Dissolved oxygen variability in a commercial sea-cage exposes farmed Atlantic salmon to growth limiting conditions

Understanding dissolved O 2 flux in marine cages, and how individual fish respond to and experience such variation, is critical to optimizing growth and production performance of farmed salmon. We used a high resolution environmental monitoring system to create a 3-dimensional map of a commercial ma...

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Bibliographic Details
Published in:Aquaculture
Main Authors: Solstorm, D, Oldham, T, Solstorm, F, Klebert, P, Stien, LH, Vagseth, T, Oppedal, F
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier Science Bv 2018
Subjects:
Agricultural and Veterinary Sciences
Fisheries Sciences
Aquaculture
Atlantic salmon
Online Access:https://doi.org/10.1016/j.aquaculture.2017.12.008
http://ecite.utas.edu.au/131872
Description
Summary:Understanding dissolved O 2 flux in marine cages, and how individual fish respond to and experience such variation, is critical to optimizing growth and production performance of farmed salmon. We used a high resolution environmental monitoring system to create a 3-dimensional map of a commercial marine cage with respect to salinity, temperature and dissolved O 2 through time, while also tracking the oxygen experience of 4 individually tagged Atlantic salmon. Despite all of the dissolved O 2 measurements at the reference site being physiologically suitable for maximum growth, 1 in 4 of the recordings collected within the cage were below dissolved O 2 levels known to reduce feed intake and growth. Recorded dissolved O 2 in the cage ranged from 26 to 90% saturation with a high degree of vertical, horizontal and temporal variation. Poorest dissolved O 2 conditions consistently occurred at night in the central and down-current cage positions. Dissolved O 2 levels experienced by individual fish ranged from 30 to 90% saturation, with variation within 5 minute intervals as large as 32 percentage points. These results expand the current body of knowledge on environmental variability in marine cages, and provide valuable insights to aid farm managers in focusing mitigation and monitoring efforts when and where they are most needed.

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