Korelasi Sebaran Gempabumi dan Densitas Kelurusan pada  Keamanan Calon Tapak PLTN Bojonegara, Banten

Mahbub, Rizqi Muhammad; Hartono, Hill Gendoet

doi:10.33579/krvtk.v4i2.1583

Cited by 2 publications

(2 citation statements)

References 2 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Derajat azimuth penyinaran yang berbeda-beda memudahkan pengamatan pola kelurusan yang dominan secara konsisten. Metode densitas kelurusan dapat digunakan untuk kelurusan rapat yang teridentifikasi sebagai sesar permukaan [13].…”

Section: Metodologiunclassified

Identifikasi Deformasi Tektonik Aktif Berdasarkan Ekstraksi Kelurusan Morfologi dan Seismisitas di Sukabumi, Jawa Barat

Mahbub

Ragil

2021

EKSPLORIUM

Self Cite

View full text Add to dashboard Cite

ABSTRAK Pusat gempa bumi di Sukabumi telah membentuk deformasi bawah permukaan dan kini terekam juga di permukaan. Hal itu termanifestasi melalui geomorfologi kelurusan gawir dan sungai. Ekstraksi kelurusan-kelurusan akibat deformasi geologi tersebut dapat digunakan untuk mengidentifikasi deformasi tektonik aktifnya. Tujuan penelitian ini adalah untuk mengetahui hubungan antara struktur sesar aktif dengan arah dominan kelurusan di daerah penelitian. Metode Edge Enhancing Filtering digunakan untuk menginterpretasi kelurusan secara manual dan semi-otomatis. Data geospasial kelurusan diekstraksi menggunakan formula Sastratenaya untuk mengetahui kronologi kelurusan yang terbentuk. Hasil analisis menggunakan formula Sastratenaya menunjukkan kelurusan-kelurusan yang terekam melalui olah data peta DEM, yaitu segmen 1 berarah N315°E dan segmen 2 berarah N10°E yang diinterpretasikan sebagai hasil reaktivasi sesar. Hal ini dapat diinterpretasikan bahwa Sesar Cimandiri, yang merupakan sesar aktif dengan pergerakan oblique-slip sinistral N88°E/85° rake 33°, memengaruhi arah dua segmen kelurusan di daerah penelitian wilayah Sukabumi, Jawa Barat.ABSTRACT The epicenter of the earthquake in Sukabumi has formed subsurface deformation which is now also recorded on the surface area. This is manifested through the geomorphology of the scarp and river lineaments. Extraction of lineaments produced by geological deformation can be used to identify its active tectonic deformation. The research objective is to determine the relationship between the active fault structure and the dominant direction of lineaments in the study area. The Edge Enhancing Filtering method is used to interpret lineaments manually and semi-automatically. The lineament geospatial data was extracted using the Sastratenaya formula to determine the chronology of the lineaments formed. The Sastratenaya formula results showed the lineaments recorded by DEM images data processing, the first segment direction is N315°E and the second is N10°E, both are interpreted as the result of fault reactivation. It can be interpreted that the Cimandiri Fault, which is an active fault that has an N88°E/85° rake 33° sinistral oblique-slip fault movement, affects the lineaments direction of two segments in the research area of Sukabumi, West Java.

show abstract

Section: Metodologiunclassified

Identifikasi Deformasi Tektonik Aktif Berdasarkan Ekstraksi Kelurusan Morfologi dan Seismisitas di Sukabumi, Jawa Barat

Mahbub

Ragil

2021

EKSPLORIUM

Self Cite

View full text Add to dashboard Cite

show abstract

“…The complex structure in the Sunda Strait causes the area to have high seismic activity [11]. The 2.0-9.0 magnitude earthquake detected in the waters of the Sunda Strait to the mainland of Banten was caused by the earthquake characteristics of the strike slip fault mechanism at a shallow depth of D < 20 km [12]. Under the Anak Krakatau volcano a depth of 20-70 km is associated with a transtensional graben [11].…”

Section: Introductionmentioning

confidence: 99%

Indications of transtensional strike slip fault in the Mount Anak Krakatau based on earthquake focal mechanism data

Mahbub

Ragil²,

Qoyyibi³

2023

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

Anak Krakatau volcano in the Sunda Strait was through pyroclastic materials landslide phenomenon that caused by a tsunami wave at the end of December 2018. Tsunami wave hit the west coast of Pandeglang and part of the coast of Lampung. Recent tectonic activity produces an epicenter around Anak Krakatau volcano, a shallow earthquake depth of 10 - 15 km below the surface. These data were collected by the interpretation of remote sensing DEM SRTM images, focal mechanism, bathymetry, and hillslope analysis. Quantitative analysis in determining the movement mechanism of strike slip faults and the damage zone as the trigger for landslides on the southwestern volcano sidewall. The main fault has N153°E / 74°E rake 9° is related to the surface of stress and strain results of synthetic and antithetic faults. It is suspected that the post-eruption caldera of Krakatau Volcano is the remaining surface openings in the 1883 while erupted. Knowledge of the causes of landslides to be prepared to anticipate broken infrastructure, victims, and tourism along the coast of Banten and Lampung.

show abstract

Korelasi Sebaran Gempabumi dan Densitas Kelurusan pada Keamanan Calon Tapak PLTN Bojonegara, Banten

Cited by 2 publications

References 2 publications

Identifikasi Deformasi Tektonik Aktif Berdasarkan Ekstraksi Kelurusan Morfologi dan Seismisitas di Sukabumi, Jawa Barat

Identifikasi Deformasi Tektonik Aktif Berdasarkan Ekstraksi Kelurusan Morfologi dan Seismisitas di Sukabumi, Jawa Barat

Indications of transtensional strike slip fault in the Mount Anak Krakatau based on earthquake focal mechanism data

Contact Info

Product

Resources

About