Difference between revisions of "Example: mapping depocenters through time"

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file:sedimentary-basin-analysis_fig4-8.png|{{figure number|3}}Traditional regional cross section showing highly deformed salt rooted within the in-place Middle Jurassic mother salt. Modified after Antoine et al. (1974);{{citation needed}} courtesy Springer Verlag.
 
file:sedimentary-basin-analysis_fig4-8.png|{{figure number|3}}Traditional regional cross section showing highly deformed salt rooted within the in-place Middle Jurassic mother salt. Modified after Antoine et al. (1974);{{citation needed}} courtesy Springer Verlag.
 
file:sedimentary-basin-analysis_fig4-9.png|{{figure number|4}}More recent model of salt deformation recognizing both 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 (1993);{{citation needed}}; courtesy Gulf Coast SEPM.
 
file:sedimentary-basin-analysis_fig4-9.png|{{figure number|4}}More recent model of salt deformation recognizing both 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 (1993);{{citation needed}}; courtesy Gulf Coast SEPM.
file:sedimentary-basin-analysis_fig4-13.png|{{figure number|3}}After Piggott and Pulham<ref name=ch04r75 />). Copyright: Gulf Coast Section SEPM.
 
file:sedimentary-basin-analysis_fig4-14.png|{{figure number|4}}After Piggott and Pulham<ref name=ch04r75 />). Copyright: Gulf Coast Section SEPM.
 
file:sedimentary-basin-analysis_fig4-15.png|{{figure number|5}}After Piggott and Pulham<ref name=ch04r75 />). Copyright: Gulf Coast Section SEPM.
 
file:sedimentary-basin-analysis_fig4-16.png|{{figure number|6}}After Piggott and Pulham<ref name=ch04r75 />).
 
 
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[[:file:sedimentary-basin-analysis_fig4-13.png|Figures 3]], [[:file:sedimentary-basin-analysis_fig4-14.png|4]], [[:file:sedimentary-basin-analysis_fig4-15.png|5]], and [[:file:sedimentary-basin-analysis_fig4-16.png|6]] are maps of depocenters and paleogeography for intervals A, B, D, and E. These were constructed by correlating wells using fossil extinction events and grids of interpreted seismic reflection profiles. The High Island–East Breaks study area is shown on each map.
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file:sedimentary-basin-analysis_fig4-13.png|{{figure number|5}}Paleogeography of the Mississippi River depositional system from approximately 6 Ma to 4 Ma (interval A). After Piggott and Pulham<ref name=ch04r75 />). Copyright: Gulf Coast Section SEPM.
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file:sedimentary-basin-analysis_fig4-14.png|{{figure number|6}}Paleogeography from approximately 4 Ma to 3 Ma (interval B). After Piggott and Pulham<ref name=ch04r75 />). Copyright: Gulf Coast Section SEPM.
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file:sedimentary-basin-analysis_fig4-15.png|{{figure number|7}}Paleogeography from approximately 2.5 Ma to 2vMa (interval D). After Piggott and Pulham<ref name=ch04r75 />). Copyright: Gulf Coast Section SEPM.
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file:sedimentary-basin-analysis_fig4-16.png|{{figure number|8}Paleogeography from approximately 1 Ma to the present (interval E). After Piggott and Pulham<ref name=ch04r75 />). Courtesy Gulf Coast Section SEPM. Also after Weimer (1990){{citation needed}}; courtesy AAPG.
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[[:file:sedimentary-basin-analysis_fig4-13.png|Figures 5]], [[:file:sedimentary-basin-analysis_fig4-14.png|6]], [[:file:sedimentary-basin-analysis_fig4-15.png|7]], and [[:file:sedimentary-basin-analysis_fig4-16.png|8]] are maps of depocenters and paleogeography for intervals A, B, D, and E. These were constructed by correlating wells using fossil extinction events and grids of interpreted seismic reflection profiles. The High Island–East Breaks study area is shown on each map.
  
 
==Formation of high island-east breaks depocenter==
 
==Formation of high island-east breaks depocenter==

Revision as of 15:10, 28 March 2014

Exploring for Oil and Gas Traps
Series Treatise in Petroleum Geology
Part Critical elements of the petroleum system
Chapter Sedimentary basin analysis
Author John M. Armentrout
Link Web page
Store AAPG Store

Mapping age-specific isopach thicks in the northern GOM basin defines laterally shifting sites of maximum deposition (Figure 4-4). Methods of mapping are clearly presented in Tearpock and Bischke.[1]

GOM basin depocenter time intervals

In the northern GOM basin, depocenters prograde (Figure 1) over the transitional crust (Figure 2) and deform the underlying salt into a complex network of salt-cored anticlines and salt-withdrawal synclines (Figures 3 and 4). Late Neogene depocenters of the Mississippi River, the largest source of sediment to the northern Gulf of Mexico, developed during five time periods from the latest Miocene through Holocene (from ;[2] see also .[3] Following are the five depocenter intervals and their time periods.

