Anthropogenic Sources Dominate Foliar Chromium Dust Deposition in a Mining-Based Urban Region of South Africa

Dust pollution can be severe in urban centers near mines and smelters. Identification of dust sources and assessing dust capturing plant morphological traits may help address the problem. A chromium (Cr) mining and ferrochrome smelting region in Sekhukhuneland, South Africa, was investigated to iden...

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Bibliographic Details
Published in:International journal of environmental research and public health 2022-02, Vol.19 (4), p.2072
Main Authors: Adhikari, Sutapa, Jordaan, Anine, Beukes, Johan Paul, Siebert, Stefan John
Format: Article
Language:English
Subjects:
Air masses
Air pollution
Anthropogenic factors
Chromite
Chromium
Cluster analysis
Cuticular wax
Deposition
Dust
Dust - analysis
Environmental Monitoring
Environmental Pollution - analysis
Epicuticular wax
Indoor air quality
Leaf area
Leaves
Magnesium
Metallurgy
Metals, Heavy - analysis
Mine tailings
Mines
Mining
Morphology
Multivariate statistical analysis
Outdoor air quality
Plant morphology
Plant species
Plants
Roads
Roads & highways
Scanning electron microscopy
Smelter dust
Smelters
Software
Soil investigations
Soil surfaces
South Africa
Statistical analysis
Stomata
Urban areas
Urban environments
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Summary:Dust pollution can be severe in urban centers near mines and smelters. Identification of dust sources and assessing dust capturing plant morphological traits may help address the problem. A chromium (Cr) mining and ferrochrome smelting region in Sekhukhuneland, South Africa, was investigated to identify the sources of Cr in soil and plant leaf surfaces and to evaluate the association between Cr sources and plant morphology. Combinations of bi- and multivariate statistical analysis techniques were applied. Non-significant relation between Cr quantities in surface soil and on leaf surfaces suggested negligible Cr dust contribution from soil to leaves. Association among Cr, Fe, Mg, Al, and Si levels on leaf surfaces confirmed their shared origin, possibly from chromite containing dust dispersed by mines, smelters, roads, and tailings. Both plant morphology and Cr sources (number and proximity to mines and roads) conjointly determined Cr dust deposition on leaf surfaces. Air mass movement patterns further identified local polluters, i.e., mines, ferrochrome smelters, and roads, as dominant dust sources in the region. Common plant species showed Cr dust adhesion favouring traits (plant tallness, larger leaf area, dense epicuticular wax structures, and larger stomata) and projected dust mitigation prospects for Sekhukhuneland.
ISSN:1660-4601
1661-7827
1660-4601
DOI:10.3390/ijerph19042072