2003
DOI: 10.1051/jp4:20030355
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Evidences of modifications in the size distribution of particles during a mercury depletion event at Kuujjuarapik/Whapmagoostui, Québec (Canada)

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“…The much less volatile reaction product(s), such as a mercury halide, an oxide, or a sulfate or nitrate compound of mercury produced by oxidation of Hg 0 vapour can be expected, on the basis of their vapour pressures (see Table 1), to preferentially exist or become associated with atmospheric aerosol, rather than remaining in the gas phase under typical (still very cold) springtime environmental conditions in the Arctic, thus explaining the dramatically elevated concentrations of TFM observed frequently at Alert during the 3‐month period following polar sunrise (Lu et al 2001). This hypothesis is supported by the increase in the particle concentrations during the mercury depletion events (Gauchard et al 2003). It is also possible, but less likely, that the halogen atoms (Cl·, Br·, and/or I·) attack Hg 0 vapour, forming HgX 2 (since this would require either a concerted “three‐body” collision or a two‐step sequential reaction).…”
Section: Discussionmentioning
confidence: 81%
“…The much less volatile reaction product(s), such as a mercury halide, an oxide, or a sulfate or nitrate compound of mercury produced by oxidation of Hg 0 vapour can be expected, on the basis of their vapour pressures (see Table 1), to preferentially exist or become associated with atmospheric aerosol, rather than remaining in the gas phase under typical (still very cold) springtime environmental conditions in the Arctic, thus explaining the dramatically elevated concentrations of TFM observed frequently at Alert during the 3‐month period following polar sunrise (Lu et al 2001). This hypothesis is supported by the increase in the particle concentrations during the mercury depletion events (Gauchard et al 2003). It is also possible, but less likely, that the halogen atoms (Cl·, Br·, and/or I·) attack Hg 0 vapour, forming HgX 2 (since this would require either a concerted “three‐body” collision or a two‐step sequential reaction).…”
Section: Discussionmentioning
confidence: 81%