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
Thermal niche of fishes and global warming
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
Introduction
In 1979, we proposed the idea of a thermal niche for fishes as analogous to niches for other resources such as food type and size (Magnuson, Crowder & Medvick, 1979). In our view, competition occurs for space with the appropriate thermal properties in a manner similar to competition for places suitable for refuge or spawning. We concluded that ‘fish do compete for thermal resources and that considerations of temperature as a resource are generally consistent with the characteristics of food as a resource.’
We defined the thermal niche of fishes as the preferred temperature ± 2 °C or ± 5 °C. This definition was derived from laboratory gradient studies which showed that fish spend two-thirds of their time within 2 °C and all of their time within 5 °C of their preferred temperature (Magnuson et al., 1979). A large number of, but not all, performance optima for individual species occur within these ranges (Magnuson et al., 1979; Jobling, 1981). In North America, freshwater fish have been grouped into three thermal guilds – coldwater, coolwater and warmwater – based on their temperature preference (Hokanson, 1977; Magnuson et al., 1979). Other criteria for the thermal niche, based on temperature acting as a controlling or a lethal factor, enrich the concept (see Fry paradigm below).
Global warming would be expected to alter the temperatures of lakes and streams and thus favour some species over others in relation to present conditions.
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- Information
- Global WarmingImplications for Freshwater and Marine Fish, pp. 377 - 408Publisher: Cambridge University PressPrint publication year: 1997
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