55
DAFTAR PUSTAKA
[1] I. W. Maudana, “Pola Pemberdayaan Masyarakat Pada Daerah Tujuan Wisata Bahari Di Kabupaten Karangasem,” J. Sos. dan Hum., vol. 7, no. 3, pp. 307–323, 2017.
[2] D. ESDM, Gempabumi dan Tsunami. Bandung: Kementerian Energi Dan Sumber Daya Mineral Badan Geologi Pusat Vulkanologi Dan Mitigasi Bencana Geologi, 2015.
[3] R. Darsono, I. K. Sukarsa, and A. Yohanes, “Analisa Tingkat Risiko Bencana Gempa Bumi Di Wilayah Bali,” Anal. Tingkat Risiko Bencana Gempa Bumi Di Wil. Bali, vol. 17, no. 1, pp. 57–62, 2016.
[4] P. Setiadi, “Relokasi Gempa Bumi Double-Difference Di Wilayah Bali - Nusa Tenggara Dengan Model Kecepatan 3D,” J. Lingkung. dan Bencana Geol., vol. 9, no. 1, pp. 45–52, 2018.
[5] H. Harjono, Seismotektonik Busur Sunda. Jakarta: LIPI Press, 2017.
[6] R. N. Siregar, I. N. Sinarta, M. Ervan, and Sismanto, “Ground Penetrating Radar And 2-D Geolectricity Application For Detecting Landslide in Abang District, Karangasem Regency, Bali,” J. Eng. Res. Appl., vol. 6, no. 8, pp. 51–55, 2016.
[7] A. Hafez, “Assessment of Silicified Wood Potentiality Using Geolectrics And GPR Application In New Cairo City, Egypt,” Near Surf., vol. P14, p. 659, 2007.
[8] K. P. Nadi, “Pemerintah Kabupaten Karangasem,” Pemerintahan
Kabupaten Karangasem.
http://v2.karangasemkab.go.id/index.php/profil/22/Letak-&-Luas-Wilayah.
[9] R. Suyanto, “Kajian Akuifer Di Kecamatan Denpasar Barat Provinsi Bali,” J. Bumi Lestari, vol. 12, no. 1, pp. 162–167, 2012.
[10] P. Hadiwidjojo, H. Samodra, and T. . Amin, “Peta Geologi Lembar Bali, Nusa Tenggara,” Dinas Energi Dan Sumber Daya Mineral, 1998. Pulau
56 Nusa Tenggara (accessed May 20, 2021).
[11] D. M. Indra, “Perkembangan Gunung Agung, Kebencanaan, Dan Persoalan Pengungsi,” J. Bappeda Litbang, vol. 1, no. 1, pp. 1–11, 2018.
[12] I. Haryanto, “Struktur Sesar Di Pulau Jawa Bagian Barat Berdasarkan Hasil Interpretasi Geologi,” Bull. Sci. Contrib., vol. 11, no. 1, pp. 1–10, 2013. [13] D. Noor, Pengantar Geologi. Bogor: Pakuan University Press, 2012. [14] I. Muflihah, “Distribusi Dan Pola Sesar Daerah Kepala Burung (Papua
Barat),” J. Neutrino, vol. 6, no. 2, pp. 91–98, 2014.
[15] Syamsuddin, Lantu, M. A. Akbar, and A. Syaeful, “Identifikasi Sesar Bawah Permukaan Dengan Menggunakan Metode Geolistrik Konfigurasi Wenner Di Sekitar Das Jene’berang, Kecamatan Parangloe, Kabupaten Gowa, Sulawesi Selatan,” Positron, vol. 2, no. 2, pp. 33–39, 2012.
[16] A. Widagdo, S. Pramunjiyo, and A. Harijoko, “Rekonstruksi Struktur Geologi Daerah Gunung Ijo Di Pegunungan Kulon Progo - Yogyakarta Berdasarkan Sebaran Kekar, Sesar Dan Kuat Karsa,” 2017.
[17] A. Parriaux, Geology: Basics For Engineers, Second Edi. Erkelenz: Taylor; Inc, Prancis, 2019.
[18] D. Peacock, D. J. Sanderson, and A. Rotetvan, “Relationships Between Fractures,” J. Struct. Geol., vol. 106, pp. 1–21, 2017.
[19] A. Hasan, D. L. Simanjorang, I. Nursalim, M. F. Sanjaya, S. Sadilah, M. A. Ramlan, M. R. Ariansyah, and M. I. Massinai, “Identifikasi Kekar Desa Pattotangan Kecamatan Mandai Kabupaten Maros, Sulawesi Selatan,” Geocelebes, vol. 3, no. 1, pp. 42–46, 2019.
[20] H. S. Naryanto, “Analisis Patahan Bawah Permukaan Dari Pengukuran Geolistrik Untuk Mitigasi Bencana Gempa Di Kabupaten Grobongan,” Alami, vol. 2, no. 2, pp. 73–81, 2018.
