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Flood vulnerability assessment in rural and urban informal settlements: case study of Karonga District and Lilongwe City in Malawi


Author(s) : Isaac Kadono Mwalwimba, Mtafu Manda, Cosmo Ngongondo
Nat Hazards
4
Citations (scopus)

Abstract


AbstractFlood vulnerability assessment (FVA) informs the disaster risk reduction and preparedness process in both rural and urban areas. However, many flood-vulnerable regions like Malawi still lack FVA supporting frameworks in all phases (pre-trans-post disaster). Partly, this is attributed to lack of the evidence-based studies to inform the processes. This study was therefore aimed at assessing households’ flood vulnerability (HFV) in rural and urban informal areas of Malawi, using case studies of Traditional Authority (T/A) Kilupula of Karonga District (KD) and Mtandire Ward in Lilongwe City (LC). A household survey was used to collect data from a sample of 545 household participants. Vulnerability was explored through a combination of underlying vulnerability factors (UVFs)-physical-social-economic-environmental and cultural with vulnerability components (VCs)-exposure-susceptibility and resilience. The UVFs and VCs were agglomerated using binomial multiple logit regression model. Variance inflation  factor (VIF) was used to check the multicollinearity of variables in the regression model. HFV was determined based on the flood vulnerability index (FVI). The data were analysed using Multiple Correspondence Analysis (MCA), artificial neural network (ANN) and STATA. The results reveal a total average score of high vulnerability (0.62) and moderate vulnerability (0.52) on MCA in T/A Kilupula of Karonga District and Mtandire Ward of Lilongwe City respectively. The FVI revealed very high vulnerability on enviroexposure factors (EEFs) ($$0.9$$ 0.9 ) in LC and$$(0.8$$ ( 0.8 ) in KD, followed by ecoresilience factors (ERFs) (0.8) in KD and$$(0.6$$ ( 0.6 ) in LC and physioexposure factors (PEFs) ($$0.5)$$ 0.5 ) in LC besides 0.6 in KD for the combined UVFs and VCs. The study concludes that the determinants of households’ flood vulnerability are place settlement, low-risk knowledge, communication accessibility, lack of early warning systems, and limited access to income of household heads. The study recommends that an FVA framework should be applied to strengthen the political, legal, social, and economic responsibilities of government for building the resilience of communities and supporting planning and decision-making processes in flood risk management.


Original language en
Pages (from-to) 10141-10184
Volume 120
Issue number 11
Publication status Published - 2024

