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| Unit 8: Demos |
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Absolute vs. relative dating (1c) Continental drift (2a) Intermittent land bridges (2d) Did cracking continent trigger a deep freeze?: The break-up of a supercontinent may have caused a 'Snowball Earth'. (optional) Conditions necessary for species dispersal The Law of the Minimum and the Law of Tolerance (3b) Convergent evolution (5b) Confused by evolutionary trees? Check out Understanding Evolution. Primates (8a) Hominoid divergence (8d) A recent split of humans and chimps? (optional) (New!) Unique characteristics of primates (optional) Characteristics that differ between apes and humans (9b) Latitudinal trends in species diversity (12f) Life is faster in the temperate zones (optional) (New!) Rapid climate change article (courtesy of American Scientist) More on rapid global warming (optional) Lake turnover (download a .pdf file) |
Primate Characteristics Suggest Arboreal Ancestry Fossil evidence indicates that the primates arose very early in the Cenozoic from a stock of small, tree-dwelling insectivores not unlike the living tree shrews (order Scandentia: family Tupaiida). The group soon split into several evolutionary lineages that have likely had independent histories since.
Many of these traits are adaptations for an arboreal lifestyle. Among ground-dwelling mammals the limbs have tended to evolve enhanced stability and reduced range of motion. In contrast, tree-dwelling mammals, especially those that move via vertical clinging and leaping or brachiation (swinging by the forelimbs), need very mobile limbs and often position limbs at the sides of the body (rather than underneath it) to maximize their reach. Grasping hands and feet and dextrous, sensitive digits are also adaptive for an arboreal existence. The position of the eyes also differs between ground-dwelling and arboreal mammals. Many terrestrial quadrupeds have eyes positioned at the sides of the head, giving them a very wide visual field, but having very little overlap in the fields of the two eyes. This arrangement allows a terrestrial animal to see predators (for example) even if they are almost directly behind the animal, but gives the animal relatively poor depth perception. Primates tend to have their eyes positioned relatively close together on the front of the head, reducing their visual field, but giving them excellent stereoscopic vision and depth perception. This is, of course, important in localizing objects and an animal jumping from limb to limb obviously must be able to detect the position of the next limb with considerable accuracy.
The living primates are usually classified into suborders: The Prosimii (prosimians - including lemurs and lorises) and the Anthropidea (anthropoids - monkeys, apes, and humans). The name prosimian means "pre-monkey" and this group of primates are thought to have been the first primates to evolve from the groups insectivore ancestors. In general, prosimians have a mix of "typical" primate characteristics and traits more similar to those of ancestral insectivores. For example, prosimians have opposable first digits, but have longer snouts and long bushy tails - traits not seen in anthropoid primates.
Some of the many anatomical changes that occurred in the course of evolution from an ape-like ancestor to modern humans are:
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A comparison of primate hands. Primate hands
vary in their structure and manipulative ability. The hand of the tarsier has
an opposable thumb and slender fingers with adhesive pads adapted for grasping
branches. The hands of organutans are adapted for swinging from branch to branch;
the fingers serve mainly as hooks for hanging on branches and the thumb is
short so as not to get in the way. The hand of the gorilla has a longer, more
opposable thumb than the orangutan, and the fingers are shorter. the human
hand has the most manipulative ability; the long thumb is more opposable and
the fingers more dextrous and capable of free movements.
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