Assessment of automated evapotranspiration estimates obtained using the GP-SEBAL algorithm for dry forest vegetation (Caatinga) and agricultural areas in the Brazilian semiarid region

Real evapotranspiration (ETr) plays a key role in water balance, especially for dry forest vegetation (Caatinga) and irrigated agricultural areas, as is the case in the Petrolina region located in the Brazilian semiarid region (BSAR). Population growth increases the need for food and the use of wate...

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Published inAgricultural water management Vol. 250; p. 106863
Main Authors Lima, Carlos Eduardo Santos de, Costa, Valéria Sandra de Oliveira, Galvíncio, Josiclêda Domiciano, Silva, Richarde Marques da, Santos, Celso Augusto Guimarães
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2021
Subjects
Agriculture
algorithms
Automated evapotranspiration
automation
Brazil
caatinga
Caatinga vegetation
dry forests
energy balance
evapotranspiration
GRASS GIS
irrigation
land use and land cover maps
Landsat
latent heat flux
net radiation
population growth
Python language
SEBAL
semiarid zones
sensible heat flux
soil heat flux
temperature
uncertainty
water management
GRASS GIS
Python language
Automated evapotranspiration
Brazil
Caatinga vegetation
Agriculture
SEBAL
Online AccessGet full text
ISSN0378-3774
1873-2283
DOI10.1016/j.agwat.2021.106863

