MODEL PERKEMBANGAN STRUKTUR PALEOGEN DI SUB CEKUNGAN AMAN UTARA, CEKUNGAN SUMATRA TENGAH
North Aman sub-basin is located in the northern part of Central Sumatra basin which is separated from North Sumatra basin by Asahan arch. North Aman subbasin is interpreted as a pull-apart basin with the characteristics is similar to other Central Sumatra sub-basins. Understanding of depositiona...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/6281 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | North Aman sub-basin is located in the northern part of Central Sumatra basin
which is separated from North Sumatra basin by Asahan arch. North Aman subbasin
is interpreted as a pull-apart basin with the characteristics is similar to
other Central Sumatra sub-basins.
Understanding of depositional environment within Central Sumatra Basin is still
having a lot of question. From previous observers about Central Sumatra Basin
still have no detail study on Paleogen Pematang Group using tectonostratigraphic
concept approach especially on Paleogen’s rift architecture development in North
Aman sub-basin. This research is to understand Paleogen’s rift architecture
development in North Aman sub-basin by using tectonostratigraphic concept.
Seismic stratigraphy is a geologic approach to the stratigraphic interpretation
from seismic data. Seismic reflection surfaces are represent bedding surfaces
which follow chronostratigraphic correlation By identifying lateral termination of
seismic reflection, depositional sequence boundaries can be recognized.
Combined with other seismic appearances such as seismic reflection
configuration and its geometry shapes, seismic facies can be described and
mapped. Further analysis of seismic facies using available well datqa will help
interpretation process to predict the depositional facies within the basin.
In the research area of North Aman sub-basin is able to identified five (5)
sedimentation sequences which the formation processes related to border fault
activities in Pleogen’s rift sub-basin development. Early process of sub-basin
formation in rift initiation period occurred sedimentation of Pematang-1
sequence. This sequence sedimentation process was caused by rapid subsidence
due to active faulting of pre-existing basement structure. Following rift initiation
period was sedimentation process of early syn-rift period. Sedimentation process
in this period was Pematang-2 sequence sedimentation and the process was
initiated by increasing tectonic activities following by quite big rapid subsidence
at the end of Pematang-1 sequence period sedimentation. Following early syn-rift
period was sedimentation process of middle syn-rift period. Sedimentation in this
period was Pematang-3 sequence sedimentation and the process was initiated by
decreasing tectonic activities following by moderated subsidence. Following
middle syn-rift period was sedimentation process of late syn-rift period.
Sedimentation in this period was Pematang-4 sequence sedimentation and the
process was initiated by decreasing tectonic activities following by slow
subsidence. Final sedimentation process in North Aman sub-basin was Pematangiv
5 sequence sedimentation process. The process of this sequence sedimentation
was in the period of post rift and initiated by decreasing subsidence in all over
area with low topography.
From restoration calculation, extension factor (????) of North Aman sub-basin is
1,29 with strain average for sequence Pematang-1 is 3.8%, for sequence
Pematang-2 is 3.1%, for sequence Pematang-3 is 3.0%, for sequence Pematang-4
is 2.8%, and for sequence Pematang-5 is 1.4%.
Decreasing the activity of main fault from early rifting period to end of rifting
period indicated by decreasing the average of the strain showed different
response to the geometry and depocenter of Paleogen’s rift. |
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