2. 15.1 Section Objectives – page 393 Summarize Darwin’s theory of natural selection. Section Objectives: 15.1 Explain how the structural and physiological adaptations of organisms relate to natural selection. Distinguish among the types of evidence for evolution.

3. Section 15.1 Summary – pages 393-403 On the Galápagos Islands, _____ studied many _______ of animals and plants that are unique to the islands but similar to species elsewhere. These ________ led Darwin to consider the possibility that ____ can change over time.

4. Section 15.1 Summary – pages 393-403 For the next two decades, ______ worked to refine his explanation for how species change over time. English economist Thomas _______ had proposed an idea that Darwin modified and used in his explanation. Malthus’s idea was that the _______ population grows faster than Earth’s _____ supply.

5. Section 15.1 Summary – pages 393-403 How did this help Darwin? He knew that many species produce _____ numbers of offspring. He also knew that such _______ had not overrun Earth.

6. Section 15.1 Summary – pages 393-403 He realized that individuals struggle to ______ in changing environmental conditions. Only some individuals _______ the competition and _______ offspring.

7. Section 15.1 Summary – pages 393-403 Darwin observed that the ______ of individuals vary in populations. ________ are then inherited. Breeding organisms with specific traits in order to produce offspring with identical traits is called _________ __________. Darwin ____________ that there was a force in nature that worked like artificial selection.

8. Section 15.1 Summary – pages 393-403 Natural selection is a ___________ for change in populations. It occurs when organisms with _________ variations ________, _______, and ____ their variations to the next generation. Organisms without these variations are _____ likely to survive and reproduce.

9. Section 15.1 Summary – pages 393-403 As a result, each ________ consists largely of offspring from parents with these variations that aid survival. Alfred Russell _______, another British naturalist, reached a similar conclusion.

10. Section 15.1 Summary – pages 393-403 ______ proposed the idea of natural selection to explain how species change over time. In nature, organisms produce more _______ than can survive.

11. Section 15.1 Summary – pages 393-403 In any population, individuals have ________. Fishes, for example, may differ in color, ____, and speed.

12. Section 15.1 Summary – pages 393-403 Individuals with certain useful _______, such as speed, survive in their environment, passing those variations to the next generation.

13. Section 15.1 Summary – pages 393-403 Over time, offspring with certain variations make up most of the __________ and may look entirely different from their ________.

14. Section 15.1 Summary – pages 393-403 Volumes of scientific ____ have been gathered as evidence for __________ since Darwin’s time. Much of this evidence is subject to ____________ by different scientists. One of the issues is that evolutionary processes are difficult for humans to _______ directly.

15. Section 15.1 Summary – pages 393-403 The short scale of human ____ spans makes it difficult to comprehend evolutionary processes that occur over _______ of years. Almost all of today’s ________ accept the theory of evolution by natural selection.

16. Section 15.1 Summary – pages 393-403 Recall that an __________ is any variation that aids an organism’s chances of survival in its environment. Darwin’s theory of evolution explains how adaptations may develop in _______.

17. Section 15.1 Summary – pages 393-403 According to Darwin’s theory, adaptations in species develop over many __________. Learning about adaptations in ____-rats can help you understand how natural selection has affected them.

18. Section 15.1 Summary – pages 393-403 The ancestors of today’s common mole-rats probably resembled ________ rock rats.

19. Section 15.1 Summary – pages 393-403 Some ancestral rats may have avoided ________ better than others because of variations such as the size of _____ and ______.

20. Section 15.1 Summary – pages 393-403 Ancestral rats that survived passed their _________ to offspring. After many _____________, most of the population’s individuals would have these adaptations.

21. Section 15.1 Summary – pages 393-403 Over time, _______ selection produced modern mole-rats. Their __________ may have evolved because vision had no _______ advantage for them.

22. Section 15.1 Summary – pages 393-403 Some other ________ adaptations are subtle. _______ is a structural adaptation that enables one species to ________ another species.

23. Section 15.1 Summary – pages 393-403 In one form of mimicry, a ________ species has adaptations that result in a physical resemblance to a _______ species. _________ that avoid the harmful looking species also avoid the similar-looking harmless species.

24. Section 15.1 Summary – pages 393-403 In another form of _______, two or more harmful species resemble each other. For example, yellow jacket hornets, honeybees, and many other species of wasps all have harmful _______ and similar ______ and ________.

25. Section 15.1 Summary – pages 393-403 _________ may learn quickly to avoid any organism with their general appearance.

