Abstract
Frequent fog severely restricts evaporation from blanket bogs in Newfoundland because it more than halves the radiant energy input, and it eliminates the vapor pressure deficit, resulting in evaporation at the equilibrium rate (average α = 0.99 during fog). During these periods, there is no surface resistance to evaporation because the bog has been wetted by fog drip, and although the latent heat flux dominates over sensible heat (average β = 0.8), both are small. In contrast, the surface dries during clear periods, increasing the surface resistance to evaporation so that sensible heat becomes more important (β = 1.05). When the mosses are dry, evaporation is below the equilibrium rate (α = 0.87), although the higher available energy ensures that actual evaporation is higher. During clear periods, daily evaporation averaged 2.5 mm, compared to 1.1 and 0.7 mm for fog and rain, respectively. The suppressed evaporation at this site is important in maintaining appropriate hydrological conditions for blanket bog development.
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Price, J.S. Evaporation from a blanket bog in a foggy coastal environment. Boundary-Layer Meteorol 57, 391–406 (1991). https://doi.org/10.1007/BF00120056
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DOI: https://doi.org/10.1007/BF00120056