Cooperative Wildlife Research Laboratory and Department of Zoology, Southern Illinois University , Carbondale, Illinois 62901, United States.
School of Environment, Guangzhou Key Laboratory of Environmental Exposure and Health, and Guangdong Key Laboratory of Environmental Pollution and Health, Jinan University , Guangzhou, Guangdong 510632, China.
Environ Sci Technol. 2017 Feb 21;51(4):2038-2046. doi: 10.1021/acs.est.6b05733. Epub 2017 Feb 8.
The present study provides the first comprehensive investigation of polyhalogenated carbazoles (PHCZs) contamination in an aquatic ecosystem. PHCZs have been found in soil and aquatic sediment from several different regions, but knowledge of their bioaccumulation and trophodynamics is extremely scarce. This work investigated a suite of 11 PHCZ congeners in San Francisco Bay (United States) sediment and organisms, including bivalves (n = 6 composites), sport fish (n = 12 composites), harbor seal blubber (n = 18), and bird eggs (n = 8 composites). The most detectable congeners included 3,6-dichlorocarbazole (36-CCZ), 3,6-dibromocarbazole (36-BCZ), 1,3,6-tribromocarbazole (136-BCZ), 1,3,6,8-tetrabromocarbazole (1368-BCZ), and 1,8-dibromo-3,6-dichlorocarbazole (18-B-36-CCZ). The median concentrations of ΣPHCZs were 9.3 ng/g dry weight in sediment and ranged from 33.7 to 164 ng/g lipid weight in various species. Biomagnification was observed from fish to harbor seal and was mainly driven by chlorinated carbazoles, particularly 36-CCZ. Congener compositions of PHCZs differed among species, suggesting that individual congeners may be subject to different bioaccumulation or metabolism in species occupying various trophic levels in the studied aquatic system. Toxic equivalent (TEQ) values of PHCZs were determined on the basis of their relative effect potencies (REP) compared to 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). The median TEQ was 1.2 pg TEQ/g dry weight in sediment and 4.8-19.5 pg TEQ/g lipid weight in biological tissues. Our study demonstrated the broad exposure of PHCZs in San Francisco Bay and their characteristics of bioaccumulation and biomagnification along with dioxin-like effects. These findings raise the need for additional research to better elucidate their sources, environmental behavior, and fate in global environments.
本研究首次全面调查了水生生态系统中多卤代咔唑(PHCZs)的污染情况。已在多个不同地区的土壤和水生沉积物中发现了 PHCZs,但对其生物累积和营养动态的了解却极为有限。本工作研究了美国旧金山湾沉积物和生物体内的 11 种 PHCZ 同系物,包括双壳类动物(6 个组合样本)、食用鱼(12 个组合样本)、港湾海豹的鲸脂(18 个样本)和鸟类的蛋(8 个组合样本)。最易检测到的同系物包括 3,6-二氯咔唑(36-CCZ)、3,6-二溴咔唑(36-BCZ)、1,3,6-三溴咔唑(136-BCZ)、1,3,6,8-四溴咔唑(1368-BCZ)和 1,8-二溴-3,6-二氯咔唑(18-B-36-CCZ)。ΣPHCZs 在沉积物中的中位数浓度为 9.3ng/g 干重,在各种物种中的范围为 33.7-164ng/g 脂重。从鱼类到港湾海豹的生物放大现象很明显,主要驱动力是氯化咔唑,特别是 36-CCZ。不同物种的 PHCZs 同系物组成不同,表明在研究水生系统中处于不同营养级别的物种中,个别同系物可能会受到不同的生物累积或代谢作用的影响。根据与 2,3,7,8-四氯二苯并对二恶英(TCDD)的相对效价(REP),确定了 PHCZs 的毒性当量(TEQ)值。沉积物中 PHCZs 的中位数 TEQ 为 1.2pg TEQ/g 干重,生物组织中的 TEQ 为 4.8-19.5pg TEQ/g 脂重。本研究表明,PHCZs 在旧金山湾广泛存在,并具有生物累积和生物放大作用,以及类似二恶英的效应。这些发现表明需要进一步研究以更好地阐明它们在全球环境中的来源、环境行为和归宿。
