1. Petroleum System

2. Sedimentary Basin
Sedimentary Basin studies investigate the geohistory of a particular basin, including its tectonic history and associated structural styles, the depositional history and resulting stratigraphic section, the burial history of the sediments, and thermal history of the strata (modified from Magoon and Dow, 1994).
Definition after Magoon and Dow (1994): Sedimentary Basin is a depression filled with sedimentary rocks.

3. Petroleum System
Petroleum System studies characterize and model the genetic relationship between an active source rock and the resulting oil and gas accumulation (modified from Magoon and Dow, 1994).

4. Petroleum Play
Petroleum Play analysis describes the present-day geologic similarity that characterizes a play such as a a particular petroleum trap or reservoir (modified from Magoon and Dow, 1994).

5. Prospect
Prospect evaluations detail the individual petroleum trap or reservoir, including economic aspects and technology considerations (modified from Magoon and Dow, 1994).

6. Elements of Petroleum System (Magoon and Dow (1994)
Geographic Extent: Includes the Active Source Rock and Petroleum Shows, Seeps, and Discoveries Encompassed in a Defined Area at a Certain Time (Critical Moment). Illustrated with Plan Map.
Stratigraphic Extent and Components: Underburden, Source, Reservoir, Seal, and Overburden Rocks. Illustrated with Geologic Cross Section.
Temporal Events: Sediment Deposition (Source, Reservoir, Seal, and Overburden Rocks), Trap Formation, Oil and Gas Generation, Expulsion, Migration, Accumulation, and Preservation, and Critical Moment. Shown with Events Chart.

7. Critical Moment
Critical Moment is the point in time that best depicts the generation-expulsion-migration-accumulation of most hydrocarbons in a given petroleum system (modified from Magoon and Dow, 1994).

8. Upper Jurassic Petroleum Systems of the World (Klemme, 1994)
Fourteen petroleum systems, as recognized, contain one fourth of the world’s discovered oil and gas.
Oxfordian Smackover Formation of the Gulf of Mexico Ranks Fourth as to the Estimated Hydrocarbons Available in the Classification of UJ Petroleum Systems.

9. Upper Jurassic Smackover Petroleum System (Claypool and Mancini, 1989)
Source of Much of Discovered Oil and Gas in Gulf of Mexico.
Source for Smackover Reservoirs.
Source for Other Upper Jurassic Reservoirs.
Source for Some Lower and Upper Cretaceous Reservoirs.
Potential Source for Some Paleogene Reservoirs.

10. Events Chart for Smackover Petroleum System in the NLSB
From Mancini et al., 2008

11. Smackover Chromatogram
Lake Como Field, Jasper Co, MS.
From Mancini et al., 2001 11

12. Hosston Chromatogram Free State Field, Jones Co, MS.
From Mancini et al., 2001 12

13. Washita Chromatogram Main Pass 253 Field, OCS
From Mancini et al., 2001 13

14. Biomarkers Histogram
Steranes
From Mancini et al., 2001 14

15. Biomarkers Histogram
Terpanes
From Mancini et al., 2001 15

16. Tertiary, UK, and UJ Source Rocks in MS and LA (Sassen, 1990)
Paleogene Shale Beds Are Source Rocks in Southern LA and Offshore GOM.
Upper Cretaceous Tuscaloosa Shale Beds Are Source Rocks in MS and LA.
Upper Jurassic Smackover Lime Mudstone Beds Are Source Rocks in MS and LA.

17. Paleogene Source Rocks in TX (Rowan et al., 2007)
Paleocene-Eocene Wilcox Shale Beds Are Source Rocks in TX.
Kerogen in Wilcox Shale Beds Generated Oil and Gas

18. Petroleum System Characterization and Modeling
Burial or Geohistory Plot or Chart
Oil and Gas Expulsion Plot
Hydrocarbon Migration Pathway Sections

19. Gulf Coast Interior Salt Basins
From Mancini and Puckett, 2005

20. North Louisiana Salt Basin, Cross Sections and Well Locations
From Mancini et al., 2008

21. NLSB Basin Cross Section C-C’
From Mancini et al., 2008
VE: 29X

22. Burial History Profile, NLSB Downdip
From Li, 2006

23. NLSB Smackover Source Rocks
Lower and Middle Lime Mudstone Beds
Measured present-day TOC average of 0.58%
Calculated original TOC average of 1.00%
Measured present-day TOC high range of 8.42%
Microbial-amorphous kerogen type
Range of Ro of <0.5 to >2.6% 23

24. Model Calibration
%Ro (measured)
From Li, 2006

25. Thermal Maturation History Profile, NLSB Downdip
From Li, 2006

26. Hydrocarbon Expulsion Plot, NLSB Downdip
From Li, 2006

27. SMK Hydrocarbon Expulsion
Peak Oil
Peak Gas
To adjust for the loss of organic carbon due to thermal maturation process, the original TOC values in the study area were estimated according to the method of Daly and Edman (1987) for thermal maturation modeling. The results show that original TOC was reduced by times during the thermal maturity process.
From Li, 2006

28. Bossier Hydrocarbon Expulsion
Mancini et al., 2008

29. Location Map of Seismic Sections
From Mancini et al., 2008

30. Geologic Model, NW-SE Section
From Mancini et al., 2008

31. SMK Oil Migration, NW-SE Section
From Mancini et al., 2008

32. SMK Gas Migration, NW-SE Section
From Mancini et al., 2008

33. NLSB Thermal Maturation
From Mancini et al., 2008