Litcius/Paper detail

Bioaccumulation and trophic transfer of total mercury through the aquatic food webs of an African sub-tropical wetland system

D. van Rooyen, Johannes H. Erasmus, Ruan Gerber, Milen Nachev, Bernd Sures, Victor Wepener, Nico J. Smit

2023The Science of The Total Environment35 citationsDOIOpen Access PDF

Abstract

Anthropogenic activities, including combustion of fossil fuels, coal, and gold mining, are significant sources of mercury (Hg) emissions into aquatic ecosystems. South Africa is a major contributor to global Hg emissions (46.4 tons Hg in 2018), with coal-fired power stations as the main source. Atmospheric transport of Hg emissions is the dominant cause of contamination, especially on the east coast of southern Africa where the Phongolo River Floodplain (PRF) is located. The PRF is the largest floodplain system in South Africa, with unique wetlands and high biodiversity, and provides essential ecosystem services to local communities who rely on fish as a protein source. We assessed the bioaccumulation of Hg in various biota, the trophic positions and food webs, as well as the biomagnification of Hg through the food webs in the PRF. Elevated Hg concentrations were found in sediments, macroinvertebrates and fish from the main rivers and associated floodplains in the PRF. Mercury biomagnification was observed through the food webs, with the apex predator tigerfish, Hydrocynus vittatus, having the highest Hg concentration. Our study shows that Hg in the PRF is bioavailable, accumulates in biota and biomagnifies in food webs.

Topics & Concepts

BiomagnificationTrophic levelBioaccumulationBiotaFood chainEnvironmental scienceApex predatorMercury (programming language)FloodplainWetlandEnvironmental chemistryFood webAquatic ecosystemEcologyChemistryBiologyProgramming languageComputer scienceMercury impact and mitigation studiesHeavy metals in environment