Bioaccumulation and trophic transfer of total mercury in the subtropical Olifants River Basin, South Africa.

Abstract The present study describes total mercury (THg) levels in surface water, sediment and biota from the Olifants River Basin (ORB) (South Africa) and investigates the trophic transfer of THg by means of trophic magnification factors (TMFs) in the subtropical ORB food web. Although levels in surface water, sediment and invertebrates were low, elevated levels of THg were measured in fish species of higher trophic levels (0.10–6.1 μg/g dw). This finding supports the biomagnificative character of mercury. THg concentrations in fish from the present study were find to be higher than most values reported in fish from other African aquatic ecosystems and comparable or lower compared to more industrialized regions. Fish length, trophic level, sediment THg levels and TOC in sediment were determining factors for THg levels in fish tissue. Concentrations were found to be higher in larger (and older) fish. Mercury has a high affinity for organic matter and will bind with the TOC in sediment, thus reducing the bioavailability of THg for aquatic biota which is reflected in the significant negative correlation between THg and TOC in sediment. A significant positive relationship between relative trophic level and THg concentrations was observed and also TMFs indicate biomagnification in the ORB food web. However, the trend of lower TMFs in tropical areas compared to temperate and arctic regions was not supported by the results. The consumption of fish from higher trophic levels at the average South African consumption rate is expected to pose a significant health risk. Graphical abstract Image 1 Highlights • Large data gap on THg levels and trophic transfer in (sub)tropical ecosystems. • Pollution status and biomagnification of THg in the subtropical ORB is studied. • This study confirms the previously reported biomagnificative character of Hg. • Higher levels of THg in fish species of higher trophic levels and TMFs > 1. • The consumption of fish from ORB is expected to pose a significant health risk. This paper contributes to the knowledge gap on the fate and transport of THg in (sub)tropical aquatic ecosystems, specifically in Africa. [ABSTRACT FROM AUTHOR]