[21] E. Hauksson, “Seismotectonics,” Rev. Geophys., vol. 29, no. S2, pp. 721– 733, 1991.
57
di Pulau Bali Bagian Utara Tahun 2015-2017 Dengan Menggnakan Metode Double Difference,” Bul. Fis., vol. 19, no. 2, pp. 64–72, 2018.
[23] M. Lew and D. Bonneville, “New Building Code Requirements For The Seismic Design Of Tall Buildings Near Active Faults,” Struct. Des. Tall Build., vol. 6, no. 4, pp. 279–297, 1997.
[24] L. E. Wilson, Static And Dynamic Analysis Of Structure: A Physical Approach With Emphasis On Earthquake. California: Computer and Structures Inc., 2002.
[25] N. Hidayat and E. W. Santoso, “Gempa Bumi Dan Mekanismenya,” Alami, vol. 2, p. 50, 1997.
[26] A. Zaennudin, “The Charateristic Of Eruption Of Indonesia Active Volcanoes In The Last Four Decades,” J. Lingkung. dan Bencana Geol., vol. 1, no. 2, pp. 113–129, 2010.
[27] K. Andrayana, S. Maryanto, A. Susilo, and H. Triastuti, “Mekanisme fokus gempa vulkanik tipe A Gunung Semeru, Jawa Timur- Indonesia,” Natural, vol. 1, no. 2, pp. 140–144, 2011.
[28] R. Sinaga and C. Lesmana, “Kajian Evaluasi Kinerja Bangunan Terhadap Siaga Bencana Gempa,” J. Tek. Sipil, vol. 14, no. 1, pp. 77–103, 2018. [29] F. Horz, D. Mittlefehldt, T. H. See, and C. Galindo, “Petrographic Studies
Of The Impact Melts From Meteor Crater, Arizona, USA,” Meteorit. Planet. Sci., vol. 37, no. 24, pp. 501–531, 2002.
[30] D. ESDM, “Pengenalan Gerakan Tanah,” in Vulconly Survey Of Indonesia, 2018, pp. 1–14.
[31] Linda, Ihsan, Nasrul, and P. Palloan, “Analisis Distribusi Spasial Dan Temporal Seismotektonik berdasarakan Nilai B-Value Dengan Menggunakan Metode Likelihood Di Pulau Jawa,” J. Sains dan Pendidik. Fis., vol. 15, no. 1, pp. 16–31, 2019.
[32] R. HH and W. Janet, Introduction To Geology Volume 2. New York: The Macmillan Press LTD, 1975.
58
[33] G. Andriyani, S. Kahar, and M. Awaludin, Moehammad Irwan, “Kajian Regangan Selat Bali Berdasarkan Data GNSS Kontiny Tahun 2009-2011,” J. Geod. Undip, vol. 1, no. 1, pp. 1–12, 2012.
[34] H. A. Wiyono, A. R. Timor, and H. Andre, “Analisis Gelombang Elektromagnetik Dan Seismik Yang Ditimbulkan Oleh Gejala Gempa,” J. Nas. Tek. Elektro, vol. 5, no. 3, pp. 315–324, 2016.
[35] A. W. Elfarabi and F. Syaifudin, “Pengolahan Data Ground Penetrating Radar (GPR) dengan menggunakan software MATGPR R-3.5,” J. Tek. ITS, vol. 6, no. 1, pp. 47–50, 2017.
[36] S. Van Heteren, D. M. Fitzgerald, P. A. Mckinlay, and I. V Buynevich, “Radar Facies Of Paraglacial Barrie Systems: Coastal New England, USA,” Sedimentology, vol. 45, pp. 181–200, 1998.
[37] D. J. Griffiths, Introduction To Electrodynamics. United States: Addison-Wesley, 2012.
[38] H. M. Jol, Ground Penetrating Radar: Theory And Applications. United Kingdom: Elsevier B.V, 2009.
[39] J. M. Reynolds, An Introduction To Applied And Environmental Geophysics. United Kingdom: Wiley-Blackwell, 2011.
[40] R. Luebbers and K. S. Kunz, The Finite Difference Time Domain Method for Electromagnetics. Florida: CRC Press, 1993.
[41] J. Milsom, Field Geophysics. Wiley-Blackwell, 2003.
[42] F. Oktafiani, Sulistyaningsih, and Y. N. Wijayanto, “Sistem Ground Penetrating Radar Untuk Mendeteksi Benda-Benda Di Bawah Permukaan Tanah,” J. Inform. Sist. Kendali, Dan Komput., vol. 1, no. 2, pp. 1–5, 2007. [43] A. Syam, P. Lepong, and Supriyanto, “Aplikasi Metode Georadar Untuk Identifikasi Struktur Geologi Di Jalan HM. Ardan Ring Road 1 Samarinda,” Geosains Kutai Basin, vol. 2, no. 1, pp. 1–7, 2019.
