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A global ocean inventory of anthropogenic mercury based on water column measurements
Lamborg, C.H.; Hammerschmidt, C.R.; Bowman, K.L.; Swarr, G.J.; Munson, K.M.; Ohnemus, D.C.; Lam, P.L.; Heimbürger, L.-E.; Rijkenberg, M.J.A.; Saito, M.A. (2014). A global ocean inventory of anthropogenic mercury based on water column measurements. Nature (Lond.) 512(7512): 65-68. http://dx.doi.org/10.1038/nature13563
In: Nature: International Weekly Journal of Science. Nature Publishing Group: London. ISSN 0028-0836; e-ISSN 1476-4687, meer
Peer reviewed article  

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  • Lamborg, C.H.
  • Hammerschmidt, C.R.
  • Bowman, K.L.
  • Swarr, G.J.
  • Munson, K.M.
  • Ohnemus, D.C.
  • Lam, P.L.
  • Heimbürger, L.-E.
  • Rijkenberg, M.J.A., meer
  • Saito, M.A.

Abstract
    Mercury is a toxic, bioaccumulating trace metal whose emissions to the environment have increased significantly as a result of anthropogenic activities such as mining and fossil fuel combustion. Several recent models have estimated that these emissions have increased the oceanic mercury inventory by 36–1,313 million moles since the 1500s. Such predictions have remained largely untested owing to a lack of appropriate historical data and natural archives. Here we report oceanographic measurements of total dissolved mercury and related parameters from several recent expeditions to the Atlantic, Pacific, Southern and Arctic oceans. We find that deep North Atlantic waters and most intermediate waters are anomalously enriched in mercury relative to the deep waters of the South Atlantic, Southern and Pacific oceans, probably as a result of the incorporation of anthropogenic mercury. We estimate the total amount of anthropogenic mercury present in the global ocean to be 290 ± 80 million moles, with almost two-thirds residing in water shallower than a thousand metres. Our findings suggest that anthropogenic perturbations to the global mercury cycle have led to an approximately 150 per cent increase in the amount of mercury in thermocline waters and have tripled the mercury content of surface waters compared to pre-anthropogenic conditions. This information may aid our understanding of the processes and the depths at which inorganic mercury species are converted into toxic methyl mercury and subsequently bioaccumulated in marine food webs.

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