26. Section 15.1 Summary – pages 393-403 Another subtle adaptation is__________, an adaptation that enables species to ______ with their surroundings. Because well-camouflaged organisms are not easily found by predators, they ______ to reproduce.

27. Section 15.1 Summary – pages 393-403 In general, most structural adaptations develop over ________ of years. However, there are some adaptations that evolve much more rapidly. For example, do you know that some of the _______ developed during the twentieth century to fight bacterial diseases are no longer effective?

28. Non-resistant bacterium Resistant bacterium Antibiotic When the population is exposed to an antibiotic, only the resistant bacteria survive. The bacteria in a population vary in their ability to resist antibiotics. The resistant bacteria live and produce more resistant bacteria.

29. Section 15.1 Summary – pages 393-403 Today, __________ no longer affects as many species of bacteria because some species have evolved ________ adaptations to prevent being killed by penicillin. Non-resistant bacterium Resistant bacterium Antibiotic

30. Section 15.1 Summary – pages 393-403 _________ adaptations are changes in an organism’s ________ processes. In addition to species of bacteria, scientists have observed these adaptations in species of ______ and _______ that are pests.

31. Section 15.1 Summary – pages 393-403 Physiological resistance in species of bacteria, insects, and plants is direct _______ of evolution. However, most of the evidence for evolution is ______, coming from sources such as _______ and studies of anatomy, _______, and biochemistry.

32. Section 15.1 Summary – pages 393-403 _____ are an important source of evolutionary evidence because they provide a _______ of early life and evolutionary history.

33. Section 15.1 Summary – pages 393-403 Although the fossil record provides evidence that _______ occurred, the record is ___________. Although ____________ do not have fossils for all the changes that have occurred, they can still understand the overall picture of how most groups evolved.

34. Section 15.1 Summary – pages 393-403 ____ are found throughout the world. As the fossil record becomes more complete, the sequences of _______ become clearer. For example, you can see how paleontologists have _____ the evolutionary path that led to today’s camel after piecing together fossil ______, ______, and limb bones.

35. Section 15.1 Summary – pages 393-403 Camel Evolution Age Organism Skull and teeth Paleocene 65 million years ago Eocene 54 million years ago Oligocene 33 million years ago Limb bones Miocene 23 million years ago Present

36. Section 15.1 Summary – pages 393-403 _________ features with a common evolutionary origin are called ___________ structures. Homologous structures can be similar in _________, in ________, or in both. Whale forelimb Crocodile forelimb Bird wing

37. Section 15.1 Summary – pages 393-403 The body parts of organisms that do not have a common evolutionary origin but are similar in function are called _________ structures. Although analogous structures don’t shed light on ___________ relationships, they do provide evidence of evolution.

38. Section 15.1 Summary – pages 393-403 For example, insect and bird wings probably evolved separately when their different ancestors adapted ____________ to similar ways of life.

39. Section 15.1 Summary – pages 393-403 Another type of body feature that suggests an evolutionary relationship is a _________ structure—a body structure in a present-day organism that no longer serves its ______ purpose, but was probably useful to an ancestor. A structure becomes vestigial when the species no longer needs the feature for its original function, yet it is still _______ as part of the body plan for the species.

40. Section 15.1 Summary – pages 393-403 Many ________ have vestigial structures. Vestigial structures, such as _____ bones in the baleen whale, are evidence of evolution because they show structural change over time.

41. Section 15.1 Summary – pages 393-403 An ______ is the earliest stage of growth and development of both plants and animals. The embryos of a fish, a reptile, a bird, and a mammal have a tail and __________ pouches. Fish ReptileBirdMammal Pharyngeal pouches Pharyngeal pouches Tail

42. Section 15.1 Summary – pages 393-403 It is the ______ features in the young embryos that suggest evolution from a distant, common ancestor. Fish ReptileBird Pharyngeal pouches Pharyngeal pouches Tail Mammal

43. Section 15.1 Summary – pages 393-403 __________ also provides strong evidence for evolution. Nearly all organisms share ___, ___, and many ________ among their biochemical molecules.

44. Section 15.1 Summary – pages 393-403 One enzyme, ____________, occurs in organisms as diverse as ________ and bison. ________ compared the differences that exist among species in the amino acid sequence of cytochrome c.

