Loading…

The impacts of diel thermal variability on growth, development and performance of wild Atlantic salmon (Salmo salar) from two thermally distinct rivers

We show here that wild Atlantic salmon parr and smolt from thermally distinct river systems were impacted differently by cooler and warmer thermal variability. Growth, thermal tolerance and swimming performance were all impacted by river of origin, thermal acclimation temperature and life stage, hig...

Full description

Saved in:
Bibliographic Details
Published in:Conservation physiology 2024-01, Vol.12 (1), p.coae007-coae007
Main Authors: Andrew, Sean, Swart, Sula, McKenna, Stephanie, Morissette, Jenna, Gillis, Carole-Anne, Linnansaari, Tommi, Currie, Suzanne, Morash, Andrea J
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We show here that wild Atlantic salmon parr and smolt from thermally distinct river systems were impacted differently by cooler and warmer thermal variability. Growth, thermal tolerance and swimming performance were all impacted by river of origin, thermal acclimation temperature and life stage, highlighting the potential need for more river specific conservation guidelines. Abstract Temperature in many natural aquatic environments follows a diel cycle, but to date, we know little on how diel thermal cycles affect fish biology. The current study investigates the growth, development and physiological performance of wild Atlantic salmon collected from the Miramichi and Restigouche rivers (NB, Canada). Fish were collected as parr and acclimated to either 16–21 or 19–24°C diel thermal cycles throughout the parr and smolt life stages. Both Miramichi and Restigouche Atlantic salmon parr grew at similar rates during 16–21 or 19–24°C acclimations. However, as smolts, the growth rates of the Miramichi (−8% body mass day−1) and Restigouche (−38% body mass day−1) fish were significantly slower at 19–24°C, and were in fact negative, indicating loss of mass in this group. Acclimation to 19–24°C also increased Atlantic salmon CTmax. Our findings suggest that both life stage and river origin impact Atlantic salmon growth and performance in the thermal range used herein. These findings provide evidence for local adaptation of Atlantic salmon, increased vulnerability to warming temperatures, and highlight the differential impacts of these ecologically relevant diel thermal cycles on the juvenile life stages in this species.
ISSN:2051-1434
2051-1434
DOI:10.1093/conphys/coae007