A study led by University of Galway has revealed that swans in the Greater Dublin and Co Kildare area frequently carry antimicrobial resistant (AMR) bacteria in their guts that are very similar to those that cause difficult-to-treat infections in humans.
The findings, from the research project titled WILD-AMR, indicate that swans living in urban waterways can act as a reservoir for pathogenic, multidrug-resistant bacteria, including some that are resistant to last-resort antibiotics.
Working with the Irish Midland Ringing Group, faecal samples from 17 swans living in several locations around the Greater Dublin Area, including Broadmeadow Estuary in Swords, Bray harbour, Newbridge, Co Kildare, and along the Grand Canal in Dublin city, were collected for analysis. Of the 17 samples, 11 were positive for one or more AMR bacteria, with 35 AMR bacteria detected overall. The most common type of AMR bacteria detected were multidrug-resistant E.coli that produced enzymes capable of breaking down beta-lactam antibiotics (ESBL-E.coli).
The WILD-AMR project adopted a One Health approach to tracking the spread of AMR pathogens, investigating the links between human, animal and environmental health. The research team explored whether wild animals living and feeding in human-impacted habitats were potential vectors of AMR.
Key findings include:
- A high prevalence of AMR was detected in swans, with 65 per cent positive for one or more AMR ‘superbug’.
- Resistance to last-resort antimicrobials: The team detected strains of E.coli resistant to the last-resort antibiotics carbapenems and colistin, which are reserved for use when the first and second-line antimicrobials fail to clear the infection.
- ‘High-risk clones’: whole genome sequencing revealed that over half of the multidrug-resistant E.coli carried by swans belonged to ‘high-risk clones’; closely related pathogenic E.coli that are very good at causing urinary tract and blood stream infections in humans.
Lead researcher of the study Aneta Kovarova, Senior Technical Officer in the School of Medicine at University of Galway, said: “We detected the same pathogenic AMR E.coli in multiple swans, both from those living in the same location and those living in different locations. It is likely that the high rate of detection of these AMR bacteria in swans is linked to human-associated pollution of their shared water habitat with treated and untreated wastewaters and through storm water overflows. However, direct spread from swan-to-swan cannot be ruled out.”
Principal Investigator Dr Liam Burke, Lecturer in Bacteriology in the School of Medicine at University of Galway, said: “Given their proximity to humans and their presence in many popular bathing and recreation locations, such as city parks, lakes, harbours and coastal areas, there is potential for ongoing spread of drug-resistant opportunistic pathogens in swan faeces. Overall, this research underscores the interconnectedness of environmental, animal and human health. Our findings suggest that swans may be an under-recognised vector of AMR bacteria.
“There is currently very little surveillance of AMR in wildlife. We propose that swans may represent a useful ‘sentinel’ wildlife species for One Health monitoring of AMR, as they are already monitored by ringing in many countries.”
The study was published in the journal Science of the Total Environment.
ABOUT UNIVERSITY OF GALWAY
Established in 1845, University of Galway is one of the top 2 per cent of universities in the world. It is a bilingual university, comprised of four colleges, 18 schools and five research institutes, with more than 19,000 students, including around 3,000 international students. It has been accredited with an Athena SWAN Institutional Bronze Award, and 12 out of the 18 schools hold individual Athena SWAN Awards. It has more than 2,500 staff, and research collaborations with 4,675 international institutions in 137 countries. It has 133,000 alumni and 98 per cent of graduates are in employment or further study within six months.
