Abstract
Priority Substance (PSs) and Contaminant of Emerging Concerns (CECs) exhibited a wide range of environmental and public health concerns worldwide. This review summarized the documented studies related to the current surface water occurrence, spatial distribution, ecological risks and toxicity of selected PSs, such as polycyclic aromatic hydrocarbons (PAHs) and CECs, such as Di(2-Ethylhexyl) Phthalate (DEHP) and Pharmaceuticals and Personal Care Products (PPCPs). The spatial distribution analysis revealed alarming levels of PAHs in the surface waters of Asian counties, e.g., 84210 ng L-1 in Gomti River, India, 29325 ng L-1 in Daya Bay, China and 1287 ng L-1 in Chenab River, Pakistan. As for DEHP, the highest concentrations of 13050 µg L-1 in Liao River, China, and 2306 µg L-1 in Rivers of Eastern Cape, South Africa were reported. These environmental levels of PAHs and DEHP were many folds higher than the surface water permissible levels devised by WHO and USEPA. Contrarily, the emerging PPCPs were reported in relatively lower levels in the surface waters globally, compared to that of PAHs and DEHP. Consistent with the environmental levels, PAHs and DEHP revealed alarming ecological risks in the surface water sources, compared to that of PPCPs. Regarding to the sources of PSs and CECs, PAHs emissions were mostly linked to the incomplete combustion of petroleum products, DEHP contamination was associated to its applications in consumption and production of plastic appliances and PPCPs emissions were largely related to the domestic and industrial effluents. As for toxic endpoints of PAHs, DEHP and PPCPs, all of these were reported to cause DNA damage, genotoxicity, reproductive toxicity, developmental toxicity and immunotoxicity, as revealed in reviewed in vitro/vivo studies. In addition, the current review also highlighted the existing environmental regulations to control the emissions of these pollutants to the environmental matrices. Taken together, this review concluded that despite the existing environmental regulations, the current levels of organic pollutants are still on rising, especially in Asian countries. Therefore, the strict implementation of the existing regulations is highly necessary to control these pollutants to ensure public health and ecological integrity.
Highlights
InformationRecent population growth and rapid economic development have imposed immense pressures on environmental resources, including the deteriorated water quality, worldwide (Han et al, 2016)
Baseline data are still elusive on the specific classes of organic pollutants, despite the fact that the past-half century has been capitalized by scientists all over the world to investigate environmental hazards of Persistent Organic Pollutants (POPs) (Loganathan and Lam, 2012), especially after the Stockholm Convention (UNEP, 2009) and Aarhus Protocol on POPs (UNECE, 1998)
We calculated the ecological risks of Di(2-Ethylhexyl) Phthalate (DEHP), polycyclic aromatic hydrocarbons (PAHs) and Pharmaceuticals and Personal Care Products (PPCPs) in terms of Risk Quotients (RQs) using Measured Environmental Concentrations (MECs) and predicted no effect concentrations (PNECs) reported in the surface waters, worldwide
Summary
InformationRecent population growth and rapid economic development have imposed immense pressures on environmental resources, including the deteriorated water quality, worldwide (Han et al, 2016). These high levels of PAHs can induce alarming ecological risk and acute toxicity to aquatic species. A comparative spatial distribution analysis revealed that the environmental levels of PAHs in surface water were in the following order: India> China> Poland> Taiwan> Pakistan (Fig. 2B).
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