Physiological and Ecological Correlates of Preferred Temperature in Fish
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TLDR
It is no longer adequate to describe responses of fish to thermal gradients, rather falsifiable hypotheses concerning adaptive relations between thermoselection, and physiological, biochemical, life-history and genetic correlates must be developed and tested experimentally.Abstract:
Fishes released from constraints of their previous thermal history tend to limit thermal exposure to a narrow range of temperatures. Thermoregulatory behavior (final preferendum) is a stable characteristic of each species studied, suggesting strong regulation by natural selection. However, the adaptive significance of the final preferendum has not been documented for most species. Species with wide geographic distributions, such as bluegill sunfish and largemouth bass exhibit constant laboratory final preferenda regardless of their geographic origin or thermal histories. This apparent evolutionary anomaly of the final preferendum requires further study. It is no longer adequate to describe responses of fish to thermal gradients, rather falsifiable hypotheses concerning adaptive relations between thermoselection, and physiological, biochemical, life-history and genetic correlates must be developed and tested experimentally.read more
Citations
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N. LeRoy Poff,J. V. Ward +1 more
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Why “Suboptimal” Is Optimal: Jensen’s Inequality and Ectotherm Thermal Preferences
TL;DR: An optimality model is developed and it is found that optimal body temperature (To) should not be centered at \documentclass{aastex} \usepackage{amsbsy} £1,000,000 but shifted to a lower temperature.
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Temperature tolerance and the final preferendum—rapid methods for the assessment of optimum growth temperatures
TL;DR: Determinations of final preferenda are easily conducted in the laboratory and could therefore be used to give rapid assessments of optimum growth temperatures of potential culture species.
References
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Book ChapterDOI
1 – The Effect of Environmental Factors on the Physiology of Fish
TL;DR: The chapter focuses on the action of the environment on metabolism and the effects of this action on the activity of the organism.
Journal ArticleDOI
Energetic Responses of Salmon to Temperature. A Study of Some Thermal Relations in the Physiology and Freshwater Ecology of Sockeye Salmon (Oncorhynchus nerkd)
TL;DR: It is concluded that a mechanism of behavioral thermoregulation has evolved which favorably balances daily metabolic expenditures in order to conserve energy when food is limited.
Journal ArticleDOI
Growth Rate and Body Composition of Fingerling Sockeye Salmon, Oncorhynchus nerka, in relation to Temperature and Ration Size
TL;DR: The growth of young sockeye salmon was studied at temperatures ranging from 1 to 24 C in relation to rations of 0, 1.5, 3, 4, 5, and 6% of dry body weight per day, and at an "excess" ration.
Journal ArticleDOI
Compilation of Temperature Preference Data
TL;DR: This report briefly summarizes current information from field and laboratory studies on temperature selection by fishes, with a tabulation of final temperature preferenda and upper and lower avoidance temperatures.