Anthropogenic Impacts on Water Quality of River Nile and Marine Environment, Rosetta Branch Using Geospatial Analyses | ||||
Journal of Environmental Sciences. Mansoura University | ||||
Article 2, Volume 47, Issue 3.4, June 2018, Page 89-101 PDF (1.75 MB) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/joese.2018.158202 | ||||
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Authors | ||||
Ahmed M. El-Zeiny 1; Hazem T. Abd El-Hamid2; Muhammad A. El-Alfy2 | ||||
1Environmental Studies Department, National Authority for Remote Sensing and Space Sciences (NARSS), Cairo, Egypt | ||||
2Marine Pollution Department, National Institute of Oceanography & Fisheries, Alexandria, Egypt. | ||||
Abstract | ||||
Present research focused on studying water quality of three ecosystems in Rosetta branch; fresh River Nile, estuary and Sea water based on Landsat data and samples analyses. Two multispectral Landsat images dated 26th of February 2017 and 1st of March 2018 provided the necessary spectral data to this research. Nineteen surface water samples were collected on 18th March 2017 and investigated for pH, EC, silicate, phosphate, nitrite, nitrate, organic matter (OM) content and Nitrogen/Phosphorus ratio. The calibrated Landsat data, synchronized with the field trip, was processed to produce Land use cover map (LULC), Vegetation (NDVI), built-up (NDBI) and salinity indices (NDSI) to highlight the human activities in the adjacent areas. Statistical analyses were carried out to correlate the existed land uses in 2017 with water quality characteristics and to monitor spectral reflectance change in 2018 responding to water quality change. NDVI showed positive correlations with nitrate (0.416), nitrite (0.517), silicate (0.272) and N/P ratio (0.345) which confirmed the impact of agricultural activities on water nutrients. Although urban areas occupied 4.87 %, they contributed to water OM levels (R= 0.488). Means of nitrite, nitrate, phosphate and N/P followed the order; Estuary > River > Sea however for OM and EC, they followed the order; Sea > Estuary > River. N/P ratio ranged from 12.91 to 31.52 which indicated that phosphorus is the limiting factor for bio-growth of algae in the three studied environments. In this study, innovative model for calculating water phosphate was developed in 2017 which indicated a similar fluctuation in phosphate levels in 2018 within different locations. It can be concluded that remote sensing facilitates the spatial identification of the potential sources of water pollution and helps in the qualitative assessment of nutrients and organic pollutant levels in water resources. | ||||
Keywords | ||||
Remote sensing; River Nile; Mediterranean Sea; Estuary; Water quality | ||||
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