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Name: ______________________________________ Date: _______________ Hour: _____
Unit 2 Evolution Review Sheet
Directions: Use your notes and homework to answer each of the following questions. If data is provided, then use the data to answer the question. All answers must be written in 1 or more complete sentences unless you are asked to graph, list, a question indicates a 1-word answer, or do math.
In this population the males will fight for access to certain water territories so they can reproduce with the females. Females are left alone as they are needed to produce offspring.
Table 1: Phenotype and Allele Frequency of Male Salmon
Generation
Frequency of phenotype of fish Frequency of surviving alleles
Large Male (AA)
Small Male (Aa)
Small Female Looking
Male (aa)
A a
1 0.25 0.50 0.25 0.50 0.5010 0.63 0.01 0.36 0.80 0.30
1. Graph the data on the axes below.a. Make a LINE GRAPH of the phenotype frequencies for generation 1 & generation 10. (6pts)
a. Summarize the graph by answering the following questions: (3pts)a) What is the selection pattern seen with the phenotype frequency?
_________________________b) What is the selection pressure on the fish? __________________________c) Explain how the graph illustrates that an organism with a heritable advantage will be more
prevalent in the environment than one that doesn’t have that trait.
1.0
.9
.8
.7
.6
.5
.4
.3
.2
.1
0
Frequency of Phenotype
Large Male Small Male Male that looks female
Key:
Name: ______________________________________ Date: _______________ Hour: _____
2. A population of Teddy Grahams has an allele frequency of 0.98 for the dominant allele. What are all allele and genotype frequencies for the population? If there are 10,000 Teddy Grahams in the population, then how many Teddy Grahams have each genotype? Please show all work below. (8pts)
1. p = ____________________2. q = ____________________3. p2 = ___________________4. 2pq = __________________5. q2 = ___________________
6. # of p2 (arms down) = _______________7. # of 2pq (arms down) = _______________8. # of q2 (arms up) = _________________
Name: ______________________________________ Date: _______________ Hour: _____
3. Draw a cladogram using the following data, and then answer the questions below using your cladogram.
The number of amino acid differences in cytochrome c among various organisms
Organism Human Chimpanzee Rhesus Monkey Lemur Cow
Human 0 2 14 18 26Chimpanzee 0 12 15 24
Rhesus Monkey 0 4 12Lemur 0 8Cow 0
Cladogram (2pts)
a. Which 2 organisms in the cladogram are the most closely related? Explain why using the numbers from the data table above. (2pts)
b. Which 2 organisms are the least closely related? Explain why using the numbers from the data table above. (2pts)
c. Where would a dog fit onto your cladogram? _____________________________ (1pt)a. You haven’t been given any cytochrome c information for the dog. Explain why you answered
the way that you did. (1pt)
Name: ______________________________________ Date: _______________ Hour: _____
Table 1: Year 1 of Study of 3 Lakes in Africa and the Number of 4 Fish Species
Environmental Condition(s) Number of individuals in each fish speciesSpecies 1 Species 2 Species 3 Species 4
Lake 1: Deep, algae at surface only, many larger predator fish (day and night), unpolluted 900 200 0 0
Lake 2: Shallow, algae throughout, few predator fish (but only during day), unpolluted 0 400 700 0
Lake 3: Medium depth, algae in ½ lake, some predator fish (but only at night), unpolluted 100 900 100 0
Table 2: Year 500 of Study of 3 Lakes in Africa and the Number of 4 Fish Species
Environmental Condition(s) Number of individuals in each fish speciesSpecies 1 Species 2 Species 3 Species 4
Lake 1: Deep, algae at surface only, many larger predator fish (day and night), unpolluted 900 200 0 0
Lake 2: Shallow, algae from medium depth to bottom, few predator fish (but only during day), some
pollution0 150 500 0
Lake 3: Medium depth, very small algae population, some predator fish (but only at night), very polluted 0 0 150 300
4. Which species of fish prefers the deepest water? _________________ (1pt)a. Use the numbers from the table to explain your answer. (1pt)
b. What environmental condition(s) lead to the emergence of species 4 during the 500 years of the study? (1pt)
c. What happened to species 1 in lake 3 during the 500 years of the study? (1pt)
d. Explain why this might have occurred. (1pt)
e. Based on the data in table 1, what do you think the primary selection pressure for species 2 is? __________________________ (1pt)
f. Use the numbers from the table to explain your answer. (1pt)
Name: ______________________________________ Date: _______________ Hour: _____
5. Above you will see two subspecies of spotted owls. Use the image to answer the following questions.
a. Based on the map above, what type of isolation are these owls most likely experiencing?
b. There are three different types of speciation that we have talked about. What type of speciation is this and how do you know?
c. The owl wing and the butterfly wing are both used for flight but have a different structure. What type of structure would this represent?
d. Based off of your answer to the question above, would you say butterflies and owls share a common ancestor? Explain how you know.