Improving the Adsorption Efficiencies of Polychlorinated Biphenyls and Polybrominated Diphenyl Ethers Using a Passive Water Sampling Device in Marine Environment

In-seok Lee, Minkyu Choi, Jeong-eun Oh
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Abstract

This study focused on improving the adsorption efficiencies of organic micropollutants, such as polychlorinated biphenyls (PCBs) and polybrominated diphenyl ethers (PBDEs) using a passive water sampling device (PWSD) in a marine environment during summer. Two factors were considered when increasing the adsorption efficiency by improving the sampling rate (Rs) of PWSDs for target PCBs and PBDEs: 1. Controlling the invasion of the sticky organisms that cause biofouling by tearing the semipermeable membrane device (SPMD) inside the PWSD canister; 2. Preventing various suspended solids from clogging the PWSD pores. To resolve these problems, two types of enhanced PWSD samplers were devised, namely a round prest-type PWSD canister with zooplankton netting (netted), and a copper-coated prest-type PWSD canister. Copper is generally toxic to marine organisms. The netted and copper-coated PWSD samplers were deployed in Masan Bay and Ulsan Bay and their adsorption efficiencies for PCBs and PBDEs were compared with that of the prest-type PWSD sampler. The copper-coated PWSD had an Rs 1.5~1.8 times higher than that of the netted and prest-type PWSDs. A comparison of the adsorption amount of PCBs and PBDEs showed similar results, and copper-coated PWSD adsorbed more target compounds than the netted and prest-type PWSDs. The adsorption patterns of PCB homologues were similar regardless of the sampling site and sampler type, but those of PBDE homologues in the netted and prest-type PWSDs deployed in Ulsan Bay were somewhat different from the others. By comparing the adsorption amounts of PCB and PBDE homologues according to the octanol-water partition coefficients, it was found that the coppercoated PWSD adsorbed more PCBs and PBDEs than the netted and prest-type PWSDs, especially high molecular homologues. Based on these results, the copper-coated PWSD could be used to effectively prevent the biofouling of the SPMD membrane and clogging of the PWSD canister during both summer and winter.
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利用被动水样装置提高海洋环境中多氯联苯和多溴联苯醚的吸附效率
研究了夏季被动水样装置(PWSD)对海洋环境中多氯联苯(PCBs)和多溴联苯醚(PBDEs)等有机微污染物的吸附效率。通过提高PWSDs对目标多氯联苯和多溴二苯醚的采样率(Rs)来提高吸附效率,主要考虑两个因素:1。通过撕裂PWSD罐内的半透膜装置(SPMD),控制造成生物污染的粘性生物的入侵;2. 防止各种悬浮固体堵塞PWSD孔。为了解决这些问题,我们设计了两种增强型PWSD采样器,一种是装有浮游动物网的圆形前置式PWSD罐,另一种是镀铜前置式PWSD罐。铜通常对海洋生物有毒。在马山湾和蔚山湾分别部署了网型和镀铜型PWSD采样器,比较了它们对多氯联苯和多溴二苯醚的吸附效率。镀铜后的PWSD的Rs是网状PWSD和前置PWSD的1.5~1.8倍。对多氯联苯和多溴二苯醚的吸附量进行了比较,结果相似,铜包覆的PWSD吸附的目标化合物多于网状和预压型PWSD。不同取样地点和取样器类型对多氯联苯同源物的吸附规律相似,但在蔚山湾布置的网状和悬置型污水处理厂中,多氯联苯同源物的吸附规律有所不同。根据辛醇-水分配系数对PCBs和PBDE同系物的吸附量进行比较,发现铜包覆的PWSD吸附的PCBs和PBDE比网状和柱状PWSD吸附的多氯联苯和PBDE更多,特别是高分子同系物。基于以上结果,在夏季和冬季,镀铜PWSD都可以有效地防止SPMD膜的生物污染和PWSD罐的堵塞。
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