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dc.contributor.author Majozi, Nobuhle P.
dc.contributor.author Mannaerts, Chris M.
dc.contributor.author Ramoelo, Abel
dc.contributor.author Mathieu, Renaud
dc.contributor.author Mudau, Azwitamisi E.
dc.contributor.author Verhoef, Wouter
dc.date.accessioned 2019-10-10T10:07:00Z
dc.date.available 2019-10-10T10:07:00Z
dc.date.issued 2017-03-24
dc.identifier.issn 2072-4292
dc.identifier.uri http://hdl.handle.net/10386/2735
dc.description Journal article published in the Journal of Remote Sensing 2017, 9, 307 en_US
dc.description.abstract Knowledge of evapotranspiration (ET) is essential for enhancing our understanding of the hydrological cycle, as well as for managing water resources, particularly in semi-arid regions. Remote sensing offers a comprehensive means of monitoring this phenomenon at different spatial and temporal intervals. Currently, several satellite methods exist and are used to assess ET at various spatial and temporal resolutions with various degrees of accuracy and precision. This research investigated the performance of three satellite-based ET algorithms and two global products, namely landsurfacetemperature/vegetationindex(TsVI),Penman–Monteith(PM),andtheMeteosatSecond Generation ET (MET) and the Global Land-surface Evaporation: the Amsterdam Methodology (GLEAM) global products, in two eco-regions of South Africa. Daily ET derived from the eddy covariance system from Skukuza, a sub-tropical, savanna biome, and large aperture boundary layer scintillometer system in Elandsberg, a Mediterranean, fynbos biome, during the dry and wet seasons, were used to evaluate the models. Low coefficients of determination (R2) of between 0 and 0.45 were recorded on both sites, during both seasons. Although PM performed best during periods of high ET at both sites, results show it was outperformed by other models during low ET times. TsVI and MET weresimilarlyaccurateinthedryseasoninSkukuza,asGLEAMwasthemostaccurateinElandsberg during the wet season. The conclusion is that none of the models performed well, as shown by low R2 and high errors in all the models. In essence, our results conclude that further investigation of the PM model is possible to improve its estimation of low ET measurements. en_US
dc.format.extent 21 pages en_US
dc.language.iso en en_US
dc.publisher Remote Sensing en_US
dc.relation.requires Adobe Acrobat Reader en_US
dc.subject Latent heat flux en_US
dc.subject Evapotranspiration en_US
dc.subject Remote sensing en_US
dc.subject Eddy covariance en_US
dc.subject Large aperture boundary layer scintillometer en_US
dc.subject.lcsh Evapotranspiration -- South Africa en_US
dc.subject.lcsh Remote sensing -- South Africa en_US
dc.subject.lcsh Climatic changes -- South Africa en_US
dc.subject.lcsh Evaporation, Latent heat of en_US
dc.title An intercomparison of satellite-based daily evapotranspiration estimates under different eco-climatic regions in South Africa en_US
dc.type Article en_US


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