45. Section 15.1 Summary – pages 393-403 The data show the number of ______ ____ substitutions in the amino acid sequences for the different organisms. Biochemical Similarities of Organisms Comparison of Organisms Percent Substitutions of Amino Acids in Cytochrome c Residues Two orders of mammals Birds vs. mammals Amphibians vs. birds Fish vs. land vertebrates Insects vs. vertebrates Algae vs. animals 5 and 10 8-12 14-18 18-22 27-34

46. Section 15.1 Summary – pages 393-403 _________ that are biochemically similar have fewer differences in their amino acid sequences. Biochemical Similarities of Organisms Comparison of Organisms Percent Substitutions of Amino Acids in Cytochrome c Residues Two orders of mammals Birds vs. mammals Amphibians vs. birds Fish vs. land vertebrates Insects vs. vertebrates 5 and 10 8-12 14-18 18-22 27-34

47. Section 15.1 Summary – pages 393-403 Since Darwin’s time, scientists have constructed evolutionary ______ that show levels of relationships among species. In the 1970s, some biologists began to use RNA and DNA ________ sequences to construct evolutionary diagrams.

48. Section 15.1 Summary – pages 393-403 Today, scientists combine data from ______, comparative ______, embryology, and ____________ in order to interpret the evolutionary relationships among species.

49. 15.2 Section Objectives – page 404 Section Objectives 15.2 Relate changes in genetic equilibrium to mechanisms of speciation. Summarize the effects of the different types of natural selections on gene pools. Explain the role of natural selection in convergent and divergent evolution.

50. Section 15.2 Summary– pages 404-413 Since Darwin’s time, scientists have learned a great deal about genes and modified ___________ ideas accordingly. The principles of today’s modern theory of evolution are rooted in ________ genetics and other related fields of study and are expressed in genetic terms.

51. Section 15.2 Summary– pages 404-413 _____ determine most of an individual’s features, such as tooth _____ or flower ____. If an organism has a feature—called a ________ in genetic terms—that is poorly _______ to its environment, the organism may be unable to _______ and reproduce. However, within its _______, it cannot evolve a new phenotype by natural selection in response to its environment.

52. Section 15.2 Summary– pages 404-413 Natural selection acts on the range of _________ in a population. Each member has the genes that characterize the _____ of the species, and these genes exist as pairs of ______. Evolution occurs as a population’s genes and their frequencies change over time.

53. Section 15.2 Summary– pages 404-413 How can a population’s genes change over time? Picture all of the alleles of the population’s genes as being together in a large pool called a ____ _____. The ________ of any specific allele in the gene pool is called the ______ frequency.

54. Section 15.2 Summary– pages 404-413 They refer to a _________ in which the frequency of alleles remains the same over generations as being in genetic __________.

55. Section 15.2 Summary– pages 404-413 Look at the population of snapdragons. RR Phenotype frequency Allele frequency First generation Second generation White = 0 R’ = 0.75 Pink = 0.5 Red = 0.5 R = 0.25 Phenotype frequency Allele frequency White = 0.125 Pink = 0.25 Red = 0.625 R = 0.75 R’ = 0.25 RR R  R

56. Section 15.2 Summary– pages 404-413 A pattern of heredity called __________ _________ governs flower color in snapdragons. The population of snapdragons is in genetic _________ when the frequency of its alleles for flower color is the same in all its generations.

57. Section 15.2 Summary– pages 404-413 A population that is in genetic equilibrium is not _________. Any ______ that affects the genes in the gene pool can change allelic frequencies, disrupting a population’s genetic equilibrium, which results in the process of evolution.

58. Section 15.2 Summary– pages 404-413 One mechanism for genetic change is _________. Environmental factors, such as _______ or ________, cause many mutations, but other mutations occur by _______.

59. Section 15.2 Summary– pages 404-413 However, occasionally, a ________ results in a useful variation, and the new gene becomes part of the population’s gene pool by the process of ________ selection. Many are _______.

60. Section 15.2 Summary– pages 404-413 Genetic drift can greatly affect ____ populations that include the descendants of a small number of organisms. Another mechanism that disrupts a population’s genetic equilibrium is ____ ___—the alteration of allelic frequencies by chance events.

61. Section 15.2 Summary– pages 404-413 Genetic equilibrium is also disrupted by the movement of individuals __ and ____ of a population. Genetic drift has been observed in some small human populations that have become ______ due to reasons such as ______ practices and _____ systems.

62. Section 15.2 Summary– pages 404-413 When an individual leaves a population, its genes are ____ from the gene pool. The transport of genes by migrating individuals is called ____ ____. When individuals enter a population, their genes are _____ to the pool.

63. Section 15.2 Summary– pages 404-413 There are _____ different types of natural selection that act on variation: ________, __________, and ____________. Some variations _____ or ________ an organism’s chance of survival in an environment.

