Mobility of trace metals and microbiological pollution from dredged sediments to the Gulf of Gabes, Tunisia
Sediments are periodically dredged from the major ports in the Gulf of Gabes (GG) during maintenance operations. These sediments are dumped near the coats of Sfax and Gabes cities. In the present study, 6 trace metals (Cd, Cu, Cr, Ni, Pb, and Zn) concentrations were assessed in both sediments and co...
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Veröffentlicht in: | Environmental monitoring and assessment 2022-11, Vol.194 (11), p.815-815, Article 815 |
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Zusammenfassung: | Sediments are periodically dredged from the major ports in the Gulf of Gabes (GG) during maintenance operations. These sediments are dumped near the coats of Sfax and Gabes cities. In the present study, 6 trace metals (Cd, Cu, Cr, Ni, Pb, and Zn) concentrations were assessed in both sediments and column water taken from the different basins of Sfax port. This study is the first to focus on the microbial and microalgae contaminations of Sfax port sediments. The spatial distributions of trace metals in dredged sediments from the different basins of Sfax port show that the maximum concentrations of Cd (13.75 µg/g), Cu (892.5 µg/g), and Zn (1447 µg/g) exceeded the Geode standard thresholds. The same elements, also detected in the water column, exceeded the toxicity thresholds for phytoplankton, shellfish, and algae (Cd 0.095 µg/l, Cu 4.52 µg/l, and Zn 37 µg/l). The presence of coliforms, indicators of sewage pollution, as pathogenic germs (
Pseudomonas
), was shown through microbiological examinations of the sediments and water column. The microalgae enumeration showed the abundance of dinoflagellate cysts (stressed form) which attests to the presence of severe conditions in Sfax port. Different toxic species were identified as
Prorocentrum lima
and
Alexandrium minutum.
The same trace metal sources and abundance in Sfax port and GG sediments suggest the hypothesis of their transfer from their disposal sites in coastal areas to deeper depths in the GG and until Boughrara lagoon (BL). As trace metals, microalgae species were also transferred by hydrodynamic currents inside the GG where they found suitable conditions to their proliferation causing the seawater coloration phenomenon, eutrophication, and degradation of the aquatic system. |
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ISSN: | 0167-6369 1573-2959 |
DOI: | 10.1007/s10661-022-10451-8 |