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    South African Journal of Science

    On-line version ISSN 1996-7489Print version ISSN 0038-2353

    Abstract

    KNEEN, Melanie A.; OJELEDE, Matthew E.  and  ANNEGARN, Harold J.. Housing and population sprawl near tailings storage facilities in the Witwatersrand: 1952 to current. S. Afr. j. sci. [online]. 2015, vol.111, n.11-12, pp.1-9. ISSN 1996-7489.  https://doi.org/10.17159/sajs.2015/20140186.

    Mining, tailings storage facilities (TSFs), dust pollution and growth in residential housing development are synonymous with the Witwatersrand, South Africa. Encroachment of housing onto land close to TSFs, i.e. areas rendered marginal because of the dust hazard and risk of structural failure, has continued unabated for decades, intensifying human exposure to windblown mineral dust. Recent research indicates that the finer milling used for modern gold extraction results in aeolian dust emanating from the TSFs which contributes to a higher proportion of inhalable particles in the source material. Air quality dispersion modelling, validated by ambient aerosol monitoring campaigns, indicates that episodic dust events generate particulate matter (PM10) and, specifically, quartz dust concentrations that are unhealthy at distances of up to 2 km downwind from TSFs. This contribution documented residential development from 1952 to 2011 (using historical aerial photographs, census data from 2001 and 2011 and ancillary information) to determine the population exposed to dust emanations from the TSFs. Using the images, land use was classified into residential areas, TSF footprints and open areas, onto which a series of 500 m buffer zone contours were superimposed. The resulting statistics were used to assess the populations exposed to dust hazard within the defined buffer zones. Overall, housing development has experienced a growth of approximately 700% since 1952 at a rate of 14% per year. Analysis of recent monitoring campaign data has confirmed multiple occurrences of quartz-rich inhalable dust in residential settings at levels that exceed occupational health standards, extrapolated to values for population exposure.

    Keywords : aeolian dust; residential population; quartz; silicosis risk; calculating exposed population.

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