Interval Time period, ma
A 6–4
B 4–3
C 3–2.5
D 2.5–1
E 1–Present

Figures 5, 6, 7, and 8 are maps of depocenters and paleogeography for intervals A, B, D, and E. These were constructed by correlating wells using fossil extinction events and grids of interpreted seismic reflection profiles. The High Island–East Breaks study area is shown on each map.

Formation of high island-east breaks depocenter

Between 2.5 and 2.0 Ma, the major northern GOM basin depocenter was focused offshore of western Louisiana and eastern Texas. The westernmost part of this depocenter appears to have been the input area for the ancestral Mississippi River system. The resulting depocenter, the High Island–East Breaks depocenter, has more than depth::16,000 ft (4875 m) of late Pliocene and early Pleistocene sediments deposited during a succession of highamplitude sea level cycles.

Timing of petroleum generation

Each of the isopach maps in this section is annotated with the area of active petroleum generation and migration. These comments are based on the modeling of Piggott and Pulham[2]), illustrated and discussed along with Figures 7 and 8.

Interval A paleogeography

The figure below shows the paleogeography of the Mississippi River depositional system from approximately 6 Ma to 4 Ma (interval A). Deposition consists of net sand isopach thicks on the shelf and intraslope basins that are interpreted to be deepwater “fan” complexes.

Interval B paleogeography

This figure shows paleogeography from approximately 4 Ma to 3 Ma (interval B). Shelf and intraslope basin thicks are potentially sand prone. (Note the shift westward from the previous depocenter location.)

Interval D paleogeography

The following figure shows paleogeography from approximately 2.5 Ma to 2 Ma (interval D). Again, shelfal net sand thicks and intraslope basin isopach thicks interpreted to be deepwater “Tan” complexes are the dominant depositional environments. Note the depocenter has shifted to offshore western Louisiana and Texas. The High Island-East Breaks study area occurs within the western part of this depocenter.

Interval E paleogeography

The paleogeographic map below represents time from about 1 Ma to the present (interval E). Canyons are interpreted from incised and back-filled geometries on seismic reflection profiles. Note the depocenter has shifted back to offshore eastern Louisiana from the preceding location offshore eastern Texas/western Louisiana.

Depocenter summary

Figure 9 .
Figure 10 After Winker.[4] Copyright: Gulf Coast Association of Geological Societies.

Mapping age-specific isopach thicks defines laterally shifting sites of maximum deposition along the margin of the basin. Each of these depocenters has a unique history of accumulation with consequent variations in maturation, migration, and entrapment histories. Evaluation of depocenter maps should include comparison of the results with the largerscale isopach maps (Figures 9, 10).

GOM depocenter summary

In the case of the northern Gulf of Mexico, the depocenters prograde over the transitional crust and deform the underlying salt, forming a complex network of salt-cored anticlines and salt-withdrawal synclines. Between 2.5 and 2.0 Ma, the major northern Gulf of Mexico depocenter was focused offshore western Louisiana and eastern Texas. The westernmost part of this depocenter area, the High Island–East Breaks depocenter, appears to have been the input area for the ancestral Mississippi River system. The resulting depocenter has more than depth::16,000 ft (4875 m) of late Pliocene and early Pleistocene sediments deposited during a succession of high-amplitude sea level cycles (see section C, Depositional Sequences).

See also

References

  1. Tearpock, D., J., Bischke, R., E., 1991, Applied Subsurface Geologic Mapping: Prentice-Hall, 648 p.
  2. 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 Piggott, N., Pulham, A., 1993, Sedimentation rate as the control on hydrocarbon sourcing, generation, and migration in the deepwater Gulf of Mexico: Proceedings, Gulf Coast Section SEPM 14th Annual Research conference, p. 179–191.
  3. Goldthwaite, D., 1991, Central Gulf Coast stratigraphy, in Goldthwaite, D., ed., An Introduction to Central Gulf Coast Geology: New Orleans Geological Society, p. 17–30.
  4. Winker, C., D., 1982, Cenozoic shelf margins, northwestern Gulf of mexico: Gulf Coast Assoc. of Geological Societies Transactions, vol. 32, p. 427–448.

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