07.jpg Upper Jurassic isochron map of the Thelma area illustrating the presence of a Middle Jurassic structural high under the Central region. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, Nor... current
- 15:25, 22 January 2019 diff hist +304 N File:M115CH11FG06.jpg T-Block Upper Jurassic isochron map illustrating graben complexity and distribution of depocenters (development wells only). From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [ht... current
- 15:22, 22 January 2019 diff hist +250 N File:M115CH11FG05.jpg Simplified T-Block stratigraphy. Long. Sh. = Longicornis shale member. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 15:21, 22 January 2019 diff hist +426 N File:M115CH11FG04.jpg Geoseismic cross section through Thelma illustrating the Thelma free water level relative to the independent four-way dip closure and the requirement for an additional trapping mechanism (line of section illustrated on Figure 2). From ... current
- 15:13, 22 January 2019 diff hist +250 N File:M115CH11FG03.jpg Summary of the “Brae Play” (Fraser et al., 2003). From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 15:12, 22 January 2019 diff hist +229 N File:M115CH11FG02.jpg Thelma area: Base Cretaceous depth structure map. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 15:10, 22 January 2019 diff hist +2,207 Thelma field
- 15:10, 22 January 2019 diff hist +249 N File:M115CH11FG01.jpg T-Block location map (only development wells are shown on Figure 1B). From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, North Sea, [http://store.aapg.org/detail.aspx?id=1301 Chapter 11]. current
- 23:54, 17 January 2019 diff hist +23 South Viking Graben
- 22:36, 17 January 2019 diff hist +11,431 N Thelma field Created page with "{{publication | image = M115pc1301.jpg | width = 120px | series = Memoir | title = Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Vikin..."
- 22:29, 17 January 2019 diff hist +19 South Viking Graben →See also
- 22:28, 17 January 2019 diff hist +19 Kingfisher field →See also
- 22:19, 17 January 2019 diff hist +4,062 Kingfisher field
- 19:13, 17 January 2019 diff hist +619 Kingfisher field
- 18:44, 17 January 2019 diff hist +541 N File:M115CH10FG05.jpg Simplified schematic map showing the depositional extent of the (A) South Brae and (B) North Brae submarine fan lobes within the Brae depositional system. Note that the South Brae and North Brae submarine fans correspond to the Brae 2 and Brae 1 interv... current
- 18:43, 17 January 2019 diff hist +500 N File:M115CH10FG04.jpg Summary stratigraphic column showing the lithostratigraphic and sequence stratigraphic units and maximum flooding surfaces used to subdivide and correlate within the Brae sandstone member in the area of the Kingfisher field. Also shown are the BP genet... current
- 18:42, 17 January 2019 diff hist +493 N File:M115CH10FG03.jpg Schematic geological cross section through the Brae submarine fan system from the proximal South Brae area on the margins of the Fladen Ground Spur through the Miller field area to the distal margin near the Kingfisher field 15 km (9 mi) to the northea... current
- 18:38, 17 January 2019 diff hist +588 N File:M115CH10FG02.jpg Top Brae reservoir depth structure map showing the location of the exploration, appraisal, and production wells. Also shown is the 13,100 ft (3993 m) TVDSS depth contour corresponding to the gas–water contact at the top of the Brae 1 reservoir interv... current
- 18:33, 17 January 2019 diff hist +11,810 N Kingfisher field Created page with "{{publication | image = M115pc1301.jpg | width = 120px | series = Memoir | title = Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Vikin..."
