Mapping of water-related ecosystem services in the uMngeni catchment using a daily time-step hydrological model for prioritisation of ecological infrastructure investment – part 1 : context and modelling approach

South Africa is a semi-arid country which frequently faces water shortages, and experienced a severe drought in the 2016 and 2017 rainfall seasons. Government is under pressure to continue to deliver clean water to the growing population at a high assurance of supply. Studies now show that the deliv...

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Published inWater S. A. Vol. 44; no. 4; pp. 577 - 589
Main Authors Hughes, C.J., Mander, M., Schulze, R.E., Jewitt, G.P.W., de Winnaar, G.
Format Journal Article
LanguageEnglish
Published Gezina Water Research Commission (WRC) 01.10.2018
Water Research Commission
Subjects
Arid regions
Catchment area
Catchments
Drought
Ecological infrastructure
Ecosystem services
Ecosystems
Engineering
Environmental degradation
Environmental economics
Erosion
Erosion control
Hydrologic models
Hydrological modelling
Hydrology
Identification
Infrastructure
Investment
Mapping
Modelling
Motivation
Precipitation
Protection
Rain
Rainfall
Rehabilitation
Sediments
Submarine pipelines
Water
Water quality
Water security
Water shortages
Water supply
Wattle
South Africa
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Summary:South Africa is a semi-arid country which frequently faces water shortages, and experienced a severe drought in the 2016 and 2017 rainfall seasons. Government is under pressure to continue to deliver clean water to the growing population at a high assurance of supply. Studies now show that the delivery of water may be sustained not only through built infrastructure such as dams and pipelines, but also through investment in ecological infrastructure (EI). A daily time-step hydrological model was used to map areas which should be prioritised for protection or rehabilitation to sustain the delivery of water-related ecosystem services within the uMngeni catchment. We focused on three water-related ecosystem services, i.e.: water supply, sustained basefow, erosion control/avoidance of excessive sediment losses. The two key types of degradation were modelled, namely, overgrazing and the invasion of upland areas by Black Wattle (Acacia mearnsii). This, Part 1 of a paper in 2 parts, provides a discussion on the role of EI in delivering water-related ecosystem services, describes the motivation for the study, and the methods used in modelling and mapping the catchment. The results of this modelling exercise are presented in Part 2, which also explores and illustrates the potential hydrological benefits of rehabilitation and protection of EI in the uMngeni Catchment.
ISSN:0378-4738
DOI:10.4314/wsa.v44i4.07