Elsevier

Aquaculture

Volume 495, 1 October 2018, Pages 757-765
Aquaculture

Using acoustic telemetry to monitor the effects of crowding and delousing procedures on farmed Atlantic salmon (Salmo salar)

https://doi.org/10.1016/j.aquaculture.2018.06.060Get rights and content
Under a Creative Commons license
open access

Highlights

  • Monitoring Atlantic salmon responses to crowding/delousing operations in full-scale sea-cages

  • New acoustic transmitter tags that register swimming activity and depth dynamics of individuals over time

  • Measured swimming activity of salmon is significantly higher during crowding/delousing than during normal cage operation

  • This increased activity is a behavioural change that may be linked to stress induced by the crowding process

  • Demonstrated new technological method for online monitoring of salmon during critical operations such as crowding

Abstract

The aim of this study was to demonstrate the feasibility of acoustic telemetry for monitoring fish during farm operations and gather knowledge about Atlantic salmon responses during crowding and delousing events in a commercial sea-cage. 21 fish were equipped with a novel transmitter tag type using data from pressure sensors and accelerometers to compute swimming depth and swimming activity of individual fish. The fish were monitored over four months, during which they were subjected to three thermal delousing events. In the periods before and after delousing, the fish generally exhibited a circadian rhythm in both swimming activity and depth, with high activity and deep swimming during daytime and low activity and shallow swimming during night. Swimming activity recorded during crowding and delousing events was significantly higher than background swimming activity levels registered a day before and after delousing. Although activity levels differed significantly between the three events and between the different stages within each event, the highest activity levels were consistently measured during thermal treatment. Swimming depth differed significantly between delousing events and was strongly influenced by daylight. In summary, crowding and delousing induced increased movement in the fish, while swimming depth appeared to be less sensitive to these operations. The conclusion of the study is that acoustic telemetry is a suitable tool for monitoring fish during challenging operations such as crowding and delousing, as well as during normal cage management. Moreover, this study provides new knowledge on how the behaviour of Atlantic salmon may be affected by delousing.

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