Research sheds light on groundhog's shadowy behavior

Jan 24, 2014 by Lisa Baldi
Research sheds light on groundhog’s shadowy behavior
A groundhog in the field. Credit: Penn State

(Phys.org) —Residents of Pennsylvania look to the groundhog each Feb. 2 to forecast the weather. According to legend, if the groundhog sees his shadow, there will be six more weeks of winter weather; if not, an early spring is predicted. However, most people don't understand the real reason groundhogs emerge when they do, according to Stam Zervanos, emeritus professor of biology at Penn State Berks.

Zervanos has been researching the patterns of groundhogs for the past 18 years and has found that groundhogs do not simply crawl into their dens and hibernate. Instead they experience a series of torpor (deep sleep) and arousal bouts throughout winter. During arousal, they normally stay in their burrows, but in the spring they emerge and move around above ground. They then return to the den for some more deep-sleeping episodes before the final arousal.

Typically, groundhogs do not exit hibernation for good until early March, which is when they mate. While some episodes of early emergence occur in February, it does not appear that mating occurs during these early encounters.

"For males, these early excursions are an opportunity to survey their territories and to establish bonds with females," said Zervanos. "For females, it is an opportunity to bond with males and assess food availability.

"The length of the hibernation season at a given latitude appears to be consistent for groundhogs and is characterized by a predictable timing of immergence and emergence. This is important, because if mating occurs too early, young would be weaned at a time in the spring when food is still limited. If mating occurs too late, young would not have sufficient time to gain their critical hibernation weight."

Basically, animals hibernate to save energy and thus survive the winter. Because hibernation has a high physiological cost, they try to avoid torpor by staying euthermic (maintaining their optimal body temperature) as much as possible, according to Zervanos.

Over the last few years, Zervanos has been working with researchers from Clemson University in South Carolina, Colorado State University and the University of Southern Maine to compare the difference in hibernation patterns in northern versus southern groundhogs. Data indicate a direct relationship between latitude and length of hibernation season.

As expected, groundhogs in the northern latitudes hibernated longer than those in the southern latitudes: in Maine, they hibernate 175 days from Oct. 19 to April 11; in Pennsylvania, 100 days, from Nov. 17 to Feb. 25; and in South Carolina, 67 days, from Dec. 13 to Feb. 18. Also, the length of torpor bouts and number of arousals increased with increased latitude. However, groundhogs in each population maximized their time spent euthermic, utilizing torpor only at the level needed to survive winter hibernation and to begin reproduction in the spring.

The "cost-benefit" hypothesis of hibernation may help to explain these results. It assumes that hibernators avoid the physiological stress of torpor by staying euthermic as much as possible. This is a new developing theory for hibernation studies. To further support this hypothesis, Zervanos and his colleagues recently reported that the time spent in torpor and torpor body temperature are based on the individual's weight. The larger the animal, the less time spent in torpor and the higher the torpor body temperature. It seems that if they have enough stored energy, they try to avoid the negative effects of torpor during hibernation.

In previously documented research, Zervanos conducted a study to determine the presence of circadian rhythms during groundhog hibernation using continuously monitored body temperatures. The data indicate that males had shorter torpor and longer euthermic periods than females, supporting the existence of biological rhythms during hibernation in groundhogs, especially for males. Since entries into torpor appear to be synchronized for males, arousal periods may be used to resynchronize their circadian system, with the possibility of temperature as the catalyst.

During torpor, groundhogs seem to have a free-running circadian clock. The adaptive value of persistent biological rhythms during hibernation may depend on hibernation strategies being employed to maximize reproductive success. For males, this means optimizing the time of emergence by anticipating the best time for emergence and being physically and physiologically prepared before emergence for successful mating.

"There is a theory that all mammals were able to hibernate in their ancestry," said Zervanos. "Since we evolved from reptilian ancestors, which were able to hibernate, the logic would seem to say that all mammals have these genes or at least the genes that turn on and off the metabolic processes that control hibernation. If we can track down these controlling genes then we might be able to apply these characteristics to humans."

For example, studying the genes that control metabolic processes could eventually lead to an ability ability to slow the heart rate during long, complicated surgical procedures or in cases of serious injuries.

Since 1996 Zervanos has researched the hibernation patterns of groundhogs on a 140-acre plot on the Peiffer Farm of Penn State Berks. He studies free-ranging groundhogs using radio telemetry and data loggers to monitor hourly body temperatures and movements. In addition, infrared motion-triggered cameras are placed at the burrow entrances. These cameras record date and time of emergence and also supply photographs and videos.

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Birger
not rated yet Jan 24, 2014
Being a space buff, I naturally look forward to astronauts being able to hibernate during those long voyages to Mars...
And if we can slow down metabolism for cancer patients there might be time to sequence the mutated genes and provide a custom-made treatment, saving those that only have weeks left to live.

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