Abstract
Cape Town maintains a large and economically successful metropolitan area supported by more than two centuries of hydrologic infrastructure. Yet, the impacts of climate change have already been felt in the disastrous drought of 2018 followed by the record-breaking heat of January 2022. This chapter discusses the climate hazards of floods and droughts experienced by Cape Town as a result of interannual climate teleconnections amid the expansion of the Hadley cell. The development of the state’s water storage is traced, like many rapidly growing cities, to a staggered development precipitated by periods of flooding and drought. The worse the climate hazards become, the more important the storage, yet heat and dryness increasingly threaten the water supply, blunting the effect of increased reservoir capacity. As attention turns to water conservation mechanisms, the problem of scarcity exacerbates long-standing political conflicts while throwing the problem of inequality into stark relief. We conclude that the city can take greater steps to contend with flooding and droughts but must deploy resilient strategies in conditions of water scarcity to avoid disproportionate impacts of water policies on the poor.
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References
Abrahams G (1993) The grand parade, Cape Town: archaeological excavations of the seventeenth century Fort de Goede Hoop. South Afr Archaeol Bull 48:3–15
Arruda W, Zharkov V, Deremble B, Nof D, Chassignet E (2014) A new model of current retroflection applied to the westward protrusion of the Agulhas current. J Phys Oceanogr 44(12):3118–3138
Badenhorst S (2006) Goats (Capra hircus), the Khoekhoen and pastoralism: current evidence from southern Africa. Afr Archaeol Rev 23:45–53
Beal LM, Elipot S (2016) Broadening not strengthening of the Agulhas Current since the early 1990s. Nature 540(7634):570–573
Biastoch A, Krauss W (1999) The role of mesoscale eddies in the source regions of the Agulhas Current. J Phys Oceanogr 29(9):2303–2317
Boebel O, Lutjeharms J, Schmid C, Zenk W, Rossby T, Barron C (2003) The Cape Cauldron: a regime of turbulent inter-ocean exchange. Deep-Sea Res II Top Stud Oceanogr 50(1):57–86
Booysen MJ, Wijesiri B, Ripunda C, Goonetilleke A (2019) Fees and governance: towards sustainability in water resources management at schools in post-apartheid South Africa. Sustain Cities Soc 51:101694
Bottaro J (1996) The changing landscape of the Liesbeek River valley: an investigation of the use of an environmental history approach in historical research and in classroom practice. Master’s thesis, University of Cape Town
Brodie N (2015) The Cape Town book: a guide to the city’s history, people and places. Penguin Random House South Africa, Cape Town
Desportes I, Hordijk M, Waddell J (2016) Improving flood risk governance through multi-stakeholder collaboration: a case study of Sweet Home informal settlement, Cape Town. South Afr Geogr J (Suid-Afrikaanse Geografiese Tydskrif) 98(1):61–83
Drivdal, L. (2016, September). Community leadership in urban informal neighbourhoods: micro-politics and micro-administration in informal settlements in Cape Town. In Urban forum (27, 3, 275-295). Dordrecht: Springer
Dube K, Nhamo G, Chikodzi D (2022) Flooding trends and their impacts on coastal communities of Western Cape Province, South Africa. GeoJournal 87(Suppl 4):453–468
Enqvist JP, Ziervogel G (2019) Water governance and justice in Cape Town: an overview. Wiley Interdiscip Rev Water 6(4):e1354
Fourie J, Fintel DV (2011) An unequal harvest: the French Huguenots and Early Cape wine-making. Tydskrif vir Geesteswetenskappe 51(3):332–353
Fremont-Barnes G (2014) The Boer War 1899–1902. Bloomsbury Publishing, London
Goncalo A, Bouchard B, Susienka M, Wilson K (2007) Improving flood risk management in informal settlements of Cape Town: an interactive qualifying project (Unpublished B.Sc. Project). Worcester Polytechnic Institute, Worcester
Goschen WS, Bornman TG, Deyzel SHP, Schumann EH (2015) Coastal upwelling on the far eastern Agulhas Bank associated with large meanders in the Agulhas Current. Cont Shelf Res 101:34–46
Grant D (1991) The politics of water supply: the history of Cape Town’s water supply 1840–1920. Master’s thesis, University of Cape Town
