Footprint-weighted tile approach for a spruce forest and a nearby patchy clearing using the ACASA model
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Published:2018-05-16
Issue:9
Volume:15
Page:2945-2960
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ISSN:1726-4189
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Container-title:Biogeosciences
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language:en
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Short-container-title:Biogeosciences
Author:
Gatzsche Kathrin, Babel Wolfgang, Falge Eva, Pyles Rex David, Paw U Kyaw Tha, Raabe Armin, Foken ThomasORCID
Abstract
Abstract. The ACASA (Advanced Canopy–Atmosphere–Soil Algorithm) model, with
a higher-order closure for tall vegetation, has already been
successfully tested and validated for homogeneous spruce
forests. The aim of this paper is to test the model using
a footprint-weighted tile approach for a clearing with
a heterogeneous structure of the underlying surface. The comparison
with flux data shows a good agreement with a footprint-aggregated
tile approach of the model. However, the results of a comparison
with a tile approach on the basis of the mean land use
classification of the clearing is not significantly different. It is
assumed that the footprint model is not accurate enough to separate
small-scale heterogeneities. All measured fluxes are corrected by
forcing the energy balance closure of the test data either by
maintaining the measured Bowen ratio or by the attribution of the
residual depending on the fractions of sensible and latent heat flux
to the buoyancy flux. The comparison with the model, in which the
energy balance is closed, shows that the buoyancy correction for
Bowen ratios >1.5 better fits the measured data. For lower Bowen
ratios, the correction probably lies between the two methods, but the
amount of available data was too small to make a conclusion. With an
assumption of similarity between water and carbon dioxide fluxes,
no correction of the net ecosystem exchange is necessary for Bowen
ratios >1.5.
Publisher
Copernicus GmbH
Subject
Earth-Surface Processes,Ecology, Evolution, Behavior and Systematics
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