1 Institute of Sanitary Engineering, Water Quality and Solid Waste Management, University of Stuttgart, D-70569 Stuttgart, Germany.
2 Institute of Spatial and Regional Planning, University of Stuttgart, D-70569 Stuttgart, Germany. TTI Technology Transfer Initiative GmbH of the University of Stuttgart, ALR-Umwelt TGU, 70569 Stuttgart, Germany.
Research Article
World Journal of Advanced Research and Reviews, 2024, 21(03), 2461-2481
Received on 21 February 2024; revised on 28 March 2024; accepted on 30 March 2024
The negative impact of war acts in the conflict area of the city of Mosul and its surroundings on groundwater quality and thus its use as drinking water, in domestic applications and for irrigation was addressed. Therefore, 8 wells were analyzed from January to September 2022 using the parameters pH, E.C., TDS, % salinity, COD, phosphate, nitrate, sulfate and the heavy metals Cd, Pb, Zn, Cr and Ni, and water quality was evaluated using a mathematical model based on the CCME WQI, the HPI and present salinity. Due to salinity, 6 of the 8 wells were moderately suitable for irrigation and 2 wells were difficult in use. According to the CCME WQI criteria, 4 wells were highly and 3 wells were moderately contaminated for drinking water supply and domestic use, and therefore unusable or limited usable, while 3 wells were unusable and 2 wells were moderately usable for irrigation purposes. For irrigation, only one well showed low and 2 wells showed marginal contamination. The HIP revealed good quality of 3 wells, poor quality of 2 wells and unsuitability of 3 wells (drinking water/ domestic use) or very poor quality (irrigation), respectively. According to all approaches, the wells located in the conflict area consistently showed poor water quality. Thus, war had a significant negative impact on groundwater quality in the conflict area, as the surface-near wells located here showed comparatively high levels of contaminations and heavy metals due to the infiltration of contaminated surface water, damaged sewage networks and infiltration of rainwater after passing through highly polluted soils. Cadmium, followed by lead, were the dominant water contaminants, which is why caution is advised before using this well water.
Mosul; Groundwater Quality; Iraq; Heavy Metals; CCME WQI; Heavy Metals Pollution Index HPI; Water Use
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Zena Fakhri Altahaan and Daniel Dobslaw. Assessment of post-war groundwater quality in urban areas of Mosul city /Iraq and surrounding areas for drinking and irrigation purposes by using the Canadian Environment Water Quality Index CCME-WQI and Heavy Metal Pollution Index HPI. World Journal of Advanced Research and Reviews, 2024, 21(3), 2461-2481. Article DOI: https://doi.org/10.30574/wjarr.2024.21.3.1010