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Article Open Access November 04, 2022

An Artificial Intelligence Approach to Manage Crop Water Requirements in South Africa

Akinola Ikudayisi 1, Andre Calitz 2 and Samuel Abejide 1,*
1
Civil Engineering Department Walter Sisulu University, East London, South Africa
2
Department of Computing Sciences, Nelson Mandela University, Gqeberha, South Africa
Publihed in: Current Research in Public Health (Volume 2, Issue 1, 2022)
Page(s): 23-34
DOI: 10.31586/ojes.2022.377
Received
July 20, 2022
Revised
October 15, 2022
Accepted
November 01, 2022
Published
November 04, 2022
Keywords
Artificial Neural Networks; CROPWAT; Crop Water Requirements; Irrigation; Soil Moisture; Water Allocation; Water-Use Efficiency; Winterton
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.
Copyright: Copyright © The Author(s), 2022. Published by Scientific Publications
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Cite This Article

APA Style
Ikudayisi, A. , Calitz, A. , & Abejide, S. (2022). An Artificial Intelligence Approach to Manage Crop Water Requirements in South Africa. Current Research in Public Health, 2(1), 23-34. https://doi.org/10.31586/ojes.2022.377
ACS Style
Ikudayisi, A. ; Calitz, A. ; Abejide, S. An Artificial Intelligence Approach to Manage Crop Water Requirements in South Africa. Current Research in Public Health 2022 2(1), 23-34. https://doi.org/10.31586/ojes.2022.377
Chicago/Turabian Style
Ikudayisi, Akinola, Andre Calitz, and Samuel Abejide. 2022. "An Artificial Intelligence Approach to Manage Crop Water Requirements in South Africa". Current Research in Public Health 2, no. 1: 23-34. https://doi.org/10.31586/ojes.2022.377
AMA Style
Ikudayisi A, Calitz A, Abejide S. An Artificial Intelligence Approach to Manage Crop Water Requirements in South Africa. Current Research in Public Health. 2022; 2(1):23-34. https://doi.org/10.31586/ojes.2022.377 
@Article{crph377,
AUTHOR = {Ikudayisi, Akinola and Calitz, Andre and Abejide, Samuel},
TITLE = {An Artificial Intelligence Approach to Manage Crop Water Requirements in South Africa},
JOURNAL = {Current Research in Public Health},
VOLUME = {2},
YEAR = {2022},
NUMBER = {1},
PAGES = {23-34},
URL = {https://www.scipublications.com/journal/index.php/OJES/article/view/377},
ISSN = {2831-5162},
DOI = {10.31586/ojes.2022.377},
ABSTRACT = {Estimation of crop water requirements is of paramount importance towards the management of agricultural water resources, which is a major mitigating strategy against the effects of climate change on food security. South Africa water shortage poses a threat on agricultural efficiency. Since irrigation uses about 60% of the fresh water available, it therefore becomes important to optimise the use of irrigation water in order to maximize crop yield at the farm level in order to avoid wastage. In this study, combined application of an artificial neural network (ANN) and a crop – growth simulation model for the estimation of crop irrigation water requirements and the irrigation scheduling of potatoes at Winterton irrigation scheme, South Africa was investigated. The crop-water demand from planting to harvest date, when to irrigate, the optimum stage in the drying cycle when to apply water and the amount of irrigation water to be applied per time, were estimated in this study. Five feed –forward backward propagation artificial neural network predictive models were developed with varied number of neurons and hidden layers and evaluated. The optimal ANN model, which has 5 inputs, 5 neurons, 1 hidden layer and 1 output was used to predict monthly reference evapotranspiration (ETo) in the Winterton area. The optimal ANN model produced a root-mean-square error (RMSE) of 0.67, Pearson correlation coefficient (r) of 0.97 and coefficient of determination (R2) of 0.94. The validation of the model between the measured and predicted ETo shows a r value of 0.9048. The predicted ETo was one of the input variables into a crop growth simulation model, called CROPWAT. The results indicated that the total crop water requirement was 1259.2 mm/decade and net irrigation water requirement was 1276.9 mm/decade, spread over a 5-day irrigation time during the entire 140 days of cropping season for potatoes. A combination of the artificial neural networks and the crop growth simulation models have proved to be a robust technique for estimating crop irrigation water requirements in the face of limited or no daily meteorological datasets.},
}
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%A Ikudayisi, Akinola
%A Calitz, Andre
%A Abejide, Samuel
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%J Current Research in Public Health

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%M doi:10.31586/ojes.2022.377
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AU  - Ikudayisi, Akinola
AU  - Calitz, Andre
AU  - Abejide, Samuel
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AB  - Estimation of crop water requirements is of paramount importance towards the management of agricultural water resources, which is a major mitigating strategy against the effects of climate change on food security. South Africa water shortage poses a threat on agricultural efficiency. Since irrigation uses about 60% of the fresh water available, it therefore becomes important to optimise the use of irrigation water in order to maximize crop yield at the farm level in order to avoid wastage. In this study, combined application of an artificial neural network (ANN) and a crop – growth simulation model for the estimation of crop irrigation water requirements and the irrigation scheduling of potatoes at Winterton irrigation scheme, South Africa was investigated. The crop-water demand from planting to harvest date, when to irrigate, the optimum stage in the drying cycle when to apply water and the amount of irrigation water to be applied per time, were estimated in this study. Five feed –forward backward propagation artificial neural network predictive models were developed with varied number of neurons and hidden layers and evaluated. The optimal ANN model, which has 5 inputs, 5 neurons, 1 hidden layer and 1 output was used to predict monthly reference evapotranspiration (ETo) in the Winterton area. The optimal ANN model produced a root-mean-square error (RMSE) of 0.67, Pearson correlation coefficient (r) of 0.97 and coefficient of determination (R2) of 0.94. The validation of the model between the measured and predicted ETo shows a r value of 0.9048. The predicted ETo was one of the input variables into a crop growth simulation model, called CROPWAT. The results indicated that the total crop water requirement was 1259.2 mm/decade and net irrigation water requirement was 1276.9 mm/decade, spread over a 5-day irrigation time during the entire 140 days of cropping season for potatoes. A combination of the artificial neural networks and the crop growth simulation models have proved to be a robust technique for estimating crop irrigation water requirements in the face of limited or no daily meteorological datasets.
DO  - An Artificial Intelligence Approach to Manage Crop Water Requirements in South Africa
TI  - 10.31586/ojes.2022.377
ER  -