Short-term starvation at low temperature prior to harvest does not impact the health and acute stress response of adult Atlantic salmon

Rune Waagbø,Olav Breck,Pål A Olsvik,Gerrit Timmerhaus,Sven Martin Jørgensen

doi:10.7717/peerj.3273

Abstract

A period of starvation is regarded as a sound practice in aquaculture prior to handling, transportation and harvest, to minimise impacts on welfare and ensure proper hygiene after harvest. However, documentation of welfare issues such as stress following starvation and handling in adult Atlantic salmon are lacking. This study aimed to examine gut emptying and potential stress during a two week starvation period, and whether this starvation period changed the tolerance for physical stress. The study confirmed slower emptying of the gut segments at low temperature. Plasma and bile cortisol, and selected clinical analyses were used to characterize potential stress, as well as the response to acute physical crowding stress during the starvation period. Neither the general stress level nor the ability to cope with handling stress was affected by a 14 day starvation period. Down-regulation of selected nutritional related gene markers in liver indicated classical starvation responses, with reduced metabolism and oxidative pressure, and sparing of nutrients. The response to acute handling stress was not affected by two weeks of starvation. There were minor effects of starvation on stress and health markers, as evaluated by plasma lysozyme activity and gene expression of selected inflammation marker proteins in heart and skin tissues.

Highlights

Fish are exposed to periods of starvation or restricted feed intakes both in wild and for practical reasons in aquaculture
We aimed to examine the physiological response to starvation and whether two weeks of starvation affected the robustness to physical handling in adult Atlantic salmon farmed under practical large scale farming conditions at low temperatures (4−5 ◦C)
The results showed that faeces was still found in gut sections from fish sampled on days 5 and 6, implying that 7 days of starvation was needed to completely empty the gut at low temperature (4−5 ◦C)

Summary

Introduction

Fish are exposed to periods of starvation or restricted feed intakes both in wild and for practical reasons in aquaculture. In these periods, the fish covers the energy requirements at the expense of body stores of nutrients (Lie & Huse, 1992). Temperature is the major factor influencing gut evacuation rate (Usher, Talbot & Eddy, 1991) They showed that other factors such as feed composition and physical quality may influence the evacuation time, while fish size seems less important. Large cages in commercial scale aquaculture may need longer periods for harvesting and the fish population will be starved for longer periods for practical reasons

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