- 18:33, 17 January 2019 diff hist +341 N File:M115CH10FG01.jpg Location map of the Kingfisher field in UKCS Blocks 16/8a and 16/8d showing the nearby producing Brae area fields and discoveries within the South Viking Graben. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play... current
- 16:15, 17 January 2019 diff hist +18 South Viking Graben →See also
- 22:57, 15 January 2019 diff hist 0 South Viking Graben →Rift geometry and geographic limits
- 22:56, 15 January 2019 diff hist 0 South Viking Graben
- 22:55, 15 January 2019 diff hist +1,776 South Viking Graben
- 23:14, 10 January 2019 diff hist +1,481 South Viking Graben
- 22:10, 10 January 2019 diff hist +3,472 South Viking Graben
- 21:53, 10 January 2019 diff hist +314 N File:M115CH02FG06.jpg West-east seismic section across the Central Viking Graben. Location shown on Figures 1 and 2. Courtesy of PGS. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Viking Graben, Nor... current
- 21:50, 10 January 2019 diff hist +375 N File:M115CH02FG05.jpg West-northwest–east-southeast seismic section across the South Viking Graben, through the East Brae and Gudrun fields. Location shown on Figures 1, 2, 3. Courtesy of PGS. From AAPG Memoir 115—Rift-Related Coarse-Grained Subm... current
- 21:45, 10 January 2019 diff hist +1,788 South Viking Graben
- 21:44, 10 January 2019 diff hist 0 File:M115CH02FG04.jpg Molyneux uploaded a new version of "File:M115CH02FG04.jpg" current
- 21:34, 10 January 2019 diff hist +336 N File:M115CH02FG04.jpg West-east seismic section across the South Viking Graben, through Sycamore field. Location shown on Figures 1, 2, 3. Courtesy of PGS. From AAPG Memoir 115—Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, So...
- 21:29, 10 January 2019 diff hist +1,269 N File:M115CH02FG03.jpg Main structural elements of the South Viking Graben and its flanks. The extent of the thick Middle-Upper Jurassic graben fill is defined by the limits of the KCF-Draupne Formation. Unshaded areas on the Fladen Ground Spur and Utsira High have pre-Upper... current
- 20:31, 10 January 2019 diff hist +448 South Viking Graben
- 20:30, 10 January 2019 diff hist +509 N File:M115CH02FG02.jpg 3-D structural image of the South Viking Graben and southern part of the Central Viking Graben at Base Cretaceous level, viewed from the southeast. Location of image shown in Figure 1. Lines 1–3 are the locations of seismic li... current
- 19:36, 10 January 2019 diff hist +14,804 N South Viking Graben Created page with "{{publication | image = M115pc1301.jpg | width = 120px | series = Memoir | title = Rift-Related Coarse-Grained Submarine Fan Reservoirs: The Brae Play, South Vikin..."
- 19:31, 10 January 2019 diff hist +714 N File:M115CH02FG01.jpg Location of the South Viking Graben (SVG) (simplified from Fraser et al., 2003). Note that both the U.K. and Norway areas are divided into 1° x 1° Quadrants (numbered on map around the SVG), with each quadrant being subdivided... current
- 19:08, 10 January 2019 diff hist 0 N File:M115pc1301.jpg current
- 18:40, 10 January 2019 diff hist +1 Hammerfest basin current
- 18:37, 10 January 2019 diff hist +1 Hammerfest basin
- 18:33, 10 January 2019 diff hist +2,741 Hammerfest basin
- 23:53, 9 January 2019 diff hist +1 Hammerfest basin →Geological Setting
- 23:53, 9 January 2019 diff hist +6,831 Hammerfest basin
- 23:38, 8 January 2019 diff hist +12,271 Hammerfest basin
- 23:03, 8 January 2019 diff hist +1,673 N Hammerfest basin Created page with "{{publication | image = M114pc1285.jpg | width = 120px | series = Memoir | title = Petroleum Systems Analysis—Case Studies | part = | chapter = Application..."
