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| The size of scalable brain components in the human evolutionary lineage: With a comment on the paradox of Homo floresiensis [An article from: HOMO - Journal of Comparative Human Biology]
by G.C. Conroy, R.J. Smith
| | List Price: | $7.95 |  | | Available: | Available for download now | | | | | Studio: | Elsevier | | | Binding: | Digital | | Publication Date: | March 26, 2007 | | Publisher: | Elsevier |
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Product Description
This digital document is a journal article from HOMO - Journal of Comparative Human Biology, published by Elsevier in 2007. The article is delivered in HTML format and is available in your Amazon.com Media Library immediately after purchase. You can view it with any web browser.
Description:
The discovery of a diminutive, small-brained hominin skeleton (LB1) from the Pleistocene of Flores, Indonesia, seems to present a paradox concerning the interpretation of overall brain size in an evolutionary context. This specimen forms the holotype of a purportedly new hominin species, Homo floresiensis. As inferred from the archaeological record, it has been suggested that this species of Homo, existing as recently as 12,000 years ago, engaged in sophisticated cultural behaviors with an adult brain size equivalent to that seen in modern chimpanzees and one that in modern humans would be defined as ''high degree microcephaly'' and ''always associated with idiocy''. The alternative explanation for these behaviors at the observed brain size would require that H. floresiensis deviate from existing patterns of primate brain scaling at either a macroscopic or microscopic level. Here we develop predictive equations and confidence intervals for estimating the size of various brain components in the human evolutionary lineage by calculating scaling relationships among overall brain size and 11 components of the primate brain using phylogenetically independent contrasts (PIC) methods. Using these equations, paleoanthropologists can: (a) estimate brain component size (and confidence intervals) for any primate in the fossil record if overall brain size is known; and (b) calculate some reasonable outside limits as to how far species-specific departures from allometric constraints (i.e., brain ''reorganization'') can be taken in assessing human brain evolution. We conclude that if the original assessment of LB1 is correct, i.e., that it samples a population from a new species of Homo, H. floresiensis, that was capable of Homo sapiens-like cultural attributes (fire, blade manufacturing, etc.), while having a chimpanzee-sized brain, then we are faced with the paradox that 1cm^3 of H. floresiensis brain could not be functionally equivalent to 1cm^3 of a modern human or modern chimpanzee brain. |
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