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Environmental quality assessment of Grand Harbour (Valletta, Maltese Islands): a case study of a busy harbour in the Central Mediterranean Sea.

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Gianfranco Scotti, Alan Deidun Seta Noventa, Alan Deidun Daniela Berto, Teresa Romeo, Michela D'Alessandro, Alan Deidun Alan Deidun Valentina Esposito, Valentina Esposito, Valentina Esposito, Malgorzata Formalewicz, Franco Andaloro, Alan Deidun Alan Deidun Daniela Berto, Daniela Berto, Alan Deidun Gianfranco Scotti, Teresa Romeo, Seta Noventa, Alan Deidun Seta Noventa, Franco Andaloro, Malgorzata Formalewicz, Teresa Romeo, Teresa Romeo, Franco Andaloro, Franco Andaloro, Daniela Berto, Daniela Berto, Alan Deidun Valentina Esposito, Teresa Romeo, Daniela Berto, Salvatore Giacobbe, Franco Andaloro, Malgorzata Formalewicz, Teresa Romeo, Teresa Romeo, Seta Noventa, Gianfranco Scotti, Monia Renzi, Daniela Berto, Daniela Berto, Silvia Giuliani, Gianfranco Scotti, Monia Renzi, Teresa Romeo, Teresa Romeo, Valentina Esposito, Franco Andaloro, Simona Macchia, Daniela Berto, Franco Andaloro, Alan Deidun Davide Sartori, Angelo Mazzola, Gianfranco Scotti, Teresa Romeo, Franco Andaloro, Franco Andaloro, Salvatore Giacobbe, Daniela Berto, Franco Andaloro, Alan Deidun Monia Renzi, Alan Deidun Alan Deidun

Summary

This study assessed sediment quality in Grand Harbour, Malta by measuring plastic debris, trace elements, and persistent organic pollutants alongside seabed biodiversity and toxicity tests. Higher plastic contamination was found in areas with the lowest biodiversity, and toxicity testing confirmed harmful effects on marine organisms, illustrating the compounding environmental impacts of plastic and chemical pollution in busy harbors.

Study Type Environmental

Contamination levels by plastic debris, trace elements and persistent organic pollutants were assessed and related to macrobenthic diversity within soft bottoms of Grand Harbour (Malta, Central Mediterranean). Sediment toxicity was evaluated by ecotoxicological method, deploying Bacteria (Vibrio fischeri), Echinodermata (Paracentrotus lividus) and Crustacea (Corophium orientale). Univariate analysis (Pearson's test) was used to test relationships between biodiversity indices, pollutants and grain size. A multivariate approach (PERMANOVA) was applied to investigate for any significant differences among sampling stations concerning plastic abundances and to test the relationship between infaunal abundances and pollutant concentrations (the BIOENV test). Significant differences in the plastic abundances were found between sampling stations. The lowest value for Shannon-Wiener biodiversity index was associated to the highest sediment pollution level. Multivariate analyses suggest that MBT and TBT were factors that most influenced macrozoobenthic abundance and biodiversity. The bivalve Corbula gibba and the introduced polychaete Monticellina dorsobranchialis were the most abundant found species.

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