- 23:03, 8 January 2019 diff hist +296 N File:M114CH10FG03.jpg Stratigraphy and main tectonic events of the Hammerfest Basin. TWT = two-way travel time. Modified from Ostanin et al. (2013), courtesy of Elsevier Ltd. From AAPG Memoir 114: Petroleum Systems Analysis—Case Studies, [[http://stor... current
- 23:02, 8 January 2019 diff hist +538 N File:M114CH10FG02.jpg Hydrocarbon filling and shows occurrence in the Hammerfest Basin, (A) underfilling (shown as vertical distance between the structural spillpoint and the hydrocarbon–water contact) and (B) shows to or deeper than the structural spillpoint (presented a... current
- 23:01, 8 January 2019 diff hist +238 N File:M114CH10FG01.jpg Location of the western Hammerfest Basin with main structural elements, gas discoveries, and seismic data coverage. From AAPG Memoir 114: Petroleum Systems Analysis—Case Studies, http://store.aapg.org/detail.aspx?id=1285 Chapter 10. current
- 22:50, 8 January 2019 diff hist +42 Silurian Qusaiba shales →See also current
- 22:50, 8 January 2019 diff hist -19 Llanos basin →See also current
- 22:50, 8 January 2019 diff hist +23 Barmer basin →See also current
- 22:49, 8 January 2019 diff hist +23 Llanos basin →See also
- 22:45, 8 January 2019 diff hist +2,583 Llanos basin
- 00:30, 8 January 2019 diff hist +6,895 Llanos basin
- 18:09, 7 January 2019 diff hist +611 N File:M114CH08FG02.jpg Schematic cross section of the Llanos Basin showing first the foreland monocline dipping westward and the main petroleum system elements, that is, the reservoirs, the potential source rocks, and the regional top seal. On the left, a stratigraphic colum... current
- 18:08, 7 January 2019 diff hist +359 N File:M114CH08FG01.jpg The bottom right insert presents the eastern forelands of the northern Andes in Colombia, the so-called Llanos Basin. The main map shows the topography, the fluvial system, the oil and gas seep occurrence, and the drilled well location. From AAPG Memoi... current
- 18:04, 7 January 2019 diff hist +13,730 N Llanos basin Created page with "{{publication | image = M114pc1285.jpg | width = 120px | series = Memoir | title = Petroleum Systems Analysis—Case Studies | part = | chapter = Fluid Flow ..."
- 18:00, 7 January 2019 diff hist +19 Barmer basin
- 22:49, 4 January 2019 diff hist +4 Barmer basin →Stratigraphy
- 22:43, 4 January 2019 diff hist +2 Barmer basin
- 22:43, 4 January 2019 diff hist +1,116 Barmer basin
- 21:33, 4 January 2019 diff hist +2,006 Barmer basin
- 19:52, 4 January 2019 diff hist +4,322 Barmer basin
- 18:33, 4 January 2019 diff hist +523 Silurian Qusaiba shales
- 18:18, 4 January 2019 diff hist +2,774 Barmer basin
- 17:50, 4 January 2019 diff hist +493 N File:M114CH03FG05.jpg Paleogeographic maps of the (A) main carrier horizon, lowermost Fatehgarh Formation (B) main source rock unit, the Sarovar Member of the Barmer Hill Formation, and (C) Giral Member of the Dharvi Dungar Formation. Dotted line indicates the approximate l... current
- 17:50, 4 January 2019 diff hist +338 N File:M114CH03FG04.jpg Summary stratigraphic compilation of the Barmer Basin in the context of petroleum systems showing the stratigraphic terminology used including the main source rocks, carrier beds, and generalized migration pathways. From AAPG Memoir 114: Petroleum Syst... current
- 17:49, 4 January 2019 diff hist +952 N File:M114CH03FG03.jpg Representative seismic sections with geological interpretation overlay illustrating the main aspects of basin structure. (A) North–south line A–A’. The shallow, inverted northern portion of the basin has never been buried as deeply as the south a... current
- 17:48, 4 January 2019 diff hist +538 N File:M114CH03FG02.jpg Depth-structure map constructed on top of the Fatehgarh Formation showing the main fields and important wells in the Barmer Basin together with the regional distribution of oil shows encountered in wells. See text for discussion of oil show classificat... current
- 17:46, 4 January 2019 diff hist +609 N File:M114CH03FG01.jpg Location of the Barmer Basin in the context of the onshore sedimentary basins in northwestern India displayed on a map of depth to top basement (red is shallow, blue is deep; color scales are generalized to reflect deep versus shallow depths to top of ... current
- 17:40, 4 January 2019 diff hist +14,523 N Barmer basin Created page with "{{publication | image = M114pc1285.jpg | width = 120px | series = Memoir | title = Petroleum Systems Analysis—Case Studies | part = | chapter = Hydrocarbon..."
