Assessing the Potential of the Cloud-Based EEFlux Tool to Monitor the Water Use of <i>Moringa oleifera</i> in a Semi-Arid Region of South Africa

Assessing the Potential of the Cloud-Based EEFlux Tool to Monitor the Water Use of <i>Moringa oleifera</i> in a Semi-Arid Region of South Africa

The cultivation of <i>Moringa oleifera</i> Lam. (<i>M. oleifera</i>) has steadily increased over the past few decades, and interest in the crop continues to rise due to its unique multi-purpose properties. However, knowledge pertaining to its water use to guide decision-makin...

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Bibliographic Details
Main Authors: Shaeden Gokool, Alistair Clulow, Nadia A. Araya
Format: Article
Language:English
Published: MDPI AG 2025-05-01
Series:Geomatics
Subjects:
evapotranspiration
Google Earth Engine
medicinal plant
agricultural water management
Online Access:https://www.mdpi.com/2673-7418/5/2/18
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Summary:The cultivation of <i>Moringa oleifera</i> Lam. (<i>M. oleifera</i>) has steadily increased over the past few decades, and interest in the crop continues to rise due to its unique multi-purpose properties. However, knowledge pertaining to its water use to guide decision-making in relation to the growth and management of this crop remains fairly limited. Since acquiring such information can be challenging using traditional in situ or remote sensing-based methods, particularly in resource-poor regions, this study aims to explore the potential of using the cloud-based Earth Engine Evapotranspiration Flux (EEFlux) model to quantify the water use of <i>M. oleifera</i> in a semi-arid region of South Africa. For this purpose, EEFlux estimates were acquired and compared with eddy covariance measurements between November 2022 and May 2023. The results of these comparisons demonstrated that EEFlux unsatisfactorily estimated ET, producing root mean square error, mean absolute error, and R<sup>2</sup> values of 2.03 mm d<sup>−1</sup>, 1.63 mm d<sup>−1</sup>, and 0.24, respectively. The poor performance of this model can be attributed to several factors such as the quantity and quality of the in situ data as well as inherent model limitations. While these results are less than satisfactory, EEFlux affords users a quick and convenient approach to extracting crucial ET and ancillary data. Subsequently, with further refinement and testing, EEFlux can potentially serve to provide a wide variety of users with an invaluable tool to guide and inform decision-making with regards to agricultural water use management, particularly those in resource-constrained environments.
ISSN:2673-7418

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