State Key Laboratory of Organic Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, China.
Sci Total Environ. 2012 Mar 1;419:109-15. doi: 10.1016/j.scitotenv.2011.12.035. Epub 2012 Jan 26.
Polybrominated diphenyl ethers (PBDEs) and decabromodiphenyl ethane (DBDPE) were determined in water, sediment, and three fish species from the Dongjiang River, a highly polluted river by brominated flame retardants in South China due to the intensive industry activities. The stable isotope analysis was used to compare differences between the feeding ecology of the fish species. The bioaccumulations of PBDEs and DBDPE were evaluated by calculation of bioaccumulation factors (BAFs) and biota-sediment accumulation factors (BSAFs). Two potential debromination products of DBDPE were detected in sediment. The occurrence of these two compounds probably ascribed to the thermal degradation during instrumental analysis but degradation in the environment cannot be ruled out. Three fish species showed two quite different PBDE congener profiles. Two carp species were dominated by BDE47 while plecostomus were dominated by both BDE47 and BDE99. The contributions of higher brominated congeners were higher in plecostomus than in two carp species. This different PBDE congener profile can be attributed to the difference in metabolism and feeding habits among fish species. The calculated BAFs for PBDE congeners follow a bioaccumulation model. The BSAFs for all PBDE congeners except for BDE47 and BDE100 were less than unit, implying that bioavailability of PBDEs in sediments is low. Contrary to expectation, the BAFs value of DBDPE was one order of magnitude higher than that of BDE209 in fish, which can partly attributed to the absence of debromination of DBDPE in fish. The calculated BAFs for DBDPE indicated that this compound can significantly accumulate in fish.
多溴二苯醚 (PBDEs) 和十溴二苯乙烷 (DBDPE) 在受溴系阻燃剂严重污染的中国南方河流——东江的水中、沉积物中和三种鱼类中进行了检测,该河流因密集的工业活动而受到污染。稳定同位素分析用于比较鱼类的摄食生态差异。通过计算生物积累因子 (BAF) 和生物 - 沉积物积累因子 (BSAF) 来评估 PBDEs 和 DBDPE 的生物积累。在沉积物中检测到两种可能是 DBDPE 潜在脱溴产物的化合物。这两种化合物的出现可能归因于仪器分析过程中的热降解,但不能排除在环境中的降解。三种鱼类表现出两种截然不同的 PBDE 同系物特征。两种鲤鱼以 BDE47 为主,而琵琶鱼则以 BDE47 和 BDE99 为主。在琵琶鱼中,高溴代同系物的贡献高于两种鲤鱼。这种不同的 PBDE 同系物特征可以归因于鱼类之间代谢和摄食习性的差异。计算得到的 PBDE 同系物 BAF 遵循生物积累模型。除 BDE47 和 BDE100 外,所有 PBDE 同系物的 BSAF 均小于 1,这意味着沉积物中 PBDE 的生物可利用性较低。与预期相反,DBDPE 的 BAF 值在鱼类中比 BDE209 高一个数量级,这部分归因于 DBDPE 在鱼类中不存在脱溴。计算得到的 DBDPE BAF 表明该化合物可在鱼类中显著积累。
