S FIS 1106601 Bibliography
DAFTAR PUSTAKA
Achmad F. (2010). Studi Identifikasi Penyebab Longsor di Botu. Universitas
Negeri Gorontalo.
Adam B, Prochaska. (2008). Debris-flow Runout Prediction Based on the Average
Chanel Slope (ACS). Engineering Geology 98 (2008) 29-40.
Anwar, R. (2009). Penanggulangan Erosi Secara Struktural Pada Daerah Aliran
Sungai Bango. Jurnal Rekayasa Sipil, Volume3, No.1 – 2009 ISSN 1978 –
5658.
Arbanas. Z., Sasa. K.,
Marui. H., & S. Mihalic. (2012). Comprehensive
monitoring system on the Grohovo Landslide, Croatia. Landslide and
Engineering Slopes. ISBN 978-0-415-62123-6.
Ashish. KS. (2010). Bioengineering techniques of slope stabilization and
landslide
mitigation.
Disaster
Provention
and
Management:
An
International Journal. Vol. 19: Issue. 3Pages. 384-397.
Badan Pusat Statistika Provinsi Jawa Barat. Temperatur, Curah Hujan, dan Hari
Hujan
di
Bandung,
2009-2014.
[Online].
Diakses
dari:
jabar.bps.go.id/linkTabelStatis/view/id/40
Che-Ming Y., Wei-Lun Y., Chih-Yu K., Toshihiko S., Chyi-Tyi L., Tetsuhiro T.,
& Yuki M. (2014). Initiation, movement, and run-out of the giant Tsaoling
landslide-What can we learn from a simple rigid block model and a
velocity-displacement dependent friction law? Engineering Geology, Vol.
182, pp. 158-181.
Cnudde, V., & Boone, M.N. (2013). High-resolution X-Ray Computed
Tomography in Geosciences: a review of the current technology and
applications. Earth Science Reviews, S0012-8252(13)00069-X. DOI:
10.1016/j.earscirev. 2013.04.003.
Crosta. G.B., S. Imposimato., & D.G. Roddeman. (2003). Numerical Modelling of
Large Landslides Stability And Run-out, Natural hazards and Earth System
Sciences, 3, 523-538.
Colangelo. G & A. Perrone. (2012). Geoelectrical Tomography as an Operative
Tool for Emergency Management of Landslide: An Application in Basilicata
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
60
61
Region, Italy. Hindawi, International Journal of Geophysics, Volume 2012, doi:
10.1155/2012/593268.H
Epada, P.D., Sylvestre, G., & Tabod, T.C. (2012). Geophysical and Geotechnical
Investigations of a Landslide in Kekem Area, Western Cameroon.
International Journal of Geosciences, Scientific Research. 3, 780-789.
Fell R., Hungr O., Leroueil S., & Riemer W. (2000). Keynote paper-Geotechnical
Engineering of the Stability of Natural Slopes and Cuts and Fills in Soil.
Proc. GeoEng2000, Int. Conf. On Geotechnical and Geol. Eng in
Melbourne,
Firmansyah, S. Feranie, A. Tohari, & F.D.E. Latief. (2015). Prediction of
landslide Run-out distance Based on slope Stability Analysis and Center of
Mass Approach, Padjajaran Earth Dialogues: International Symposium on
Geophysical Issues, Studies On The Mechanisms of The Earth Surface
Formation, 8-10 June 2015, Jatinangor, Indonesia.
Firmansyah, S. Feranie, A. Tohari, & F.D.E. Latief. (2015). Prediksi Jangkauan
Pergerakan Tanah Longsor Menggunakan Model Gesekan Coulomb
Sederhana. SNIPS ITB, 8-9 Juni 2015.
Hallet, P.D., & Newson, T.A. (2005). Describing Soil Crack Formation Using
Elastic-Plastic Fracture Mechanics. European Journal of Soil Science, Vol
56, hal 31-38, DOI: 10.1111/j.1365-2389.2004.00652.x.
Hardiyatmo, H. C. (1994). Mekanika Tanah II. Gramedia Pustaka. Jakarta.
Hartemink, A.E & Minasny. (2014). Towards Digital Soil Morphometrics.
