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Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration

Sensitivity analysis (SA) intends to identify the key meteorological variables that affect the performance of reference crop evapotranspiration (ET0) models. It is of importance in assessing the variability of meteorological variables and ET0, especially in the face of increasing climate uncertainti...

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Main Authors: Yong S.L.S., Ng J.L., Huang Y.F., Ang C.K., Mirzaei M., Ahmed A.N.
Other Authors: 57370942000
Format: Review
Published: IWA Publishing 2024
Subjects:
global sensitivity analysis
local sensitivity analysis
reference crop evapotranspiration
sensitivity analysis
Climate change
Climate models
Crops
Cultivation
Evapotranspiration
Uncertainty analysis
Analysis method
Contributing factor
Global sensitivity analysis
Local sensitivity analysis
Meteorological variables
Model estimation
Performance
Reference crop evapotranspiration ET
Reference crop evapotranspirations
Uncertainty
climate change
crop production
evapotranspiration
global change
water resource
meteorology
review
uncertainty
water availability
Sensitivity analysis
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id my.uniten.dspace-34333
record_format dspace
spelling my.uniten.dspace-343332024-10-14T11:19:07Z Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration Yong S.L.S. Ng J.L. Huang Y.F. Ang C.K. Mirzaei M. Ahmed A.N. 57370942000 57192698412 55807263900 56202445900 54941702700 57214837520 global sensitivity analysis local sensitivity analysis reference crop evapotranspiration sensitivity analysis Climate change Climate models Crops Cultivation Evapotranspiration Uncertainty analysis Analysis method Contributing factor Global sensitivity analysis Local sensitivity analysis Meteorological variables Model estimation Performance Reference crop evapotranspiration ET Reference crop evapotranspirations Uncertainty climate change crop production evapotranspiration global change sensitivity analysis water resource climate change crop production evapotranspiration global change meteorology review sensitivity analysis uncertainty water availability Sensitivity analysis Sensitivity analysis (SA) intends to identify the key meteorological variables that affect the performance of reference crop evapotranspiration (ET0) models. It is of importance in assessing the variability of meteorological variables and ET0, especially in the face of increasing climate uncertainties. However, the surging of inconsistencies resulting from global changes in meteorological conditions due to climate change have impacted the ET0 model estimation in different regions, with detrimental effects on water resources and crop production. Therefore, efficient SA is necessary to evaluate the impact of changes in meteorological variables that influence ET0 model estimation. This mini review analyses the various SA methods applied in the field of ET0, based on a comprehensive and comparative analysis of existing SA methods from all around the world. The study discusses the advantages and disadvantages of each SA method, as well as the factors affecting the SA of ET0. The study also provides future prospects that may contribute to more solid and powerful analysis for ET0 model estimations and conclusions. � 2023 The Authors. Final 2024-10-14T03:19:07Z 2024-10-14T03:19:07Z 2023 Review 10.2166/WS.2023.086 2-s2.0-85160589623 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85160589623&doi=10.2166%2fWS.2023.086&partnerID=40&md5=71e51896a84f34287eb5d069a241cbf7 https://irepository.uniten.edu.my/handle/123456789/34333 23 4 1672 1683 All Open Access Gold Open Access IWA Publishing Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic global sensitivity analysis
local sensitivity analysis
reference crop evapotranspiration
sensitivity analysis
Climate change
Climate models
Crops
Cultivation
Evapotranspiration
Uncertainty analysis
Analysis method
Contributing factor
Global sensitivity analysis
Local sensitivity analysis
Meteorological variables
Model estimation
Performance
Reference crop evapotranspiration ET
Reference crop evapotranspirations
Uncertainty
climate change
crop production
evapotranspiration
global change
sensitivity analysis
water resource
climate change
crop production
evapotranspiration
global change
meteorology
review
sensitivity analysis
uncertainty
water availability
Sensitivity analysis
spellingShingle global sensitivity analysis
local sensitivity analysis
reference crop evapotranspiration
sensitivity analysis
Climate change
Climate models
Crops
Cultivation
Evapotranspiration
Uncertainty analysis
Analysis method
Contributing factor
Global sensitivity analysis
Local sensitivity analysis
Meteorological variables
Model estimation
Performance
Reference crop evapotranspiration ET
Reference crop evapotranspirations
Uncertainty
climate change
crop production
evapotranspiration
global change
sensitivity analysis
water resource
climate change
crop production
evapotranspiration
global change
meteorology
review
sensitivity analysis
uncertainty
water availability
Sensitivity analysis
Yong S.L.S.
Ng J.L.
Huang Y.F.
Ang C.K.
Mirzaei M.
Ahmed A.N.
Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration
description Sensitivity analysis (SA) intends to identify the key meteorological variables that affect the performance of reference crop evapotranspiration (ET0) models. It is of importance in assessing the variability of meteorological variables and ET0, especially in the face of increasing climate uncertainties. However, the surging of inconsistencies resulting from global changes in meteorological conditions due to climate change have impacted the ET0 model estimation in different regions, with detrimental effects on water resources and crop production. Therefore, efficient SA is necessary to evaluate the impact of changes in meteorological variables that influence ET0 model estimation. This mini review analyses the various SA methods applied in the field of ET0, based on a comprehensive and comparative analysis of existing SA methods from all around the world. The study discusses the advantages and disadvantages of each SA method, as well as the factors affecting the SA of ET0. The study also provides future prospects that may contribute to more solid and powerful analysis for ET0 model estimations and conclusions. � 2023 The Authors.
author2 57370942000
author_facet 57370942000
Yong S.L.S.
Ng J.L.
Huang Y.F.
Ang C.K.
Mirzaei M.
Ahmed A.N.
format Review
author Yong S.L.S.
Ng J.L.
Huang Y.F.
Ang C.K.
Mirzaei M.
Ahmed A.N.
author_sort Yong S.L.S.
title Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration
title_short Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration
title_full Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration
title_fullStr Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration
title_full_unstemmed Local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration
title_sort local and global sensitivity analysis and its contributing factors in reference crop evapotranspiration
publisher IWA Publishing
publishDate 2024
_version_ 1814061050788577280
score 13.214268

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