Abstract
Accurate quantification of the amount and spatial variation of
evapotranspiration is important in a wide range of disciplines. Remote
sensing based surface energy balance models have been developed to
estimate turbulent surface energy fluxes at different scales. The
objective of this study is to evaluate the Surface Energy Balance System
(SEBS) model on a landscape scale, using tower-based flux measurements
at different land cover units during an overpass of the ASTER sensor
over the SPARC 2004 experimental site in Barrax (Spain). A sensitivity
analysis has been performed in order to investigate to which variable
the sensible heat flux is most sensitive. Taking into account their
estimation errors, the aerodynamic parameters (hc,
z0M and d0) can cause large deviations in the
modelling of sensible heat flux. The effect of replacement of empirical
derivation of these aerodynamic parameters in the model by field
estimates or literature values is investigated by testing two scenarios:
the Empirical Scenario in which empirical equations are used to derive
aerodynamic parameters and the Field Scenario in which values from field
measurements or literature are used to replace the empirical
calculations of the Empirical Scenario. In the case of a homogeneous
land cover in the footprints of the measurements, the Field Scenario
only resulted in a small improvement, compared to the Empirical
Scenario. The Field Scenario can even worsen the result in the case of
heterogeneous footprints, by creating sharp borders related to the land
cover map. In both scenarios modelled fluxes correspond better with flux
measurements over uniform land cover compared to cases where different
land covers are mixed in the measurement footprint. Furthermore SEBS
underestimates sensible heat flux especially over dry and sparsely
vegetated areas, which is common in single-source models.
Original language | English |
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Pages (from-to) | 1337-1347 |
Journal | Hydrology and Earth System Sciences |
Volume | 13 |
Issue number | 7 |
DOIs | |
Publication status | Published - 1 Jul 2009 |