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Sains Malaysiana 38(5)(2009): 645–653
Survei Pengimejan Elektrik dan
Georadar dalam Kajian Tanah Runtuh
Taman Hill View, Ampang,
Selangor
(Survey of Electrical Imaging and Georadar on Landslides
Investigation at Taman Hillview, Ampang, Selangor)
Umar Hamzah*, Nurul Fairuz
Diyana Bahrudin
Pusat Pengajian Sains
Sekitaran dan Sumber Alam
Fakulti Sains dan Teknologi, Universiti
Kebangsaan Malaysia
43600 UKM Bangi, Selangor D.E., Malaysia
Mohd. Azmi Ismail & Amry Amin Abbas
Agensi Nuklear Malaysia Bangi
43000 Kajang, Selangor D.E., Malaysia
Received: 21 August 2007 /
Accepted: 5 March 2009
ABSTRAK
Satu kajian
menggunakan kaedah pengimejan elektrik dan georadar telah dijalankan di Taman
Hill View, Ampang, Selangor yang telah mengalami kejadian tanah runtuh.
Gelinciran ini adalah susulan daripada tiga kejadian tanah runtuh yang berlaku
di sekitar kawasan Hulu Klang, Selangor terutamanya di sekitar Bukit
Antarabangsa. Tujuan kajian adalah untuk mengenal pasti
ciri-ciri bahan runtuhan dan kedalaman batuan dasar melalui survei pengimejan
elektrik serta pencirian kawasan rekahan, retakan dan zon lemah melalui survei
georadar. Survei dilakukan berhampiran dengan
lubang-lubang gerudi di sepanjang beberapa teres potongan cerun. Jarak
elektrod yang digunakan ialah 2.0-2.5 m. Berdasarkan jumlah elektrod yang
digunakan ialah 41, ini bermakna jarak maksimum elektrod arus ialah 80-100 m
dan kedalaman maksimum yang diukur ialah 20 hingga 25 m. Kaedah Radar Penusukan
Bumi pula menggunakan gelombang elektromagnet berfrekuensi 100 MHz. Model
keberintangan elektrik menunjukkan profil luluhawa batuan granit dengan julat
keberintangan antara 2 hingga 7000 Ωm. Pola atau zon keberintangan rendah
yang berada di antara zon keberintangan tinggi ditafsirkan mewakili rekahan dan
sesar dalam batuan granit yang mengalami luluhawa dan berkemungkinan berisi air
pada kedalaman 4 hingga 5 m. Keratan rentas keberintangan menunjukkan kedudukan
kawasan rekahan, retakan dan zon lemah tersebut. Keratan rentas yang diperolehi
hasil survei radar penusukan bumi juga membuktikan dengan lebih jelas akan kehadiran sesar dan retakan yang terdapat dalam zon
luluhawa batuan granit di kawasan kajian melalui kewujudan anjakan-anjakan
pemantul dan ciri-ciri pemantul yang terputus.
Kata kunci:
Retakan; survei keberintangan elektrik; survei radar penusukan bumi; tanah
runtuh; sesar; zon luluhawa
ABSTRACT
Electrical
resistivity and Ground Penetrating Radar (GPR) surveys were carried out at Taman Hill View, Ampang, Selangor landslide area. This landslide site was a part of
three similar landslides which occurred at Bukit Antarabangsa, Hulu Klang, Selangor. The landslide had occurred along the road to Bukit
Antarabangsa and Athenaeum Tower. The objectives of these studies were to
characterise the sliding material and to determine the depth of bedrock below
the sliding surface using the electrical resistivity imaging technique as well
as to recognise the fractured or weak zone using the GPR technique. The spacing between electrodes used in the survey was
2 to 2.5 m and the survey lines were chosen close to the borehole locations.
With a total of 41 electrodes and spacing between each electrode of 2 to 2.5 m,
the maximum current electrode spacing in this survey would be between 80-100 m
resulting in the deepest subsurface depth investigated approximately at 20 to
25 m. A 100 MHz electromagnetic wave was used in the Ground Penetration Radar
survey. The resistivity imaging result showed the weathered granite profile
with resistivity value ranging from 2 to 7000 Ωm. The patterns also show
that this area had a lot of fractured or weak zones up to a depth of 4 to 5 m
based on the occurrence of low resistivities zones in between the high
resistivities. These highly fractured and faulted zones also appeared in the GPR sections as shown by the presence of shifted reflectors and
layer discontinuity.
Keywords:
Electrical resistivity survey; ground penetrating radar survey; landslide;
fault; cracks; weathered zone
REFERENCES
Abdul Rahim
Samsudin, Umar Hamzah, Abd Ghani Rafek & Rahman Yaccup. 2000. Application of geoelectrical resistivity for site
investigation. Proceeedings of Annual Geological Conference: 374-379.
Dahlin, T. 1996. 2D
resistivity surveying for environment and engineering applications. First
Break 14: 275-283.
Hamzah, U.
Samsudin, A.R. & Malim, E.P. 2007. Groundwater investigation in Kuala Selangor using vertical
electrical sounding (VES) surveys. Env. Geol. 51(8): 1349-1360.
Ibrahim
Komoo & Lim, C.S. 2003. Tragedi gelinciran tanah Taman Hill View. Annual Geological
Conference: 93-100.
Institut
Kerja Raya Malaysia (IKRAM). 2003. Report
on landslide at Taman Hillview, Ampang, Hulu Kelang, Selangor Darul Ehsan, Selangor.
Jabatan Pemetaan Negara. 1990. Peta
Geologi Petaling Jaya. Skala 1: 50 000 Malaysia.
Jackson, P.D.
& McCann, D.M. 1990. Seismic
tomography and its role in site investigation. Proc. 6th Int. IAEG Congress, Amsterdam: 959-967.
Jongmans,
D., hemroulle, P., Demanet, D., Renardy, F. & Vanbrabant, Y. 2000. Application of 2D electrical and seismic
tomography techniques for investigating landslides. European Journal
of Environmental and Engineering Geophysics 5: 75-89.
Loke, M.H.
& Barker, R.D. 1996. Rapid
least-squares inversion of apparent resistivity pseudosection by quasi-newton
method. Geophysical Prospecting 44: 131-152.
Mohamad Pauzi, Mohd Azmi Ismail,
Amry Amin Abas dan Suhairy Sani 2004. Application of Ground
Penentrating Radar (GPR) in concrete inspection and geotechnical studies. Seminar Geofizik-Peningkatan mutu dan kecekapan teknik
geofizik dalam penyiasatan tapak. ESSET. Bangi-Selangor.
Overmeeren, R.A. 1994. Georadar for hydrogeology. First Break 12(8):
401-408.
Reynolds, J.M. 1997. An Introduction to Applied and Environmental Geophysics. New York. John Wiley & Sons.
Sahbi, H.,
Jongsman, D. & Charlier R. 1997. Theoretical study of slope effects in resistivity surveys and
applications. Geophysical Prospecting 45: 795-808.
Vandenberghe, J. 1982. Geoelectric investigation of a fault system in quaternary deposits. Geophysical Prospecting 30: 879-897.
*Corresponding author; email: umar@ukm.my
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