Hibernation

Hibernation is a state of inactivity and metabolic depression in animals during winter. It may last several days or weeks depending on species, ambient temperature, and time of year, and fur on the animal's body. The typical winter season for a hibernator is characterized by periods of hibernation interrupted by sporadic euthermic arousals wherein body temperature is restored to typical levels. There is a hypothesis that hibernators build a need for sleep during hibernation more slowly than normally, and must occasionally warm up in order to eat. This has been supported by some evidence in the arctic ground squirrel.[1]

Contents

Hibernating animals

European Hedgehog

Animals that hibernate include bats, some species of ground squirrels and other rodents, mouse lemurs, the European Hedgehog and other insectivores, monotremes and marsupials. Even some rattlesnakes, such as the Western Diamondback, are known to hibernate in caves every winter. Historically, Pliny the Elder believed swallows hibernated, and ornithologist Gilbert White pointed to anecdotal evidence in The Natural History of Selborne that indicated as much. Birds typically do not hibernate, instead utilizing torpor. However the Common Poorwill does hibernate.[2] Many experts believe that the processes of daily torpor and hibernation form a continuum.

One animal that some famously consider a hibernator is the bear, although bears do not go into "true hibernation".[3] During a bear's winter sleep state, the degree of metabolic depression is much less than that observed in smaller mammals. Many prefer to use the term "denning". The bear's body temperature remains relatively stable (depressed from 37 °C (99 °F) to approximately 31 °C (88 °F)) and it can be easily aroused. Some reptile species are said to brumate, or undergo brumation, but the connection to this phenomenon with hibernation is not clear.

Hibernating ground squirrels may have abdominal temperatures as low as 0 °C, maintaining sub-zero abdominal temperatures for more than three weeks at a time, although the temperatures at the head and neck remain at 0 C or above.[4] Before entering hibernation most species eat a large amount of food and store energy in fat deposits in order to survive the winter. Some species of mammals hibernate while gestating young, which are born shortly after the mother stops hibernating.

Hibernating animals get their energy by a process process known as gluconeogenesis.[5]

For a couple of generations during the 20th century it was thought that basking sharks settled to the floor of the North Sea and hibernated; however, research by Dr David Sims in 2003 dispelled this hypothesis,[6] showing that the sharks actively traveled huge distances throughout the seasons, tracking the areas with the highest quantity of plankton.

The epaulette sharks have been documented to be able to survive for long periods of time without oxygen, even being left high and dry, and at temperatures of up to 26 °C (79 °F).[7] Other animals able to survive long periods without oxygen include the goldfish, the red-eared slider turtle, the wood frog, and the bar-headed goose.[8]

Until recently no primate, and no tropical mammal, was known to hibernate. However, animal physiologist Kathrin Dausmann of Philipps University of Marburg, Germany, and coworkers presented evidence in the 24 June 2004 edition of Nature that the Fat-tailed Dwarf Lemur of Madagascar hibernates in tree holes for seven months of the year. This is interesting because Malagasy winter temperatures sometimes rise to over 30 °C (86 °F), so hibernation is not exclusively an adaptation to low ambient temperatures. The hibernation of this lemur is strongly dependent on the thermal behavior of its tree hole: if the hole is poorly insulated, the lemur's body temperature fluctuates widely, passively following the ambient temperature; if well insulated, the body temperature stays fairly constant and the animal undergoes regular spells of arousal. Dausmann found that hypometabolism in hibernating animals is not necessarily coupled to a low body temperature.

Noise and vibration from snowmobiles, all-terrain vehicles (ATV) and the like is said to sometimes awaken hibernating animals, who may suffer severely or die as a result of premature awakening in times of food shortage. However, many hibernators can return to hibernation after awakening, and deep hibernators in fact awaken many times throughout the hibernation season in what are called interbout arousals.

Artificial hibernation

There are many research projects currently investigating how to achieve "induced hibernation" in humans.[9][10] The ability for humans to hibernate would be useful for a number of reasons, such as saving the lives of seriously ill or injured people by temporarily putting them in a state of hibernation until treatment can be given (compare induced coma). NASA is also interested in possibly putting astronauts in hibernation for very long space journeys.

See also

References

  1. Daan S, Barnes BM, Strijkstra AM (1991). "Warming up for sleep? Ground squirrels sleep during arousals from hibernation". Neurosci. Lett. 128 (2): 265–8. doi:10.1016/0304-3940(91)90276-Y. PMID 1945046. http://linkinghub.elsevier.com/retrieve/pii/0304-3940(91)90276-Y. 
  2. Jaeger, E.C. 1948. "Does the poorwill hibernate?" Condor 50:45-46.
  3. Secrets of Hibernation; nova, pbs.org
  4. Barnes, Brian M. (30 June 1989). "Freeze Avoidance in a Mammal: Body Temperatures Below 0 °C in an Arctic Hibernator" (PDF). Science (American Association for the Advancement of Science) 244: 1521–1616. http://users.iab.uaf.edu/~brian_barnes/publications/1989barnes.pdf. Retrieved 2008-11-23. 
  5. Davis WL et al Biochim Biophys Acta 1990;1051:276-8
  6. "Seasonal movements and behavior of basking sharks from archival tagging". Marine Ecology Progress Series (248): 187–196. 2003. 
  7. "A Shark With an Amazing Party Trick". New Scientist 177 (2385): 46. 8 March 2003. http://www.flmnh.ufl.edu/fish/sharks/innews/sharktrick2003.htm. Retrieved 2006-10-06. 
  8. Breathless: A shark with an amazing party trick is teaching doctors how to protect the brains of stroke patients. Douglas Fox, New Scientist vol 177 issue 2385 - 8 March 2003, page 46. Last accessed November 9, 2006.
  9. Hibernation
  10. Times Online

Further reading

External links

Animal dormancy topics
Torpor · Hibernation (Hibernaculum · HIT)
 Myotis mystacinus hibernation4.JPG
Estivation · Cryptobiosis · Brumation
Diapause (Embryonic diapause)
Critical thermal maximum