The Correlations Between Mercury Speciation and Dissolved Organic Matter in the Sediment of the Red Sea

Wedyan, Mohammed; Ababneh, Fuad A.; Al-Rousan, Saber

doi:10.3844/ajessp.2012.403.411

Cited by 3 publications

(2 citation statements)

References 41 publications

(53 reference statements)

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“…Although some research has suggested that the structure of DOM may have an indirect impact on the rate of Hg photoreactions; however the exact mechanism of DOM is unknown that facilitates mercury reduction (O'Driscoll et al, 2006). A study conducted by Wedyan, Ababneh, and Al-Rousan (2012) established the fact that there is strong affinity between organic matter and mercury which is primarily related to the physical characteristic of these compounds and not to their chemical reactivity, these physical characteristics play the most significant role in the Hg distribution in the sediments. DOM facilitates the mobility of Hg across the column of water and sediment and also results in enhanced sequestration and concentrations of mercury in sediments (Wallschlager et al, 1996;Cossa & Gobeil, 2000).…”

Section: Dissolved Organic Mattermentioning

confidence: 99%

“…The DOM in these sediments are consumed by different types of bacteria, as the mercury deposited under new layers of sediments and these bacteria live few millimeters under the water interface, a level where oxygen cannot reach. Chemical reactions that involve iron and sulfur are the source of energy for bacteria and these reactions also generate toxic byproduct which is methylmercury (Wedyan, Ababneh, & Al-Rousan, 2012). Accumulation of mercury in fish is a public health concern globally, reason being fishes are the primary source of toxic MeHg to humans.…”

Section: Dissolved Organic Mattermentioning

confidence: 99%

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Methyl Mercury Exposure through Seafood Diet and Its Effect on Aquatic Life and Health in United Arab Emirates

Jacob¹

2013

IJC

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Methylmercury bioaccumulates and concentrates through the aquatic food chain and is known for its potent toxicity, exposure to methylmercury is linked to increased health risks of humans as well as aquatic life. This paper reviews the existing comprehensive literature highlighting the interaction between Dissolved organic matter (DOM) and MeHg, the process of bioaccumulation and current unresolved risks due to MeHg contamination in aquatic life and its related health hazards. This review particularly focuses on the dietary exposure to methylmercury through seafood in UAE. Though further research is warranted on new factors that influence MeHg uptake and toxicity and bio-indicators of exposure to MeHg, that leads to cardiovascular and neurologic effects in adult populations in UAE, it is has been concluded that to protect human health and aquatic life, it is important to take necessary steps in order to eliminate or at least reduce the sources of methylmercury dietary exposure to national population.

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Section: Dissolved Organic Mattermentioning

confidence: 99%

Section: Dissolved Organic Mattermentioning

confidence: 99%

Methyl Mercury Exposure through Seafood Diet and Its Effect on Aquatic Life and Health in United Arab Emirates

Jacob¹

2013

IJC

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Adsorption and environmental behavior of mercury on the sediment from the Yellow Sea of China

Wang

Chen²,

Song³

et al. 2023

Journal of Hazardous Materials

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Bioaccumulation of Heavy Metals in the Water, Sediment, and Organisms from The Sea Ranching Areas of Haizhou Bay in China

Gao

Liang

et al. 2023

Water

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Heavy metals (HMs) have the characteristics of high toxicity, long residual time, and difficult degradation, which pose a potential threat to aquatic ecosystems. The distribution and migration of HMs in different media can reflect their potential impact on aquatic ecosystem health. In this study, we analyzed the distribution characteristics of seven HMs (Zn, Cu, Cr, Ni, Hg, As, and Pb) in the water and sediment and five groups of organisms (fish, Crustacean, cephalopod, bivalvia, and gastropoda) in the sea ranching area of Haizhou Bay and explored the regularity of HM accumulation from water and sediments to organisms. The results showed that in the water, Zn and Hg had the smallest concentrations in the nearshore area, Cr had the lowest concentrations in the offshore area, and As, Cu, Pb, and Ni had the lowest concentrations in the central area. In the sediment, Hg had the smallest concentrations in the nearshore area and As, Pb, Cr, Cu, Ni, and Zn had the lowest concentrations in the offshore area; the average contents of seven heavy metals all meet the Class I standard of sediments in China. The concentrations of Cu and Zn in crustaceans were significantly higher than those in fishes (p < 0.05), and As showed a higher enrichment effect in cephalopods. Under the influence of feeding habits and habitat environment, the BAF value of benthic crustaceans and bivalvia accumulated HMs from sediments is high, and the BAF value of fish accumulated HMs from water and sediments is low. Overall, the concentration of HMs in water is high, and HMs in sediments are in good condition, crustaceans and bivalviaa have a strong ability to accumulate HMs from water and sediments, while fish are weak. Therefore, in order to ensure the safety of biological quality, it is necessary to focus on the discharge of heavy metal pollutants near the coast in the future.

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The Correlations Between Mercury Speciation and Dissolved Organic Matter in the Sediment of the Red Sea

Cited by 3 publications

References 41 publications

Methyl Mercury Exposure through Seafood Diet and Its Effect on Aquatic Life and Health in United Arab Emirates

Methyl Mercury Exposure through Seafood Diet and Its Effect on Aquatic Life and Health in United Arab Emirates

Adsorption and environmental behavior of mercury on the sediment from the Yellow Sea of China

Bioaccumulation of Heavy Metals in the Water, Sediment, and Organisms from The Sea Ranching Areas of Haizhou Bay in China

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