Title :
Evaluation of SEBS-estimated evapotranspiration using a large aperture scintillometer data for a complex underlying surface
Author :
Lu, Jing ; Li, Zhao-Liang ; Wang, Huimin ; Tang, Ronglin ; Tang, Bohui ; Labed, Jelila ; Wu, Hua ; Yu, Guirui
Author_Institution :
State Key Lab. of Resources & Environ. Inf. Syst., Inst. of Geogr,, Sci. & Natural Resources Res., Beijing, China
Abstract :
This study firstly analyses the spatial representation of LAS (Large Aperture Scintillometer)-observed heat fluxes for a complex surface; and then evaluates the performance of SEBS model applied to a complex surface in comparison with in situ measurements. The results showed that LAS observation is indeed more stable than EC measurements even for complex surfaces, and the sensible heat flux from LAS is less than that from EC observations because of some land types with more evapotranspiration included into LAS footprint. SEBS overestimated latent heat flux at QYZ station in southern China because of the underestimation of H, but SEBS-estimated turbulent fluxes are more consistent with the LAS measurement.
Keywords :
evaporation; land surface temperature; EC measurements; LAS-observed heat fluxes; Large Aperture Scintillometer; QYZ station; SEBS-estimated evapotranspiration evaluation; SEBS-estimated turbulent fluxes; complex surface; complex underlying surface; large aperture scintillometer data; sensible heat flux; southern China; Heating; Land surface; Land surface temperature; Remote sensing; Surface topography; Temperature distribution; Temperature measurement; Evapotranspiration; LAS; SEBS; complex underlying surface;
Conference_Titel :
Geoscience and Remote Sensing Symposium (IGARSS), 2012 IEEE International
Conference_Location :
Munich
Print_ISBN :
978-1-4673-1160-1
Electronic_ISBN :
2153-6996
DOI :
10.1109/IGARSS.2012.6351354