- 17:33, 4 January 2019 diff hist +8 Silurian Qusaiba shales →See also
- 17:32, 4 January 2019 diff hist 0 Silurian Qusaiba shales
- 17:31, 4 January 2019 diff hist 0 Silurian Qusaiba shales →Petroleum systems
- 17:28, 4 January 2019 diff hist +26 Silurian Qusaiba shales →Petroleum systems
- 17:27, 4 January 2019 diff hist +1,114 Silurian Qusaiba shales
- 21:43, 31 December 2018 diff hist +2,374 Silurian Qusaiba shales
- 20:39, 31 December 2018 diff hist +201 N File:M114CH01FG04.jpg Petroleum systems of the Arabian Basin (modified after Cantrell et al., 2014). From AAPG Memoir 114: Petroleum Systems Analysis—Case Studies, http://store.aapg.org/detail.aspx?id=1285 Chapter 01. current
- 20:32, 31 December 2018 diff hist +3,360 Silurian Qusaiba shales
- 20:25, 31 December 2018 diff hist +242 N File:M114CH01FG03.jpg Sedimentary succession and generalized structure in the east-central Arabian Basin (modified from Konert et al., 2001). From AAPG Memoir 114: Petroleum Systems Analysis—Case Studies, http://store.aapg.org/detail.aspx?id=1285 Chapter 01. current
- 19:52, 31 December 2018 diff hist +1 File:M114CH01FG02.jpg current
- 19:51, 31 December 2018 diff hist +228 N File:M114CH01FG02.jpg Generalized pre-Mesozoic stratigraphic column for (A) northwest and (B) east-central Saudi Arabian Basin. From AAPG Memoir 114: Petroleum Systems Analysis—Case Studies, http://store.aapg.org/detail.aspx?id=1285 Chapter 01.
- 21:58, 28 December 2018 diff hist +188 Silurian Qusaiba shales
- 21:57, 28 December 2018 diff hist +10,348 Silurian Qusaiba shales
- 16:39, 28 December 2018 diff hist -1 File:M114CH01FG01.jpg current
- 16:39, 28 December 2018 diff hist -1 File:M114CH01FG01.jpg
- 16:39, 28 December 2018 diff hist +1 File:M114CH01FG01.jpg
- 16:38, 28 December 2018 diff hist -33 File:M114CH01FG01.jpg
- 16:37, 28 December 2018 diff hist -4 File:M114CH01FG01.jpg
- 16:36, 28 December 2018 diff hist +437 N File:M114CH01FG01.jpg Oil and gas fields in the Arabian Plate and distribution of Silurian Qusaiba shales beneath Hercynian unconformity (after Faqira et al., 2009). MA-I and MA-II show the two areas selected for a 2-D basin modeling study. The Unayzah fields contain oil so...
- 16:13, 28 December 2018 diff hist +641 N Silurian Qusaiba shales Created page with "{{publication | image = M114pc1285.jpg | width = 120px | series = Memoir | title = Petroleum Systems Analysis—Case Studies | part = | chapter = A petroleum..."
