Israel Oceanographic and Limnological Research, The National Institute of Oceanography, Haifa 31080, Israel.
Israel Oceanographic and Limnological Research, The National Institute of Oceanography, Haifa 31080, Israel.
Sci Total Environ. 2020 Apr 20;714:136711. doi: 10.1016/j.scitotenv.2020.136711. Epub 2020 Jan 15.
Haifa Bay (HB), located along the northern Mediterranean shore of Israel was polluted with Hg from a chlor-alkali plant (ECI) and from the Qishon River industries, for decades. From the mid-1980s industrial Hg loads into HB decreased dramatically until their complete cessation in 2000. Consequently, concentrations in marine biota and sediments decreased almost to reference levels. However, during 2006-2014, an unexpected increase of total Hg (THg) concentrations was observed in three commercial fish species collected at northern HB (N.HB). To determine the cause of this increase, THg and methyl Hg (MeHg) were measured in seawater, coastal groundwater, suspended particulate matter, plankton, macroalgae, benthic fauna, and in marine and beach sediments. THg in groundwater and sediments from the vicinity of ECI were extremely high (up to 251 μg L and 2200 ng g, respectively). MeHg concentrations in groundwater were low and constituted <0.1% of THg, except in the surf zone opposite the ECI, where MeHg constituted 0.2% of the THg. THg and MeHg concentrations were consistently higher in benthic biota and plankton from N.HB and northwards, compared to corresponding samples from southern HB (S.HB) and the reference site (RS). MeHg in bivalves and sponges from N.HB and SZ was higher than from S.HB and RS, despite having similar THg concentrations, which suggests a stronger source of MeHg in N.HB. Our findings suggest that the discharge into N.HB of Hg polluted groundwater under the ECI increased during the period 2006-2014. The Hg was assimilated by plankton or adsorbed onto inorganic particles, which were further ingested by benthic and pelagic consumers, as well as transported northward with the alongshore current. These findings demonstrate for the first time the potential of relic pollution in groundwater to increase heavy metal burdens in local marine food webs.
海法湾(HB)位于以色列北部地中海沿岸,几十年来一直受到来自氯碱厂(ECI)和基顺河工业的汞污染。从 20 世纪 80 年代中期开始,HB 中的工业汞负荷急剧下降,直到 2000 年完全停止。因此,海洋生物和沉积物中的浓度几乎降至参考水平。然而,在 2006-2014 年期间,在 HB 北部采集的三种商业鱼类中观察到总汞(THg)浓度的意外增加。为了确定这种增加的原因,测量了海水中、沿海地下水中、悬浮颗粒物、浮游生物、大型藻类、底栖动物以及海洋和海滩沉积物中的总汞(THg)和甲基汞(MeHg)。ECI 附近地下水和沉积物中的 THg 含量极高(分别高达 251μg/L 和 2200ng/g)。地下水的 MeHg 浓度较低,仅占 THg 的<0.1%,但在 ECI 对面的海滨区除外,其中 MeHg 占 THg 的 0.2%。与来自 HB 南部(S.HB)和参考点(RS)的相应样品相比,来自 HB 北部(N.HB)和北部的底栖生物和浮游生物中的 THg 和 MeHg 浓度一直更高。尽管 N.HB 和 SZ 的双壳类动物和海绵中的 THg 浓度相似,但它们的 MeHg 浓度高于 S.HB 和 RS,这表明 N.HB 中 MeHg 的来源更强。我们的研究结果表明,2006-2014 年期间,ECI 下 Hg 污染的地下水排入 N.HB 增加。Hg 被浮游生物吸收或被无机颗粒吸附,然后被底栖和洄游消费者进一步摄入,并随沿岸流向北运输。这些发现首次证明了地下水中残留污染有增加当地海洋食物网中重金属负担的潜力。
