Temporal availability of grapes actual evapotranspiration is an emerging issue since vineyards farms are more and more converted from rainfed to irrigated agricultural systems. The manuscript aims to verify the accuracy of the actual evapotranspiration retrieval coupling a single source energy balance approach and two different temporal upscaling schemes. The first scheme tests the temporal upscaling of the main input variables, namely the NDVI, albedo and LST; the second scheme tests the temporal upscaling of the energy balance output, the actual evapotranspiration. The temporal upscaling schemes were implemented on: i) airborne remote sensing data acquired monthly during a whole irrigation season over a Sicilian vineyard; ii) low resolution MODIS products released daily or weekly; iii) meteorological data acquired by standard gauge stations. Daily MODIS LST products (MOD11A1) were disaggregated using the DisTrad model, 8-days black and white sky albedo products (MCD43A) allowed modeling the total albedo, and 8-days NDVI products (MOD13Q1) were modeled using the Fisher approach. Results were validated both in time and space. The temporal validation was carried out using the actual evapotranspiration measured in situ using data collected by a flux tower through the eddy covariance technique. The spatial validation involved airborne images acquired at different times from June to September 2008. Results aim to test whether the upscaling of the energy balance input or output data performed better.

Maltese, A., Capodici, F., Ciraolo, G., La Loggia, G. (2015). Testing two temporal upscaling schemes for the estimation of the time variability of the actual evapotranspiration. In Proceedings of SPIE - The International Society for Optical Engineering (pp.96370S-1-96370S-7). Bellingham, Washington : SPIE [10.1117/12.2196750].

Testing two temporal upscaling schemes for the estimation of the time variability of the actual evapotranspiration

MALTESE, Antonino;CAPODICI, Fulvio;CIRAOLO, Giuseppe;LA LOGGIA, Goffredo
2015-01-01

Abstract

Temporal availability of grapes actual evapotranspiration is an emerging issue since vineyards farms are more and more converted from rainfed to irrigated agricultural systems. The manuscript aims to verify the accuracy of the actual evapotranspiration retrieval coupling a single source energy balance approach and two different temporal upscaling schemes. The first scheme tests the temporal upscaling of the main input variables, namely the NDVI, albedo and LST; the second scheme tests the temporal upscaling of the energy balance output, the actual evapotranspiration. The temporal upscaling schemes were implemented on: i) airborne remote sensing data acquired monthly during a whole irrigation season over a Sicilian vineyard; ii) low resolution MODIS products released daily or weekly; iii) meteorological data acquired by standard gauge stations. Daily MODIS LST products (MOD11A1) were disaggregated using the DisTrad model, 8-days black and white sky albedo products (MCD43A) allowed modeling the total albedo, and 8-days NDVI products (MOD13Q1) were modeled using the Fisher approach. Results were validated both in time and space. The temporal validation was carried out using the actual evapotranspiration measured in situ using data collected by a flux tower through the eddy covariance technique. The spatial validation involved airborne images acquired at different times from June to September 2008. Results aim to test whether the upscaling of the energy balance input or output data performed better.
23-set-2015
Remote Sensing for Agriculture, Ecosystems, and Hydrology XVII
Toulouse, France
2015
17
2015
7
A stampa
http://spie.org/x1848.xml
Maltese, A., Capodici, F., Ciraolo, G., La Loggia, G. (2015). Testing two temporal upscaling schemes for the estimation of the time variability of the actual evapotranspiration. In Proceedings of SPIE - The International Society for Optical Engineering (pp.96370S-1-96370S-7). Bellingham, Washington : SPIE [10.1117/12.2196750].
Proceedings (atti dei congressi)
Maltese, A.; Capodici, F.; Ciraolo, G.; La Loggia, G.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/210022
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