Abstract
Across the Luconia continental shelf, the nature and structures of the crust are lacking geological understanding and precise characterization. Newly acquired, aeromagnetic, and airborne gravity data were used to assess deep and shallow sub-surface signals within the Central Luconia Province, off the coast of Sarawak, offshore Malaysia. Regional aeromagnetic anomalies appear to primarily reflect deep crustal features while depth (Z) tensors of airborne gravity anomalies evidence shallow subsurface structures. Strike directions of the interpreted structural trend on aeromagnetic and airborne gravity anomalies maps are measured and plotted into rose diagrams to distinguish the structural orientations for all datasets. Signature patterns extracted from the depth profiles were correlated with parallel seismic lines and nearest exploration wells and coincide well with the top of carbonate for Cycle IV/V and structures seen within the Cycle I and II sediments. The orientation of faults/lineaments at shallower depth is dominated by a NW-SE orientation, similar with the faults extracted from two recently published structural maps. Deeper subsurface sections yielded E-W to NWW-SEE dominant directions which were never presented in the published literature. The E-W oriented anomalies are postulated to represent the remnants of the accretion between the Luconia crustal block and southern boundary of the Palawan block. The NW-SE trend follows the same direction as prominent faults in the region. The insight into shallow and deep subsurface structures in Central Luconia Province imaged through airborne gravity and aeromagnetic data should provide guidelines and complementary information for regional structural studies for this area, particularly in combination with detailed seismic interpretation. Further evaluation on the response of Air-FTG® gravity and aeromagnetic could lead to the zonation of potential basement highs and hydrocarbon prospects in this area.
Highlights
IntroductionThe Central Luconia Province encompasses a geological province famous for its prolific hydrocarbon exploration, located in the offshore of North Sarawak, Malaysia (Figure 1) within vicinity of the South China Sea. Central Luconia is dominated by Middle to Upper Miocene limestone reservoirs with varying thickness from several hundreds of meters to over one kilometer in places at depths ranging from 750 to 2500 m from distributed under the terms and conditions of the Creative Commons
This article is an open access articleThe Central Luconia Province encompasses a geological province famous for its prolific hydrocarbon exploration, located in the offshore of North Sarawak, Malaysia (Figure 1) within vicinity of the South China Sea
This paper aims to evaluate the framework and orientations of major structural trends in Central Luconia Province
Summary
The Central Luconia Province encompasses a geological province famous for its prolific hydrocarbon exploration, located in the offshore of North Sarawak, Malaysia (Figure 1) within vicinity of the South China Sea. Central Luconia is dominated by Middle to Upper Miocene limestone reservoirs with varying thickness from several hundreds of meters to over one kilometer in places at depths ranging from 750 to 2500 m from distributed under the terms and conditions of the Creative Commons. Sci. 2021, 11, 5095 to over one kilometer in places at depths ranging from 750 to 2500 m from present day sea present level [1]. The orientation of is thenot build-ups is not consistentthe throughout level [1].day. Thesea orientation of the build-ups consistent throughout province the [2] province1C). This region is subdivided intoof numbers oflows regional and highs
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