Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- Temperature thresholds for protein adaptation: when does temperature start to ‘hurt’?
- Membrane constraints to physiological function at different temperatures: does cholesterol stabilize membranes at elevated temperatures?
- The effect of temperature on protein metabolism in fish: the possible consequences for wild Atlantic salmon (Salmo salar L.) stocks in Europe as a result of global warming
- Thermal stress and muscle function in fish
- Factors which may limit swimming performance at different temperatures
- Effects of temperature on cardiovascular performance
- Temperature effects on the reproductive performance of fish
- The effects of temperature on embryonic and larval development
- Temperature and growth: modulation of growth rate via temperature change
- Effects of climate change on cod (Gadus morhua) stocks
- Temperature effects on osmoregulatory physiology of juvenile anadromous fish
- Effects of temperature on xenobiotic metabolism
- Interactive effects of temperature and pollutant stress
- Behavioural compensation for long-term thermal change
- Thermal niche of fishes and global warming
- Index
Behavioural compensation for long-term thermal change
Published online by Cambridge University Press: 05 November 2011
- Frontmatter
- Contents
- List of contributors
- Preface
- Temperature thresholds for protein adaptation: when does temperature start to ‘hurt’?
- Membrane constraints to physiological function at different temperatures: does cholesterol stabilize membranes at elevated temperatures?
- The effect of temperature on protein metabolism in fish: the possible consequences for wild Atlantic salmon (Salmo salar L.) stocks in Europe as a result of global warming
- Thermal stress and muscle function in fish
- Factors which may limit swimming performance at different temperatures
- Effects of temperature on cardiovascular performance
- Temperature effects on the reproductive performance of fish
- The effects of temperature on embryonic and larval development
- Temperature and growth: modulation of growth rate via temperature change
- Effects of climate change on cod (Gadus morhua) stocks
- Temperature effects on osmoregulatory physiology of juvenile anadromous fish
- Effects of temperature on xenobiotic metabolism
- Interactive effects of temperature and pollutant stress
- Behavioural compensation for long-term thermal change
- Thermal niche of fishes and global warming
- Index
Summary
We found the main stream so low that the teeter-snipe pattered about in what last year were trout riffles, and so warm that we could duck in its deepest pool without a shout … There were no trout … But … up near the headwaters we had once seen a fork … fed by cold springs that gurgled out under its close-hemmed walls of alder. What would a self-respecting trout do in such weather? Just what we did: go up. I climbed down the dewy bank and stepped into the Alder Fork. A trout was rising just upstream …
(Aldo Leopold, 1949, p. 40)Introduction and overview
A 1 °C alteration in a heterothermal aquatic environment produces behavioural adjustments in many fishes; a 4 °C shift leads to major changes in fish distribution. This is expected to occur for a majority of species and is likely to be important both ecologically and physiologically. Temperature changes of this magnitude are predicted during the next century, owing to the greenhouse effects of anthropogenically generated gases. These climate warming scenarios differ by region and latitude and would be influenced by other human activities such as logging, use of dams, power generation, and urbanization (Kemp, 1994). In this chapter thermoregulatory behaviour is discussed as a shortterm, local adjustment to the posited increases in global temperature.
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- Information
- Global WarmingImplications for Freshwater and Marine Fish, pp. 351 - 376Publisher: Cambridge University PressPrint publication year: 1997
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