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Large-scale evaluation of deposition, bioavailability and ecological risks of the potentially toxic metals in the sediment cores of the hotspot coral reef ecosystems (Persian Gulf, Iran)

[Display omitted] •Constantly increasing sediment pollution with metals in the Persian Gulf.•Cd, Hg and As exhibited the highest potential ecological risk.•The highest metal loadings were observed in highly industrialized area.•Metals were provided by the river runoff and local anthropogenic sources...

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Published in:Journal of hazardous materials 2020-12, Vol.400, p.122988, Article 122988
Main Authors: Ranjbar Jafarabadi, Ali, Mitra, Soumita, Raudonytė-Svirbutavičienė, Eva, Riyahi Bakhtiari, Alireza
Format: Article
Language:English
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Summary:[Display omitted] •Constantly increasing sediment pollution with metals in the Persian Gulf.•Cd, Hg and As exhibited the highest potential ecological risk.•The highest metal loadings were observed in highly industrialized area.•Metals were provided by the river runoff and local anthropogenic sources. Coral reefs of the Persian Gulf are vulnerable to the potentially toxic metals (PTMs) accumulated in the ambient sediments. Nonetheless, few studies have investigated the PTMs pollution and risk in the hotspot coral ecosystems of the Persian Gulf at a large-scale. Hereupon, this study focused on the PTMs contamination, their potential ecological risks, historical depositions, geochemical controls and the plausible pollution sources in the core sediments (0-40 cm) collected from the ten coral ecosystems of the Persian Gulf, Iran. Both total and fraction analysis indicated considerable metal pollution levels. Contamination was steadily decreasing towards the bottom of the sediment core, revealing the impact of a recent anthropogenic input. High metal association with the exchangeable and other mobile fractions was observed, indicating their high bioavailability. Of all the elements analyzed, toxic metals Cd, Hg and As exhibited the highest potential ecological risk (RI). Site rank index (SRI), modified degree of contamination (mCd), and contamination severity index (CSI) based approaches identified stations ST5, ST9 and ST10 as the most contaminated sites of the study area. The same stations were also found to possess considerable ecological risk. Principal component analysis (PCA) revealed that the stations located in the zone of the highest anthropogenic impact contain pollution sources for all the metals analyzed, whereas areas with low anthropogenic activity are mainly affected by the river runoff and urban emissions.
ISSN:0304-3894
1873-3336
DOI:10.1016/j.jhazmat.2020.122988