A major new scientific study has confirmed that escaped farmed salmon have interbred with wild Atlantic salmon in Irish rivers, although researchers say the genetic impact remains absent or low in most populations.
The report, published by the Marine Institute and led by researchers at University College Cork (UCC) in collaboration with Inland Fisheries Ireland (IFI) and Teagasc, is the first comprehensive national assessment of genetic introgression from farmed salmon into wild Irish stocks.
New Evidence — The GeneFlow report provides the first comprehensive national assessment of genetic introgression from escaped farmed salmon into Ireland's wild Atlantic salmon populations
Commissioned to support aquaculture regulation and licensing decisions, the study analysed DNA from 6,322 juvenile salmon collected at 166 sites across 133 river populations between 2023 and 2025. Researchers also compared the findings with 1,755 historical samples from 61 rivers collected between 2003 and 2008.
National Picture —The GeneFlow study mapped 133 Irish river populations, finding no evidence of genetic introgression in 66% of wild salmon populations, with low to moderate impacts recorded in most of the remainder.
The report found no evidence of genetic mixing in around two-thirds (66%) of the wild salmon populations examined.
Where introgression was detected, it was generally low in 27% of populations and moderate in 6%, while fewer than 1% of populations showed higher levels. Researchers found evidence of genetic mixing both near salmon farming areas and in rivers without nearby aquaculture, indicating that escaped fish can disperse widely.
Marine Institute Director of Fisheries and Ecosystem Advisory Services Dr Ciaran Kelly said the project provides an important scientific basis for future management decisions.
"By applying cutting-edge genetic tools, we can better assess interactions between farmed and wild fish and ensure that management decisions are supported by robust scientific evidence."
Researchers note that the level of introgression recorded in Ireland is lower than that reported in Norway, one of the world's largest salmon-producing nations. However, they stress that preventing farmed salmon escapes remains essential to protecting the genetic integrity of wild stocks.
Project leader Professor Philip McGinnity of UCC said Ireland's wild Atlantic salmon represent a unique genetic legacy dating back around 15,000 years.
He warned that interbreeding with escaped farmed salmon could reduce the fitness of wild populations by weakening locally adapted traits and limiting their ability to respond to future environmental pressures, including climate change.
The study will now be extended for a further year to investigate whether salmon that escaped during the widely reported Killary Harbour escape in 2024 successfully spawned in Irish rivers and produced hybrid offspring.
Among the report's recommendations are continued national genetic monitoring of wild salmon populations, rapid sampling after escape events, improved identification of escape sources and further research into the long-term effects of genetic introgression.
The research was carried out under the Marine Biodiversity Programme 2021–2027 and funded through the Department of Agriculture, Food and the Marine's Operational Seafood Programme with support from the EU's European Maritime, Fisheries and Aquaculture Fund.

















































