Name: ______Period: ______
Evidence for Evolution
Background:
Darwin’s theory depended on assumptions that involved many scientific fields. Scientists in some fields, including geology, physics, paleontology, chemistry, and embryology, did not have the technology or understanding to test Darwin’s assumptions during his lifetime. Other fields, like genetics and molecular biology, didn’t exist yet! In the 150 years since Darwin published On the Origin of Species, discoveries in all of these fields have served as independent tests that could have supported or refuted Darwin’s work. Astonishingly, every scientific test has supported Darwin’s basic ideas about evolution. In this activity, you will experience these tests for yourself.
Part 1: Direct Observation
Antibiotic Resistance:
Go through the tutorial and answer the following questions:
Prequiz – score ______/ 3
Post quiz – score ______/ 4
1. Describe how the case study of antibiotic resistance in Mycobacterium tuberculosis is an example of evolution by natural selection.
2. What environmental factors promote natural selection of antibiotic resistance in bacterial populations?
3. Why are antibiotic resistant bacteria a problem to people in society?
Sex & the Single Guppy:
1. If being flashy and colorful attracts predators, why do you think guppies are so colorful?
2. View the guppy’s habitats. What habitat conditions would affect the predator populations?
3. For each of the three stream areas, describe the guppy coloration:
Pool 1:
Pool 2:
Pool 3:
4. Develop your own hypothesis about guppy coloration. The hypothesis should answer the questions: Why do guppies in different areas of the stream have difference in coloration? (You can choose from the list on the simulation, or make up your own)
5. Run the simulation and record the data in the table below.
% of Brightest Guppies (8 generations) / % of Bright Guppies (8 generations) / % of Drab Guppies (8 generations) / % of Drabbest Guppies (8 generations)Trial 1
Guppy: Even Mix
Predators: 30 Rivulus
Trial 2
Guppy: Even Mix
Predators: 30 Rivulus, 30 Acara
Trial 3
Guppy: Even Mix
Predators: 30 Rivulus, 30 Acara, 30 Cichlid
Trial 4
Guppy: Mostly Bright
Predators: 30 Rivulus
Trial 5
Guppy: Mostly Bright
Predators: 30 Rivulus, 30 Acara, 30 Cichlid
6. Describe how predators influence guppy coloration.
7. Was your hypothesis correct? Use your data to justify your answer.
8. What does it mean that “male guppies live in a crossfire between their enemies and theirwould be mates”?
9. Why do you think guppies in different areas of the stream have different coloration?
10. What would happen to mostly drab guppies that were placed in a stream with very few predators?
11. What would happen to brightly colored guppies that were placed in a stream with many predators?
Part 2: Biogeography & Fossil Record
Read pages 468-469 in the Biology textbook. Answer the Review Key Concepts questions 1-2 (on p. 473) in the space below.
1.
2.
Biogeography:
1. Make a list of the new vocabulary and people’s names as you read.
1. The name Biogeography is an appropriate name for this area of science. Explain in your own words what biogeography means.
2. According to Wallace and his colleagues, what would explain the evolution of similar but geographically separate species such as the emu, ostrich, and rhea?
Fossil Record:
1. Identify the importance of fossils as evidence of evolution.
2. In what type of rock do we find fossils in? Why is that possible?
3. Compare the differences of the following fossils:
Imprint (Impression) fossils:
Mineralization fossils:
Molds / Casts:
Frozen fossils:
Fossils in amber:
Fossils in tar pits:
4. What is:
an index fossil
stratigraphy?
radioisotope dating?
Part 3: Comparative Anatomy (Homologous & Vestigial Structures, Embryological Development)
Read pages 465-471 in the Biology textbook. Answer the Review Key Concepts question 3-4 in the space below.
3.
4.
Homology & Analogy:
1. Define homology:
Define analogy:
In the image, which pair represents an analogy and which a homology?
2. What is a tetrapod?
3. What are the six bones found in all tetrapod legs?
4. Identify these limbs, to what animal do they belong?
5. What did the common ancestor of all modern tetrapods look like?
6. Side Trip: "not just anatomy." - How are a bird and a crocodile homologous?
7. Similar structures that evolved independently are called ______.
8. a) What is the difference between a marsupial and a placental?
b) What is Smilodon?
c) What is Thylacosmilus?
9. Describe how two unrelated flowers could evolve to have a similar appearance.
10. Are similarities between sharks and dolphins homologous or analogous? Explain.
11. What is morphology?
12. What three criteria are used to determine whether something is a homology or analogy?
13. Fill in the blanks of the primate tree.
14. Considering all of the evidence, are the "wings" (actually flaps of skin stretched between the legs) of sugar gliders and flying squirrels homologous or analogous structures? Explain why you would conclude this.
15. Sidetrip: See more examples of homology and examples of analogy.
a) How are a Venus fly trap and a pitcher plant homologous?
b) What is unique about bowerbirds?
c) What does the Pax - 6 gene do?
d) What plant gave rise to cauliflower and broccoli?
e) The bones of the ears in mammals are homologous to what in lizards?
Vestigial Structures:
1. What is a vestigial structure?
2. What do vestigial structures tell us about evolution and ancestry?
3. Summarize 2 examples of human vestigial structures. Suggest a former function of each example.
Embryological Development:
Make a prediction: Do you think other organisms will have a similar embryologic development as humans? Explain your reasoning.
For each of the embryos shown, try to guess which organism it will become.
1. Embryo 1 –
a. What was your first prediction? ______were you correct? ______
b. Watch the development of the embryo. On which day does the embryo begin to look different from other embryos? ______
2. Embryo 2
a. What was your first prediction? ______were you correct? ______
b. Watch the development of the embryo. On which day does the embryo begin to look different from other embryos? ______
3. Embryo 3
a. What was your first prediction? ______were you correct? ______
b. Watch the development of the embryo. On which day does the embryo begin to look different from other embryos? ______
4. Embryo 4
a. What was your first prediction? ______were you correct? ______
b. Watch the development of the embryo. On which day does the embryo begin to look different from other embryos? ______
5. Was your prediction at the beginning of this activity correct? Explain your answer. Use at least one observation that you made during this activity to support your answer.
1. What is an embryo? (Use the human biology definition.)
2. Use the image above and list two similar features that are seen in the early stages of embryonic development.
(a) ______(b) ______
3. What did the gill slits in a fish embryo develop in to?
4. How do similarities in developing embryos provide evidence of evolution?
Part 4: Genetics & Molecular Biology
Video clip:
1. What happened when researcher Paul Nurse added human DNA to mutant yeast cells?
2. What does this indicate about the evolutionary relationship between humans and yeast?
1. What is biochemistry?
2. List two types of molecules that can be used to show an evolutionary relationship. What is their function?
3. How was it determined that monkeys and cows are more closely related than monkeys and fish?
4. The table above shows the number of differences in the amino acid sequences of different organisms compared to humans. What is an amino acid? What molecule is built of amino acids?
5. According to the table, which organism is most closely related to the human? Which organism is the most distant relative of the human? How do you know?