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Water quality assessment of alpine glacial blue water lakes and glacial-fed rivers

Mohsin Khan, Asad Ellahi, Rizwan Niaz, Mohamed E. Ghoneim, Sayed M. Eldin, Abdur Rashid

2022Geomatics Natural Hazards and Risk19 citationsDOIOpen Access PDF

Abstract

The study mainly focuses on heavy metals’ quantification, investigation of physicochemical characteristics, source apportionments, human health risk assessment, and connectivity between the water of alpine glacial lakes and rivers. In this regard, twenty-six water samples are taken from sixteen lakes and two lakes-fed rivers. The physiochemical parameters, particularly heavy metals are quantified using atomic absorption spectrophotometer. The Pearson correlations are used to find out the relationship between various heavy metals and physicochemical parameters. The multivariate methods, Principal component analysis (PCA), and Hierarchal cluster analysis (HCA) are conducted for contamination source apportionment. In the findings of the current analysis, the mean concentration of Lead (Pb 0.51), Cadmium (Cd 0.04), Nickel (Ni 0.06), Chromium (Cr 0.08), Iron (Fe 0.06), and Manganese (Mn 0.09) is the most common heavy metal contaminants found in both lakes and river water. Copper (Cu 0.00) and Arsenic (As 0.001) concentrations are lower in both lakes and rivers. Other tested physicochemical characteristics, such as pH, Hardness, Chemical oxygen demands (COD), total dissolved solids (TDS), dissolved oxygen (DO) chloride (Cl-), sulfate (SO4), nitrate (NO3), and bicarbonates (HCO3) are within the maximum permissible limits of World Health Organization’s (WHO).

Topics & Concepts

Environmental chemistryArsenicCadmiumAtomic absorption spectroscopyTotal dissolved solidsWater qualityEnvironmental scienceSulfateNitrateContaminationGlacial periodChromiumManganeseChemistryEnvironmental engineeringGeologyEcologyBiologyOrganic chemistryPhysicsGeomorphologyQuantum mechanicsHeavy metals in environmentWater Quality and Pollution AssessmentMercury impact and mitigation studies
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