64. Section 15.2 Summary– pages 404-413 Stabilizing selection is a natural selection that favors ______ individuals in a population. Selection for average size spiders Normal variation

65. Section 15.2 Summary– pages 404-413 Directional selection occurs when natural selection favors one of the ________ variations of a trait. Normal variation Selection for longer beaks

66. Section 15.2 Summary– pages 404-413 In disruptive selection, individuals with either ______ of a trait’s variation are selected for. Selection for light limpets Normal variation Selection for dark limpets

67. Section 15.2 Summary– pages 404-413 Natural selection can significantly alter the ______ equilibrium of a population’s gene pool over time. Significant changes in the gene pool could lead to the evolution of a ___ species over time.

68. Section 15.2 Summary– pages 404-413 Recall that a species is defined as a group of organisms that look alike and can interbreed to produce ______ offspring in nature. The evolution of new species, a process called _________ (spee shee AY shun), occurs when members of similar populations no longer ________ to produce fertile offspring within their natural environment.

69. Section 15.2 Summary– pages 404-413 In nature, ______ barriers can break large populations into smaller ones. ___________ isolation occurs whenever a physical barrier divides a population. A new ______ can evolve when a population has been geographically isolated.

70. Section 15.2 Summary– pages 404-413 When geographic isolation divides a population of tree frogs, the individuals no longer ___ across populations. Tree frogs are a single population.

71. Section 15.2 Summary– pages 404-413 The formation of ______ may divide the frogs into two populations.

72. Section 15.2 Summary– pages 404-413 Over time, the divided populations may become two species that may no longer interbreed, even if ________.

73. Section 15.2 Summary– pages 404-413 As populations become increasingly ______, reproductive isolation can arise. _________________ occurs when formerly interbreeding organisms can no longer mate and produce fertile offspring.

74. Section 15.2 Summary– pages 404-413 There are different ______ of reproductive isolation. One type occurs when the genetic material of the populations becomes so different that __________ cannot occur. Another type of reproductive isolation is _________.

75. Section 15.2 Summary– pages 404-413 Scientists once argued that ________ occurs at a slow, steady rate, with small, adaptive changes gradually accumulating over time in populations. _________ is the idea that species originate through a gradual change of adaptations. Some evidence from the ______ ______ supports gradualism.

76. Section 15.2 Summary– pages 404-413 In 1972, Niles ________ and Stephen J. _____ proposed a different hypothesis known as ___________ ____________. This hypothesis argues that __________ occurs relatively quickly, in _____ bursts, with ____ periods of genetic equilibrium in between.

77. Section 15.2 Summary– pages 404-413 Loxodonta africana Elephas maximus Mammuthus primigenius Mammuthus Elephas Loxodonta Primelephas about 55 million years ago Ancestral species 6 5 4 3 2 1 0 Millions of Years Ago

78. Section 15.2 Summary– pages 404-413 According to this __________, environmental changes, such as higher temperatures or the introduction of a ___________ species, lead to rapid changes in a small population’s gene pool that is reproductively isolated from the main population.

79. Section 15.2 Summary– pages 404-413 ________ generally agree that both gradualism and punctuated equilibrium can result in __________, depending on the circumstances.

80. Section 15.2 Summary– pages 404-413 Biologists have observed different _______ of evolution that occur throughout the world in different natural environments. These patterns support the idea that natural selection is an important _____ for evolution.

81. Section 15.2 Summary– pages 404-413 When an _________ species evolves into an array of species to fit a number of diverse habitats, the result is called _________ __________.

82. Section 15.2 Summary– pages 404-413 Adaptive radiation in both plants and animals has occurred and continues to occur throughout the world and is common on ______. Adaptive radiation is a type of _______ evolution, the pattern of evolution in which species that were once similar to an ancestral species diverge, or become increasingly _______.

83. Section 15.2 Summary– pages 404-413 Possible Ancestral Lasan finch Amakihi Extinct mamo Crested honeycreeper Akialoa Akepa Akiapolaau Liwi Maui parrotbill Apapane Ou Grosbeak finch Palila Akikiki Niihau Kauai Oahu Lanai Molokai Maui Kahoolawe Hawaii

84. Section 15.2 Summary– pages 404-413 __________ evolution occurs when populations change as they adapt to different environmental conditions, eventually resulting in new species.

85. Section 15.2 Summary– pages 404-413 A pattern of evolution in which distantly related organisms evolve similar traits is called ___________ evolution. Convergent evolution occurs when _______ species occupy similar environments in different parts of the world.