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    1. . .
      Abass K (2018) Household vulnerability and adaptation to floods: a comparative study of rural and urban Ghana (PhD thesis). Kwame Nkrumah University of Science and Technology, Kumasi, Ghana
    2. H Ahmadi (2015). J Coast Zone Manag, Vol. 22, (1), pp. 1.
      Ahmadi H (2015) Bangladesh coastal zone management status and future trends. J Coast Zone Manag 22(1):1– 7
    3. I Alam (2022). Retrieved from, Vol. 113, (1), pp. 329.
      Alam I, Khan SM, Salam R (2022) Vulnerability assessment based on household views from the Dammar Char in Southeastern Bangladesh. Nat Hazards 113(1):329–334
    4. EO Anwana (2023). Social Sci, Vol. 12, pp. 40.
      https://doi.org/10.3390/socsci12010040
    5. SF Balica (2012). Nat Hazards, Vol. 64, (1), pp. 73.
      https://doi.org/10.1007/s11069-012-0234-1
    6. J Birkmann (2013). Nat Hazards, Vol. 67, (2), pp. 193.
      https://doi.org/10.1007/s11069-013-0558-5
    7. . .
      Chawawa NE (2018) Why do smallholder farmers insist on living in flood prone areas? Understanding self-perceived vulnerability and dynamics of local adaptation in Malawi. Ph.D. Thesis, School of Geosciences University of Edinburgh
    8. SL Cutter (1996). Prog Hum Geogr, Vol. 20, (4), pp. 529.
      https://doi.org/10.1177/030913259602000407
    9. R De Risi (2013). Nat Hazards, Vol. 69, pp. 1003.
      https://doi.org/10.1007/s11069-013-0749-0
    10. . .
      Fisher A, Laing J, Stoeckel J (2010) Handbook for family planning operation research design. Population Council
    11. GA Hodgkins (2017). J Hydrol, Vol. 552, pp. 704.
      https://doi.org/10.1016/j.jhydrol.2017.07.027
    12. . .
      Iloka NG (2017) Perception of ethnicity, local knowledge and sustainable livelihoods in relation to DRR. The Case of Nsukka in South-East Nigeria. Ph.d. thesis, University of Northumbria, Newcastle
    13. . .
      https://doi.org/10.3390/socsci12010040
    14. . .
      Joakim E (2008) Assessing the hazard of place model of vulnerability. A case study of Waterloo Region. MSc., thesis. Retrieved from https://www.researchgate.net/publication/254728595
    15. MK Kablan (2017). Water, Vol. 9, (292), pp. 1.
      https://doi.org/10.3390/w9040292
    16. T Kamanga (2020). Geogr Tech, Vol. 15, (1), pp. 132.
      Kamanga T, Tantanee S, Mwale FD, Buranajararukorn P (2020) A multi-hazard perspective in flood and drought vulnerability: a case study of Malawi. Geogr Tech 15(1):132–142
    17. . .
      https://doi.org/10.1007/s11069-016-2296-y
    18. I Kelman (2010). Theoret Appl Climatol, Vol. 149, (1–2), pp. 639.
      Kelman I (2010) Climate change and the sendai framework for disaster risk reduction. Int J Disaster Risk Sci 6(2):117–127
    19. AE Kissi (2015). J Geogr Inf Syst, Vol. 7, (6), pp. 607.
      Kissi AE, Abbey GA, Agboka A, Egbendewe A (2015) Quantitative assessment of vulnerability to flood hazards in downstream area of Mono Basin, South-Eastern Togo: Yoto district. J Geogr Inf Syst 7(6):607–619
    20. ZW Kundzewicz (2019). Nat Hazards Earth Syst, Vol. 19, pp. 1319.
      https://doi.org/10.5194/nhess-19-1319-2019
    21. . .
      https://doi.org/10.1177/0956247817692200
    22. LL Moreira (2021). Nat Hazard, Vol. 21, (5), pp. 1513.
      https://doi.org/10.5194/nhess-21-1513-2021
    23. RB Munyai (2019). Jàmbá J Disaster Risk Stud, Vol. 11, (2).
      https://doi.org/10.4102/jamba.v11i2.692
    24. . .
      Mwale F (2014) Contemporary disaster management framework quantification of flood risk in rural lower Shire Valley, Malawi. Ph.d. thesis, Heriot-Watt University, Scotland
    25. FD Mwale (2015). Int J Disaster Risk Reduct, Vol. 12, pp. 172.
      https://doi.org/10.1016/j.ijdrr.2015.01.003
    26. . .
      https://doi.org/10.21275/SR20411180826
    27. . .
      https://doi.org/10.1007/s11069-06416-4
    28. M Nazeer (2019). Sustainability, Vol. 11, (23), pp. 6695.
      https://doi.org/10.3390/su11236695
    29. M Nazeer (2021). Pak Nat Hazards, Vol. 105, (1), pp. 755.
      https://doi.org/10.1007/s11069-020-04336-7
    30. . .
      Nong D, Sathyna AR (2020) Vulnerability assessment of households to floods and landslides in the upper region of Vietam
    31. P Oyedele (2022). Water (switzerland), Vol. 14, (17), pp. 234.
      https://doi.org/10.3390/w14172746
    32. F Parvin (2022). Theoret Appl Climatol, Vol. 149, (1–2), pp. 639.
      https://doi.org/10.1007/s00704-022-04068-7
    33. . .
      PDNA (2015) Post disaster need assessment
    34. . .
      PDNA (2019) Post disaster need assessment
    35. S Qasim (2016). Int J Disaster Risk Reduct, Vol. 18, pp. 100.
      https://doi.org/10.1016/j.ijdrr.2016.03.009
    36. . .
      SEP (2017) District Social Economic Profile (SEP-2017). Lilongwe
    37. . .
      UNISDR (2017) United Nation International Strategy for Disaster Risk
    38. . .
      https://doi.org/10.4324/9780203974575
    39. . .
      Wisner B, Blaikie P, Cannon T, Ian D (2014) The challenge of disasters and our approach. In: At risk: natural hazards, people’s vulnerability, and disasters. Routledge
    40. . .
      Wright G, Adeloye A, Duncan M, Mwale F (2017) Community based-flood risk management: experiences and challenges in Malawi. Int Water Resour Assoc (IWRA)

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