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Lithologic Control on Matrix Porosity in Shallow-marine Cretaceous Reservoir Limestones: A Study of the Peñuela Reservoir Outcrop Analogue (Cordoba Platform, Southeastern Mexico)

By
H. Ferket
H. Ferket
Fysico-chemische Geologie, K. U. Leuven, Heverlee, Belgium
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S. Ortuño-Arzate
S. Ortuño-Arzate
Instituto Mexicano del Petróleo, México, D.F., México
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F. Roure
F. Roure
Institut Français du Pétrole, Rueil-Malmaison Cedex, France
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R. Swennen
R. Swennen
Fysico-chemische Geologie, K. U. Leuven, Heverlee, Belgium
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Published:
January 01, 2003

Abstract

Selectively oil-impregnated limestones from the Upper Cretaceous Guzmantla Formation, outcropping in the Cordoba Platform of eastern Mexico, were studied to determine the factors controlling the porosity and hydrocarbon distribution and to reconstruct the fluid-flow history.

In the two exposed upward-coarsening (i.e., upward-shoaling) sequences, three limestone lithotypes were distinguished, based on sedimentary, diagenetic, and oil-impregnation characteristics. Lithotype I is comprised of mud-dominated low-energy deposits, which have been affected strongly by compaction. These strata are oil impregnated only along stylolites. Lithotype II consists of bioclastic wackestones to packstones deposited in an open-platform lagoonal environment. This lithotype is pervasively oil impregnated. The preservation of porosity is explained by the development of framework-stabilizing, interparticular, early diagenetic (marine and meteoric) calcite cements. Furthermore, secondary porosity was created after layer-parallel shortening (LPS), when LPS-related structures were opened during subsequent folding of the strata. Lithotype III consists of bioclastic shoal grainstones that have been cemented pervasively during early-marine and later meteoric diagenesis, occluding primary porosity and thus preventing oil impregnation.

However, Lithotype III strata display an important modern macroporosity, related to a telogenetic phase of karst development that postdates oil migration. Due to the lack of driving forces, the oil did not migrate into these karst-related pores. In Lithotype II, the presence of oil reduced the effective porosity and hindered further fluid migration. Lithotype II strata thus were less affected by the telogenetic karstification. Lithotype I was less affected because of the completely compacted matrix. This late-stage (postoil migration) dissolution phase is not important in this specific history, but it may be very important in similar deposits in the subsurface, where it can enhance appreciably the reservoir capacity.

Factors controlling porosity-permeability are, first, the sedimentary environment, which influenced early and, thus also, later diagenetic evolution. Furthermore, stylolite development (compactional as well as tectonic), which exerts a negative effect on porosity-permeability because of pressure-dissolution and related matrix cementation, also is an important factor. However, because of tectonic opening of some of the stylolites and channelling of meteoric fluids, with porosity development as a result, these stylolites also may increase permeability and total porosity. Finally, fracturing of the strata, whereby tectonic opening and/or cementation can take place, exerts a major influence on reservoir characteristics.

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Contents

AAPG Memoir

The Circum-Gulf of Mexico and the Caribbean: Hydrocarbon Habitats, Basin Formation and Plate Tectonics

Claudio Bartolini
Claudio Bartolini
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Richard T. Buffler
Richard T. Buffler
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Jon F. Blickwede
Jon F. Blickwede
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American Association of Petroleum Geologists
Volume
79
ISBN electronic:
9781629810546
Publication date:
January 01, 2003

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