Ibebuchi CC (2021) On the relationship between circulation patterns, the southern annular mode, and rainfall variability in Western Cape. Atmos 12(6):753
Juuti PS, Mäki HR, Wall K (2007) Water supply in the Cape settlement from the mid-17th to the mid-19th centuries. In: Environmental History of Water-Global views on community water supply and sanitation. IWA Publishing, London, pp 165–172
Lutjeharms JRE (2007) Three decades of research on the greater Agulhas Current. Ocean Sci 3(1):129–147
Mahlobo DD, Ndarana T, Grab S, Engelbrecht F (2019) Integrated climatology and trends in the subtropical Hadley cell, sunshine duration and cloud cover over South Africa. Int J Climatol 39(4):1805–1821
Makaya E, Rohse M, Day R, Vogel C, Mehta L, McEwen L, Rangecroft S, Van Loon AF (2020) Water governance challenges in rural South Africa: exploring institutional coordination in drought management. Water Policy 22(4):519–540
Malan NC (2017) The impact of agulhas current dynamics on shelf waters: a modelling approach. University of Cape Town
Maxmen A (2018) As Cape Town water crisis deepens, scientists prepare for ‘Day Zero’. Nature 554(7690):13–15
Muller M (2017) Understanding the origins of Cape Town’s water crisis. Civil Eng (Siviele Ingenieurswese) 2017(5):11–16
Musungu K, Drivdal L, Smit J (2016) Collecting flooding and vulnerability information in informal settlements: the governance of knowledge production. South Afr Geogr J (Suid-Afrikaanse Geografiese Tydskrif) 98(1):84–103
Nakamura M (2012) Impacts of SST anomalies in the Agulhas current system on the regional climate variability. J Clim 25(4):1213–1229
Nhamo G, Agyepong AO (2019) Climate change adaptation and local government: institutional complexities surrounding Cape Town’s Day Zero. Jàmbá J Disast Risk Stud 11(3):1–9
Pascale S, Kapnick SB, Delworth TL, Cooke WF (2020) Increasing risk of another Cape Town “Day Zero” drought in the 21st century. Proc Natl Acad Sci 117(47):29495–29503
Perkins-Kirkpatrick SE, Gibson PB (2017) Changes in regional heatwave characteristics as a function of increasing global temperature. Sci Rep 7(1):1–12
Pfaff MC, Logston RC, Raemaekers SJ, Hermes JC, Blamey LK, Cawthra HC et al (2019) A synthesis of three decades of socio-ecological change in False Bay, South Africa: setting the scene for multidisciplinary research and management, vol 7. Science of the Anthropocene, Elementa, p 7
Quick AJR (1995) Issues facing water resource managers and scientists in a rapidly growing coastal city: Cape Town, South Africa. S Afr J Sci 91(4):175–183
Reason CJC (2001) Evidence for the influence of the Agulhas current on regional atmospheric circulation patterns. J Clim 14(12):2769–2778
Republic of South Africa (2015) Disaster management amendment act 2015, Act No. 16 of 2015, Parliament of South Africa, Cape Town
Robins S (2019) ‘Day Zero’, hydraulic citizenship and the defence of the commons in Cape Town: a case study of the politics of water and its infrastructures (2017–2018). J South Afr Stud, 45(1), 5–29
Schouten MW, De Ruijter WP, Van Leeuwen PJ (2002) Upstream control of Agulhas Ring shedding. J Geophys Res Oceans 107(C8):23–21
Sousa PM, Blamey RC, Reason CJ, Ramos AM, Trigo RM (2018) The ‘Day Zero’Cape Town drought and the poleward migration of moisture corridors. Environ Res Lett 13(12):124025
Van Vuuren L (2010) Wemmershoek-75 years in the making. Water Wheel 9(2):18–22
Verbuyst R (2016) Claiming Cape Town: towards a symbolic interpretation of Khoisan activism and land claims. Anthropol South Afr 39(2):83–96
Wallace B (2021) Avoiding day zero: how Cape Town cut its water usage by 50% in three years
Webley LE (1992) The history and archaeology of pastoralist and hunter-gatherer settlement in the north-western Cape, South Africa. Dissertation, University of Cape Town
Ziervogel G (2019) Unpacking the Cape Town drought: lessons learned. Cities support programme| Climate resilience paper. African Centre for Cities. University of Cape Town
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Chang, H., Ross, A.R. (2024). Cape Town, South Africa. In: Climate Change, Urbanization, and Water Resources. Springer, Cham. https://doi.org/10.1007/978-3-031-49631-8_8
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DOI: https://doi.org/10.1007/978-3-031-49631-8_8
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