Ecological Physiology of Daily Torpor and Hibernation

Ecological Physiology of Daily Torpor and Hibernation PDF

By Fritz Geiser

Ecological Physiology of Daily Torpor and Hibernation PDF provides an in-depth overview on the functional ecology of daily torpor and hibernation in endothermic mammals and birds. The reader is well introduced to the physiology and thermal energetics of endothermy and underlying different types of torpor. Furthermore, evolution of endothermy as well as reproduction and survival strategies of heterothermic animals in a changing environment are discussed.

Endothermic mammals and birds can use internal heat production fueled by ingested food to maintain a high body temperature. As food in the wild is not always available, many birds and mammals periodically abandon energetically costly homeothermic thermoregulation and enter an energy-conserving state of torpor, which is the topic of this book. Daily torpor and hibernation (multiday torpor) in these heterothermic endotherms are the most effective means for energy conservation available to endotherms and are characterized by pronounced temporal and controlled reductions in body temperature, energy expenditure, water loss, and other physiological functions. Hibernators express multiday torpor predominately throughout winter, which substantially enhances winter survival. In contrast, daily heterotherms use daily torpor lasting for several hours usually during the rest phase, some throughout the year. Although torpor is still widely considered to be a specific adaptation of a few cold-climate species, it is used by many animals from all climate zones, including the tropics, and is highly diverse with about 25-50% of all mammals, but fewer birds, estimated to use it. While energy conservation during adverse conditions is an important function of torpor, it is also employed to permit or facilitate energy-demanding processes such as reproduction and growth, especially when food supply is limited. Even migrating birds enter torpor to conserve energy for the next stage of migration, whereas bats may use it to deal with heat. Even though many heterothermic species will be challenged by anthropogenic influences such as habitat destruction, introduced species, novel pathogens and specifically global warming, not all are likely to be affected in the same way. In fact it appears that opportunistic heterotherms because of their highly flexible energy requirements, ability to limit foraging and reduce the risk of predation, and often pronounced longevity, may be better equipped to deal with anthropogenic challenges than homeotherms. In contrast strongly seasonal hibernators, especially those restricted to mountain tops, and those that have to deal with new diseases that are difficult to combat at low body temperatures, are likely to be adversely affected.

Ecological Physiology of Daily Torpor and Hibernation addresses researchers and advanced students in Zoology, Ecology and Veterinary Sciences.

  • Provides an overview of heterothermic birds and mammals, which use torpor and briefly summarises ectothermic organisms
  • Enhances the understanding of physiology, ecology and evolution of daily torpor and hibernation (multiday torpor)
  • Introduces thermal energetics and the significance of dietary lipids for function at different body temperatures
  • Discusses torpor with regard to reproduction and development, anthropogenic influences, and global warming and introduction of neobiota

Read more: Introduction to Veterinary Anatomy and Physiology Textbook 4th Edition

Table of Contents

1. Introduction: ectothermy — endothermy, definitions, hibernation daily torpor, thermal energetics, why use torpor, torpor patterns general

2. Diversity of torpor and biogeography

3. Torpor physiology, metabolism, body temperatures, thermal tolerance, heart rate perhaps some hormones. [Dietary lipids and torpor expression here or in separate chapter]

4. Seasonal torpor expression in hibernators and daily heterotherms

5. Torpor and reproduction

6. Torpor and development, [discuss evolution of endothermy here?

7. Torpor, survival and predator avoidance

8. Torpor in Anthropocene, fires, storms

9. Final discussion

10. References

File Size 7 MB
File Format PDF
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