Flood Vulnerability of Masamba Urban Area, North Luwu Regency

Ma’mur, Irfandi; Akil, Arifuddin; Nganro, Sudirman

doi:10.12912/27197050/193618

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Tytuł artykułu

Flood Vulnerability of Masamba Urban Area, North Luwu Regency

Autorzy

Ma’mur Irfandi , Akil Arifuddin , Nganro Sudirman

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DOI

10.12912/27197050/193618

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Abstrakty

This research aimed to analyze the level of flood vulnerability in Masamba urban area, using quantitative and qualitative descriptive approaches. Data analysis techniques were carried out by weighting, scoring, and overlaying for each flood-causing parameter map, including; slope map, rainfall, land elevation, soil type, and land use. Delineation of flood-prone areas is determined based on spatial analysis between the detailed spatial plan map of Masamba urban area and the maps of these parameters, obtaining the area and classification of the level of vulnerability to flood disasters in the Masamba urban area. The results of the analysis show that the low flood vulnerability level is located in the Kamiri village, Masamba village and part of the Kappuna village with an area of 83.39 Ha or 7.22%, the medium flood vulnerability level covers the Radda and Baliase villages with an area of 824.75 Ha or 71.58%, while the Bone and Bone Tua Villages are included in the high vulnerability classification category with an area of 244.07 Ha or 21.18% of the Masamba urban detailed spatial plan (RDTR) area. On the basis of the research findings, mitigation efforts are needed in spatial planning in North Luwu Regency. Directions for spatial utilization in the flood-prone Masamba urban area, including; development of a flood disaster mitigation system with structural and non-structural methods. Recommendations for spatial utilization in Masamba urban area to minimize similar flash flood events in the future are reviewing the RDTR of Masamba urban area, revising the urban drainage system master plan, and modeling the classification of flood-prone areas. With the availability of flood vulnerability data in North Luwu Regency, it can be an input for the government and the community as a basis for decision making in spatial planning, spatial utilization and spatial control to create a resilient and sustainable Masamba City.

Słowa kluczowe

flash flood flood vulnerability Masamba City detailed spatial plan

Wydawca

Lubelski Oddział Polskiego Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology
WNGB Wydawnictwo Naukowe

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2024

Tom

Vol. 25, iss. 12

Strony

85--94

Opis fizyczny

Bibliogr. 28 poz., tab.

Twórcy

autor

Ma’mur Irfandi

irfhan.makmur@gmail.com

Department of Urban Planning, Graduate School, Hasanuddin University, Makassar, Indonesia

autor

Akil Arifuddin

Department of Urban Planning, Graduate School, Hasanuddin University, Makassar, Indonesia

autor

Nganro Sudirman

Department of Urban Management, Graduate School, Hasanuddin University, Makassar, Indonesia

