Abstract
Metal and metalloid contamination in drinking water sources is a global concern, particularly in developing countries. This study used hollow membrane water filters and metal-capturing polyurethane foams to sample 71 drinking water sources in 22 different countries. Field sampling was performed with sampling kits prepared in the lab at Hope College in Holland, MI, USA. Filters and foams were sent back to the lab after sampling, and subsequent analysis of flushates and rinsates allowed the estimation of suspended solids and metal and other analayte concentrations in source waters. Estimated particulate concentrations were 0–92 mg/L, and consisted of quartz, feldspar, and clay, with some samples containing metal oxides or sulfide phases. As and Cu were the only analytes which occurred above the World Health Organization (WHO) guidelines of 10 μg/L and 2000 μg/L, respectively, with As exceeding the guideline in 45% of the sources and Cu in 3%. Except for one value of ~ 285 μg/L, As concentrations were 45–200 μg/L (river), 65–179 μg/L (well), and 112–178 μg/L (tap). Other metals (Ce, Fe, Mg, Mn, Zn) with no WHO guideline were also detected, with Mn the most common. This study demonstrated that filters and foams can be used for reconnaissance characterization of untreated drinking water. However, estimated metal and other analyte concentrations could only be reported as minimum values due to potential incomplete retrieval of foam-bound analytes. A qualitative reporting methodology was used to report analytes as “present” if the concentration was below the WHO guideline, and “present-recommend retesting” if the concentration was quantifiable and above the WHO guideline.
Highlights
In order to contribute to the understanding of the scope and characteristics of this world-wide metal contamination issue, this paper presents results from part of a global reconnaissance survey which investigated 71 untreated drinking water sources in 22
ND indicates that the analyte concentration was below the method detection limit (MDL) for the protocol and instrument used in the study
P indicates that concentration was above the MDL but below the limit of quantification (LOQ), or above the LOQ with no World Health Organization (WHO) guideline
Summary
Contamination of drinking water sources with dissolved metals is a growing global concern in developed countries (Chappells, 2015; Hanna-Attish et al, 2016; Harvey et al, 2016; Le Bot et al, 2016), and in the developing world where untreated sources are common (Bajwa et al, 2017; Dundar & Altundag, 2007; Karagas et al, 2015; Mohiuddin et al, 2011; Reza & Singh, 2010; Wyatt et al, 1998). Suspended load particulate matter can be a substrate and transport vehicle for metal, metalloid, and other contaminants (Rice et al, 2002; Dundar & Altundag, 2007; Alkhatib & Berna, 2008; Maniquiz-Redillas et al, 2014; Djukic et al, 2016; Nasrabadi et al, 2018; Yang et al, 2018); another part of this study was to collect concentration and composition data on suspended load from the same untreated drinking water sources tested for dissolved analytes
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