Publication Date:
2010-10-01
Description:
This conference addressed the question of whether fluvial-deltaic and coastal reservoirs deposited in tropical environments exhibit different facies relationships than those of temperate systems. Although this conference concluded that there is nothing distinctly unique about clastic depositional systems in tropical environments, the magnitude of the processes that operate in these environments differs from nontropical environments. Because these processes influence the distribution of reservoir and nonreservoir facies, geologists need a fundamental understanding of the contrasts between tropical and nontropical environments when interpreting subsurface data and building depositional models. We highlight the following features that seem to be more favorably developed in tropical environments. (1) Many tropical systems exhibit complexly stacked channel and overbank deposits. Although some fluvial deposits have the classic meandering pattern, seismic attributes indicate that many tropical channel belts are anastomosing systems that intersect each other at large angles. Subsurface correlation without the benefit of three-dimensional seismic data is all but impossible. (2) In contrast to deltaic deposits in temperate climates, which exhibit high sand/shale ratios near the delta with sand content decreasing basinward and laterally away from the delta, tropical deltas tend to be muddier near the river mouth and have cleaner, well-sorted sand bodies better developed laterally in the shoreface and shallow-marine environments. (3) Modern tropical coasts are home to large estuarine environments dominated by mangroves. Estuarine deposits interpreted in the subsurface and observed in outcrop are sand rich, yet little sand is observed in modern mangrove estuaries. Mangrove estuarine deposits also contain abundant organic-rich layers, thin coals, and dispersed organic matter that may favor the development of a self-sourced petroleum system. The flushing of these systems during relative low stands may be an important mechanism not only for reservoir development, but also for dispersing organic matter into deep-water systems. This conference was dominated by discussions of depositional systems in Southeast Asia, which have a strong tectonic overprint. Further research on tropical systems from the South American and African conjugate margin could provide important tests for the ideas highlighted above. Robert C. Shoup is a board-certified petroleum geologist with more than 30 years of experience in basin analysis, new play generation, prospect evaluation, field studies, and project management. He is currently consulting in Bangkok, Thailand, and in Kuala Lumpur, Malaysia. Over the course of his career, he has discovered or helped to discover more than 100 million barrels equivalent (MMBeq). Joseph Lambiase graduated from Brown University and received his Ph.D. from McMaster University and then did international exploration for Marathon Oil and Amerada. He was a professor at Universiti Brunei Darussalam and an independent consultant before becoming a professor of petroleum geoscience at Chulalongkorn University, Thailand. He served on the research and education committees and he is the current Asia-Pacific regional president. Andrew Cullen is a geologist with degrees from Oregon and Oklahoma University. His 25 years in the oil business include 18 with Shell in roles ranging from production seismology to frontier exploration. He has contributed to discoveries in the United States, Africa, and Austral-Asia. He is a member of the Geological Society of America and AAPG and serves on AAPG's Grants-In-Aid Committee. Charles A. (Chuck) Caughey has enjoyed a career finding and developing oil and gas fields while living in the United States and Indonesia. He currently works in the Middle East for ConocoPhillips in Houston. He has authored publications and edited books on exploration technology and seismic and sequence stratigraphy, and he lectures on geoscience careers to college students in several countries.
Print ISSN:
0149-1423
Electronic ISSN:
1943-2674
Topics:
Geosciences
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