College of Environment, Zhejiang University of Technology, Hangzhou 310032, China.
Department of Chemistry, Zhejiang University, Hangzhou 310027, China.
Sci Total Environ. 2020 Oct 15;739:140034. doi: 10.1016/j.scitotenv.2020.140034. Epub 2020 Jun 6.
This study analyzed total mercury (THg), methylmercury (MeHg) and selenium (Se) in 114 aquatic product samples (representing 39 species) from eight coastal cities of China. The THg and MeHg levels in different parts of the same sample species were in the order of muscle ≥ skin/shell > roe, whereas Se levels were much higher in roe. Concentrations of THg, MeHg, and Se in the muscles were between 2.27-154, 0.36-135, and 57.8-1.20 × 10 ng g wet weight (ww), respectively. Although significant differences in analyte concentrations were not observed among cities, they existed among three species; marine fish, freshwater fish, and shellfish. Shellfish had generally lower Hg content (mean: 20.2 ng g ww THg, 6.71 ng g ww MeHg, and 30.9% MeHg/THg ratio); however it had higher Se content (528 ng g ww) than the other types of fish (mean: 33.3 ng g ww THg, 28.2 ng g ww MeHg, and 79.2% MeHg/THg ratio, 257 ng g ww Se). In addition to species, the individual growth and HgSe interaction influenced Hg distribution. Evident correlations were observed between several individual body features and Hg content, and between Se and THg concentrations (p < 0.05). The greater correlation coefficient between two elements for fish indicated stronger HgSe antagonism through HgSe compound formation in fish. Relatively low THg daily intakes (mean 0.013-0.080 μg kg day) and MeHg daily intakes (0.006-0.065 μg kg day) along with Se:Hg molar ratios >1 and positive HBV values suggest that aquatic products from these sites will not pose immediate health problems to consumers. Fish was the dominating contributor for MeHg intake whereas shellfish was the dominating contributor for Se intake. To safeguard against mercury exposure, residents in these areas can appropriately increase shellfish intake (especially bivalves), rather than exclusively consuming marine fish.
本研究分析了中国 8 个沿海城市 114 种水产食品样本(代表 39 个物种)中的总汞(THg)、甲基汞(MeHg)和硒(Se)。同种样本不同部位的 THg 和 MeHg 含量顺序为肌肉≥皮/壳>鱼卵,而鱼卵中的 Se 含量则高得多。肌肉中 THg、MeHg 和 Se 的浓度分别在 2.27-154、0.36-135 和 57.8-1.20×10ng g 湿重(ww)之间。尽管各城市之间分析物浓度没有显著差异,但在三种物种(海鱼、淡水鱼和贝类)之间存在差异。贝类的 Hg 含量普遍较低(平均值:THg 20.2ng g ww,MeHg 6.71ng g ww,MeHg/THg 比值 79.2%);然而,其 Se 含量(528ng g ww)高于其他鱼类(平均值:THg 33.3ng g ww,MeHg 28.2ng g ww,MeHg/THg 比值 79.2%,Se 257ng g ww)。除了物种外,个体生长和 HgSe 相互作用也影响 Hg 的分布。Hg 含量与个体的几个身体特征之间以及 Se 与 THg 浓度之间存在明显的相关性(p<0.05)。鱼类中两个元素之间的相关系数越大,表明通过形成 HgSe 化合物,鱼类中的 HgSe 拮抗作用越强。相对较低的每日 THg 摄入量(平均值 0.013-0.080μg kg day)和 MeHg 摄入量(0.006-0.065μg kg day),加上 Se:Hg 摩尔比>1 和正 HBV 值表明,这些地区的水产品不会对消费者造成直接健康问题。鱼类是 MeHg 摄入的主要贡献者,而贝类是 Se 摄入的主要贡献者。为了防止汞暴露,这些地区的居民可以适当增加贝类的摄入量(特别是双壳类),而不是只食用海鱼。
