Abstract
Energy partitioning and evaporation were measured over three wetland surfaces in a subarctic coastal marsh during pre-growing and growing periods. These surfaces included an alder/willow woodland, a sedge marsh and a raised backshore sedge meadow. A combination model analysis was used to assess the relative importance of surface resistance and meteorological conditions on the magnitude of the Bowen ratio, Β, during the growing period.
Overall, the three surfaces experienced important site-to-site and seasonal differences in Β and evaporation, Q E. During the non-foliated period, Q E was largest and Β was smallest for the open water marsh, while the dry backshore site experienced the smallest Q E and largest Β. The non-foliated woodland assumed intermediate values of Β and Q E. After the vegetation covers were established, the woodland assumed the smallest Β and largest Q E flux. It was also found that Β at the marsh site increased with the presence of a vegetation cover.
Wind direction was always an important factor in determining Q E and Β at all sites. Β was substantially larger and Q E was smaller for onshore winds (i.e., originating from James Bay) than for offshore winds. The combination model analysis showed that canopy resistance at all sites was largest during warm offshore winds, which were associated with large saturation deficits. However, the effect of increased canopy resistance on Β during offshore winds was offset by a large climatological resistance, resulting in small Β values and large Q E. When winds originated from James Bay, canopy resistance was smaller than for offshore winds, but the climatological resistance also was much smaller, resulting in larger Β and small Q E. The results have important implications for changes in land cover and climate on the regional water balance.
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Lafleur, P.M., Rouse, W.R. The influence of surface cover and climate on energy partitioning and evaporation in a subarctic wetland. Boundary-Layer Meteorol 44, 327–347 (1988). https://doi.org/10.1007/BF00123020
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DOI: https://doi.org/10.1007/BF00123020