Bergmann's Rule
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The large size of a polar bear allows it to radiate less heat in a cold climate. |
Some information on this page may be inconsistent; see the talk page for discussion.In
zoology,
Bergmann's Rule is a principle that correlates environmental temperature with body mass in
warm-blooded animals. It asserts that within a species, the body mass increases with
latitude and colder
climate. Among
mammals and
birds, individuals
of a particular species in colder areas tend to have greater body mass than individuals in warmer areas. For instance,
White-tailed Deer are larger in
Canada than in the
Florida Keys. The rule is named after a nineteenth-century
German biologist,
Christian Bergmann. Bergmann's rule and
Allen's rule are examples of
clines frequently seen in
mammals.
This rule operates as larger animals have a lower surface area to volume ratio than smaller animals, so they radiate less body heat, and stay warmer in cold
climates. On the other hand, warmer climates impose the opposite problem: body heat generated by metabolism needs to be dissipated quickly rather than stored within. Thus, the higher surface area-to-weight ratio in hot and dry climates facilitates heat loss through the skin and helps cooling of the body.
However, some notable exceptions of species with large mass and small surface-to-volume ratios that reside in warm climates exist, such as the African elephant. However, similar thermoregulatory optimizations may be operating, in this case mass homeothermy to resist a significant
rise in core body temperature in warm climates. Anecdotally, elephants are more frequently found in the shelter of shade when they are accompanied by calves, which have a significantly higher surface-to-volume ratio, and are much more prone to changes in temperature from radiant sources in the environment. (
For similar arguments with references, see this link).
For
humans, the rule is true to a certain extent, but differing cultural practices including local diet and gene flow between populations must obviously account for much of this. For example, northern Asians are on average larger than their Southeast Asian counterparts. The
Inuit of Alaska and northern Canada are known for their accumulation of fat and compact bodies as acclimatizations to severe cold. On the other hand, Southern Europeans, such as Italians, tend to be shorter on average than Northern Europeans, such as Swedes, which contradicts Bergmann's rule (taller frames yield a higher surface area-to-mass ratio, which would be expected to occur with greater frequency in warmer climates according to Bergmann's rule). Moreover, short, compact
Pygmies are found only in tropical rainforests, so the importance of heat dissipation alone cannot explain the smaller stature; the hot, humid rainforest environment would seem to encourage taller, leaner frames, but other selective pressures must override those corresponding to Bergmann's rule.
*
Allen's rule*
Gloger's rule*Carl Bergmann. "Über die Verhältnisse der wärmeökonomie der Thiere zu ihrer Grösse."
Göttinger Studien, Göttingen, 1847, 3 (1), 595-708.
*Roberts DF (1953) Body weight, race and climate.
Am. J. Phys. Anthropol. 11:533â€"558.
*Roberts DF (1978) Climate and Human Variability. 2nd ed. Menlo Park, CA: Cummings
*Ruff CB (1994) Morphological adaptation to climate in modern and fossil hominids.
Yrbk. Phys. Anthropol. 37:65--107
*Schreider E (1950) Geographical distribution of the body-weight/body-surface ratio.
Nature 165:286
