GIS Analysis of Flood Vulnerable Areas In Benin- Owena River Basin, Nigeria
Adebayo Oluwasegun Hezekiah(1*)
(1) Olabisi Onabanjo University, Ago-Iwoye,Ogun State
(*) Corresponding Author
Abstract
The frequency and intensity of flood disasters have become serious issues in the national development process of Nigeria as flood disasters have caused serious environmental damages, loss of human lives and other heavy economic losses; putting the issue of disaster reduction and risk management higher on the policy agenda of affected governments, multilateral agencies and NGOs. The starting point of concrete flood disaster mitigation efforts is to identify the areas with higher risk levels and fashion out appropriate preventive and response mechanisms. This research paper explored the potentials of Geographic Information System (GIS) in data capture, processing and analysis in identifying flood-prone areas for the purpose of planning for disaster mitigation and preparedness, using Benin-Owena river basin of Nigeria as a unit of analysis. The data used in this study were obtained from FORMECU and were entered and use to develop a flood risk information system. Analysis and capability of the developed system was illustrated and shown graphically. The research showed that over one thousand settlements harbouring over ten million people located in the study area are at grave risk of flooding.
Key words: Flood, Risk, Vulnerability, Geographical Information System (GIS), River -Basin
Keywords
Full Text:
PDFReferences
Abams, T.K., Ofoegbu, C., Osadebe, C. And Abbobo, A. (2000). Impact of hydrology on the post-Harcourt Patani-Warri Road. Environmental Geology 40 (1), 153-162.
ActionAid. (2006). Climate change, urban Ḁooding and the rights of the urban poor in Africa, key finding from 50 African cities, A report by ActionAid, ActionAid International.
ActionAid. (2008). Unjust water. A report by Action Aid International.
Adedeji, O. H., Odufuwa B. O. and Adebayo, O. H. (2012).Building Capabilities for Flood Disaster and Hazard Preparedness and Risk Reduction in Nigeria: Need for Spatial Planning and Land Management,” Journal of Sustainable Development in Africa. 1 (14), 45-58.
Adelekan, I. (2000). Vulnerability of poor urban coastal communities to climate change in Lagos, Nigeria. Fiᰀh Urban Research Symposium.
Aina, T.A. (1995). Metropolitan Lagos: population growth and spatial expansion; city study. Background paper for the Global Report on Human Settlements, 31 pages.
Andjeikovic, I. (2001). Guideline on non structural measures in urban Ḁood management. Technical documents in hydrology. UNESCO, Paris.
ASFPM. (2013, Januari 3). Flood Mapping for the Nation : A Cost Analysis for the Nation’s Flood Map Inventory. ἀe Association of State Floodplain Managers (ASFPM). ASFPM Report: Flood Mapping for the Nation.
yoade, J.O. (1988). Tropical hydrology and water resources. Macmillan. London.
Birkmann, J. (2000). Measuring vulnerability to promote disaster-resilient societies: Conceptual frameworks and deᨀnitions. Measuring vulnerability to natural hazards: towards disaster resilient societies (pp. 9-54). Tokyo : United Nations University Press .
Barroca, L. (2006). Indicators for identiᨀcation of Urban Flooding Vulnerability. Natural Hazards Earth System Science, 6 (4), 553-561.
Blaikie, P., T. Cannon, et al. (1994). At risk: natural hazards, people’s vulnerability and disasters. London etc., Routledge.
Dekens, J. (2007). Local knowledge for disaster preparedness: a literature review. Kathmandu, Nepal: International Centre for Integrated Mountain Development.
Douglas, et.al. Unjust waters: climate change, Ḁooding and the urban poor in Africa”, Environment and Urbanization, 20(1): Accessed on 12 December 2013 at: http://www.actionaid.org.uk/doc_lib/urban_Ḁooding_africa_report.pdf.
DMSG-Disaster Management Support Group. (2001). ἀe Use of Earth Observing Satellites for Hazard Support Group, Final Report. NOAA, Department of Commerce. USA.
FLOODsite. Task 3: Review of Flood Hazard Mapping. Accessed on 11 April 2008 at : http://www.Ḁoodsite.net/html/publications2.asp?ALLdocs=on&Submit=View
Ifatimehin, O.O. and Ifuah, M.E. (2006). An Analysis of Urban Expansion and loss of Vegetation in Lokoja using GIS Techniques. Zaria Geographers, 17 (1), 28-36.
Haile, A.T. and Rientjes, T.H.M. (2005). Eᴀects of Lidar dem resolution in Ḁood modelling: A model sensitivity study for the city of Tegucigalpa, Honduras. ISPRS WG III/3, III/4, Workshop “Laser scanning 2005”. Enschede.
