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Enhancing Water Infrastructure Resilience in Response to Climate Change: Evidence From South Africa

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  • Joy Tuoyo Adu

    (Discipline of Civil Engineering, University of KwaZulu‐Natal, South Africa)

Abstract

Climate change is intensifying extreme weather events worldwide, placing unprecedented stress on water infrastructure systems. As climate variability increases, water utilities face mounting challenges in maintaining infrastructure integrity. This study, conducted in South Africa, quantifies the relationship between climate variability and water infrastructure resilience through empirical analysis of 43 years of historical data spanning 1980 to 2023. The article uses correlation, regression, and time‐series forecasting techniques to examine how extreme weather events, specifically floods and droughts, impact pipeline infrastructure performance metrics, including pipe failures, supply interruptions, and economic losses. The analysis reveals strong correlations between climate events and pipeline failures (flood‐pipe failure ? = 0.78; drought‐pipe failure ? = 0.64), with regression modelling showing that drought events have a 47% greater impact on pipe failures than flood incidents (coefficients 6.19 vs 4.21). Autoregressive integrated moving average (ARIMA) forecasting indicates an annual increase of approximately 4.5 pipe failures over the next two decades, indicating growing infrastructure vulnerability without intervention. The study concludes that enhancing resilience requires an integrated approach combining structural improvements with distributed systems and nature‐based solutions, with implementation priorities guided by the vulnerability of infrastructure components to specific climate stressors. These findings provide water managers with a quantitative basis for resilience planning that addresses immediate climate threats and long‐term adaptation needs.

Suggested Citation

  • Joy Tuoyo Adu, 2025. "Enhancing Water Infrastructure Resilience in Response to Climate Change: Evidence From South Africa," Urban Planning, Cogitatio Press, vol. 10.
    • Handle: RePEc:cog:urbpla:v10:y:2025:a:10163
    DOI: 10.17645/up.10163
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    References listed on IDEAS

    as
    1. Joanne Vinke‐De Kruijf & Megan E. Heim LaFrombois & Beau Warbroek & John C. Morris & Stefan M. M. Kuks, 2024. "Climate‐resilient water infrastructure: A call to action," Journal of Critical Infrastructure Policy, John Wiley & Sons, vol. 5(1), pages 17-29, July.
    2. Henchiri, Malak & Zhang, Jiahua & Li, Shuaishuai & Essifi, Bouajila & Wilson, Kalisa, 2024. "Comprehensive assessment of drought vulnerability and resilience over North and West Africa during 1980–2100," Agricultural Water Management, Elsevier, vol. 296(C).
    3. Anahí Urquiza & Marco Billi, 2020. "Water markets and social–ecological resilience to water stress in the context of climate change: an analysis of the Limarí Basin, Chile," Environment, Development and Sustainability: A Multidisciplinary Approach to the Theory and Practice of Sustainable Development, Springer, vol. 22(3), pages 1929-1951, March.
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    Cited by:

    1. Dillip Kumar Das & Varuvel Devadas, 2025. "Smart and Resilient Infrastructure in the Wake of Climate Change," Urban Planning, Cogitatio Press, vol. 10.

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