2. Frameworks and birds: example Explain how evolution is demonstrated by evidence from the fossil record, comparative anatomy, genetics, molecular biology, and examples of natural selection. (HS 5.1) Give examples of ways in which genetic variation and environmental factors are causes of evolution and the diversity of organisms. (MS 1)

5. Certrhidea fusca

6. Geospiza scandens

7. G. magnirostris

8. G. fortis

9. G. fulignosa

14. Frameworks and birds: example Explain how evolution is demonstrated by evidence from the fossil record, comparative anatomy, genetics, molecular biology, and examples of natural selection. (HS 5.1) (see also 5.2) Recognize that evidence drawn from geology, fossils, and comparative anatomy provides the basis of the theory of evolution. (MS 2)

17. Compsognathus

20. Microraptor gui

22. Frameworks and birds: example Explain how evolution through natural selection can result in changes in biodiversity through the increase or decrease of genetic diversity within a population. (HS 5.3) Give examples of ways in which organisms interact and have different functions within an ecosystem that enable the ecosystem to survive. (MS 4)

26. Lift is proportional to: 1)area of airfoil 2)square of airspeed

31. pallid swift

33. Broad-winged and sharp-shinned hawks

35. Frameworks and birds: example Analyze changes in population size and biodiversity (speciation and extinction) that result from the following: natural causes, changes in climate, human activity, and the introduction of invasive, non-native species. ( HS 6.2 ) Relate the extinction of species to a mismatch of adaptation and the environment. (MS 3)

36. NYC 1851

37. NYC 1890

38. french settlers 1600s

40. Aepyornis

44. 2007 282

46. 12/06 231 Aransas, 53 FL, 83 FL/WI, 131 captive

48. Frameworks and birds: example Ecology Central Concept: Ecology is the interaction among organisms and between organisms and their environment. (HS 6)

60. Scientific inquiry skills Make observations, raise questions, and formulate hypotheses.

61. Scientific inquiry skills Make observations, raise questions, and formulate hypotheses. Design and conduct scientific investigations.

62. Scientific inquiry skills Make observations, raise questions, and formulate hypotheses. Design and conduct scientific investigations. Analyze and interpret results of scientific investigations

63. Scientific inquiry skills Make observations, raise questions, and formulate hypotheses. Design and conduct scientific investigations. Analyze and interpret results of scientific investigations. Communicate and apply the results of scientific investigations.

64. Prelude to inquiry 1.What do scientists do?

65. Prelude to inquiry 1.What do scientists do? 2.Observation

66. Observation, question, hypothesis What is a hypothesis?

67. Observation, question, hypothesis What is a hypothesis? What do I wonder?

68. Observation, question, hypothesis What is a hypothesis? What do I wonder? –What do I already know?

69. Observation, question, hypothesis What is a hypothesis? What do I wonder? –What do I already know? How do I turn my question into a hypothesis?

70. Testing the hypothesis What predictions does my hypothesis make?

71. Testing the hypothesis What predictions does my hypothesis make? What experiment would test the prediction(s)?

72. Testing the hypothesis What predictions does my hypothesis make? What experiment would test the prediction(s)? –independent variable –dependent variable –controlled variables

73. Testing the hypothesis What predictions does my hypothesis make? What experiment would test the prediction(s)? How will I know if my hypothesis was supported?

74. Analyze and interpret results graphs quantitative comparison (simple statistics) identify sources of measurement error use of software

75. Communicate and explain results written report poster session talk with visual aids

76. Citizen science google "Cornell citizen science"