Abstract
A method to estimate the sensible heat flux (H) for unstable atmospheric condition requiring measurements taken in half-hourly basis as input and involving the land surface temperature (LST), HLST, was tested over a tall and dense aspen stand. The method avoids the need to estimate the zero-plane displacement and the roughness length for momentum. The net radiation (Rn) and the latent heat flux (λE) dominated the surface energy balance (SEB). Therefore, λE was estimated applying the residual method using HLST as input, λER-LST. The sum of H and λE determined with the eddy covariance (EC) method led to a surface energy imbalance of 20% Rn. Thus, the reference taken for the comparisons were determined forcing the SEB using the EC Bowen ratio (BREB method). For clear sky days, HLST performed close to HBREB. Therefore, it showed potential in the framework of remote sensing because the input requirements are similar to current methods widely used. For cloudy days, HLST scattered HBREB and nearly matched the accumulated sensible hear flux. Regardless of the time basis and cloudiness, λER-LST was close to λEBREB. For all the data, both HLST and λER-LST were not biased and showed, respectively, a mean absolute relative error of 24.5% and 12.5% and an index of agreement of 68.5% and 80%.
Highlights
In non-dry climates, the evapotranspiration or latent heat flux is one of the dominant components of both the land-surface water and energy budgets
Regardless of the month, it is shown that the weight of the latent heat flux in the surface energy balance was much higher than of the sensible heat flux
The reasons of the surface energy imbalance are unknown, the mean relative absolute error was 14% (Table 1) shows that the residual method was suitable to estimate the latent heat flux
Summary
In non-dry climates, the evapotranspiration or latent heat flux (λE) is one of the dominant components of both the land-surface water and energy budgets. Different methodologies are available to determine λE and micrometeorological methods often involve the surface energy balance and similarity theory [6,7,8,9,10]. The latter methods require the identification of the dominant terms in the surface energy balance. Most similarity-based formulations allow involving remote sensing products Provided they are used on clear-sky days, they can be applied at non-local scales [14,15,16,17,18,19,20]
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