Abstract
Urban sanitation is a major challenge during the rapid urbanization being experienced by developing countries, as a low sewerage infrastructure capacity and irregular onsite wastewater treatment raise the risk of surface water contamination. The application of specific sewage markers to characterize contaminant sources is therefore essential for managing urban sanitation issues. In this study, we investigated the concentrations of eight sewage markers (acetaminophen, caffeine, carbamazepine, cotinine, sulfamethoxazole, sulfapyridine, atenolol, and acesulfame) in various water sources within urban area of the Galle City, Sri Lanka. The total concentration of the eight markers was in the order of hospital discharge > sewage treatment plant (STP) influent > surface drainage system. Among the eight selected markers, acetaminophen was dominant in hospital discharge (70.2–123.6 µg/L) while caffeine was the largest contributor to STP influent (16.2–68.7 µg/L) and surface drainage (0.95–21.73 µg/L). We then proposed and tested a set of criteria for evaluating the applicability of markers, including removal efficiency, concentration magnitude, excretion rate, and wastewater burden. The labile markers caffeine and acetaminophen were suitable for characterizing domestic gray and black wastewater, respectively. These results imply that the city’s drainage system receives both domestic graywater and human excretion, likely due to insufficient on-site sanitation systems. The conservative marker carbamazepine was useful for tracking hospital residues over long distances; these results imply that hospital wastewater treatment was not working properly, accounting for pharmaceutical residues reaching surface water via a hidden discharges connected to the drainage system.
Highlights
According to the estimates and projections of the world urban and rural populations published by the United Nations, over half of the global population currently lives in urban areas
As a reliable wastewater chemical indicator should be significantly higher than the analytical sensitivity [15,16], we defined concentrations 50 times higher than the instrument quantification limit (IQL) in raw wastewater as one screening criterion: CMww =
Our results highlight existing issues in urban sanitation in Galle City, Sri Lanka, where graywater is discharged untreated and black water is discharged after simple treatment, while proposing and testing a process for identifying wastewater sources
Summary
According to the estimates and projections of the world urban and rural populations published by the United Nations, over half of the global population currently lives in urban areas. The number of studies on pharmaceuticals in the water environment and their application in wastewater tracking in developing countries is still limited [14,15,16,17,18]. Noting that factors such as land use, population, and sanitation types are essential to selecting appropriate markers [6], additional data on pharmaceuticals in urban sanitation in the developing context are essential. We tested a set of criteria for identifying suitable chemical markers capable of distinguishing raw human excretion, graywater, and hospital contributions to the drainage system in Galle City, the ninth-largest urban area in Sri Lanka. The study results can provide a basis for improved wastewater management in Sri Lanka and elsewhere
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