Effects of aquaculture effluents on fate of 2,2′,4,4′,5-pentabromodiphenyl ether (BDE-99) in contaminated mangrove sediment planted with Kandelia obovata

The problems of aquaculture effluent (AE) and polybrominated diphenyl ethers (PBDEs) are common in coastal areas. The fate of 2,2′,4,4′,5-pentabromodiphenyl ether (BDE-99), a dominant PBDE congener, in mangrove sediments and the effects of AE on it have never been reported. A 12-months microcosm study was conducted and more than 55% of the BDE-99 in contaminated sediment was removed at the end. The removal percentages depended on treatments, with the highest removal in the treatment planted with Kandelia obovata (Ko) and irrigated with AE (WPAE), followed by Ko planted but without AE (WP), unplanted with AE (NPAE) and unplanted without AE (NP). Hydroxylation of BDE-99 was observed in all treatments, with a preference in the para position bromine substitution, followed by meta position and the lowest was ortho bromine substitution. BDE-99 was also debrominated to lower brominated congeners like tri- and di-BDEs congeners. Different from parent BDE-99, ortho-substituted BDE-28 and -15 were more dominant than that of para-substituted BDE-17 and -7, suggesting that para-substituted congeners could further be debrominated. The AE addition enhanced root uptake of PBDEs in Ko. These findings suggested that the addition of AE and planting Ko could be an effective way to remedy BDE-99 in contaminated sediments. [Display omitted] •>55% of BDE-99 in contaminated sediment was removed in 12 months.•Planted sediment had higher dissipation of BDE-99 than unplanted sediment.•Aquaculture effluent (AE) addition enhanced biotransformation of BDE-99 in sediment.•AE addition increased enzyme activity, electron donors and acceptors in sediment.•Plant uptake and translocation of PBDEs were enhanced by AE addition.