 |
 |
 |
 |
 |
 |
Sains Malaysiana 50(8)(2021): 2179-2191
http://doi.org/10.17576/jsm-2021-5008-04
Leveraging on Multidisciplinary Expertise for
Landslide Disaster Risk Reduction and Management: A Case Study of a Limestone
Hill Rockfall Hazard Assessment, Batu Caves,
Selangor, Malaysia
(Memanfaatkan Kepakaran Berbilang Disiplin untuk Pengurangan dan Pengurusan Risiko Bencana Tanah Runtuh: Suatu Kajian Kes Penilaian Bahaya Runtuhan Batu Bukit Batu Kapur, Batu Caves, Selangor, Malaysia)
1Faculty of Civil
Engineering, Universiti Teknologi MARA, 40450 Shah Alam, Selangor Darul Ehsan, Malaysia
2Engineering
Geology Advisory, 11, SS21/12, Damansara Utama, 47400 Petaling Jaya, Selangor Darul Ehsan, Malaysia
3State
key Laboratory for Geomechanics & Deep Underground Engineering, China
University of Mining and Technology, Xuzhou 221116, People’s Republic of China
4Department
of Earth Sciences and Environment, Faculty of Science and Technology, Universiti Kebangsaan Malaysia, 43600
UKM Bangi, Selangor Darul Ehsan, Malaysia
5UTM
Razak School of Engineering and Advanced Technology, Universiti Teknologi Malaysia
Jalan Semarak, 54100 Kuala Lumpur, Federal Territory, Malaysia
6Geomapping
Technology Sdn Bhd., Bangi Business Park, 43650 Bandar Baru Bangi,
Selangor Darul Ehsan, Malaysia
Received:
4 June 2020/Accepted: 29 December 2020
ABSTRACT
The
United Nations Development Program agenda 2030 has charted out seventeen
Sustainable Development Goals (SDG) whereby Malaysia as a member has
strategically set the platform for growth. From the seventeen agendas, the SDG
9 (built resilient, promote inclusive and sustainable industrialization and
foster innovation) and SDG 11 (make cities and human settlements inclusive,
resilient, and sustainable) requires a paradigm shift from conventional
engineering approach for environmentally induced disasters. Leveraging
multidisciplinary ability and information and communications technology (ICT)
in the landslide disaster studies had enabled regional-scale information
acquirement for hazards identification, exposure, and risk assessment to meet
the goals. The investigated limestone hill, Batu Caves is located within the suburban city of Kuala Lumpur. The land use around
the hill is extensive and the area is highly populated with encroachment to the
toe of the limestone hill. The purpose of the risk study was to assess the
limestone hill’s stability and hazards and the exposure that may lead to the
vulnerability of the residences and commercial activities at and around the
hill. Therefore, an engineering risk assessment study was carried out to
determine rock fall hazard potential. The Terrestrial Laser Scanning survey was
utilized to obtain the hillside’s cross section. Discontinuity mapping was
conducted to identify rock block size and rock slope was analyzed using rock
mass classification system to determine rock slope quality. The rockfall
analysis was conducted to identify rock rollout distance and produce rock fall
hazard maps. The Slope Mass Rating for the slope BC1A, Parcel 1, Batu Caves was determined as 61, and is classified as a
partially stable. The maximum rollout distance at this slope was 11 m. This
illustrates the practical output of this study that can be applied for
mitigation and future development of the area.
Keywords:
Disaster management; hazard assessment; rockfall
ABSTRAK
Agenda Program Pembangunan Pertubuhan Bangsa-Bangsa Bersatu 2030 telah memetakan tujuh belas Matlamat Pembangunan Lestari (SDG) dengan Malaysia sebagai ahli telah menetapkan pentas untuk pertumbuhan secara strategik. Daripada tujuh belas agenda, SDG 9 (membina daya tahanan, mempromosikan perindustrian inklusif dan lestari dan memupuk inovasi) dan SDG 11 (menjadikan bandar dan penempatan manusia inklusif, berdaya tahan dan lestari) memerlukan peralihan paradigma dalam pendekatan kejuruteraan konvensional untuk bencana yang disebabkan oleh alam sekitar. Untuk mencapai tujuan ini, keupayaan berbilang disiplin dan teknologi maklumat dan komunikasi (ICT) dalam kajian bencana tanah runtuh telah digunakan dalam pengumpulan maklumat skala serantau untuk pengenalpastian bahaya, pendedahan dan penilaian risiko. Bukit batu kapur yang dikaji, Batu Caves adalah terletak di pinggir bandar Kuala Lumpur. Penggunaan tanah di sekitar bukit batu kapur adalah meluas dan kawasan kaki bukit batu kapur diduduki dengan padat. Tujuan kajian risiko adalah untuk menilai kestabilan dan bahaya bukit batu kapur dan pendedahan keterancaman kepada kediaman dan kegiatan komersial di sekitar kawasan bukit. Oleh itu, satu kajian penilaian risiko kejuruteraan dilakukan untuk menentukan potensi bahaya jatuhan batuan. Survei Terestrial Imbasan Laser dijalankan untuk mendapatkan keratan rentas cerun bukit. Survei ketakselanjaran dilakukan untuk mengenal pasti saiz blok batuan dan cerun batuan dianalisis dengan menggunakan sistem pengelasan jasad batuan untuk menentukan kualiti cerun batuan. Analisis jatuhan batuan dilakukan untuk mengenal pasti jarak gulingan batuan dan menghasilkan peta bahaya jatuhan batuan. Perkadaran Jasad Cerun untuk cerun BC1A, Parcel 1, Batu Caves telah ditentukan sebagai 61 dan dikelaskan sebagai separuh stabil. Jarak maksima gulingan di cerun ini ialah 11 m. Ini menunjukkan bahawa hasil praktikal kajian ini dapat digunapakai untuk mitigasi dan pembangunan kawasan pada masa hadapan.