Geoderma 230-231 : 305-317.
Jaboyedoff. M & Labiouse. V. (2011). Technical Note: Preliminary Estimation of
Rockfall Run-out Zones, Natural Hazards and Earth System Sciences, 11,
819-828.
Jaboyedoff. M,. P. Horton., A. Loye., & A. Pedrazzini. (2008). Run-out-Empirical
Approaches. Workshop Barcelona 2008 Mountain Risks.
Krishna P.A. (2006). Slope Stability Evaluations by Limit Equilibrium and Finite
Element Methods. PhD Thesis at Norwegian Univ. of Science and
Technology, Trondheim: April 2006
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
62
Kusratmoko. (2002). Aplikasi Sistem Informasi Geografis Untuk Penentuan
Wilayah Prioritas Penanganan Bahaya Erosi Studi Kasus DAS Citarum.
Jakarta. Jurusan Geografi dan Pusat Penelitian Geografi Terapan, Fakultas
MIPA, Universitas Indonesia.
Lebron. I., M.G. Schaap., & D.L. Suarez. (1999). Saturated hydraulic
Conductivity Prediction from microscopic Pore Geometry Measurements
and neural Network Analysis. Water Resources Research, Vol. 35 (10), pp.
3149-3158.
Mohd, H., Rosli., Fauziah., Wijeyesekera D.C., & Faizal, M. (2012). Integral
Analysis of Geoelectrical (Resistivity) and Geotechnical (SPT) Data In
Slope Stability Assesment. Academic Journal of Science, 1(2), pp. 305-316.
Mubekti., Alhasanah F. (2008). Mitigasi Daerah Rawan Tanah Longsor
Menggunakan Teknik Pemodelan Sistem Informasi Geografis. Jurnal
Teknik Lingkungan, 9 (2), 121-129.
Morgenstern. N.R. & V.E. Price. (1965). The Analysis of the Stability of General
Slip Surface Geotechnique Vol 15 (1) pp 77-93.
Perloff W.H., & Baron W. (1976). Soil Mechanics. Principles and Applications.
U.S. Southern Forest Experiment Station.
Petrone, A., & Preti, F., (2010), Soil bioengineering for risk mitigation and
environmental restoration in a humid tropical area, Hydrol. Earth Syst.
Sci., 14, page 239-250.
Pusat Vulkanologi dan Mitigasi Bencana Geologi. Peta Zona Kerentanan Gerakan
Tanah Kabupaten Subang Provinsi Jawa Barat. [Online]. Diakses dari:
www.vsi.esdm.go.id/galeri/index.php/Peta-Zona-Kerentanan-GerakanTanah/Peta-Zona-Kerentanan-Gerakan-Tanah-Per-Kabupaten-Kota/PetaZona-Kerentanan-Gerakan-Tanah-Per-Kota-Kabupaten-di-JawaBarat/Kab_Subang
Pusat Vulkanologi dan Mitigasi Bencana Geologi. Peta Zona Kerentanan Gerakan
Tanah Kabupaten Bandung Barat Provinsi Jawa Barat. [Online].Diakses
dari:
www.vsi.esdm.go.id/galeri/index.php/Peta-Zona-Kerentanan-GerakanTanah/Peta-Zona-Kerentanan-Gerakan-Tanah-Per-Kabupaten-Kota/Peta-
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
63
Zona-Kerentanan-Gerakan-Tanah-Per-Kota-Kabupaten-di-JawaBarat/Kab_Bandung_Barat
Roche. O., M. Attali., A. Mangeney., & A. Lucas. (2011). On the run-out distance
of geophysical gravitational flows: Insight from fluidized granular collapse
experiments. Earth and Planetary Science Letters, Elsevier. Volume 311,
pp. 375-385.
Safeland. (2010). “Recommendations for runout models for use in landslide
hazard and risk mapping, Deliverable 1.9, October 2010.
Sugianti. K. (2012). Pengaruh Muka Air Tanah Terhadap Kestabilan Lereng Pada
Ruas Jalan Raya Cadas Pangeran, Sumedang. Riset Geologi dan
Pertambangan, Vol. 22 (2), pp. 105-113.
