Body size and its consequences: Allometry and the lower limb length of Liang Bua 1 ( Homo floresiensis)

Body size and its consequences: Allometry and the lower limb length of Liang Bua 1 ( Homo floresiensis)

Bivariate femoral length allometry in recent humans, Pan, and Gorilla is investigated with special reference to the diminutive Liang Bua (LB) 1 specimen (the holotype of Homo floresiensis) and six early Pleistocene femora referred to the genus Homo. Relative to predicted body mass, Pan and Gorilla f...

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Veröffentlicht in:Journal of human evolution 2009-09, Vol.57 (3), p.223-228
Hauptverfasser: Holliday, Trenton W., Franciscus, Robert G.
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Anthropometry
Australopithecus
Body
Body mass
Body Size
Craniology
Female
Femur - anatomy & histology
Femur length
Fossils
Hominidae - anatomy & histology
Homo floresiensis
Human paleontology
Humans
Male
Mankind origin and evolution
Methodology and general studies
Morphology
Prehistory and protohistory
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Franciscus, Robert G.
description Bivariate femoral length allometry in recent humans, Pan, and Gorilla is investigated with special reference to the diminutive Liang Bua (LB) 1 specimen (the holotype of Homo floresiensis) and six early Pleistocene femora referred to the genus Homo. Relative to predicted body mass, Pan and Gorilla femora show strong negative length allometry while recent human femora evince isometry to positive allometry, depending on sample composition and line-fitting technique employed. The allometric trajectories of Pan and Homo show convergence near the small body size range of LB 1, such that LB 1 manifests a low percentage deviation ( d yx of Smith [1980]) from the Pan allometric trajectory and falls well within the 95% confidence limits around the Pan individuals (but also outside the 95% confidence limits for recent Homo). In contrast, the six early Pleistocene Homo femora, belonging to larger individuals, show much greater d yx values from both Pan and Gorilla and fall well above the 95% confidence limits for these taxa. All but one of these Pleistocene Homo specimens falls within the 95% confidence limits of the recent human sample. Similar results are obtained when femoral length is regressed on femoral head diameter in unlogged bivariate space. Regardless of the ultimate taxonomic status of LB 1, these findings are consistent with a prediction made by us ( Franciscus and Holliday, 1992) that hominins in the small body size range of A.L. 288-1 (“Lucy”), including members of the genus Homo, will tend to possess short, ape-like lower limbs as a function of body size scaling.
doi_str_mv 10.1016/j.jhevol.2009.04.007
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Relative to predicted body mass, Pan and Gorilla femora show strong negative length allometry while recent human femora evince isometry to positive allometry, depending on sample composition and line-fitting technique employed. The allometric trajectories of Pan and Homo show convergence near the small body size range of LB 1, such that LB 1 manifests a low percentage deviation ( d yx of Smith [1980]) from the Pan allometric trajectory and falls well within the 95% confidence limits around the Pan individuals (but also outside the 95% confidence limits for recent Homo). In contrast, the six early Pleistocene Homo femora, belonging to larger individuals, show much greater d yx values from both Pan and Gorilla and fall well above the 95% confidence limits for these taxa. All but one of these Pleistocene Homo specimens falls within the 95% confidence limits of the recent human sample. 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subjects Animals
Anthropometry
Australopithecus
Body
Body mass
Body Size
Craniology
Female
Femur - anatomy & histology
Femur length
Fossils
Hominidae - anatomy & histology
Homo floresiensis
Human paleontology
Humans
Male
Mankind origin and evolution
Methodology and general studies
Morphology
Prehistory and protohistory
title Body size and its consequences: Allometry and the lower limb length of Liang Bua 1 ( Homo floresiensis)
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