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Measurement and modelling of deep sea sediment plumes and implications for deep sea mining
Spearman, J.; Taylor, J.C.; Crossouard, N.; Cooper, A.; Turnbull, M.; Manning, A.J.; Lee, M.; Murton, B.J. (2020). Measurement and modelling of deep sea sediment plumes and implications for deep sea mining. NPG Scientific Reports 10(1): 14 pp. https://dx.doi.org/10.1038/s41598-020-61837-y
In: Scientific Reports (Nature Publishing Group). Nature Publishing Group: London. ISSN 2045-2322; e-ISSN 2045-2322, meer
Peer reviewed article  

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  • Spearman, J., meer
  • Taylor, J.C., meer
  • Crossouard, N.
  • Cooper, A.
  • Turnbull, M.
  • Manning, A.J., meer
  • Lee, M.
  • Murton, B.J.

Abstract
    Deep sea mining concerns the extraction of poly-metallic nodules, cobalt-rich crusts and sulphide deposits from the ocean floor. The exploitation of these resources will result in adverse ecological effects arising from the direct removal of the substrate and, potentially, from the formation of sediment plumes that could result in deposition of fine sediment on sensitive species or entrainment of sediment, chemicals and nutrients into over-lying waters. Hence, identifying the behaviour of deep-sea sediment plumes is important in designing mining operations that are ecologically acceptable. Here, we present the results of novel in situ deep sea plume experiments undertaken on the Tropic seamount, 300 nautical miles SSW of the Canary Islands. These plume experiments were accompanied by hydrographic and oceanographic field surveys and supported by detailed numerical modelling and high resolution video settling velocity measurements of the in situ sediment undertaken in the laboratory. The plume experiments involved the controlled formation of benthic sediment plumes and measurement of the plume sediment concentration at a specially designed lander placed at set distances from the plume origin. The experiments were used as the basis for validation of a numerical dispersion model, which was then used to predict the dispersion of plumes generated by full-scale mining. The results highlight that the extent of dispersion of benthic sediment plumes, resulting from mining operations, is significantly reduced by the effects of flocculation, background turbidity and internal tides. These considerations must be taken into account when evaluating the impact and extent of benthic sediment plumes.

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