STRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT.
The Forming of Makassar Strait and Sulawesi Island involves the interaction of several microcontinents results of fragment of plate tectonics. Makassar Strait geologically divided into two sedimentary basins, North Makassar Basin and South Makassar Basin. Both basins are separated by Adang strike...
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id-itb.:343772019-02-08T08:55:58ZSTRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT. Hidayat, Andry Geologi, hidrologi & meteorologi Indonesia Theses Microcontinent, Strike-Slip Fault, Ramp, Deep Water Thrust Folds Belt, Southern part of North Makassar Basin. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/34377 The Forming of Makassar Strait and Sulawesi Island involves the interaction of several microcontinents results of fragment of plate tectonics. Makassar Strait geologically divided into two sedimentary basins, North Makassar Basin and South Makassar Basin. Both basins are separated by Adang strike-slip (NW-SE trend) faults which are located in the northern part of Paternoster high. Deep Water Thrust Folds Belt (DWTFB) is part of the West Sulawesi Folds Belt (WSFB) are only formed on the northern part of Adang fault and within North Makassar Basin. In the South Makassar Basin there is no existing of deep water thrust folds belt. DWTFB could be seen into seabed with water depth up to 2500 meters. This indicates that the deformation process still active and continue until present day. The study was conducted to determine the characteristics and mechanism of DWTFB in the Southern part of North Makassar Basin, the border between the North Makassar Basin and South Makassar Basin. In order to answer the purpose of the study, the main data used is 2D seismic data that has been reprocessed. In addition regional tectonic framework is obtained from several studies and publications are used as supporting data. The method used in this study following: cross-section of the time structure analysis, time structure map, correlation of thrust fault structure, and tectonic modeling based on reconstruction of tectonic phase that occurs from time to time. Interpretation of cross section time shows that DWTFB in the Southern part of North Makassar Basin can be divided into two areas of deformation, which are North Deformation Region and South Deformation Region. Both areas are separated by sinistral strike-slip faults. Northern Deformation Region is characterized by folds associated with thrust fault and many folds are formed to the westward (Borneo). Thrust Fault formed above the ramp with Fault Propagation Fold type is developed. There are two areas of ramp; it called Major ramp and Minor ramp. vi Southern Deformation Region is characterized by several folds are formed it’s not as much as the North Deformation Region. This is due to the narrowing of Makassar Strait by Paternoster high and Sulawesi Island. Based on the characteristics of the folds formed in the study area and the appearance of folds until seabed, the forming mechanism of folds belt involve active tectonic until present day. Microcontinent of West Sulawesi or Microcontinent Makassar is an active tectonic to the formation of DWTFB in the North Makassar Basin. The presence of Adang strike-slip is barrier the formations of DWTFB only occur in the North Makassar Basin. Status changes from strike-slip Fault with transform mechanism and movement direction is dextral strike-slip fault into sinistral strike-slip fault occurred during the Pliocene time. text |
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Geologi, hidrologi & meteorologi Hidayat, Andry STRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT. |
| description |
The Forming of Makassar Strait and Sulawesi Island involves the interaction of several
microcontinents results of fragment of plate tectonics. Makassar Strait geologically
divided into two sedimentary basins, North Makassar Basin and South Makassar Basin.
Both basins are separated by Adang strike-slip (NW-SE trend) faults which are located
in the northern part of Paternoster high. Deep Water Thrust Folds Belt (DWTFB) is part
of the West Sulawesi Folds Belt (WSFB) are only formed on the northern part of Adang
fault and within North Makassar Basin. In the South Makassar Basin there is no existing
of deep water thrust folds belt. DWTFB could be seen into seabed with water depth up
to 2500 meters. This indicates that the deformation process still active and continue
until present day. The study was conducted to determine the characteristics and
mechanism of DWTFB in the Southern part of North Makassar Basin, the border
between the North Makassar Basin and South Makassar Basin.
In order to answer the purpose of the study, the main data used is 2D seismic data that
has been reprocessed. In addition regional tectonic framework is obtained from several
studies and publications are used as supporting data. The method used in this study
following: cross-section of the time structure analysis, time structure map, correlation of
thrust fault structure, and tectonic modeling based on reconstruction of tectonic phase
that occurs from time to time.
Interpretation of cross section time shows that DWTFB in the Southern part of North
Makassar Basin can be divided into two areas of deformation, which are North
Deformation Region and South Deformation Region. Both areas are separated by
sinistral strike-slip faults. Northern Deformation Region is characterized by folds
associated with thrust fault and many folds are formed to the westward (Borneo). Thrust
Fault formed above the ramp with Fault Propagation Fold type is developed. There are
two areas of ramp; it called Major ramp and Minor ramp.
vi
Southern Deformation Region is characterized by several folds are formed it’s not as
much as the North Deformation Region. This is due to the narrowing of Makassar Strait
by Paternoster high and Sulawesi Island.
Based on the characteristics of the folds formed in the study area and the appearance of
folds until seabed, the forming mechanism of folds belt involve active tectonic until
present day. Microcontinent of West Sulawesi or Microcontinent Makassar is an active
tectonic to the formation of DWTFB in the North Makassar Basin.
The presence of Adang strike-slip is barrier the formations of DWTFB only occur in the
North Makassar Basin. Status changes from strike-slip Fault with transform mechanism
and movement direction is dextral strike-slip fault into sinistral strike-slip fault occurred
during the Pliocene time. |
| format |
Theses |
| author |
Hidayat, Andry |
| author_facet |
Hidayat, Andry |
| author_sort |
Hidayat, Andry |
| title |
STRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT. |
| title_short |
STRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT. |
| title_full |
STRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT. |
| title_fullStr |
STRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT. |
| title_full_unstemmed |
STRUCTURE DEVELOPMENT AND FORMING MECHANISM OF DEEP WATER THRUST FOLDS BELT, SOUTHERN PART OF NORTH MAKASSAR BASIN, MAKAS SAR STRAIT. |
| title_sort |
structure development and forming mechanism of deep water thrust folds belt, southern part of north makassar basin, makas sar strait. |
| url |
https://digilib.itb.ac.id/gdl/view/34377 |
| _version_ |
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