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Persistent organic pollutants (POPs) associated with a platinum mine in the Limpopo Province, South Africa / Ilse Jordaan

South Africa ratified the Stockholm Convention (SC), which became legally binding on 17
May 2004. This Convention targets 12 particularly toxic persistent organic pollutants (POPs)
for virtual elimination. The Convention also requires parties to reduce the release of
organochlorine pesticides and the intentionally- and unintentionally-produced POPs such as
dioxins, furans and polychlorinated biphenyls (PCBs) (referred to as dioxin-like chemicals).
Dioxins are a heterogeneous mixture of chlorinated dibenzo-p-dioxins and dibenzofurans
(PCDD/Fs) congeners. These substances were never intentionally produced but are produced
as by-products of industrial processes (such as metallurgical processes and bleaching of paper
pulp). They can also be formed during natural processes such as volcanic eruptions and forest
fires. The largest contributor to releases of PCDD/Fs in the environment is incomplete
combustion from waste incinerators leading to the unintentional production of these
compounds. Polychlorinated biphenyls (PCBs) are used in transformers and capacitors, but
can also be formed unintentionally during industrial and thermal processes. Dioxin-like
chemicals (PCDD/Fs and/or PCBs) are classified as persistent because of the following
characteristics: lipophilicity and hydrophobicity; resistance to photolytic, chemical and
biological degradation and they are able to travel long distances. As South Africa is a semiarid
region, POPs will be less prone to travel here because these substances favour colder
regions with high soil organic matter.
Fish, predatory birds, mammals (including humans) absorb high concentrations of POPs
through the process of bio-concentration, leading to bio-accumulation of these substances in
the fatty tissue. PCDD/Fs occur as unwanted trace contaminants in air, water, land, in
residues and products (such as consumer goods e.g. paper and textiles). The distribution of
these chemicals into various matrices is problematic since they cause damage to the
environment and human health. These chemicals pose a threat to human health when found
in high concentrations that may lead to acute hepatoxicity and dermal toxicity (chloracne).
Long-term exposure to low concentrations of these substances might lead to chronic effects
such as reproductive problems and carcinogenicity.
Since ferrous and non-ferrous metal production is a source of dioxin-like chemicals, a
platinum mine in the Limpopo Province, South Africa, was selected for this investigation.
The aim of the study was to determine if there are dioxin-like chemicals associated with
platinum mining and processing, and if the H4IIE reporter gene bio-assay could be used to
semi-quantify and assess the potencies of the complex environmental and process samples by
determining their Toxic Equivalency Quotients (TEQ). The implications of the sources to the
formation of dioxin-like chemicals regarding the SC were investigated and recommendations
were made to improve this study.
Samples were collected from tailings dams, woodchips, a dumpsite and slag from the smelter
at Union Section. Samples were extracted with the Soxhlet apparatus using hexane as
solvent. The percentage total organic carbon (%TOC) was determined for each sample to
normalise the data. The method used was the Walkley-Black method.
In determining the TEQ of each sample, the H4IIE luc cell line was used. The cells of the
H4IIE luc line are genetically modified rat hepatoma cells stably transfected with a luciferase
firefly gene. The luciferase gene is activated by the presence of dioxin-like compounds and
the concentration of the enzyme is measured as relative light units (RLUs). The amount of
RLUs is directly proportional to the dioxin load in the extract. This method is rapid, cost and
time-effective in determining the TEQ when compared to chemical analysis.
The TEQ2o-valuesin the various samples, as determined with the H4IIE luc cell line, ranged
from 0.007 ngTEQ/kg to 54.06 ngTEQ/kg. Thermal processes at the smelter, sorption of
hydrophobic organic compounds (HOCs) to soil and tailings, and external sources such as
anthropogenic activities contributed to high TEQ2o-values. Climatic conditions, wind,
precipitation, and solubility of HOCs into surfactants lead to low TEQ20. The smelter at
Union Section had a very high TEQ20of 44.62 ngTEQ/kg compared to Impala Platinum mine
(5.15 ngTEQ/kg). This implies that workers at Union Section are possibly exposed to low
and high concentrations of dioxin-like chemicals. Long-term exposure to these compounds
could lead to bio-accumulation in the fatty tissue of the mine workers, leading to chronic
effects such as reproductive problems and cancer. The air emission of the furnace at the
smelter was 0.03 gTEQ/annum and the release of the PCDD/Fs into the slag was 0.60
gTEQ/annum. By effectively managing the smelter it is possible to reduce the TEQ.
The TEQ of each sample increased due to normalising the data. The normalised TEQ20
ranged from 0.94 ng TEQ/kg to 42497.48 ngTEQ/kg.
Dioxin-like chemicals are present on a platinum mine, but at varying quantities and the effects
of these compounds might be detrimental to the environment and the workers at the platinum
mine. Further analyses of the health impacts associated with the platinum mine are needed.
The H4IIE reporter gene bio-assay could be used to effectively determine the TEQ of each
sample. Although this investigation has identified the formation and presence of dioxin-like
chemicals at certain stages of mining and processing, not all of the processes were
investigated. Some of these processes have the potential to add, and even destroy, these
chemicals, affecting potential human exposure and amounts released to the environment.
This, however, requires further investigation.
The financial assistance of the National Research Foundation (NRF) towards this
research is hereby acknowledged. Opinions expressed and conclusions arrived at, are
those of the author and are not necessarily to be attributed to the NRF. / Thesis (M. Environmental Science)--North-West University, Potchefstroom Campus, 2006.

Identiferoai:union.ndltd.org:NWUBOLOKA1/oai:dspace.nwu.ac.za:10394/995
Date January 2005
CreatorsJordaan, Ilse
PublisherNorth-West University
Source SetsNorth-West University
Detected LanguageEnglish
TypeThesis

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