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Sains Malaysiana 53(5)(2024): 1021-1031
http://doi.org/10.17576/jsm-2024-5305-04
Integrated Geophysical Models for
Interpretations of Heterogeneous Subsurface Environments
(Model Geofizik Bersepadu untuk Tafsiran Persekitaran Bawah Permukaan Heterogen)
MUHAMMAD
TAQIUDDIN ZAKARIA1,*, NUR AZWIN ISMAIL2,
NORDIANA MOHD MUZTAZA2 & MOHD FAIZ MOHAMAD ZAKI3
1Department of Earth
Sciences and Environment, Faculty of Science and Technology, Universiti Kebangsaan Malaysia,
43600 UKM Bangi, Selangor, Malaysia
2School of Physics, Universiti Sains Malaysia, 11800,
USM, Penang, Malaysia
3Faculty of Civil
Engineering and Technology, Universiti Malaysia
Perlis, 02600 Arau, Perlis, Malaysia
Received: 1 December
2023/Accepted: 5 April 2024
Abstract
Near-surface
characterization can be vulnerable to misinterpretation due to limited
resolution and methodological limitations. Validation from different parameters
is necessary to substantiate the results and reduce errors during
interpretations. This research aims to develop an alternative integrated method
of a 2-D cross-plot model to enhance subsurface interpretations based on the
model's criteria, resulting in better geological interpretation. Geophysical
methods such as electrical resistivity and seismic refraction are utilized in a
test model and a case study area to observe the capabilities of the integrated
method approach. The goal of this study was to cluster two or more different
parameters into a single model for a direct presentation of the subsurface
model. This includes the characterization of subsurface
properties, data integration using cross-plot analysis, and the development of
a 2-D cross-plot model. This method visually represents the relationship
between two or more attributes, allowing for the identification of anomalies.
In the test model, the lithology consists of sandy silt derived from granitic
residual soil, whereas in the case study model, it was dominated by weathered
granitic residual soil with the presence of saturated zones. The 2-D cross-plot
model provides a comprehensive interpretation where Quadrant, Q1 shows the
vulnerable zones for sliding mass bodies. The plane weakness was successfully
identified based on the cross-plot model as the weathered zone, and subsurface
features were determined. The estimated volume of mass movement was
successfully calculated for the case study area based on the determination of
the sliding plane. The integrated method of cross-plot analysis along with the
development of 2-D cross-plot models proves to be an informative approach for
subsurface characterization and enhances subsurface imaging.
Keywords:
Creep; cross-plot; resistivity; seismic refraction
Abstrak
Pencirian permukaan cetek boleh terdedah kepada salah tafsir disebabkan oleh resolusi terhad dan had metodologi. Pengesahan daripada parameter yang berbeza diperlukan untuk mengesahkan keputusan dan mengurangkan ralat semasa tafsiran. Penyelidikan ini bertujuan untuk membangunkan kaedah alternatif bersepadu bagi model plot-silang 2-D untuk meningkatkan tafsiran subpermukaan berdasarkan kriteria model, menghasilkan tafsiran geologi yang lebih baik. Kaedah geofizik seperti keberintangan elektrik dan seismik pembiasan digunakan dalam model ujian dan kawasan kes kajian untuk memerhatikan keupayaan pendekatan kaedah bersepadu. Matlamat kajian ini adalah untuk mengelompokkan dua atau lebih parameter berbeza ke dalam satu model untuk persembahan langsung model subpermukaan. Ini termasuk pencirian sifat subpermukaan, penyepaduan data menggunakan analisis plot-silang dan pembangunan model plot-silang 2-D. Kaedah ini secara visual mewakili hubungan antara dua atau lebih atribut, membolehkan untuk mengenal pasti anomali. Dalam model ujian, litologi terdiri daripada pasir berlodak daripada tanih baki granit manakala dalam kajian kes, ia didominasi oleh tanih baki granit terluluhawa dengan kehadiran zon tepu. Model plot-silang 2-D menyediakan tafsiran yang komprehensif dengan kuadran, Q1 menunjukkan zon terdedah untuk badan jisim gelongsor. Kelemahan satah telah berjaya dikenal pasti berdasarkan model
plot-silang sebagai zon terluluhawa dan ciri subpermukaan telah ditentukan. Anggaran isi padu pergerakan jisim berjaya dihitung untuk kawasan kes kajian berdasarkan penentuan satah gelongsor. Kaedah bersepadu analisis plot-silang bersama-sama dengan pembangunan model plot-silang 2-D terbukti sebagai pendekatan bermaklumat untuk pencirian bawah permukaan dan meningkatkan pengimejan subpermukaan.
Kata kunci: Keberintangan; plot-silang; rayapan; seismik pembiasan
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*Corresponding
author; email: taqiuddin@ukm.edu.my
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