Application of a Sediment Quality Index for the assessment and monitoring of metals and organochlorines in a premier conservation area
Date
2015Author
Gerber, Ruan
Smit, Nico J.
Ikenaka, Yoshinori
Wepener, Victor
Van Vuren, Johan H.J.
Metadata
Show full item recordAbstract
The physical and chemical characteristics of surface
sediments from a leading conservation area, namely the
Kruger National Park, were determined in order to identify
potential stressors in the systems that may contribute to overall
deterioration in sediment quality within the reserve, leading to
potential threats to the aquatic biota conserved within these
stretches of river. Sediment samples were collected during
four surveys (two low flow and two high flow) from 2009 to
2011. Samples were analysed for organic content, grain size
determination, metals and various organochlorine pesticides.
Results indicated that the Olifants River sediments did not
show any great improvement over the years and point towards
the continued input of pollutants into this system. Sediment
quality in the Luvuvhu and Letaba Rivers is better than that of
sediments from the Olifants River in terms of metals, but
metal concentrations are still comparable and point towards
anthropogenic inputs of metals into these rivers. Even though
the data indicate that these systems are being contaminated
with both metals and organochlorine pesticides (OCPs), levels
were still below contaminated sediments from around the
globe. Sediment Quality Index scores showed that the sediment
quality of these rivers is in a relatively good state. High
metal concentrations were the drivers behind lowered sediment
quality, and in some cases certain OCPs played a role.
Both metals and OCP concentrations were highly correlated
with finer grain sizes. Sediment assessments are not routinely
applied in South Africa resulting in very little reference or
background data available for the area. The metal concentrations
for the study area were generally lower than those for
other studies in more polluted regions. The study also contributes
to the available knowledge on surrounding metal pollution
in riverine sediments in South Africa
URI
http://hdl.handle.net/10394/18787https://doi.org/10.1007/s11356-015-5206-z
https://link.springer.com/article/10.1007/s11356-015-5206-z