Contamination of urban lakes, rivers and surface water by human waste is creating pools of ‘superbugs’ in Low- and Middle-Income Countries (LMIC), according to new research. However, improving access to clean water, sanitation and sewerage infrastructure could help to improve public health.
For the study, researchers studied bodies of water in urban and rural sites in three areas of Bangladesh: Mymensingh, Shariatpur and Dhaka. In comparison to rural settings, they detected more antibiotic resistant faecal coliforms in urban surface water , consistent with reports of such bacteria in rivers across Asia. Their findings were published in mSystems.
Lead author Willem van Schaik, Professor of Microbiology and Infection at the University of Birmingham, commented: “The rivers and lakes of Dhaka are surrounded by highly-populated slums in which human waste is directly released into the water. The presence of human gut bacteria links to high levels of antibiotic resistance genes, suggesting that such contamination is driving the presence of these ‘superbugs’ in surface water.
“Interventions aimed at improving access to clean water, sanitation and sewerage infrastructure may thus be important to reduce the risk of antimicrobial resistance spreading in Bangladesh and other LMICs. While levels of antibiotic resistance genes are considerably lower in rural than in urban settings, we found that antibiotics are commonly used in fish farming and further policies need to be developed to reduce their use.”
Infections from antibiotic-resistant bacteria are on the rise globally, but the clinical issues posed by these bacteria are particularly alarming in LMICs, with significant morbidity and mortality. As in other LMICs, multidrug-resistant E. coli has a relatively high prevalence in healthy humans in Bangladesh.
With a population of around 16 million people, Dhaka’s population density ranks among the highest of any megacity, but less than 20% of its households have a sewerage connection.
Urban surface waters in Bangladesh are particularly rich in antibiotic resistance genes, the researchers discovered, with a higher number of them associated with plasmids — vehicles of genetic exchange among bacteria — indicating that they are more likely to spread through the population.
Antibiotic-resistant bacteria that colonise the human gut can be passed into rivers, lakes and coastal areas through the release of untreated wastewater, the overflow of pit latrines during monsoon season or by practices such as open defecation.
Such contaminated environments are often used for bathing, for the washing of clothes and food utensils, thereby risking human gut colonisation by antibiotic-resistant bacteria.
The researchers from the University of Birmingham and the International Centre for Diarrhoeal Disease Research, Bangladesh called for further research to quantify the drivers of antibiotic resistance in surface waters in Bangladesh.
Source: University of Birmingham
Journal information: McInnes, R.S., et al. (2021) Metagenome-Wide Analysis of Rural and Urban Surface Waters and Sediments in Bangladesh Identifies Human Waste as a Driver of Antibiotic Resistance. mSystems. doi.org/10.1128/mSystems.00137-21.
