State Key Laboratory of Urban and Regional Ecology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, 100085, China; University of Chinese Academy of Sciences, Beijing, 100049, China.
State Key Laboratory of Urban and Regional Ecology, Research Center for Eco-Environmental Sciences, Chinese Academy of Sciences, Beijing, 100085, China; University of Chinese Academy of Sciences, Beijing, 100049, China.
Environ Pollut. 2018 Jul;238:111-120. doi: 10.1016/j.envpol.2018.03.027. Epub 2018 Mar 20.
Perfluoroalkyl acids (PFAAs) are being increasingly reported as emerging contaminants in riverine and marine settings. This study investigated the contamination level and spatial distribution of 17 PFAAs within the depth profile of the Bohai and Yellow Seas using newly detected sampling data from 49 sites (June 29 to July 14, 2016). Moreover, the riverine flux of 11 selected PFAAs in 33 rivers draining into the Bohai and Yellow Seas was estimated from previous studies (2002-2014) in order to establish the relationship between riverine sources and marine sinks. The results showed that the Bohai and Yellow Seas were commonly contaminated with PFAAs: total concentrations of PFAAs in the surface, middle, and bottom zones ranged from 4.55 to 556 ng L, 4.61-575 ng L, and 4.94-572 ng L, respectively. The predominant compounds were PFOA (0.55-449 ng L), PFBA (<LOQ-34.5 ng L), and PFPeA (<LOQ-54.3 ng L), accounting for 10.1-87.0%, 5.2-59.5%, and 0.6-68.6% of the total PFAAs, respectively. In general, the ∑PFAA concentrations showed a slightly decreasing trend with sampling depth. Contamination was particularly severe in Laizhou Bay, fed by the Xiaoqing River and an industrial park known for PFAA production. The total riverine PFAA mass flux into the Bohai and Yellow Seas was estimated to be 72.2 t y, of which 94.8% was carried by the Yangtze and Xiaoqing Rivers. As the concentration of short-chain PFAAs begins to rise in seawater, further studies on the occurrence and fate of short-chain PFAAs with special focus on effective control measures would be very timely, particularly in the Xiaoqing River and Laizhou Bay.
全氟烷基酸(PFAAs)作为新兴污染物在河海环境中被越来越多地报道。本研究利用 2016 年 6 月 29 日至 7 月 14 日在 49 个采样点新采集的数据,调查了渤海和黄海深度剖面中 17 种 PFAAs 的污染水平和空间分布。此外,还根据之前(2002-2014 年)对 33 条入海河流中 11 种选定 PFAAs 的通量研究,估算了这些河流向渤海和黄海的通量,以建立河川源与海洋汇之间的关系。结果表明,渤海和黄海普遍受到 PFAAs 的污染:表层、中层和底层中 PFAAs 的总浓度范围分别为 4.55-556ng/L、4.61-575ng/L 和 4.94-572ng/L。主要化合物为 PFOA(0.55-449ng/L)、PFBA(<LOQ-34.5ng/L)和 PFPeA(<LOQ-54.3ng/L),分别占总 PFAAs 的 10.1-87.0%、5.2-59.5%和 0.6-68.6%。总的来说,∑PFAA 浓度随采样深度呈略有下降趋势。莱州湾污染尤其严重,该海湾由小青河和一个以生产 PFAAs 而闻名的工业园区供水。估算进入渤海和黄海的总河流 PFAAs 质量通量为 72.2t/y,其中 94.8%由长江和小青河输送。由于短链 PFAAs 在海水中的浓度开始上升,因此特别需要进一步研究短链 PFAAs 的赋存和归宿,并特别关注有效控制措施,特别是在小青河和莱州湾。