Sarah, D., & Daryono, M.R. (2012). Engineering Geological Investigation of Slow
Moving Landslide in Jahiyang Village, Salawu, Tasikmalaya Regency.
Indonesian Journal of Geology, Vol. 7,No. 1, 27-38.
Sutikno, B. (2006). Potensi Sumber Daya Geologi di Daerah Cekungan Bandung
dan Sekitarnya. Jurnal Geologi Indonesia, Vol. 1 No. 1 April 2006:9-18.
Terzaghi., Karl, R.B., Peck., & G, Mesri. (1996). Soil Mechanics in Engineering
Practice 3 ed. John Wiley & Sons, New York.
Varnes. D.J. (1978). Slope Movement Types and Processes. In: Special report
176: Landslides Analysis and Control (eds: Schuster, R.L. & Krizek, R.J.).
Transportation and Road Research Board, National Academy of Science,
Washington D.C., 11-33.
Wan, R.G., & Guo, P.J. (2001): Effect of Microstructure on Undrained Behaviour
of Sands, Can. Geotech. J. 38: 16-28, DOI: 10.1139/cgj-38-1-16.
Widjajani, (2010). Typology of Erosion Barrier Plant. Agrovigor Volume 3 No. 1
Maret 2010. ISSN 1979 5777.
Yunlai. Y., Andrew C., & Aplin. (2010). Permeabilitas-porosity relationship for
mudstone. Marine and Petroleum Geology. Vol. 27(8): 1692-1697.
Zakaria. Z. (2013). Bio-Enginering, Melalui Pemanfaatan Tanaman Kaliandra di
Wilayah Zona Rawan Longsor Jawa Barat. Bulletin of Scientific
Contribution, Volume11, Nomor 3, Desember 2013: 168-175
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
64
Zhang. S., L.M. Zhang., & T. Glade. (2014). Characteristics of earthquake and
rain induce landslides near the epicenter of Wenchua earthquake.
Engineering Geology. Vol. 175: 58-73.
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
65
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK DENGAN
MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
Achmad F. (2010). Studi Identifikasi Penyebab Longsor di Botu. Universitas
Negeri Gorontalo.
Adam B, Prochaska. (2008). Debris-flow Runout Prediction Based on the Average
Chanel Slope (ACS). Engineering Geology 98 (2008) 29-40.
Anwar, R. (2009). Penanggulangan Erosi Secara Struktural Pada Daerah Aliran
Sungai Bango. Jurnal Rekayasa Sipil, Volume3, No.1 – 2009 ISSN 1978 –
5658.
Arbanas. Z., Sasa. K.,
Marui. H., & S. Mihalic. (2012). Comprehensive
monitoring system on the Grohovo Landslide, Croatia. Landslide and
Engineering Slopes. ISBN 978-0-415-62123-6.
Ashish. KS. (2010). Bioengineering techniques of slope stabilization and
landslide
mitigation.
Disaster
Provention
and
Management:
An
International Journal. Vol. 19: Issue. 3Pages. 384-397.
Badan Pusat Statistika Provinsi Jawa Barat. Temperatur, Curah Hujan, dan Hari
Hujan
di
Bandung,
2009-2014.
[Online].
Diakses
dari:
jabar.bps.go.id/linkTabelStatis/view/id/40
Che-Ming Y., Wei-Lun Y., Chih-Yu K., Toshihiko S., Chyi-Tyi L., Tetsuhiro T.,
& Yuki M. (2014). Initiation, movement, and run-out of the giant Tsaoling
landslide-What can we learn from a simple rigid block model and a
velocity-displacement dependent friction law? Engineering Geology, Vol.
182, pp. 158-181.
Cnudde, V., & Boone, M.N. (2013). High-resolution X-Ray Computed
Tomography in Geosciences: a review of the current technology and
applications. Earth Science Reviews, S0012-8252(13)00069-X. DOI:
10.1016/j.earscirev. 2013.04.003.
Crosta. G.B., S. Imposimato., & D.G. Roddeman. (2003). Numerical Modelling of
Large Landslides Stability And Run-out, Natural hazards and Earth System
Sciences, 3, 523-538.
