Ho Quang Tri, Bank Michael S, Azad Atabak M, Nilsen Bente M, Frantzen Sylvia, Boitsov Stepan, Maage Amund, Kögel Tanja, Sanden Monica, Frøyland Livar, Hannisdal Rita, Hove Helge, Lundebye Anne-Katrine, Nøstbakken Ole Jakob, Madsen Lise
Institute of Marine Research, Bergen, Norway.
Institute of Marine Research, Bergen, Norway; University of Massachusetts Amherst, Amherst, MA, USA.
Environ Int. 2021 Dec;157:106858. doi: 10.1016/j.envint.2021.106858. Epub 2021 Sep 13.
Marine fish from the North East Atlantic Ocean (NEAO) are nutrient rich and considered a valuable economic resource. However, marine fish are also a major dietary source of several contaminants, including persistent organic pollutants (POPs) and heavy metals. Using one of the world's largest seafood datasets (n > 25,000 individuals), comprising 12 commercially important fish species collected during 2006-2019 in the NEAO, we assessed the co-occurrence of elements and POPs, and evaluated potential risks to human consumers. Several positive correlations between concentrations of mercury (Hg), dioxins, polychlorinated biphenyls (PCBs) and polybrominated diphenyl ethers (PBDEs) were observed. Concentrations of Hg, dioxins, PCBs and PBDEs increased from North to South and associations between marine sediment contamination, sea temperature, and fish Hg and POPs concentrations were identified using multi-linear regression (MLR) models. In general, Hg concentrations in fillet and liver of fish were positively associated with increases in both sediment contamination and sea temperature. POPs concentrations in both fillet and liver were positively associated with increases in sediment contamination, and only POPs concentrations in the liver of benthopelagic and demersal species were found to be positively correlated with sea temperature. Using a probabilistic approach to estimate human contaminant exposure from seafood, we showed that intake of pelagic species posed the highest risk of dioxins and dioxin-like PCBs (DL-PCBs) exposure, while intake of benthopelagic and demersal species posed the highest risk of Hg exposure. This study can serve as a model to further understand the distribution, co-occurrence, and trends of contaminants in seafood harvested from the NEAO and their potential risks to human consumers.
来自东北大西洋(NEAO)的海鱼营养丰富,被视为宝贵的经济资源。然而,海鱼也是多种污染物的主要饮食来源,包括持久性有机污染物(POPs)和重金属。我们利用世界上最大的海鲜数据集之一(n > 25000个体),该数据集包含2006年至2019年在NEAO采集的12种具有商业重要性的鱼类,评估了元素与POPs的共现情况,并评估了对人类消费者的潜在风险。观察到汞(Hg)、二噁英、多氯联苯(PCBs)和多溴二苯醚(PBDEs)浓度之间存在若干正相关。Hg、二噁英、PCBs和PBDEs的浓度从北向南增加,并使用多元线性回归(MLR)模型确定了海洋沉积物污染、海水温度与鱼类Hg和POPs浓度之间的关联。一般来说,鱼肉和鱼肝中的Hg浓度与沉积物污染和海水温度的升高呈正相关。鱼肉和鱼肝中的POPs浓度与沉积物污染的增加呈正相关,并且仅发现中上层和底层鱼类肝脏中的POPs浓度与海水温度呈正相关。通过概率方法估计人类从海鲜中接触污染物的情况,我们发现摄入中上层鱼类造成二噁英和类二噁英多氯联苯(DL-PCBs)接触的风险最高,而摄入中上层和底层鱼类造成Hg接触的风险最高。这项研究可作为一个模型,以进一步了解从NEAO收获的海鲜中污染物的分布、共现情况和趋势及其对人类消费者的潜在风险。