IPCC. Climate Change Impacts, adaptation and Vulnerability, Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change Assessment Report, Summary for Policymakers. Accessed on 12 December 2013 at: http://www.ipcc.ch/pdf/assessment-report/ar4/wg2/ar4-wg2-spm.pdf.
Ishaya, S., Ifatimehin, O.O., and Abaje, I.B. (2009). Mapping Flood Vulnerable Areas in a Developing Urban Centre of Nigeria. Journal of Sustainable Development Africa, 11 (4), 180-194.
Jayasselan, A.T. (2006). Drought and Floods Assessment and Monitoring Using Remote Sensing and GIS (Electronic version). Satellite Remote Sensing and GIS Application in Agricultural Meteorology. 291-313
Maantay, J and Maroko, A. (2009). Mapping Urban Risk: Flood Hazards, Race and Environmental Justice. Applied Geography, 29 (1), 111-124.
McCall, M.K. Participatory Mapping and Participatory GIS (PGIS) for CRA, Community DRR and Hazard Assessment. Accessed on 12 December 2012 at http://www.proventionconsortium.org/?pageid=48#action.
Mitchell, J.K. (1999). Crucibles of Hazard: Megacities and Disasters in Transition. Tokyo: United Nation University Press.
Okosun, A. E., Ndukwu, R. I, Chiemelu, N. E. (2009). Urban Growth Management of Nigerian Cities: A GIS Approach. Journal of Environmental Management and Safety, 1 (1), 165- 179.
Ologunrisa, E. 1999. Flood hazard perception and adjustment in Ondo, Southwestern Nigeria, Journal of Nigeria Aᴀairs. 4 :172-193.
otschin, M. (2009). Land use and the state of the natural environment. Land Use Policy 26S : S170–S177. Doi:10.1016/J.Landusepol.2009.08.008
Sakamoto, T. (2007). Detecting temporal changes in the extent of annual Ḁooding within the Cambodia and the Vietnamese Mekong Delta from MODIS time-series imagery. – Remote Sensing of Environment, 109 (3), 295-313.
Satterthwaite, D., Huq, S., Pelling, M. Reid, H and Romero Lankao, P. (2007). Human Settlements Discussion Paper Series ἀeme: Climate Change and Cities – 1: Adapting to Climate Change in Urban Areas. ἀe possibilities and constraints in low- and middle-income nations. Accessed at http://www.rockfound.org/initiatives/climate/climate_change.html.
Sinha, Rajiv and Bapalu, G. Venkata. (2008). GIS in Flood Hazard Mapping: a case study of Kosi River Basin. India. GIS and Development.
Twigg. J. (2004). Good practice Review. Disaster Risk Reduction: “mitigation and preparedness in development and emergency programming. Overseas Development Institute, 111 Westminster Bridge Road, London U.K.
Van Western, C.J. and Hosfstee, F. (2000). ἀe role of remote sensing and GIS in risk mapping and damage assessment for disasters in urban areas. Fernerkundung and Naturkatastophen, 7, 442-450.
Venkata, G. and Sinha, B. GIS in Flood Hazard Mapping: A case study of Kosi River basin. India. Accessed on 23 July 2013 at: http://www.gisdevelopment.net/application/naturalhazards/Ḁoods/Ḁoods001.pdf.
UNFCCC. Vulnerability and adaptation to climate change in small island developing states – Background paper for the expert meeting on adaptation for small island developing States. UNFCCC Secretariat. Bonn, Germany. Accessed on 22 May 2011) at: http://unfccc.int/files/adaptation/adverse_effects_and_response_measures_art_48/application/pdf/200702_sids_adaptation_bg.pdf.
UN-Water. (2011). Cities coping with water uncertainties. Media Brief. UN-Water Decade Programme on Advocacy and Communication.
Zheng, N., Takara, K. Táchira, Y. (2008). Analysis of Vulnerability to Flood Hazard Based on Land Use and Population Distribution in the Huaihe River Basin, China,” . Annuals of Disaster Prevention Research Institute, 51 (2), pp 83-91.
DOI: https://doi.org/10.22146/ijg.12777
Article Metrics
Abstract views : 4826 | views : 5178Refbacks
- There are currently no refbacks.
Copyright (c) 2017 Indonesian Journal of Geography
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Accredited Journal, Based on Decree of the Minister of Research, Technology and Higher Education, Republic of Indonesia Number 225/E/KPT/2022, Vol 54 No 1 the Year 2022 - Vol 58 No 2 the Year 2026 (accreditation certificate download)
ISSN 2354-9114 (online), ISSN 0024-9521 (print)
IJG STATISTIC