Modelling spatial dispersion of contaminants from shipping lanes in the Baltic Sea

Mar Pollut Bull. 2021 Dec;173(Pt A):112985. doi: 10.1016/j.marpolbul.2021.112985. Epub 2021 Sep 28.

Abstract

Major sources of pollution from shipping to marine environments are antifouling paint residues and discharges of bilge, black, grey and ballast water and scrubber discharge water. The dispersion of copper, zinc, naphthalene, pyrene, and dibromochloromethane have been studied using the Ship Traffic Emission Assessment Model, the General Estuarine Transport Model, and the Eulerian tracer transport model in the Baltic Sea in 2012. Annual loads of the contaminants ranged from 10-2 tons for pyrene to 100 s of tons for copper. The dispersion of the contaminants is determined by the surface kinetic energy and vertical stratification at the location of the discharge. The elevated concentration of the contaminants at the surface persists for about two-days and the contaminants are dispersed over the spatial scale of 10-60 km. The Danish Sounds, the southwestern Baltic Sea and the Gulf of Finland are under the heaviest pressure of shipborne contaminants in the Baltic Sea.

Keywords: Baltic Sea; Contaminant dispersion; Ship pollution; Ship waste; Vertical mixing; Water circulation.

MeSH terms

  • Baltic States
  • Finland
  • Ships*
  • Water*

Substances

  • Water