- 15:23, 28 December 2018 diff hist +27 N File:M114pc1285.jpg AAPG Memoir 114 Front Cover current
- 22:15, 12 July 2016 diff hist +1,364 Iran petroleum systems
- 20:31, 12 July 2016 diff hist +24,891 Iran petroleum systems
- 19:40, 12 July 2016 diff hist +460 N File:M106Ch14Fig12.jpg Cumulative isopach map from the base of the Kazhdumi Formation (Albian) to the top of the Mishan Formation (Middle Miocene) indicating the regional highs as they appear before the Zagros folding. 100 km (62.1 mi). From M. L. Bordenave, 2014, Petroleum ... current
- 19:35, 12 July 2016 diff hist +455 N File:M106Ch14Fig14.jpg Isopachs of the source rocks developed in the lower part of the Garau Formation (after Bordenave and Huc, 1995). Regional highs close to the Mesopotamian depression area are also indicated. 100 km (62.1 mi). From M. L. Bordenave, 2014, Petroleum System... current
- 18:44, 12 July 2016 diff hist +791 N File:M106Ch14Fig13.jpg Cumulative isopach map from the top of the Hith Anhydrite to the top of the Mishan Formation indicating the geometry of the Arab reservoir before the Zagros folding, together with the isopach map of the Hanifa–Tuwaiq Mountain and Diyab source rocks (... current
- 18:36, 12 July 2016 diff hist +507 N File:M106Ch14Fig11.jpg Paleogeography reconstruction during the Middle Jurassic and distribution of the Sargelu source rocks in the Mesopotamian depression (after Bordenave and Huc, 1995). Regional highs close to the Mesopotamian depression area are also indicated. 100 km (6... current
- 18:19, 12 July 2016 diff hist +470 N File:M106Ch14Fig07.jpg Pre-Triassic stratigraphy: 1) in Saudi Arabia, modified after McGillivray and Husseini (1992); 2) in the High Zagros, Iran, from Zardeh Kuh to Kuh-e Faraghan (data from Setudehnia, 1973; Huber, 1978; Ghavidel Syooki, 2003). From M. L. Bordenave, 2014, ... current
- 18:17, 12 July 2016 diff hist +655 N File:M106Ch14Fig05.jpg Schematic stratigraphy and source rock-reservoir-seal relationship for the Dezful embayment and neighboring areas. Main source rocks are indicated by green flags and marginal ones by white flags. Reservoirs (Res), seals, tectonic phases (Tect), and lat... current
- 18:08, 12 July 2016 diff hist +364 N File:M106Ch14Fig02.jpg Location map of oil and gas fields in the Zagros Foothills and contiguous offshore (after Bordenave and Hegre, 2005). From M. L. Bordenave, 2014, Petroleum Systems and Distribution of the Oil and Gas Fields in the Iranian Part of the Tethyan Region, in... current
- 18:05, 12 July 2016 diff hist +423 N File:M106Ch14Fig01.jpg General location map of the Middle East region; the boxed area shows the location of Figure 2. Permian outcrops surrounding the Arabian shield are indicated. 200 km (124.3 mi). From M. L. Bordenave, 2014, Petroleum Systems and Distribution of the Oil a... current
- 17:01, 12 July 2016 diff hist +62 Jordan petroleum geology →See also
- 17:01, 12 July 2016 diff hist +29 Petroleum basins of Turkey →See also
- 17:00, 12 July 2016 diff hist +62 Tethys region →See also
- 17:00, 12 July 2016 diff hist +62 Libya hydrocarbon provinces →See also
- 16:59, 12 July 2016 diff hist +62 Israel petroleum systems →See also
- 16:58, 12 July 2016 diff hist +62 Phanerozoic Tethys region →See also
- 16:56, 12 July 2016 diff hist +29 Iraq petroleum geology
- 16:56, 12 July 2016 diff hist +1,023 N Iran petroleum systems Created page with "{{publication | image = M106_cover_proof.jpg | series = AAPG Memoir | title = Petroleum systems of the Tethyan region | part = | chapter = Petroleum systems and..."
- 13:56, 12 July 2016 diff hist +762 Petroleum basins of Turkey →Adana basin
- 13:54, 12 July 2016 diff hist +17 Petroleum basins of Turkey →Adana basin
- 13:14, 7 July 2016 diff hist +2,546 Petroleum basins of Turkey
- 22:16, 6 July 2016 diff hist -52 Petroleum basins of Turkey →Adana basin
- 22:14, 6 July 2016 diff hist +7,524 Petroleum basins of Turkey
- 22:14, 5 July 2016 diff hist +42,476 N Petroleum basins of Turkey Created page with "{{publication | image = M106_cover_proof.jpg | series = AAPG Memoir | title = Petroleum systems of the Tethyan region | part = | chapter = Petroleum systems of ..."
