London’s water contains high levels of antibiotic-resistant genes, UCL research reveals

pharmafile | July 26, 2019 | News story | Medical Communications, Research and Development London, UCL, UK, antibiotic resistance, pharma 

Research from University College London has warned that freshwater sources in the English capital of London contain high levels of antibiotic-resistant genes.

These genes, excreted in human and animal waste after antibiotic use, can provide bacteria with resistance to common antibiotics including penicillin, erythromycin and tetracycline.

The River Thames was found to have the highest levels of the genes given its status as an ultimate destination for much of the city’s wastewater treatment operations, with other water sources including the Regent’s Canal, Regent’s Park Pond and the Serpentine also confirmed to be contaminated. Within these sources, antibiotic-resistant bacteria is provided with a prime environment to multiply and spread their resistance.

The team at UCL measured the level of antibiotic-resistant genes per litre of water in the various London water systems using a DNA-based methodology.

“This shows that more research is needed into the efficiency of different water treatment methods for antibiotic removal, as none of the treatments currently used were designed to incorporate this,” remarked UCL Civil, Environment and Geomatic Engineering’s Project Lead Dr Lena Ciric. “This is particularly important in the case of water bodies into which we discharge our treated wastewater, which currently still contains antibiotics. It is also important to look into the levels of antibiotics and resistant bacteria in our drinking water sources.”

While unconfirmed, it is theorised that, because there is currently no legislation in place to support the removal of antibiotics or resistant genes from water sources, these genes could be present in London’s drinking water, though this would require testing.

The team is now working on removing the resistant bacteria and antibiotics in water taken from London’s water sources using slow sand filtration, a method used around the world to filter drinking water, experimenting with varying proportions of sand, activated carbon and different flow rates.

Matt Fellows

Related Content

Scientists use AI to find new antibiotic to fight superbug

Scientists at McMaster University and the Massachusetts Institute of Technology (MIT) have utilised artificial intelligence …

Touchlight completes expansion of one of world’s largest DNA manufacturing facilities in London

Touchlight, a company that focuses on pioneering enzymatic DNA production, has announced that it has …


Long COVID: 15 studies launched with £19.6 million government funding

The UK government has announced the launch of 15 new extensive studies, backed by £19.6 …

Latest content