Abstract
Abstract The objective of the study is to determine the local processes that control the partitioning of the energy budget of shield terrain in the western Canadian subarctic. The magnitude of the spring snowmelt and its potential to flood exposed bedrock portions of the landscape control the energy budget in the early part of the summer. In wet years, Bowen ratios are low and increase over the growing season. The high latent heat fluxes early in the year are promoted by water pooled in bedrock depressions and stored in the shallow soil. The high evaporation rates deplete moisture storage by the end of July after which latent heat fluxes decrease so that Bowen ratios exceed unity until the end of the growing season. This regime differs from other subarctic terrain types with similar vegetation. Exposed and shallow Precambrian bedrock keeps water close to the topographic surface and available for evaporation. The low surface resistance of ponded water on the bedrock surface and high vapor pressure deficits...
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