- 20:03, 5 July 2016 diff hist +383 N File:M106Ch13Fig11.jpg Simplified geological map of the Adana Neogene Basin. Misis structural trend divides the basin into two parts: Adana and İskenderun subbasins (redrawn from Derman and Gürbüz, 2007). 10 km (6.2 mi). From Derman, Ahmet Sami, 2014, Petroleum systems of... current
- 20:01, 5 July 2016 diff hist +253 N File:M106Ch13Fig07.jpg Chronostratihraphic chart of Thrace Basin (redrawn from Siyako, 2005). From Derman, Ahmet Sami, 2014, Petroleum systems of Turkish Basins, in L. Marlow, C. Kendall, and L. Yose, eds., Petroleum systems of the Tethyan region: AAPG Memoir 106, p. 469-504. current
- 19:45, 5 July 2016 diff hist -1 Iraq petroleum geology →See also
- 19:34, 5 July 2016 diff hist +1,739 N File:M106Ch13Fig02.jpg Main structural elements of Turkey and their relation with the sedimentary basins. Offshore areas are not adequately explored yet, so scarcity of data is the result of absence of subsurface data. Petroleum fields are marked as green and gas fields are ... current
- 19:29, 5 July 2016 diff hist +610 N File:M106Ch13Fig01.jpg Tectonic map showing the continental fragments involved in the evolution of Turkey as proposed by Şengör and Yilmaz (1981). In this scheme various belts have been recognized and described which correspond to either a continental block or a suture zon... current
- 19:23, 5 July 2016 diff hist +4 Iraq petroleum geology
- 19:20, 5 July 2016 diff hist +34 Iraq petroleum geology
- 18:54, 5 July 2016 diff hist +40 Main Page
- 18:51, 5 July 2016 diff hist +30 N File:MainPageIraqPetroleumGeology.jpg Category:Main page images current
- 18:35, 5 July 2016 diff hist +3,935 Iraq petroleum geology
- 23:42, 29 June 2016 diff hist +6,848 Iraq petroleum geology
- 21:40, 27 June 2016 diff hist +1,974 Iraq petroleum geology
- 20:46, 27 June 2016 diff hist +6,320 Iraq petroleum geology
- 19:59, 24 June 2016 diff hist +5,552 Iraq petroleum geology
- 16:55, 24 June 2016 diff hist +48 Main Page
- 21:02, 20 May 2016 diff hist +1,749 Iraq petroleum geology
- 21:55, 19 May 2016 diff hist +1,161 Iraq petroleum geology
- 20:20, 19 May 2016 diff hist +5,430 Iraq petroleum geology
- 15:44, 19 May 2016 diff hist +1,260 Iraq petroleum geology
- 15:34, 19 May 2016 diff hist +3,328 Iraq petroleum geology
- 16:54, 18 May 2016 diff hist +4,474 Iraq petroleum geology
- 16:54, 13 May 2016 diff hist +3,169 Iraq petroleum geology
- 22:23, 12 May 2016 diff hist +990 Iraq petroleum geology
- 21:30, 12 May 2016 diff hist +2,641 Iraq petroleum geology
- 17:30, 12 May 2016 diff hist +7,138 Iraq petroleum geology
- 16:10, 12 May 2016 diff hist +627 Iraq petroleum geology
- 15:42, 12 May 2016 diff hist +527 N File:M106Ch12Table4d.jpg List of reservoir name, age, and strata type, and seal name and strata type, for oil and gas fields that have not been produced. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale,... current
- 15:42, 12 May 2016 diff hist +527 N File:M106Ch12Table4c.jpg List of reservoir name, age, and strata type, and seal name and strata type, for oil and gas fields that have not been produced. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale,... current
- 15:41, 12 May 2016 diff hist +527 N File:M106Ch12Table4b.jpg List of reservoir name, age, and strata type, and seal name and strata type, for oil and gas fields that have not been produced. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale,... current
- 15:41, 12 May 2016 diff hist +527 N File:M106Ch12Table4a.jpg List of reservoir name, age, and strata type, and seal name and strata type, for oil and gas fields that have not been produced. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale,... current
- 15:41, 12 May 2016 diff hist +527 N File:M106Ch12Table4.jpg List of reservoir name, age, and strata type, and seal name and strata type, for oil and gas fields that have not been produced. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale,... current
- 15:36, 12 May 2016 diff hist +684 N File:M106Ch12Table3b.jpg List of reservoir name, age, and strata type, and seal name and strata type, for fields that have produced oil and gas. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale, argillac... current
