Thrifty phenotype versus cold adaptation: trade-offs in upper limb proportions of Himalayan populations of Nepal

Thrifty phenotype versus cold adaptation: trade-offs in upper limb proportions of Himalayan populations of Nepal

The multi-stress environment of high altitude has been associated with growth deficits in humans, particularly in zeugopod elements (forearm and lower leg). This is consistent with the thrifty phenotype hypothesis, which has been observed in Andeans, but has yet to be tested in other high-altitude p...

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Bibliographic Details
Published in:Royal Society open science Vol. 5; no. 6; p. 172174
Main Authors: Payne, Stephanie, Kumar BC, Rajendra, Pomeroy, Emma, Macintosh, Alison, Stock, Jay
Format: Journal Article
Language:English
Published: England The Royal Society Publishing 01-06-2018
The Royal Society
Subjects:
Altitude
Biology (whole Organism)
Energetic Stress
Human Adaptation
altitude
energetic stress
human adaptation
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Summary:The multi-stress environment of high altitude has been associated with growth deficits in humans, particularly in zeugopod elements (forearm and lower leg). This is consistent with the thrifty phenotype hypothesis, which has been observed in Andeans, but has yet to be tested in other high-altitude populations. In Himalayan populations, other factors, such as cold stress, may shape limb proportions. The current study investigated whether relative upper limb proportions of Himalayan adults (n = 254) differ between highland and lowland populations, and whether cold adaptation or a thrifty phenotype mechanism may be acting here. Height, weight, humerus length, ulna length, hand length and hand width were measured using standard methods. Relative to height, total upper limb and ulna lengths were significantly shorter in highlanders compared with lowlanders in both sexes, while hand and humerus length were not. Hand width did not significantly differ between populations. These results support the thrifty phenotype hypothesis, as hand and humerus proportions are conserved at the expense of the ulna. The reduction in relative ulna length could be attributed to cold adaptation, but the lack of difference between populations in both hand length and width indicates that cold adaptation is not shaping hand proportions in this case.
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Electronic supplementary material is available online at https://dx.doi.org/10.6084/m9.figshare.c.4118699.
ISSN:2054-5703
2054-5703
DOI:10.1098/rsos.172174