Effects of acute thermal stress on the survival, predator avoidance, and physiology of juvenile fall chinook salmon

Matthew G. Mesa; Lisa K. Weiland; Paul Wagner

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Effects of acute thermal stress on the survival, predator avoidance, and physiology of juvenile fall chinook salmon

Journal article

Open access

Peer reviewed

Effects of acute thermal stress on the survival, predator avoidance, and physiology of juvenile fall chinook salmon

Matthew G. Mesa, Lisa K. Weiland and Paul Wagner

Northwest science., Vol.76(2), pp.118-128

2002

Handle:

https://hdl.handle.net/2376/947

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Abstract

blood chemistry

blood sugar

heat shock-proteins

heat stress

hydrocortisone

lactic acid

mortality

predation

survival

We subjected juvenile fall chinook salmon from the Hanford Reach of the Columbia River to acute thermal stressors in the laboratory that were derived from field data. We assessed the effects of thermal stress on: (1) the extent of direct mortality; (2) the vulnerability of fish to predation by smallmouth bass; and (3) some general physiological stress responses and synthesis of heat shock protein 70 (hsp70). Thermally-stressed fish showed little direct mortality and no increases in vulnerability to predation. However, these fish showed transient increases in plasma concentrations of cortisol, glucose, and lactate, and a dramatic (25-fold higher than controls) and persistent (lasting 2 wk) increase in levels of liver hsp70. Our results indicate that exposure of Hanford Reach juvenile fall chinook salmon to such stressors did not lead to significant increases in direct mortality or vulnerability to predation, but did alter physiological homeostasis, which should be of concern to those managing this resource. Because our fish received only a single exposure to one of the stressors we examined, we are also concerned about the consequences of exposing fish to multiple, cumulative stressors - a likely scenario for fish in the wild.

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Details

Title: Effects of acute thermal stress on the survival, predator avoidance, and physiology of juvenile fall chinook salmon
Creators: Matthew G. Mesa (Author)
Lisa K. Weiland (Author)
Paul Wagner (Author)
Publication Details: Northwest science., Vol.76(2), pp.118-128
Academic Unit: Northwest Science
Publisher: WSU Press
Identifiers: 99900502068001842
Copyright: In copyright ; openAccess ; http://rightsstatements.org/vocab/InC/1.0/ ; http://purl.org/eprint/accessRights/OpenAccess
Language: English
Resource Type: Journal article