- 15:36, 12 May 2016 diff hist +684 N File:M106Ch12Table3a.jpg List of reservoir name, age, and strata type, and seal name and strata type, for fields that have produced oil and gas. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale, argillac... current
- 15:35, 12 May 2016 diff hist +684 N File:M106Ch12Table3.jpg List of reservoir name, age, and strata type, and seal name and strata type, for fields that have produced oil and gas. Reservoir strata type: carbonate and sandstone. Seal strata type: evaporite, argillaceous limestone (arg limestone), shale, argillac... current
- 15:30, 12 May 2016 diff hist +1,203 N File:M106Ch12Table2c.jpg List of oil and gas fields and wells with oil and/or gas shows. Field number refers to locations shown in Figure 3 of Iraq petroleum geology. Hydrocarbon type: oil, gas, or oil and gas. Structural province refers to regions shown in Figure 3 of Iraq pe... current
- 15:30, 12 May 2016 diff hist +1,203 N File:M106Ch12Table2b.jpg List of oil and gas fields and wells with oil and/or gas shows. Field number refers to locations shown in Figure 3 of Iraq petroleum geology. Hydrocarbon type: oil, gas, or oil and gas. Structural province refers to regions shown in Figure 3 of Iraq pe... current
- 15:29, 12 May 2016 diff hist +1,215 N File:M106Ch12Table2a.jpg List of oil and gas fields and wells with oil and/or gas shows. Field number refers to locations shown in Figure 3 of Iraq petroleum geology. Hydrocarbon type: oil, gas, or oil and gas. Structural province refers to regions shown in Figure 3 of [[I... current
- 15:28, 12 May 2016 diff hist 0 File:M106Ch12Table2.jpg current
- 15:28, 12 May 2016 diff hist +14 File:M106Ch12Table2.jpg
- 15:19, 12 May 2016 diff hist +6,329 Iraq petroleum geology
- 15:17, 12 May 2016 diff hist +1,201 N File:M106Ch12Table2.jpg List of oil and gas fields and wells with oil and/or gas shows. Field number refers to locations shown in Figure 3 of Iraq petroleum geology. Hydrocarbon type: oil, gas, or oil and gas. Structural province refers to regions shown in Figure 3 of [[I...
- 13:59, 12 May 2016 diff hist +452 N File:M106Ch12Fig06.jpg nterpretation from megaseismic line 7 (reproduced from Mohammed, 2007 (see Iraq petroleum geology for reference, by permission from GeoArabia), which extends from the Arabian platform of southwestern Iraq across the Mesopotamian Foredeep to the Zag... current
- 13:57, 12 May 2016 diff hist +382 N File:M106Ch12Fig05.jpg Regional geologic cross section which extends NE across western Iraq, from the Arabian platform at the border with Jordan, across the Mesopotamian Foredeep and Zagros foldbelt in northwestern Iraq, and ending in adjacent Turkey. From Grabowski Jr., G. ... current
- 13:57, 12 May 2016 diff hist +460 N File:M106Ch12Fig03.jpg Map of tectonic provinces of Iraq, showing major structural features. Fields and significant wells with oil and/or gas shows are shown; numbers refer to Tables 1–5 in Iraq petroleum geology. Red lines are approximate locations of stratigraphic ch... current
- 13:55, 12 May 2016 diff hist +441 N File:M106Ch12Fig04.jpg Regional geologic cross section, which extends NE across central Iraq, from the Arabian platform of southwestern Iraq, at the border with Saudi Arabia, across the Mesopotamian Foredeep and Zagros foldbelt in eastern Iraq and adjacent Iran, and ending a... current
- 13:41, 12 May 2016 diff hist +9,698 Iraq petroleum geology
- 20:28, 11 May 2016 diff hist +2,600 Iraq petroleum geology
- 20:26, 11 May 2016 diff hist +606 N File:M106Ch12Fig02.jpg Bouguer gravity (right) and total magnetic field (left) maps of Iraq, from Jassim and Goff (2006), compiled by GEOSURV. The gravity map shows low values in the Zagros foldbelt and Mesopotamian foredeep due to the thick sedimentary section. Orientations... current
- 20:20, 11 May 2016 diff hist +4,114 N Iraq petroleum geology Created page with "{{publication | image = M106_cover_proof.jpg | series = AAPG Memoir | title = Petroleum systems of the Tethyan region | part = | chapter = Iraq | frompg = 379..."
