Surface energy- and water balance in a high-arcticenvironment in NE Greenland |
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Authors: | H Soegaard B Hasholt T Friborg C Nordstroem |
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Institution: | (1) Institute of Geography, University of Copenhagen, Denmark, DK |
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Abstract: | Summary Within the framework of the European LAPP-project (Land Arctic Physical Processes) and as part of the Danish Research Council’s
Polar Programme, studies on water- and surface energy balance in NE Greenland were conducted in 1996 and 1997. Eddy correlation
measurements of water vapour and sensible heat fluxes above the three dominant vegetation types: fen, willow snowbed, and
heath were conducted for the entire growing season. This was supplemented by measurements of evaporation from snow covered
areas and from a small pond. The evapotranspiration was found to be relatively high with the maximum from the fen (≈86 mm
per season). For the two other vegetation types the evapotranspiration was less, for heath 61 mm per season, while willow
snowbed had evaporation rates on intermediate level. By use of the Penman-Monteith equation it was possible to estimate the
altitude dependence of the evapotranspiration and calculate the annual evaporation for the whole area to 80 mm per year. By
applying a bucket model the evaporation was found to be in accordance with changes in soil moisture as monitored with TDR.
The observed surface water balance was compared to river discharge, which shows a glacio-nival regime with an early spring
flow (June), determined by the snow melt in the main valley and an July–August maximum determined by melt on higher plateau
areas. When balancing the individual hydrological components an annual deficit of 180 mm was observed, but it was found that
this deficit could be reduced by correcting for aerodynamic and altitude effects on the precipitation. Finally some of the
possible consequences of a global warming is discussed in relation to the water and energy balance in the high-arctic ecosystem.
Received November 1, 1999 Revised May 15, 2000 |
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