Chapter 6

The images on this CD have been lifted directly, without change or modification, from textbooks and image libraries owned by the publisher, especially from publications intended for college majors in the discipline. Consequently, they are often more richly labeled than required for our purposes. Further, dates for geological intervals may vary between images, and between images and the textbook. Such dates are regularly revised as better corroborated times are established. Your best source for current geological times is a current edition of the textbook, whose dates should be used when differences arise.

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Comparative anatomy Correspondence between parts and comparison of forelimbs among four vertebrates.

Although the forelimb in all is used differently—human (grasping), bird (flight), lion (running), seal (swimming)—all have the same basic underlying structure of bones and soft tissues.

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Homology and analogy (a) Homology. As vertebrate forearms, the bat wing, mouse forearm, and human arm are

homologous structures as all are composed of similar bones inherited from a recent common ancestor. (b) Analogy. The wings of bats, butterflies, and birds evolved independently, not from a recent common ancestor. But they have a similar function, flight, and so are analogous.

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By human design Functions vary and designs vary. Unlike biological organisms, these humanly designed and

built machines show no correspondence of parts from planes (flight), to mining machines (burrowing), or to boats (swimming).

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Evolution of horses Evolution of horses

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Morphological series—evolution of jaws Vertebrate jaws evolved from the front set of gill arches of jawless ancestors.

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Morphological series—evolution of limbs from fins Note that the bones of the fish hip and shoulder correspond to bones in this early tetrapod

(amphibian). Here, the morphological series carries from one type of vertebrate (fish) to another (amphibian), and from one environment (water) to another (land).

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Diversity of type, unity of pattern Although the vertebrate species differ, the underlying pattern of the forelimb is

fundamentally the same.

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Vestigial features I a) Whales evolved from terrestrial ancestors with four legs. But in whales, the hips and

hindlimbs are reduced to small bones with no function. b) Snakes evolved from lizards with four legs. But in primitive snakes, the remnants of hindlimbs persist (forelimbs are absent).

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Vestigial features II The human appendix is a vestigial structure, reduced from the cecum of primate ancestors,

where it was involved in digestion of significant amounts of plant material. Shown here is the human stomach leading into parts of the small intestine (duodenum, jejunum, ileum), which empties into the large intestine (ascending colon). Note the appendix at this juncture.

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Continental drift Changing continental positions through most of the Phanerozoic era. Time, in millions of

years, is approximate.

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Dinosaur distribution During the middle of the Mesozoic era, the dinosaur Allosaurus occupied the large, single

continent of Pangaea (see also “Continental drift”). Subsequently, as this continent broke apart, populations of Allosaurus became isolated from each other and speciated into other derivative carnivorous species (Gigantotosaurus, Carcharodontosaurus, Acrocanthosaurus). The forming continents drifted into their present positions today. The location of these fossil remains, now carried into distant locations, are indicated by dots.

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FIGURE 6.1 Paleontology Appearance of animals and plants, early (bottom) to recent (top). Random (left)

appearance of organisms-humans, some plants, more mammals, fishes, microorganisms, birds. Ordered (right) appearance from singlecelled, to multicelled, to fishes, amphibians, reptiles, birds, and mammals, including humans.

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FIGURE 6.3 Different Functions but Similar Underlying Forelimb Anatomy Forelimbs of bat, mole, and dugong. Each limb performs a different function-flight, digging,

and swimming, respectively-and all are superficially different, but all three share a common, underlying anatomical plan.

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FIGURE 6.5 Morphological Series From four-toed to single-toed modern horses, this morphological series illustrates the

correspondence between parts (feet, teeth, skull) and their modifications. Here, the stratigraphic position of these species is added.

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FIGURE 6.7 Diversity of Type, Unity of Pattern (a) Similarities. Parts may be similar in ancestry, function, and/or appearance.

Respectively, these are defined as homology, analogy, or homoplasy. (b) Although the vertebrate species differ, the underlying pattern of the forelimb is fundamentally the same.

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FIGURE 6.8 Convergence of Design Groups of animals often adapt to habitats that differ from those of most other members of their group. Most birds fly, but some,

such as ostriches, cannot, and live exclusively on land; others, such as penguins, live much of their lives in water. Most mammals are terrestrial, but some fly (bats) and others live exclusively in water (whales, dolphins). “Flying” fishes take to the air. As species from different groups enter similar habitats, they experience similar biological demands. Convergence to similar habitats, in part, accounts for the sleek bodies and fins or flippers of tuna and dolphins, because similar functions (analogy) are served by similar parts under similar conditions. Yet tuna and dolphins come from different ancestries and are still fishes and mammals, respectively. Common function alone is insufficient to explain all aspects of design. Despite current similar habitats, each design carries evolutionary features of the past into the present.

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FIGURE 6.9 Comparative Embryology Embryonic retention of ancestral characteristics. Note the persistence of gill slits in early

stages of embryonic development in the mammals (right) that of course, do not possess functional gills in the adult. Also note that a tail is present early in humans, but lost before birth.

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FIGURE 6.10 Vestigial Features (a) Whales evolved from terrestrial ancestors with four legs. But in whales, the hips and

hindlimbs are reduced to small bones with no function. (b) Snakes evolved from lizards with four legs. But in primitive snakes, the remnants of hindlimbs persist (forelimbs are absent). (c) The human appendix is a vestigial structure, reduced from the cecum of primate ancestors, which was involved in digestion of significant plant material.

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FIGURE 6.11 Atavistic Features Extra toes in modern horses. (a) Modern horses have only one enlarged digit on each foot, a single toe. The one toe

evolved from ancestors with three or four toes. During the course of their evolution, the peripheral toes—IV, II, I—were lost and the central toe—III—emphasized. (b,c) On rare occasions, however, these “lost” toes or their remnants reappear, testifying to the lingering presence of the underlying ancestral developmental pattern. (d) On rare occasion, a modern horse, such as the one illustrated, is born with additional toes. Such toe remnants in modern horses apparently represent the partial reemergence of an ancient ancestral pattern. For more information on extra toes in modern horses, see S. J. Gould, Hen’s Teeth and Horse’s Toes: Further Reflections in Natural History (New York: W. W. Norton, 1983).

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FIGURE 6.12 Biogeographic Realms Continental land areas support characteristic assortments of plants and animals, which in

turn define six biogeographic realms. The number of mammalian families are indicated, along with the number of endemic families.

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FIGURE 6.13a Continental Drift (a) Plate tectonics. Shown are the suture zones of abutting major current crustal plates and

their respective movement directions.

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FIGURE 6.14 Bridges Connections between geographic areas allow for or restrict dispersal of plants and animals. (a) Corridors

and filter bridges. Corridors allow for the relatively uninterrupted spread of organisms. The doubleheaded arrows indicate such open expanses across Eurasia and North America. Filter bridges permit selective transit of organisms that pass, either because of inhospitable climate or ecological obstruction. One major selective filter has been across the Bering Strait; another is in the Middle East, restricting reptile species. (b) Filter bridges between North and South America occur in the narrow land connection between these continents. Some species have crossed this filter, but others have not.

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Table 6.1 Center of Origin

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FIGURE 6.15 The Panda’s Thumb The panda has five digits like most mammals; however, opposing these is another digit, a

“thumb, “ which is actually not a thumb at all but an enlarged wrist bone. The furred and padded panda right paw is shown; next to it, the underlying skeleton of hand and wrist bones are sketched.