Colangelo. G & A. Perrone. (2012). Geoelectrical Tomography as an Operative
Tool for Emergency Management of Landslide: An Application in Basilicata
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
60
61
Region, Italy. Hindawi, International Journal of Geophysics, Volume 2012, doi:
10.1155/2012/593268.H
Epada, P.D., Sylvestre, G., & Tabod, T.C. (2012). Geophysical and Geotechnical
Investigations of a Landslide in Kekem Area, Western Cameroon.
International Journal of Geosciences, Scientific Research. 3, 780-789.
Fell R., Hungr O., Leroueil S., & Riemer W. (2000). Keynote paper-Geotechnical
Engineering of the Stability of Natural Slopes and Cuts and Fills in Soil.
Proc. GeoEng2000, Int. Conf. On Geotechnical and Geol. Eng in
Melbourne,
Firmansyah, S. Feranie, A. Tohari, & F.D.E. Latief. (2015). Prediction of
landslide Run-out distance Based on slope Stability Analysis and Center of
Mass Approach, Padjajaran Earth Dialogues: International Symposium on
Geophysical Issues, Studies On The Mechanisms of The Earth Surface
Formation, 8-10 June 2015, Jatinangor, Indonesia.
Firmansyah, S. Feranie, A. Tohari, & F.D.E. Latief. (2015). Prediksi Jangkauan
Pergerakan Tanah Longsor Menggunakan Model Gesekan Coulomb
Sederhana. SNIPS ITB, 8-9 Juni 2015.
Hallet, P.D., & Newson, T.A. (2005). Describing Soil Crack Formation Using
Elastic-Plastic Fracture Mechanics. European Journal of Soil Science, Vol
56, hal 31-38, DOI: 10.1111/j.1365-2389.2004.00652.x.
Hardiyatmo, H. C. (1994). Mekanika Tanah II. Gramedia Pustaka. Jakarta.
Hartemink, A.E & Minasny. (2014). Towards Digital Soil Morphometrics.
Geoderma 230-231 : 305-317.
Jaboyedoff. M & Labiouse. V. (2011). Technical Note: Preliminary Estimation of
Rockfall Run-out Zones, Natural Hazards and Earth System Sciences, 11,
819-828.
Jaboyedoff. M,. P. Horton., A. Loye., & A. Pedrazzini. (2008). Run-out-Empirical
Approaches. Workshop Barcelona 2008 Mountain Risks.
Krishna P.A. (2006). Slope Stability Evaluations by Limit Equilibrium and Finite
Element Methods. PhD Thesis at Norwegian Univ. of Science and
Technology, Trondheim: April 2006
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
62
Kusratmoko. (2002). Aplikasi Sistem Informasi Geografis Untuk Penentuan
Wilayah Prioritas Penanganan Bahaya Erosi Studi Kasus DAS Citarum.
Jakarta. Jurusan Geografi dan Pusat Penelitian Geografi Terapan, Fakultas
MIPA, Universitas Indonesia.
Lebron. I., M.G. Schaap., & D.L. Suarez. (1999). Saturated hydraulic
Conductivity Prediction from microscopic Pore Geometry Measurements
and neural Network Analysis. Water Resources Research, Vol. 35 (10), pp.
3149-3158.
Mohd, H., Rosli., Fauziah., Wijeyesekera D.C., & Faizal, M. (2012). Integral
Analysis of Geoelectrical (Resistivity) and Geotechnical (SPT) Data In
Slope Stability Assesment. Academic Journal of Science, 1(2), pp. 305-316.
Mubekti., Alhasanah F. (2008). Mitigasi Daerah Rawan Tanah Longsor
Menggunakan Teknik Pemodelan Sistem Informasi Geografis. Jurnal
Teknik Lingkungan, 9 (2), 121-129.
Morgenstern. N.R. & V.E. Price. (1965). The Analysis of the Stability of General
Slip Surface Geotechnique Vol 15 (1) pp 77-93.
Perloff W.H., & Baron W. (1976). Soil Mechanics. Principles and Applications.
U.S. Southern Forest Experiment Station.
Petrone, A., & Preti, F., (2010), Soil bioengineering for risk mitigation and
environmental restoration in a humid tropical area, Hydrol. Earth Syst.
Sci., 14, page 239-250.
