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Antibiotic-resistant genes found in London's canals and ponds

  • Antibiotic-resistant genes found in London's canals and ponds

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University College London UCL
UCL is the number one London university for Research Strength (REF2014), recognised for its academic excellence and global impact.

Central London's freshwater sources contain high levels of antibiotic resistant genes, with the River Thames having the highest amount, according to research by UCL.

The Regent's Canal, Regent's Park Pond and the Serpentine all contained the genes but at lower levels than the Thames, which contained genes providing resistance for bacteria to  such as penicillin, erythromycin and tetracycline.

The genes come from bacteria in human and animal waste. When antibiotics are taken by humans much of the drug is excreted into the  and then into freshwater sources. The presence of antibiotics in these  sources provides an environment where microbes carrying the resistance genes can multiply quicker and share their resistance with other microbes.

Project lead Dr. Lena Ciric (UCL Civil, Environmental & Geomatic Engineering) said: "This shows that more research is needed into the efficiency of different  methods for antibiotic removal, as none of the treatments currently used were designed to incorporate this."

"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."

There is currently no legislation to remove antibiotics or the resistant genes from , implying that antibiotics and the resistant genes could be present in small amounts in drinking water, although this would require testing.

The Thames is likely to have higher levels of antibiotics and resistant genes because a large number of wastewater treatment works discharge into it both upstream and in London.

Antibiotics entering the sewer system are diluted through flushing, but even low levels can encourage resistance genes to multiply and spread to more microbes.

The research team developed a DNA-based method which can provide information about the number of each of the resistant genes per litre of water. They then compared the numbers of the resistant genes in the different London water systems.

The team are now experimenting with removing  and the and genes from water taken from London's natural water system using slow sand filtration, which is a form of drinking water treatment.

This technique is used around the world including at Thames Water's Coppermills Treatment Works which provides drinking water for most of north east London. They are investigating using different variations of the filtration, with changing proportions of sand and activated carbon and different flow rates.

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