The nutrient levels of the loch have been monitored since 1987 in a bid to assess the impact of the farm © Mowi
The study was carried out by researchers from the University of Stirling at Loch Arkaig, where Mowi farmed salmon for almost 40 years. Earlier this year, Mowi announced that it would no longer be farming salmon at this location and now the company has compiled a report based on continuous water quality monitoring, which commenced there in 1987, to better understand the impact of the farm.
As Stephen MacIntyre, head of environment at Mowi Scotland, explained in a press release: “With the recent closure of our Loch Arkaig fish farm, it is only right to look back on our operations extending to almost 40 years, with a particular focus on the nutrient status of the water body, to better understand any potential impact from salmon farming.
“The data set which extends for 37 years shows that the geometric mean for phosphorous levels in Loch Arkaig has remained stable and within its trophic status. Whilst phosphorous level is the principal nutrient controlling the nutrient status of the loch, its values vary throughout the year due to land management in the catchment and rainfall levels. It is therefore important to invest in monthly sampling and establish a long running data set to establish a geometric mean.
“Loch Arkaig has been officially classified by SEPA as a water body of High Ecological status. This means that the water at Loch Arkaig is unaffected or virtually unaffected by human activity.”
How the conclusion was reached
Over the last 37 years, water samples have been taken regularly by the university team and then analysed in the lab. The aim of the monitoring is to assess the nutrient status of the water body to ensure there is no change in ecological status with the key parameters analysed including total phosphorus (TP) and chlorophyll-a (Chl-a).
This continuous water quality monitoring programme is not unique to Loch Arkaig. This research is also being undertaken at Mowi’s freshwater farms at Loch Ness, Loch Lochy, Loch Garry, Loch Shiel and Loch Awe. The data is similarly used to monitor and track the nutrient status of these water bodies.
MacIntyre added: “Mowi’s continuous water quality monitoring programme is another example of Mowi leading the blue revolution. We are committed to farming salmon sustainably and, in addition to complying with all regulatory standards and conservation thresholds, we often go beyond our regulatory requirements by carrying out additional environmental studies to examine and understand our interactions with the water environments and habitats with which we coexist. Ultimately, we rely on a healthy water environment to rear heathy salmon.”
The scope of the water quality monitoring studies has been enhanced with additional monitoring requirements introduced to support Mowi’s farming accreditations under the Aquaculture Stewardship Council, which recently changed its requirements on water quality as part of the new farm standard due to launch this year. The long-term environmental data sets being generated from Mowi’s freshwater lochs will provide unique scientific value.
These findings on freshwater quality follow Mowi’s groundbreaking study in 2024 when a three-year post-closure environmental study was conducted around Mowi’s former Isle of Ewe fish farm on the north west coast of Scotland. The study provided solid evidence that seabeds can recover upon cessation of fish farming operations.
