GENESIS VULKANIK DAKAH BERUMUR TERSIER DI DAERAH KARANGSAMBUNG, KEBUMEN, JAWA TENGAH
The presence of Tertiary volcanic in the Karangsambung area are shallow intrusion of diabas and basalt andesitic, massive lava basaltic, pillow lava basaltic, pyroclastic tuff and hialoclastit breccia in situ and sedimentary. Field observations show that the shallow intrusions were formed in s...
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| Format: | Theses |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/73037 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | The presence of Tertiary volcanic in the Karangsambung area are shallow
intrusion of diabas and basalt andesitic, massive lava basaltic, pillow lava basaltic,
pyroclastic tuff and hialoclastit breccia in situ and sedimentary. Field observations
show that the shallow intrusions were formed in submarine environment consists
of volcanic neck in the area of Mount Parang and Mount Bujil, dikes in the area of
Jebug River-Banjarsari and Jembling-Kayen River.
Petrographic analysis was conducted on 40 samples of volcanic rocks and
sedimentary rocks of Tertiary age that have a younger or older stratigraphy
relationship in geological age with Tertiary volcanic rocks. Based on the results of
petrographic analysis, Tertiary age volcanic igneous rocks that were found in this
area have main mineral composition of plagioclase, clinopiroxene and opaque
minerals. Olivine is almost not observed in thin sections of igneous rocks.
Textures which are common in intrusion diabas are holocristalline, ophitic and
subophitic. Basalt andesitic intrusions at Mount Bujil show texture holocristalline,
porphiritic and intergranular. Basaltic lava with massive and pillow structure has
texture of the hypocristalline, porphiritic, trachitic and intergranular. From the
analysis, it can be concluded that in the Tertiary igneous rocks around the Dakah
village can be classified of tholeiite. Most of igneous Tertiary rocks had
experienced weathering characterized by the presence of brownish-green chloriterich Fe. Others common secondary minerals are present natrolite and calcite that
fills the voids in the rock. Attendance natrolite was associated with marine
sediments indicate that these rocks had changed experienced in the marine
environment. Generally, all of the Tertiary igneous rocks had been experienced
strong microtectonic deformation characterized by the bending effect on crystal.
Geochemical analysis of major elements and trace elements by XRF method has
been carried out on five samples of rock that consists of four diabas and one
basaltic andesite and using three data comparison of Tertiary age volcanic rocks in
the area of Karangsambung. Based on the analysis results, a set of Tertiary age
volcanic rocks in the Karangsambung area is derived from the same magma (co
genetic). Thus have affinity of island arc tholeiite based on the plot of
discriminant diagrams showing the trace element enrichment in incompatible
elements with low ion potential (LIL) (Sr, K, Rb, Ba ± Th) and relatively poor in
elements with high ionic potential (HFS) (Ta, Nb, Ce, P, Zr, Hf, Sm, Ti, Y, Yb, Sc
and Cr) and the low value of the Ni element. Based on the analysis magma
evolution diagram, the eruption center was estimated to be around the Dakah
Village consecutive after it was diabas dikes in Jembling-Kayen River, diabas
volcanic necks in Mount Parang, diabas dikes in Jebug River-Banjarsari, and
basalt andesitic volcanic necks in Mount Bujil at Late Eocene.
Island arc tholeiite affinities were formed due to subduction of oceanic plates with
oceanic plates. Karangsambung and Totogan Formation considered as an
olisostrome which were deposited in the trench with accretion complex basin
bedrock associated with the Pre-Tertiary subduction system. The presence of an
island arc tholeiite volcanism in melange sedimentary environments of
Karangsambung and Totogan Formation provided important tectonics
implications on the Karangsambung area. New subduction system occurred in the
south of the old Pre-Tertiary subduction. Pre-Tertiary subduction cessation caused
by the collision of Gondwanaland microcontinen at the edge of east and southeast
Sundaland on Late Cretaceous. Meanwhile the Indo-Australian oceanic plate
continues moved toward the North and caused of new subduction path from south
of the old Pre-Tertiary subduction. New subduction in the south of
Karangsambung expected begins to form at Middle Eocene and the magmatism
happened to form the volcanism in the Karangsambung area at Late
Eocene. Therefore we can conclude that the presences of the Tertiary volcanic in
Karangsambung area were in situ product of volcanism. |
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