Bibliografia

1. Abon, C.C., David, C.P.C., Tabios, G.Q. 2012. Community-based monitoring for flood early warning system: An example in central Bicol River basin, Philippines. Disaster Prevention and Management, 21(1), 85–96.
2. Adi, A.W., Shalih, O., Shabrina, F.Z., Rizqi, A., Putra, A.S., Karimah, R., Eveline, F., Alfian, A., Syauqi, Septian, R.T., Widiastomo, Y., Bagaskoro, Y., Dewi, A.N., Rahmawati, I., Seniarwan. 2022. Indonesia Disaster Risk Index 2021. In BNPB Disaster Data, Information and Communication Center 16.
3. Afsari, R., Shorabeh, S.N., Kouhnavard, M., Homaee, M., Arsanjani, J.J. 2022. A spatial decision support approach for flood vulnerability analysis in urban areas: A case study of tehran. ISPRS International Journal of Geo-Information, 11(7).
4. Ainurrohmah, S., Sudarti, S. 2022. Analysis of climate change and global warming that occurs as a critical phase. Phi Journal of Physics Education and Applied Physics, 3(3), 1.
5. Alam, A., Bhat, M.S., Farooq, H., Ahmad, B., Ahmad, S., Sheikh, A.H. 2018. Flood risk assessment of Srinagar city in Jammu and Kashmir, India. International Journal of Disaster Resilience in the Built Environment, 9(2), 114–129.
6. Arif, D., Mardiatna, D., Giyarsih, S.R. 2017. Vulnerability of urban communities to flood hazards. Indonesian Geography Magazine, 3(2), 79–87.
7. Arifin. 2011. Quantitative qualitative research methods and RD – 2011. https://elibrary.bsi.ac.id/readbook/200415/research-methods-quantitative-qualitative-and-r-d
8. Bajracharya, S.R., Khanal, N.R., Nepal, P., Rai, S.K., Ghimire, P.K., Pradhan, N.S. 2021. Community assessment of flood risks and early warning system in Ratu watershed, Koshi basin, Nepal. Sustainability (Switzerland), 13(6), 1–18.
9. Bukvic, A., Mitchell, A., Shao, Y., Irish, J.L. 2023. Spatiotemporal implications of flooding on relocation risk in rural and urban coastal municipalities. Land Use Policy, 132(May), 106754. https://doi.org/10.1016/j.landusepol.2023.106754
10. Cabrera, J.S., Lee, H.S. 2020. Flood risk assessment for Davao Oriental in the Philippines using geographic information system-based multi-criteria analysis and the maximum entropy model. Journal of Flood Risk Management, 13(2), 1–17.
11. Ezzine, A., Saidi, S., Hermassi, T., Kammessi, I., Darragi, F., Rajhi, H. 2020. Flood mapping using hydraulic modeling and Sentinel-1 image: Case study of Medjerda Basin, northern Tunisia. Egyptian Journal of Remote Sensing and Space Science, 23(3), 303–310.
12. Farooq, M., Shafique, M., Khattak, M.S. 2019. Flood hazard assessment and mapping of River Swat using HEC-RAS 2D model and high-resolution 12-m TanDEM-X DEM (WorldDEM). Natural Hazards, 97(2), 477–492.
13. Ginting, S. 2021. Analysis of rainfall causes of flash floods in Ujung Berung, Bandung. Acceleration: Scientific Journal of Civil Engineering, 2(2), 9–17.
14. Gopal, V., Krishnakumar, S., Simon Peter, T., Nethaji, S., Suresh Kumar, K., Jayaprakash, M., Magesh, N.S. 2017. Assessment of trace element accumulation in surface sediments off Chennai coast after a major flood event. Marine Pollution Bulletin, 114(2), 1063–1071.
15. Klipper, I.G., Zipf, A., Lautenbach, S. 2021. Flood impact assessment on road network and healthcare access at the example of Jakarta, Indonesia. AGILE: GIScience Series, 2, 1–11.
16. Minister of ATR/Head of BPN of the Republic of Indonesia. 2021. Regulation of the Minister of ATR/ Head of BPN No. 11 of 2021 concerning Procedures for the Preparation, Review, Revision, and Issuance of Substance Approval of Provincial, Regency, City Spatial Plans, and Detailed Spatial Plans. Regulation of the Minister of Agrarian Affairs and Spatial Planning/Head of the National Land Agency of the Republic of Indonesia, 2. https://jdih.atrbpn.go.id/uploads/1003/Permen 11 tahun 2021.pdf
17. Mohamed, A., Worku, H. 2021. Urban land cover and morphometric analysis for flash flood vulnerability mapping and riparian landscape conservation in Kebena River watershed, Addis Ababa. Applied Geomatics, 13(1), 15–28.
18. Monger, F., V Spracklen, D., J Kirkby, M., Schofield, L. 2022. The impact of semi-natural broadleaf woodland and pasture on soil properties and flood discharge. Hydrological Processes, 36(1), 1–14.
19. Muto, Y., Noda, K., Maruya, Y., Chibana, T., Watanabe, S. 2022. Impact of climate and landuse changes on the water and sediment dynamics of the Tokoro River Basin, Japan. Environmental Advances, 7, 100153. https://doi.org/10.1016/j.envadv.2021.100153
20. Oluwasegun, A.H. 2017. GIS Analysis of flood vulnerable area in Benin-owena river basin Nigeria. Indonesian Journal of Geography, 49(1), 27–33.
21. Pranita, E. 2020. Two Meteorological Factors Cause Masamba Flash Flood in North Luwu Page all - Kompas.com. https://www.kompas.com/sains/read/2020/07/17/070200123/2-faktor-meteorologis-penyebab-banjir-bandang-masamba-luwuutara?page=all
22. Prastica, R.M.S., Apriatresnayanto, R., Marthanty, D.R. 2019. Structural and green infrastructure mitigation alternatives prevent Ciliwung River from water-related landslide. International Journal on Advanced Science, Engineering and Information Technology, 9(6), 1825–1832.
23. Hasanuddin University Center for Disaster Studies. 2020. Research Report on the Study of Sedimentation after the 2020 Flash Flood in North Luwu Regency.
24. Rakuasa, H., Sihasale, D.A., Mehdila, M.C., Wlary, A.P. 2022. Spatial analysis of flood vulnerability levels in Teluk Ambon Baguala Sub-District, Ambon City. Jurnal Geosains Dan Remote Sensing, 3(2), 60–69.
25. Ramadana, W. 2023. Level of flood hazard in the Masamba Sub-watershed area of North Luwu Regency. Jurnal Plano Madani, Volume 12 (1), 15–26.
26. Sitorus, I.H.O., Bioresita, F., Hayati, N. 2021. Analysis of flood prone levels in Bandung Regency using weighting and scoring methods. Jurnal Teknik ITS, 10(1), 14–19.
27. Taufik, T., Mukaddas, J., Hasddin, H. 2023. Direction of spatial utilization of flood affected areas in Pondidaha District, Konawe Regency. The Enlightener: Scientific Journal of Muhammadiyah Buton University, 9(1), 112–123.
28. Zhou, M., Deng, J., Lin, Y., Belete, M., Wang, K., Comber, A., Huang, L., Gan, M. 2019. Identifying the effects of land use change on sediment export: Integrating sediment source and sediment delivery in the Qiantang River Basin, China. Science of the Total Environment, 686, 38–49.

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Bibliografia

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