- 20:19, 11 May 2016 diff hist +29 Phanerozoic Tethys region →See also
- 20:18, 11 May 2016 diff hist +29 Israel petroleum systems →See also
- 20:18, 11 May 2016 diff hist +29 Libya hydrocarbon provinces →See also
- 20:18, 11 May 2016 diff hist +29 Tethys region →See also
- 20:17, 11 May 2016 diff hist +29 Jordan petroleum geology →See also
- 20:15, 11 May 2016 diff hist +288 N File:M106Ch12Fig01.jpg Topographic map of Iraq, showing major cities and rivers, along with major oil and gas fields. Points of high elevation are indicated. From Grabowski Jr., G. J., 2014, Iraq, in L. Marlow, C. Kendall, and L. Yose, eds., Petroleum systems of the Tethyan ... current
- 14:25, 9 May 2016 diff hist +182 Source rock
- 15:02, 5 May 2016 diff hist +41 Main Page
- 15:01, 5 May 2016 diff hist +30 N File:MainPageAppalachianBasinMarcellusGasPlay.jpg Category:Main page images current
- 14:58, 5 May 2016 diff hist +29 m File:MainPageYowlumnefield.jpg added Category:Main page images using HotCat current
- 14:57, 5 May 2016 diff hist 0 N File:MainPageYowlumnefield.jpg
- 17:22, 20 April 2016 diff hist +8 Main Page
- 17:20, 20 April 2016 diff hist +30 N File:MainPageLibyaHydrocarbonProvinces.jpg Category:Main page images current
- 17:20, 20 April 2016 diff hist +29 m File:MainPageJordanPetroleumGeology.jpg added Category:Main page images using HotCat current
- 17:18, 20 April 2016 diff hist 0 N File:MainPageJordanPetroleumGeology.jpg
- 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
- 20:27, 18 February 2016 diff hist +28 Phanerozoic Tethys region →Aptian (about 120 Ma)
- 20:27, 18 February 2016 diff hist +385 N File:M106Ch01Fig09.jpg Global paleogeography (top) and major depositional settings in the southern margin of the Tethys (below) during Aptian time (about 120 Ma). From F. Berra and L. Angiolini, 2014, The evolution of the Tethys region throughout the Phanerozoic: A brief tec... current
- 20:24, 18 February 2016 diff hist +28 Phanerozoic Tethys region →Callovian (about 164 Ma)
- 20:24, 18 February 2016 diff hist +388 N File:M106Ch01Fig08.jpg Global paleogeography (top) and major depositional settings in the southern margin of the Tethys (below) during Callovian time (about 164 Ma). From F. Berra and L. Angiolini, 2014, The evolution of the Tethys region throughout the Phanerozoic: A brief ... current
- 20:20, 18 February 2016 diff hist +28 Phanerozoic Tethys region →Norian (about 205 Ma)
- 20:18, 18 February 2016 diff hist +385 N File:M106Ch01Fig07.jpg Global paleogeography (top) and major depositional settings in the southern margin of the Tethys (below) during Norian time (about 205 Ma). From F. Berra and L. Angiolini, 2014, The evolution of the Tethys region throughout the Phanerozoic: A brief tec... current
- 20:16, 18 February 2016 diff hist +28 Phanerozoic Tethys region →Permian-Triassic Boundary (251 Ma)
- 20:15, 18 February 2016 diff hist +411 N File:M106Ch01Fig06.jpg Global paleogeography (top) and major depositional settings in the southern margin of the Tethys (below) at the time of the Permian-Triassic boundary (about 251 Ma). From F. Berra and L. Angiolini, 2014, The evolution of the Tethys region throughout th... current
- 18:25, 18 February 2016 diff hist 0 File:M106IntroFig01.jpg Molyneux uploaded a new version of "File:M106IntroFig01.jpg" current
- 23:59, 17 February 2016 diff hist -383 Phanerozoic Tethys region