Landslide Zone Investigation by Determining Cracks and Cracks Compressive Strength Test in Waru District, Pamekasan Regency
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Susilo, A., Fitriah, F., Rachmawati, E. T. A., & Suryo, E. A. 2020. Analysis of landslide area of Tulung subdistrict, Ponorogo, Indonesia in 2017 using resistivity method. Smart and Sustainable Built Environment, pp. 1-21.
Permana, R. S., Buana, A. P., Akmam, A., Amir, H., & Putra, A. 2020. Using the Schlumberger configuration resistivity geoelectric method to estimate the rock structure at landslide zone in Malalak agam. Journal of Physics: Conference Series, Vol. 1481, No. 1, pp. 1-9.
Szalai, S., Prácser, E., Szokoli, K., & Tóth, Á. 2017. Prediction of the process of a slowly moving loess landslide by electrical resistivity tomography. Adv. Cult. Living with Landslides, vol. 116, no. 26, pp. 131–138.
Lajaunie, M., Gance, J., Nevers, P., Bertrand, C., & Malet, J. P. 2018. 3D Geoelectrical study of the Séchilienne Landslide: new constraints on the large scale water flow. EGU Gen. Assem, Vol. 20, pp. 16272.
Chen, Q., Zhang, S., Chang, S., Liu, B., Liu, J., & Long, J. 2019. Geophysical Interpretation of a Subsurface Landslide in the Southern Qinshui Basin. J. Environ. Eng. Geophys., vol. 24, no. 3, pp. 433–449.
Adamo, N., Al-Ansari, N., Sissakian, V., Laue, J., & Knutsson, S. 2021. Geophysical Methods and their Applications in Dam Safety Monitoring. J. Earth Sci. Geotech. Eng., Vol. 11, pp. 291–345.
Bellanova, J., Calamita, G., Giocoli, A., Luongo, R., Perrone, A., Lapenna, V., & Piscitelli, S. 2016. Electrical Resistivity Tomography surveys for the geoelectric characterization of the Montaguto landslide (southern Italy). Nat. Hazards Earth Syst. Sci. Discuss, pp. 1–17.
Kieu, D. T., Pham, N. D., & Lai, H. P. 2019. Integration of geoelectrical and seismic refraction data by means of fuzzy clustering for landslide investigation. EAGE-GSM 2nd Asia Pacific Meet. Near Surf. Geosci. Eng., no. April 2019, pp. 1–5.
Ariyanto, S. V., & Joni, I. 2019. Zone Landslide Analysis Using Geophysical Method and Analysis of Soil Type for Disaster Mitigation In Waru Pamekasan. Indonesian Journal Of Applied Physics, Vol. 9, No.2, 68.
Deng, Y., Yan, S., Scaringi, G., Liu, W., & He, S. 2020. An empirical power density‐based friction law and its implications for coherent landslide mobility. Geophys. Res. Lett, Vol. 47, No. 11, pp. 1–9.
Setyawan, A., Fikri, M. S., Suseno, J. E., & Fuad, M. 2018. Lithology and characteristic of landslide in Gombel Hill by 2D geoelectric resistivity method using dipole-dipole configuration. J. Phys. Conf. Ser, Vol. 1025, No. 1, pp. 1–9.
Dalimunthe, Y. K., & Hamid, A. 2018. Georadar and geoelectricity method to identify the determine zone of sliding landslide. IOP Conf. Ser. Earth Environ. Sci, Vol. 106, No. 1, pp. 1–7.
Prawira, G. A., Arphan, F., & Warnana, D. D. 2020. Integrated Geophysical Methods to Determine Subsurface Structure of PSK-1 Mini Hydro Power Plant, Citeurep Creeping Area. IOP Conf. Ser. Earth Environ. Sci, Vol. 479, No. 1
Nurdin, N. H., Massinai, M. A., & Arsyad, A. 2019. Identification of Landslide Potential using Electrical Resistivity Tomography Method Wenner-Schlumberger Configuration in Sampiro, Bolaang Mongondow Utara, North Sulawesi. J. Phys. Conf. Ser, Vol. 1341, No. 8, pp. 58–61.
A. N. Piller. 2016. Precipitation Intensity Required for Landslide Initiation in Rwanda.
Abija, F. A., Nwosu, J. I., Ifedotun, A. I., & Osadebe, C. C. 2019. Landslide susceptibility assessment of Calabar, Nigeria using Geotechnical, Remote Sensing and Multi-Criteria Decision Analysis: Implications for urban planning and development. SDRP J. Earth Sci. Environ. Stud, Vol. 4, No. 6, pp. 774–788.
Ko, F. W., & Lo, F. L. 2018. From landslide susceptibility to landslide frequency: A territory-wide study. Eng. Geol, Vol. 242, pp. 12–22.
Hu, K., Chen, X., Chen, J., & Ren, X. (2018). Laboratory investigation of the effect of nano-silica on unconfined compressive strength and frost heaving characteristics of silty clay. Soil Mech. Found. Eng, Vol. 55, No. 5, pp. 352–357.
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