Morphological indicators of structural control, relative sea-level fluctuations and platform drowning on present-day and Miocene carbonate platforms

Menier, D. and Pierson, B. and Chalabi, A. and Ting, K.K. and Pubellier, M. (2014) Morphological indicators of structural control, relative sea-level fluctuations and platform drowning on present-day and Miocene carbonate platforms. Marine and Petroleum Geology, 58 (PB). pp. 776-788. ISSN 02648172

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Abstract

The morphology of Carbonate platforms may be influenced by tectonic activity and eustatic variations. 3D seismic data and satellite imagery are used in order to investigate the morphological similarities between present-day carbonates platforms, East of Borneo Island and Miocene carbonate platforms of the South China Sea. The morphological similarities exhibit platform fragmentation, that could be caused by subtle faulting, sufficient to drown reef rims; platform contraction, which is a result of back-stepping of the reef margin during a relative sea level rise and polygonal patterns in internal lagoons, described as mesh reefs in modern platforms and possibly interpreted as karst in Miocene platforms.Vertical movements may trigger the formation of new geomorphological conditions that modify the distribution of coral growth with respect to the new hydrodynamic conditions in space and time. These movements (uplift and tilting) reduce and localize the space necessary for the coral ecosystem, explaining the contraction leading to drowning of parts of and, ultimately, the whole platform. © 2014.

Item Type: Article
Additional Information: cited By 45
Uncontrolled Keywords: Accidents; Carbonation; Compaction; Reefs; Satellite imagery; Sea level; Seismology; Structural dynamics; Tectonics, Borneo; Carbonate platforms; Celebes Sea; Miocene; Sealevel change, Space platforms, carbonate platform; eustacy; geomorphological response; Miocene; sea level change; seismic data; structural control; tectonic evolution; three-dimensional modeling, Borneo; Pacific Ocean; South China Sea, Anthozoa
Depositing User: Mr Ahmad Suhairi UTP
Date Deposited: 09 Nov 2023 16:15
Last Modified: 09 Nov 2023 16:15
URI: https://khub.utp.edu.my/scholars/id/eprint/4096

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