However, the study demonstrates that measures such as boiling and/or activated carbon filtration – typically using a ‘jug’ water filter – can substantially reduce PFAS concentrations in drinking water, with removal rates ranging from 50% to 90% depending on the PFAS and treatment type.
Publishing their findings in ACS ES&T Water, researchers from the University of Birmingham, Southern University of Science and Technology, Shenzhen, and Hainan University, Haikou, reveal a wide range of PFAS contamination for target PFAS, starting at 63% of bottled waters tested.
Co-author Professor Stuart Harrad, from the University of Birmingham, commented: “Our findings highlight the widespread presence of PFAS in drinking water and the effectiveness of simple treatment methods to reduce their levels. Either using a simple water filtration jug or boiling the water removes a substantial proportion of these substances.
“While current PFAS levels in most water samples are not a major health concern, ongoing monitoring and regulation are crucial to protect public health. We provide valuable data on the presence of PFAS in drinking water alongside practical solutions to mitigate consumer exposure via drinking water. This is a significant step towards ensuring safer drinking water for communities worldwide.”
Bottled water from various countries showed varying levels of PFAS, with natural mineral water containing higher concentrations than purified water, but the concentrations were generally below health advisory levels set by regulatory agencies.
Co-author Professor Yi Zheng, from Southern University of Science and Technology, commented: “Increased awareness about the presence of PFAS in both tap and bottled water can lead to more informed choices by consumers, encouraging the use of water purification methods.
Our findings also suggest that the potential health risks of PFAS in drinking water may be influenced by lifestyle and economic conditions, highlighting the need for future research to further explore these factors from a socio-economic perspective.”
Except for comparisons between natural mineral and purified water, the researchers observed no significant difference in target PFAS concentrations between glass and plastic or still and sparkling bottled water.
While concentrations of most individual PFAS were well below corresponding health-based reference values, average PFOS concentrations in tap water samples from Shenzhen, China exceeded the maximum contaminant level (MCL) of 4 ng/L newly promulgated by the US Environmental Protection Agency (USEPA) in 2024.
Researchers purchased 112 bottled water samples from local shops and online supermarkets in the UK and China including 89 still and 23 sparkling waters in either plastic or glass bottles. The samples covered 87 brands with water sources originating from 15 countries in Asia, Europe, North America, and Oceania
They collected 41 tap water samples from homes in Birmingham and the nearby cities of Worcester, Coventry, and Derby – provided by two suppliers: South Staffordshire Water and Seven Trent Water, with a further 14 tap water samples collected from homes in Shenzhen, China.
PFAS are used widely in industry, in fire-fighting foams, and consumer products from waterproof clothing and school uniforms to personal care products because of their water and stain repellent properties. While some have been banned by government regulation, others are still widely used and their toxic effects not yet fully investigated.
The chemicals are already known to enter the body in different ways, for example being breathed in, ingested via food or drinking water, or absorbed through the skin. They are known to cause adverse health effects such as a lowered immune response to vaccination, impaired liver function, decreased birth weight, and increased risk of some cancers.