Water footprint assessment of citrus production in South Africa: A case study of the Lower Sundays River Valley

Munro, Samantha A; Fraser, Gavin C G; Snowball, Jeanette D; Pahlow, Markus

Title: Water footprint assessment of citrus production in South Africa: A case study of the Lower Sundays River Valley
Creator: Munro, Samantha A
Creator: Fraser, Gavin C G
Creator: Snowball, Jeanette D
Creator: Pahlow, Markus
Date Issued: 2016
Date: 2016
Type: text
Type: article
Identifier: http://hdl.handle.net/10962/69240
Identifier: vital:29463
Identifier: https://doi.org/10.1016/j.jclepro.2016.06.142
Description: Water footprint assessment is a developing method that is being increasingly applied to quantify water use, prioritise reductions, assess sustainability and provide information to achieve sustainable, efficient, and equitable water use. The objectives of this paper were to conduct a water footprint assessment of primary citrus production within the Lower Sundays River Valley in South Africa using local, high-resolution data and to examine indicators (water scarcity, pollution, efficiency, productivity and access) to determine the sustainability of blue, green and grey water footprints of a wet, dry and average year. Lemons were found to have the lowest blue and combined green-blue water footprint per ton of production across all climatic years, followed by soft citrus, valencias and navels. Valencias had the lowest, and navels the highest grey WF (relating to inorganic nitrogen). Lemons, despite their high crop water and fertiliser requirements, were regarded more economically efficient in comparison to valencias, soft citrus and navels, in that they provided higher net income and more employment hours per m3 of water in comparison to other citrus crops. In an average season, lemons generated approximately 39% more income per m3 of water than navels, despite navels being the dominant cultivar. Blue water consumption for citrus in the catchment was calculated to be 58.7 Mm3 for an average season and 89.2 Mm3 for a dry season. Due to an inter-basin transfer scheme, no physical water scarcity occurred, and both environmental and basic human needs are met. Water pollution levels related to nitrogen however, exceeded the assimilative capacity of the run-off in dry years. The area also experiences institutional and infrastructural scarcity and 14% of the population do not have access to piped water. Stakeholders and governments may use the results of water footprint assessments to determine the status of river basins, make evaluations for future water usage and the potential impacts of expanding agriculture and different management strategies. Including environmental and socio-economic indicators will also improve the integrity of water footprint assessments.
Format: 11 pages
Format: pdf
Language: English
Relation: Journal of Cleaner Production
Relation: Munro, S.A., Fraser, G.C., Snowball, J.D. and Pahlow, M., 2016. Water footprint assessment of citrus production in South Africa: A case study of the Lower Sundays River Valley. Journal of Cleaner Production, 135, pp.668-678.
Relation: Journal of Cleaner Production volume 135 668 678 November 2016 1879-1786
Rights: Elsevier
Rights: Use of this resource is governed by the terms and conditions of the Science Direct Privacy Policy (https://www.elsevier.com/legal/privacy-policy)

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Snowball, Jeanette D (Prof)

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RU Department of Economics and Economic History

SDG 08. Decent Work and Economic Growth

SDG 06. Clean Water and Sanitation

SDG 15. Life On Land

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