Open Access
E3S Web of Conferences
Volume 1, 2013
Proceedings of the 16th International Conference on Heavy Metals in the Environment
Article Number 17006
Number of page(s) 3
Section GMOS I (Global Mercury Observation System)
Published online 23 April 2013
  1. Christensen JH., et al. Modelling of mercury in the Arctic with the Danish Eulerian Hemispheric Model. Atmospheric Chemistry & Physics 2004; 4: 2251–2257. [CrossRef]
  2. Dastoor AP and Davignon D. Global mercury modeling at Environment Canada. In Pirrone N and Mason RP (eds.) Mercury Fate and Transport in the Global Atmosphere: Emissions, Measurements, and Models. Springer, New York, 2009; pp. 519–531 [CrossRef]
  3. Holmes CD, Jacob DJ, Corbitt ES, Mao J, Yang X, Talbot R, and Slemr F. Global atmospheric model for mercury including oxidation by bromine atoms. Atmos. Chem. Phys. 2010; 10: 12037–12057 [CrossRef]
  4. Jung G, Hedgecock IM, Pirrone N. ECHMERIT V1.0 – a new global fully coupled mercury-chemistry and transport model. Geosci. Model Dev. 2009; 2: 175–195. [CrossRef]
  5. Seigneur C, et al. Global Source Attribution for Mercury Deposition in the United States. Environmental Science & Technology 2004: 38: 15. [CrossRef]
  6. Selin NE, et al. Chemical cycling and deposition of atmospheric mercury: Global constraints from observations. J. Geophys. Res. 2007; 112: D02308. [CrossRef]
  7. Travnikov O. Contribution of the intercontinental atmospheric transport to mercury pollution in the Northern Hemisphere. Atmos. Environ. 2005; 39: 7541–7548. [CrossRef]