Journal
CHEMOSPHERE
Volume 199, Issue -, Pages 44-53Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2018.01.173
Keywords
Hydrophobic organic contaminants; Sorption; Bioaccumulation; Tropical; Marine
Categories
Funding
- Singapore Ministry of Education (MOE) AcRF grant
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While numerous studies have demonstrated the environmental behavior of legacy persistent organic pollutants (POPs), such as polychlorinated biphenyls (PCBs) and organochlorine pesticides (OCPs), information regarding sorption and bioaccumulation potential of other widely used organic chemicals such as halogenated flame retardants (HFRs) is limited. This study involved a comprehensive field investigation of multi-class hydrophobic organic contaminants (HOCs) in environmental media and fish in Singapore Strait, an important tropical maritime strait in Southeast Asia. In total, 90 HOCs were analyzed, including HFRs, synthetic musks, PCBs, OCPs, as well as triclosan and methyl triclosan. The results show that the organic carbon normalized sediment-seawater distribution ratios (C-SED/C-WD) of the studied compounds are comparable to the organic carbon-water partition coefficients (K-OC), over a log K-OC range of approximately 4-11. The observed species-specific bioaccumulation factors (BAFs), biota-sediment accumulation factors (BSAFs), organism-environment media fugacity ratios (f(FISH)/f(WD) and f(FISH)/f(SED)) and trophic magnification factors (TMFs) indicate that legacy POPs and PBDE 47 show bioadumulation behavior in this tropical marine ecosystem, while triclosan, tonalide, dodecachlor-odimethanodibenzocyclooctane stereoisomers (DDC-COs), and hexabromocyclododecanes (HBCDDs) do not. Methyl triclosan and galaxolide exhibit moderate biomagnification. Tetrabromobisphenol A (TBBPA) and 1,2-bis (2,4,6-tribromophenoxy)ethane (BTBPE) were detected in environmental media but not in any of the organisms, suggesting low bioaccumulation potential of these flame retardants. The apparently low bioaccumulation potential of the studied HFRs and synthetic musks is likely because of metabolic transformation and/or reduced bioavailability due to the hydrophobic nature of these compounds. (C) 2018 Elsevier Ltd. All rights reserved.
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