Pusat Vulkanologi dan Mitigasi Bencana Geologi. Peta Zona Kerentanan Gerakan
Tanah Kabupaten Subang Provinsi Jawa Barat. [Online]. Diakses dari:
www.vsi.esdm.go.id/galeri/index.php/Peta-Zona-Kerentanan-GerakanTanah/Peta-Zona-Kerentanan-Gerakan-Tanah-Per-Kabupaten-Kota/PetaZona-Kerentanan-Gerakan-Tanah-Per-Kota-Kabupaten-di-JawaBarat/Kab_Subang
Pusat Vulkanologi dan Mitigasi Bencana Geologi. Peta Zona Kerentanan Gerakan
Tanah Kabupaten Bandung Barat Provinsi Jawa Barat. [Online].Diakses
dari:
www.vsi.esdm.go.id/galeri/index.php/Peta-Zona-Kerentanan-GerakanTanah/Peta-Zona-Kerentanan-Gerakan-Tanah-Per-Kabupaten-Kota/Peta-
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
63
Zona-Kerentanan-Gerakan-Tanah-Per-Kota-Kabupaten-di-JawaBarat/Kab_Bandung_Barat
Roche. O., M. Attali., A. Mangeney., & A. Lucas. (2011). On the run-out distance
of geophysical gravitational flows: Insight from fluidized granular collapse
experiments. Earth and Planetary Science Letters, Elsevier. Volume 311,
pp. 375-385.
Safeland. (2010). “Recommendations for runout models for use in landslide
hazard and risk mapping, Deliverable 1.9, October 2010.
Sugianti. K. (2012). Pengaruh Muka Air Tanah Terhadap Kestabilan Lereng Pada
Ruas Jalan Raya Cadas Pangeran, Sumedang. Riset Geologi dan
Pertambangan, Vol. 22 (2), pp. 105-113.
Sarah, D., & Daryono, M.R. (2012). Engineering Geological Investigation of Slow
Moving Landslide in Jahiyang Village, Salawu, Tasikmalaya Regency.
Indonesian Journal of Geology, Vol. 7,No. 1, 27-38.
Sutikno, B. (2006). Potensi Sumber Daya Geologi di Daerah Cekungan Bandung
dan Sekitarnya. Jurnal Geologi Indonesia, Vol. 1 No. 1 April 2006:9-18.
Terzaghi., Karl, R.B., Peck., & G, Mesri. (1996). Soil Mechanics in Engineering
Practice 3 ed. John Wiley & Sons, New York.
Varnes. D.J. (1978). Slope Movement Types and Processes. In: Special report
176: Landslides Analysis and Control (eds: Schuster, R.L. & Krizek, R.J.).
Transportation and Road Research Board, National Academy of Science,
Washington D.C., 11-33.
Wan, R.G., & Guo, P.J. (2001): Effect of Microstructure on Undrained Behaviour
of Sands, Can. Geotech. J. 38: 16-28, DOI: 10.1139/cgj-38-1-16.
Widjajani, (2010). Typology of Erosion Barrier Plant. Agrovigor Volume 3 No. 1
Maret 2010. ISSN 1979 5777.
Yunlai. Y., Andrew C., & Aplin. (2010). Permeabilitas-porosity relationship for
mudstone. Marine and Petroleum Geology. Vol. 27(8): 1692-1697.
Zakaria. Z. (2013). Bio-Enginering, Melalui Pemanfaatan Tanaman Kaliandra di
Wilayah Zona Rawan Longsor Jawa Barat. Bulletin of Scientific
Contribution, Volume11, Nomor 3, Desember 2013: 168-175
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
64
Zhang. S., L.M. Zhang., & T. Glade. (2014). Characteristics of earthquake and
rain induce landslides near the epicenter of Wenchua earthquake.
Engineering Geology. Vol. 175: 58-73.
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK
DENGAN MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
65
Aditya Angga Cipto Saputro, 2016
KARAKTERISASI LERENG POTENSI LONGSOR UNTUK MENCARI KORELASI BESARAN GEOTEKNIK DENGAN
MIKROSTRUKTUR TANAH SERTA UPAYA MITIGASI BENCANA
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu