Download Chapter 22 Guided Reading Notes and the MUST

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Chapter 22-26 Key Concepts
AP BIG IDEA 1 EVOLUTION
Descent with Modification
Chapter 22 Guided Reading Notes and the MUST SEE
“Crash Course: Biology” Videos:
Natural Selection: Biology #14
Videos By Paul Anderson: Bozeman videos #1 Natural Selection, #2 Examples of Natural Selection and #4
Evidence for evolution
“Natural Selection” and “Examples of Natural Selection”
Questions:
Concept 22.1: The Darwinian revolution challenged traditional views of a young Earth inhabited by unchanging species
1. Devine evolution
2. Darwin studied fossils and saw that some organisms appeared while others disappeared and used that as
support for evolution. How did the following two principles vary from that of Darwin’s?
a. Catastrophism
b. Uniformitarianism
3. How did Lamarck approach the idea of inherited traits? Explain.
4. Explain how the work of the following folks contributed to the development of the Theory of Natural Selection”
a. Thomas Malthus
b. Georges Cuvier
c. Charles Lyell
5. Explain how evolution as it was conceived of by Jean-Baptiste Lamarck differs from Natural Selection.
6. Draw a diagram illustrating the process of natural selection. Make sure your diagram includes all of the following
features:
a. Overproduction of offspring
b. variation among individuals
c. limited resources
d. competition
e. differential reproductive success (“fitness”)
f. adaptation
7. Explain how each of the following demonstrate Darwinian selection. For each, indicate the source of selection,
the criteria that determines fitness in the environment, and the end result of the selective process:
a. Artificial selection
b. Galapagos finches
c. The evolution of resistance in a population of insects or bacteria (you pick).
8. How has modern science refined our understanding of evolution since Darwin/Wallace’s publication?
Concept 22.2: Descent with modification by natural selection explains the adaptations of organisms and the unity and
diversity of life.
9. Define:
a. Adaptation
b. Natural selection
c. Descent with modification
d. Artificial selection
10. Summarize Darwin’s observations and inferences (page 458).
11. Summarize natural selection into three main points (page 459).
Concept 22.3: Evolution is supported by an overwhelming amount of scientific evidence
Modified from Tricia Peterson and David Knuffke
12. Explain how color pattern in guppies supports the idea of natural selection.
13. Summarize how pathogens become resistant to drugs. What impact does that have on humans and disease
treatment?
14. How do fossils provide support for evolution?
15. What is homology?
a. Define homologous structures
b. Define vestigial structures
c. Describe convergent evolution
16. Biogeogeography – what is meant by this type of evidence? How does is support the theory of evolution?
Testing your Knowledge. Self Quiz.
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The Evolution of Populations
Chapter 23 Guided Reading Notes and the MUST SEE
Bozeman videos #3 Genetic Drift and #9 Evolution Continues
Supplemental videos - Solving Hardy-Weinberg problems, Hardy-Weinberg Punnett Square
Concept 23.1: Mutation and sexual reproduction produce the genetic variation that makes evolution possible
1. Explain the variation within a population in terms of discrete and quantitative characters as well as average
heterozygosity.
2. Explain the variation between populations in terms of geographic variation.
3. What is the main source of new genes?
4. How do mutation rates vary among different organisms?
5. How does sexual reproduction impact genetic variation?
Concept 23.2: The Hardy-Weinberg equation can be used to test whether a population is evolving
6. Describe the Hardy-Weinberg principle
7. Describe what is meant by Hardy-Weinberg equilibrium
8. Write the equation for Hardy-Weinberg equilibrium and label each variable.
9. Describe the 5 conditions to Hardy-Weinberg equilibrium?
a. No mutation
b. Random mating
c. No natural selection
d. Extremely large population size
e. No gene flow
10. How is the Hardy-Weinberg principle applied to PKU?
Concept 23.3: Natural selection, genetic drift, and gene flow can alter allele frequencies in a population
11. Explain what genetic drift means
12. Explain what genetic drift means in terms of
a. The founder effect
b. The bottleneck effect
13. What are the four key points that can summarize genetic drift (page 478).
14. What is meant by the term “gene flow”?
Concept 23.4: Natural selection is the only mechanism that consistently causes adaptive evolution
15. Be able to explain and identify examples of the following terms:
Terms
Relative fitness
Modified from Tricia Peterson and David Knuffke
Description
Example or Graph
Illustration
Directional selection
Disruptive selection
Stabilizing selection
Sexual selection (dimorphisms, inter and
intrasexual selection)
Diploidy
Heterozygote advantage
Frequency dependent selection
Neutral variation
16. What are the four major constraints to evolution of a perfect organism?
Testing your Knowledge. Self Quiz.
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Modified from Tricia Peterson and David Knuffke
The Origin of Species
Chapter 24 Guided Reading Notes and the MUST SEE
Bozeman video #8 Speciation
Concept 24.1: The biological species concept emphasizes reproduction isolation
1. Define:
a. Speciation
b. Macroevolution
c. Microevolution
2. Explain what reproduction isolation is in terms of Prezygotic barriers Postzygotic barriers in the following table.
Reproductive
Barriers
Prezygotic Barriers – impede mating or fertilization if mating
does occur
Postzygotic Barriers – prevent hybrid
zygotes to be fertile adults
Types of
Barriers
Habitat
Isolation
Reduced
Hybrid
Viability
Temporal
Isolation
Behavioral
Isolation
Mechanism
Isolation
Gamete
Isolation
Reduced
Hybrid
Fertility
Description
of Barrier
Example
3. Explain other definitions of a species
a. Morphological species
b. Ecological species
c. Phylogenetic species
Concept 24.2: Speciation can take place with or without geographic separation
4. What is allopatric speciation?
a. What is the process for this type of speciation?
b. What is the evidence that supports this type of speciation?
5. What is sympatric speciation?
a. Explain polyploidy in terms of speciation
b. Explain how sympatric speciation can occur as a result of
i. Habitat differentiation
ii. Sexual selection
Concept 24.3: Hybrid zones provide opportunities to study factors that cause reproductive isolation
6. What is a hybrid zone and how can these areas impact gene flow and speciation?
Concept 24.4: Speciation can occur rapidly or slowly and can result from changes in few or many genes
7. What is punctuated equilibria?
8. How can speciation differ between types of organisms?
9. What can affect the rate of speciation?
10. How can speciation lead to macroevolution?
Testing your Knowledge. Self Quiz.
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Modified from Tricia Peterson and David Knuffke
Hybrid
Breakdown
The History of Life on Earth
Chapter 25 Guided Reading Notes and the MUST SEE
Bozeman videos #10 Abiogenesis and #11 The origin of life – scientific evidence
Supplemental video – Stickleback evolution
Concept 25.1: Conditions on early Earth made the origin of life possible
1. Summarize the experiments and significance of the experiments done by Miller and Urey.
2. What are protobionts?
3. What are ribozymes?
Concept 25.2: The fossil record documents the history of life
4. Explain how fossils are dated by radiometric dating and analyzing the half-life of isotopes.
5. Know that fossils provide are a great representation of how groups of organisms change over time.
Concept 25.3: Key events in life’s history include the origins of single celled and multi-celled organisms and the
colonization of land
6. What are stromatolites?
7. What is the “oxygen revolution” and what impacts did it have on life?
8. Explain the endosymbiosis theory.
9. What occurred during the Cambrian explosion?
10. How did organisms start to colonize land?
Concept 25.4: The rise and fall of dominant groups reflect continental drift, mass extinctions and adaptive radiation
11. What are the consequences of continental drift?
12. Have a general idea about the 5 mass extinctions. How they occurred and what the consequences are.
13. What are adaptive radiations?
a. Compare and contrast worldwide to regional adaptive radiation, providing examples.
Concept 25.5: Major changes in body form can result from changes in the sequences and regulation of developmental
genes
14. Define heterochrony
15. Understand the general function of homeatic genes.
16. How do changes in genes and gene regulation impact organism? Use the stickleback as an example.
Concept 25.6: Evolution is not goal oriented
17. Explain the evolution of the eye.
18. Explain evolutionary trends, as seen in the branched pattern of horses.
Testing your Knowledge. Self Quiz.
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Phylogeny and the Tree of Life
Chapter 26 Guided Reading Notes and the MUST SEE
Bozeman video #6 Phylogenetics
Concept 26.1: Phylogenies show evolutionary relationships
1. Review taxonomy, binomial nomenclature and the hierarchical classification system.
2. Review what phylogenetic trees are, what they indicate and how they are used.
3. Be able to answer the 26.1 checkpoint question #3.
Concept 26.2: Phylogenies are inferred from morphological and molecular data
Modified from Tricia Peterson and David Knuffke
4. What are analogous structures?
5. How and why do scientists differentiate between the two types of characteristics?
6. What is molecular systematics, how is it used and why is it important?
Concept 26.3: Shared characters are used to construct phylogenetic trees
7. What is cladistics?
8. Know the following terms: clade, monophyletic, paraphyletic, polyphyletic
9. Distinguish between a shared ancestral character and a shred derived character.
10. What does the branch length on a phylogenetic tree indicate?
11. How is DNA used to predict/determine what a phylogenetic tree looks like?
12. Why and how are phylogenetic trees used as hypothesizes?
Concept 26.4: An organism’s evolutionary history is documented in its genome
13. How are genes and proteins used to document evolutionary change and evolutionary relationships?
Concept 26.5: Molecular clocks help track evolutionary time
14. Explain the concept of a molecular clock.
15. What, if any, are limitations to the molecular clock concept?
16. Summarize the application of a molecular clock to determine the origin of HIV.
Concept 26.6: New information continues to revise our understanding of the tree of life
17. How and why the tree of life been revised?
Testing your Knowledge. Self Quiz.
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Modified from Tricia Peterson and David Knuffke
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