Abstract
The property of the magnetic basement and the faults in the basement is significant for structural evolution, the Phanerozoic deposition, and oil resource exploration of the Tarim Basin. Based on the newly acquired aeromagnetic and industry seismic data, we mapped the distribution of basement faults by applying magnetic gradient-processing methods such as the horizontal gradient derivative, the first vertical derivative, the tilt derivative, and the upward continuation method. The dips of basement faults were confirmed and the susceptibilities of basement blocks were obtained by forward modeling of five profiles using the constraint of sedimentary strata depth and Moho topography. On the basis of comprehensive analysis of the magnetic anomalies, the distribution and inclination of basement faults, and susceptibilities differentiation obtained by forward modeling and field measurement, the property of the basement faults and their implication were discussed and interpreted. Our results show that the origin of the Central Highly Magnetic Anomaly Belt is highly magnetic Archean metamorphic rocks. The weakly magnetic Southeastern Domain and highly magnetic Central Tadong Domain assembled along the Tadong South Fault during the Paleoproterozoic. The Paleozoic Cherchen Fault is just an interior fault in the weakly magnetic Southeastern Domain although it presents a large vertical fault displacement. Considering the prominent variation of strikes of the Tadong North Fault system, and the moderately magnetic anomalies in the Northeastern Mangal Domain corresponding to the center of Neoproterozoic deposition, it is likely that the basement of the Northeastern Mangal Domain modified by the Neoproterozoic rifting could be originally the same as the basement of Central Highly Magnetic Anomaly Belt.
Highlights
The Tarim Basin is the largest basin in mainland China, and has a broad prospect for oil and gas exploration
Because the terrane activity style is closely related to the property of basement rock which can be indicated by susceptibilities, based on the recently aeromagnetic data measured in 2015–2016 and strata depth from industry seismic data, we conducted the forward modeling of rock susceptibilities and basement faults
Magnetic gradient-processing methods were used to map the location of basement faults in the Eastern Tarim Basin based on newly acquired aeromagnetic data
Summary
The Tarim Basin is the largest basin in mainland China, and has a broad prospect for oil and gas exploration. The aeromagnetic method is the most practically useful method to identify basement faults because the sedimentary cover is usually nonmagnetic or weak magnetic, and the magnetic layer is restricted above the Curie depth. Another problem that is usually neglected is the rock physical property of the basement to which seismic data are not sensitive (Li and Gao, 2010; Tong et al, 2010; Tong et al, 2012; Gao et al, 2013; Xu et al, 2013). Because the terrane activity style is closely related to the property of basement rock which can be indicated by susceptibilities, based on the recently aeromagnetic data measured in 2015–2016 and strata depth from industry seismic data, we conducted the forward modeling of rock susceptibilities and basement faults
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