Kata kunci: Jatuhan batu;
REFERENCES
Bieniawski, Z.
1989. Rock Mass Rating System. http://www.rockmass.net/short_on_RMR-
system.pdf. Accessed on 30 August 2019.
Deere, D.U. &
Miller, R.P. 1966. Engineering Classification and Index Properties of Rock. Tech. Report Air Force Weapons Lab., New Mexico. pp. 65-116.
Faruq,
M.S.M.A., Rasid Jaapar, A.,
Dali, M.F.M., Afiq, F.A.R., Jasmee,
M.F., Harun, M.A., Hellmy, M.A.A., Abdullah, R.A.
& Goh, T.L. 2019. Advantages and limitations of Terrestrial Laser Scanner
(TLS) and photogrammetry technology for rock slope assessment in Malaysian
tropical terrains. In 12th Asian Regional Conference of IAEG. IEAG. p.
164.
Goh, T.L., Serasa, A.S., Rafek, A.G.,
Simon, N. & Mohamed, T.M. 2017a. Rock fall run out analysis: Batu Caves, Selangor, Malaysia. Journal of Nepal Geological Society 54: 39.
Goh, T.L., Razib, A.M.M.,
Mazlan, N.A., Rafek, A.G., Serasa,
A.S., Simon, N., Surip, N., Ern, L.K. & Mohamed,
T.M. 2017b. Rock slope stability assessment of limestone hills, Southern Kinta
Valley, Ipoh, Perak, Malaysia. Geological
Behavior 1(2): 5-9.
Goh,
T.L., Wong, J.M., Rafek, A.G., Serasa,
A.S., Mazlan, N.A., Razib,
A.M.M., Hussin, A., Lee, K.E. & Mohamed, T.R.
2018. Stability assessment of limestone cave: Batu Caves, Selangor, Malaysia. Sains Malaysiana 47(1): 59-66.
Goh,
T.L., Razib, A.M.M., Mazlan, N.A., Rafek, A.G., Serasa, A.S. &
Mohamed, T.M. 2016. Rock slope stability
assessment using slope mass rating (SMR) method: Gunung Lang Ipoh Malaysia. Scholars Journal of Engineering and Technology (SJET) 4(4): 185-192.
Ghani,
M.F.A., Simon,
N., Goh, T.L. & Rafek, A.G. 2015. A preliminary
stability assessment using lineament density technique on cultural hotspots in
limestone hills, Kinta Valley, Malaysia. In Proceedings
of Regional Geoheritage Conference 2015. p. 79.
Minerals
and Geoscience Department Malaysia. 2013. Guideline
for Determination of Hazard Zone at Limestone Area. JMG.GP.15.
Morgenstern,
N.R. 2000. Common Ground. In ISRM
International Symposium. ISRM. pp. 1-30.
Mustapha,
J.R.B., Sum, C.W. & Rafek, A.G. 2017. Slope
stability assessment of Kek Look Tong limestone
hills, Kinta Valley, Perak, Malaysia. In 30th National Geoscience Conference
& Exhibition. Warta Geologi 43(3):
255.
Palmstrom, A.
2005. Measurements of and correlations between block size and rock quality
designation. Tunnelling and Underground Space Technology 20(4):
362-377.
Romana,
M. 1993. A geomechanical classification for slopes: Slope mass rating. In Comprehensive Rock Engineering: Rock Testing
and Site Characterization, Vol 3, edited
by Hudson, J.A. Michigan: Elsevier Science & Technology Books. pp.
575-600.
Saim, S.
1988. Engineering Geological Mapping of Wilayah Persekutuan and Surrounding Areas. Volume 1: Ampang-Ulu Klang and Damansara Zones. Geological Survey of Malaysia. Urban Geology Section.
Report No.UG/1/1988.
Simon,
N., Ghani, M.F.A., Hussin, A., Goh, T.L., Rafek, A.G., Surip, N., Monam, T.R.T. & Ern, L.K. 2015. Assessment of rockfall
potential of limestone hills in the Kinta Valley. Journal of Sustainability Science and Management 10(2): 24-34.
Waltham,
A.C. & Fookes, P.G. 2003. Engineering
classification of karst ground conditions. Quarterly
Journal of Engineering Geology and Hydrogeology 36(2): 101-108.
Yunus Abd.
Razak. 2014. Geological Map of Peninsular
Malaysia. 9th ed. Kuala
Lumpur: Mineral and Geoscience Malaysia.
*Corresponding author; email:
gdsbgoh@gmail.com
|
|||
|
