Why do salmon exhibit significantly different growth patterns and body sizes?

by
editorial staff

A new study involving the University of Stirling has shed fresh light on the link between the life history of fish and their behaviour.

The research identified an association between differing growth patterns and body sizes in Atlantic salmon and their behaviour and other developmental characteristics, such as stress responsiveness, the University Of Stirling wrote in a press release on Friday.

Dr Sonia Rey Planellas, of Stirling’s Institute of Aquaculture, collaborated with colleagues in Norway and the Netherlands on the project: “One of the main challenges faced by the salmon industry is to understand why individuals within fish populations exhibit significantly different growth patterns and body sizes,” Dr Rey said. “This is important because a significant percentage of the animals do not smoltify – meaning many are lost in production and are potentially living under stressful conditions,” she said.

“Ideally, the fish would behave in the same way at the same time – but it is not well understood why this does not happen. Our research sheds new light on this challenge – showing how different growth patterns have different, associated behavioural traits,” added Dr Rey.

The research, led by Professor Børge Damsgård, of the University Centre in Svalbard, was conducted in Tromsø, where the fish were held and sampled. Analysis of the data was carried out across a number of partner research institutions and organisations, including the Institute of Aquaculture; the Norwegian University of Life Sciences (Oslo); Radboud University (Nijmegen); Uni Research (Bergen); University of Agder (Kristiansand); Norwegian Institute of Water Research (Oslo); and Nofima (Tromsø).

The team found that fast-growing Atlantic salmon reach smoltification – where juvenile fish adapt from living in fresh water to seawater – sooner than slow-growing individuals. In addition, the fast-growing fish exhibited proactive, bold characteristics compared to the other group, including active hypoxia avoidance – where the fish attempt to escape low-oxygen conditions – and low-stress responsiveness.

Professor Damsgård explained: “The hypoxia responses are proxies for a basic, individual behavioural response – which is linked to a stress response – and both traits are linked to the pace-of-life.

“It is no surprise that faster-growing fish smoltify earlier – but it is new that such individual differences exist within a population with exactly the same background and conditions.”

Dr Rey added: “This research helps us to understand the different lifecycle strategies and will lead to improvements in the management and welfare of the fish too.”

The study was part of the COPEWELL project, funded by the European Union, which included an Institute of Aquaculture-led sub-project on stress coping styles in salmon, seabass and seabream.

The research, Proactive avoidance behaviour and pace-of-life syndrome in Atlantic salmon, is published in Royal Society Open Science.

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