[44] K. Budiono, Handoko, Hernawan, and Godwin, “Penafsiran Struktur Geologi Bawah Permukaan Di Kawasan Semburan Lumpur Siduarjo,
59
Berdasarkan Penampang Ground Penetrating Radar (GPR),” J. Geol. Indones., vol. 5, no. 3, pp. 187–195, 2010.
[45] P. Bhattacharya and H. P. Patra, Direct Current Geoelectric Sounding: Principles And Interpretation. Amsterdam: Elsevier B.V, 1968.
[46] S. Yulito, Tony; Widodo, “Identifikasi Penyebaran Dan Ketebalan Batubara Menggunakan Metode Geolistrik Resistivitas,” Berk. Fis., vol. 11, no. 2, pp. 56–66, 2008.
[47] Nurwahida and Hernawati, “Pendugaan Akuifer Air Tanah Dengan Metode Geolistrik Resistivitas Konfigurasi Schlumberger Di Berbagai Wilayah Di Indonesia,” Teknosains, vol. 14, no. 1, pp. 1–10, 2020.
[48] S. Brota and R. S. Afifah, “Pengolahan Data Geolistrik Dengan Metode Schlumberger,” J. Ilm. Bid. Ilmu Kerekayasaan, vol. 29, no. 2, pp. 120–128, 2008.
[49] G. S. Ohm, “Bestimmung des Gesetzes, nach welchem Metalle die Contactelektricität leiten, nebst einem Entwurfe zu einer Theorie des Voltaischen Apparates und des Schweiggerschen Multiplicators,” für Chemie und Phys., vol. 46, no. 46, 1829.
[50] W. M. Telford, L. P. Geldart, and R. E. Sherif, Applied Geophysics. Melbourne: Cambridge University Press, 1990.
[51] D. Loke, Electrical Imaging Survey Environmental And Engineering Studies. Penang: Elsevier B.V, 1999.
[52] T. Rhesdeantia, Yuanna Darsono and Khumaedi, “Geo-Electric Resistivity Method Of Dipole-Dipole Configuration For Cavities Model 2D In Karst Area Of Temurejo Village Gubug Sub-District Central Java District,” J. Phys., vol. 1, no. 2, pp. 167–175, 2017.
[53] N. N. Navedrova, E. V. Deev, and P. Panomarev, “Fault Structures And Their Geoelectric Parameters In The Epicentral Zone Of The 27 September 2003 Chuya Earthquake (Gorny Altai) From Resistivity Data,” J. Russ. Geol. Geophys., vol. 58, pp. 123–132, 2017.
60
[54] P. Cristina, C. Federico, A. Frigeri, R. Orosei, M. R. Barchi, and G. Basile, “Ground Penetrating Radar To Study Active Fault: The Example Of Norcia Basia (Central Italy),” J. Appl. Geophysics, vol. 72, no. 1, pp. 39–45, 2010. [55] T. Fischer, P. Stepancikova, M. Kalousova, P. Taborik, C. Flechsig, and M. Gaballah, “Imaging The Marianske Lazne Fault by 3 D Ground Penetrating Radar And Electric Resistivity Tomography,” J. Study Geophys., vol. 56, pp. 1019–1036, 2012.
[56] S. Widiyantoro and Fauzi, “Note On Seismicity Of The Bali Convergent Region In The Eastern Sunda Arc, Indonesia,” Geol. Soc. Aust., vol. 52, no. 3, pp. 379–383, 2005.
[57] LIPI, “Patahan Penyebab Gempa Bali Belum Banyak Diteliti,” Lembaga Ilmu Pengetahuan Indonesia, 2011. http://lipi.go.id/berita/single/patahan-penyebab-gempa-bali-belum-banyak-diteliti/5954 (accessed Jul. 14, 2021). [58] M. ; Hermana, M. Genisa, L. A, and C. W. Sum, “Identification Of Active Faults In Landslide- Prone Regions Using Ground-Penetrating Radar : A Case Study From Bandung, Indonesia,” in Earth Crust, Intech Open, 2019, pp. 1–12.
[59] S. Handa and Sumitomo; Norihiko;, “The Geoelectric Structure Of The Yamasaki And The Hanori Faults, Southwest Japan,” J. Geomagn. Geoelectric, vol. 37, pp. 93–106, 1985.
[60] F. E. Prahastiwi, D. Darmawan, and N. B. Wibowo, “Aquifer Identification In Opak Fault Zone After Yogyakarta Earthquake 2006 With Schlumberger Configuration Geoelectric Method,” J. Fis., vol. 5, no. 2, pp. 82–91, 2016.
