--> Abstract: The Evolution of the Piedemonte Llanero Petroleum System, Cordillera Oriental, Colombia: (2) Reservoir Petrography & Petroleum Geochemistry, by N. Piggott, A. Vear, E. A. Warren, R. Graham, S. Howe, J. O'Leary, and A. J. Pulham; #90951 (1996).

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Abstract: The Evolution of the Piedemonte Llanero Petroleum System, Cordillera Oriental, Colombia: (2) Reservoir Petrography & Petroleum Geochemistry

Neil Piggott, Alwyn Vear, Edward A. Warren, Rod Graham, Spencer Howe, John O'Leary, Andrew J. Pulham

Detailed quantification of cements and rock texture, fluid inclusion microthermometry, thermal maturity data, oil-source rock correlations and structural restorations have been integrated to reveal the porosity and hydrocarbon charge evolution of reservoirs in the Piedemonte Llanero thrustbelt of Colombia. Active exploration of deeply buried structures in different thrust sheets of the Piedemonte Llanero has encountered quartz arenites of widely varying average porosities (4-15%). Porosity has been reduced by mechanical compaction and quartz cementation during burial, and by pressure solution during structural deformation. The relative importance and timing of these processes varies between thrust sheets controlling the observed porosity variation.

Thermal maturity data indicate that all thrust sheets have been deeply buried and uplifted in several stages of compression. Detailed structural restorations indicate significant differences in the burial histories of individual thrust sheets. Oil-source rock correlations suggest two major hydrocarbon components in the thrustbelt: a Late Cretaceous oil-prone source and a Tertiary oil- and gas-prone source. Initial generation charged early structures leading to partial inhibition of quartz cementation. For most structures quartz cementation predated major hydrocarbon migration. Average quartz cementation temperature is uniform within a structure, but varies between thrust sheets. These variations appear to reflect differences in burial depths during quartz cementation rather than varia ions in timing.

Integration of all data reveals a complex but predictable evolution of porosity and hydrocarbon charge in both space and time which is being applied to current exploration in the Piedemonte Llanero and is relevant to thrustbelt exploration elsewhere.

AAPG Search and Discovery Article #90951©1996 AAPG International Conference and Exhibition, Caracas, Venezuela