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Abstract Real evapotranspiration (ETr) plays a key role in water balance, especially for dry forest vegetation (Caatinga) and irrigated agricultural areas, as is the case in the Petrolina region located in the Brazilian semiarid region (BSAR). Population growth increases the need for food and the use of water resources, which are scarcer in semiarid regions. Thus, knowledge of the energy balance (EB) and radiative balance are indispensable for the management of water resources, especially in irrigated agricultural areas. Currently, one of the biggest challenges in the application of algorithms for estimating ETr based on satellite images is the calibration of the EB. The goal of this study was to evaluate the applicability of Geographic Resources Analysis Support System (GRASS) Python surface EB algorithm for land (GP-SEBAL) to calculate ETr for Caatinga vegetation and agricultural areas in the BSAR. GP-SEBAL was applied to two images from Landsat 8 obtained in 2013 and compared with manual SEBAL and observed data. In this study, kappa coefficient accuracy was used to compare the ground truth data and predicted land use and land cover. The performance of algorithms in determining the EB components, land-surface temperature (LST), net radiation (Rn), soil heat flux (G), latent heat flux (LE), sensible heat flux (H), and ETr were compared with statistical indices and uncertainty percentages (PUs) were calculated. In addition, a sensitivity analysis using a deviation of 30 W/m2 with an interval of 5 W/m2 was used to analyze the sensitivity of ETr. The results showed a strong correlation between GP-SEBAL and manual SEBAL for ETr, LST, Rn, LH, and H. The values suggest the regularity of estimating the EB in an automated manner. The results indicate a small PU difference in the estimated ETr values calculated using GP-SEBAL and SEBAL for two images of 10.87% and 20.11% for Caatinga vegetation and 15.01% and 35.16% for agriculture, respectively. We conclude that GP-SEBAL is an efficient automated algorithm for estimating ETr that uses a less complex process with a lower incidence of errors and considerably faster execution time than classical applications of SEBAL. •Development of the GRASS-Python-SEBAL (GP-SEBAL), an automated application of SEBAL.•Spatiotemporal variability of the energy balance and evapotranspiration (ETr).•Evaluation of energy balance and ETr obtained for Caatinga vegetation and agricultural.•GP-SEBAL showed to be an efficient tool for applications with several images.•GP-SEBAL showed to be a less complex task with considerably shorter execution time.
AbstractList Real evapotranspiration (ETr) plays a key role in water balance, especially for dry forest vegetation (Caatinga) and irrigated agricultural areas, as is the case in the Petrolina region located in the Brazilian semiarid region (BSAR). Population growth increases the need for food and the use of water resources, which are scarcer in semiarid regions. Thus, knowledge of the energy balance (EB) and radiative balance are indispensable for the management of water resources, especially in irrigated agricultural areas. Currently, one of the biggest challenges in the application of algorithms for estimating ETr based on satellite images is the calibration of the EB. The goal of this study was to evaluate the applicability of Geographic Resources Analysis Support System (GRASS) Python surface EB algorithm for land (GP-SEBAL) to calculate ETr for Caatinga vegetation and agricultural areas in the BSAR. GP-SEBAL was applied to two images from Landsat 8 obtained in 2013 and compared with manual SEBAL and observed data. In this study, kappa coefficient accuracy was used to compare the ground truth data and predicted land use and land cover. The performance of algorithms in determining the EB components, land-surface temperature (LST), net radiation (Rₙ), soil heat flux (G), latent heat flux (LE), sensible heat flux (H), and ETr were compared with statistical indices and uncertainty percentages (PUs) were calculated. In addition, a sensitivity analysis using a deviation of 30 W/m² with an interval of 5 W/m² was used to analyze the sensitivity of ETr. The results showed a strong correlation between GP-SEBAL and manual SEBAL for ETr, LST, Rₙ, LH, and H. The values suggest the regularity of estimating the EB in an automated manner. The results indicate a small PU difference in the estimated ETr values calculated using GP-SEBAL and SEBAL for two images of 10.87% and 20.11% for Caatinga vegetation and 15.01% and 35.16% for agriculture, respectively. We conclude that GP-SEBAL is an efficient automated algorithm for estimating ETr that uses a less complex process with a lower incidence of errors and considerably faster execution time than classical applications of SEBAL.
Real evapotranspiration (ETr) plays a key role in water balance, especially for dry forest vegetation (Caatinga) and irrigated agricultural areas, as is the case in the Petrolina region located in the Brazilian semiarid region (BSAR). Population growth increases the need for food and the use of water resources, which are scarcer in semiarid regions. Thus, knowledge of the energy balance (EB) and radiative balance are indispensable for the management of water resources, especially in irrigated agricultural areas. Currently, one of the biggest challenges in the application of algorithms for estimating ETr based on satellite images is the calibration of the EB. The goal of this study was to evaluate the applicability of Geographic Resources Analysis Support System (GRASS) Python surface EB algorithm for land (GP-SEBAL) to calculate ETr for Caatinga vegetation and agricultural areas in the BSAR. GP-SEBAL was applied to two images from Landsat 8 obtained in 2013 and compared with manual SEBAL and observed data. In this study, kappa coefficient accuracy was used to compare the ground truth data and predicted land use and land cover. The performance of algorithms in determining the EB components, land-surface temperature (LST), net radiation (Rn), soil heat flux (G), latent heat flux (LE), sensible heat flux (H), and ETr were compared with statistical indices and uncertainty percentages (PUs) were calculated. In addition, a sensitivity analysis using a deviation of 30 W/m2 with an interval of 5 W/m2 was used to analyze the sensitivity of ETr. The results showed a strong correlation between GP-SEBAL and manual SEBAL for ETr, LST, Rn, LH, and H. The values suggest the regularity of estimating the EB in an automated manner. The results indicate a small PU difference in the estimated ETr values calculated using GP-SEBAL and SEBAL for two images of 10.87% and 20.11% for Caatinga vegetation and 15.01% and 35.16% for agriculture, respectively. We conclude that GP-SEBAL is an efficient automated algorithm for estimating ETr that uses a less complex process with a lower incidence of errors and considerably faster execution time than classical applications of SEBAL. •Development of the GRASS-Python-SEBAL (GP-SEBAL), an automated application of SEBAL.•Spatiotemporal variability of the energy balance and evapotranspiration (ETr).•Evaluation of energy balance and ETr obtained for Caatinga vegetation and agricultural.•GP-SEBAL showed to be an efficient tool for applications with several images.•GP-SEBAL showed to be a less complex task with considerably shorter execution time.
ArticleNumber 106863
Author Galvíncio, Josiclêda Domiciano
Santos, Celso Augusto Guimarães
Lima, Carlos Eduardo Santos de
Silva, Richarde Marques da
Costa, Valéria Sandra de Oliveira
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  organization: Federal University of Paraíba, Department of Civil and Environmental Engineering, João Pessoa 58051-900, Paraíba, Brazil
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Automated evapotranspiration
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Snippet Real evapotranspiration (ETr) plays a key role in water balance, especially for dry forest vegetation (Caatinga) and irrigated agricultural areas, as is the...
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SubjectTerms Agriculture
algorithms
Automated evapotranspiration
automation
Brazil
caatinga
Caatinga vegetation
dry forests
energy balance
evapotranspiration
GRASS GIS
irrigation
land use and land cover maps
Landsat
latent heat flux
net radiation
population growth
Python language
SEBAL
semiarid zones
sensible heat flux
soil heat flux
temperature
uncertainty
water management
Title Assessment of automated evapotranspiration estimates obtained using the GP-SEBAL algorithm for dry forest vegetation (Caatinga) and agricultural areas in the Brazilian semiarid region
URI https://dx.doi.org/10.1016/j.agwat.2021.106863
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