DETECTION OF TOTAL DISSOLVED SOLIDS IN THE FOURTH REACH OF THE NILE RIVER BY USING LANDAST 8 IMAGERY | ||||
Journal of Environmental Science | ||||
Volume 51, Issue 12, December 2022, Page 1-22 PDF (460.51 K) | ||||
Document Type: Review Article | ||||
DOI: 10.21608/jes.2023.176202.1408 | ||||
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Authors | ||||
dina mohammed refaat rabih 1; Noha Samir Donia2; ahmed moustafa ahmed moussa3 | ||||
1ain shams university faculty of graduate studies and environmental research engineering department | ||||
2Professor of Hydraulics, Department of environmental engineering SciencesDean Faculty of Graduate Studies and Environmental ResearchAin Shams University | ||||
3Deputy Director, Coastal research institute (CORI) National Water Research Center (NWRC) Ministry of Water Resources and Irrigation (MWRI) | ||||
Abstract | ||||
Field data collection is one of the most challenging tasks due to the difficulty accessing large areas of water bodies like rivers. Satellite images can be used to measure water quality over large areas of water bodies. Satellite data has been widely used to build Water Quality Parameters (WQPs) prediction algorithms. Total Dissolved Solids (TDS) are organic and inorganic substances in water and one of water quality parameter. These natural and artificial substances may affect water quality, health, and daily activities. Remote sensing makes tracking TDS easier. This study examines how Landsat 8 Operational Land Imager (OLI) images can estimate TDS in surface water along the fourth Nile River reach. Predicting TDS from satellite data is the study's final goal. The data were collected across the study area during four seasons, Feb. 2017, Aug. 2017, Feb. 2018, and Aug. 2018. The measured data are collected from seven places chosen to be located from El-Minya to Cairo. The data were divided into two main groups; twenty points were used to build a relation between the measured and reflected electromagnetic radiation of the Landsat 8 bands. While the other eight points were used through a linear equation of the band combination between Band 1 and 2 in cross-validation to test the accuracy of predicted TDS. The RMSE was high as 31, but it recommends using this model in similar conditions and using another correlation in different conditions and out-range data. Keywords: Landsat imagery, Total Dissolved Solids (TDS), Nile River, Water Quality, and Remote sensing. | ||||
Keywords | ||||
Keywords: Landsat imagery; Total Dissolved Solids (TDS); Nile River; Water Quality; and Remote sensing | ||||
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