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Evolution occurs in a population of organisms when there is genetic change from one generation to the next. Evolution is genetic change over time. Realize

Evolution occurs in a population of organisms when there is genetic change from one generation to the next. Evolution is genetic change over time. Realize that evolution occurs in populations, not in individual organisms. Individuals stay the same genetically throughout their lives, populations can change. Within evolution we recognize micro-evolution and macro-evolution. Micro-evolution is change in allele frequencies over generations of a population of one species. It means that certain alleles, and therefore certain traits, become more (or less) abundant over generations. The species itself does not change, just one or more of its traits become more or less abundant within the population. For example, consider a population of a plant species with many red flowers and some blue flowers. Assume that over generations the population shows an increase in blue flowers and a decrease in red flowers. That change is considered micro-evolution. Macro-evolution is a real change in kinds of organisms, the appearance of new species. The accumulation of many micro-evolutionary events can lead to new species (gradual speciation). However, macro-evolution can also be the result of genetic changes that take place over a short amount of time. The more we learn about how genes work and interact, the more we begin to understand the many intricacies of the evolutionary process. See your textbook for more details on this. When we speak of or read about evolution, we in most cases are referring to macro-evolution (the appearance of new species, or speciation). Todays lab is an illustration of micro-evolution. The Exercise 1. Form groups of two students. Each group will manage an environment, or habitat, occupied by a species of rabbits that are preyed upon by hawks. 2. Many different environments are present on our earth. In this exercise, the environment is represented by the patch of cloth given to you by your instructor. Spread it out on the table. 6 - 2 3. The land is colonized by a single species of rabbits that is present in 4 different varieties. Count out 25 each of the four color varieties of beans and spread them out randomly over your environment. It is important to remember that the beans represent individuals of the same rabbit species. The different colors of the beans are different varieties of that species. Your four bean types do not represent four different species. Keep this in mind throughout the activity! Now look at your colonized environment. If predators like hawks were introduced which variety of rabbits do you think would do best, and why? This is your hypothesis: write down your hypothesis. 4. Predators, hawks, are introduced into the environment. Both students are going to be the predators. When you are told to begin, you will simultaneously begin "to hunt and eat". To do this, you need to turn your head away from the environment (or close your eyes), then look back and pick up the first bean you set eyes on. (So you cannot decide ahead of time which bean you will take. Also: dont take beans with your eyes closed). Put the bean you picked in the "prey" dish. Continue hunting until each student, predator, has removed 25 rabbits. Stop hunting after a total of 50 beans have been removed. 5. Count how many beans of each type are remaining and record the information on the data table provided. These survivors are fruitful and multiply. For each bean that remains, add another bean of the same color to your population and record the number of beans and their colors of the new generation in your data table. Now return the population to the environment and spread them out randomly over the environment. (How many beans in total should you have now?) 6. Repeat the procedures of steps 4 and 5 three more times (hunt three more times), for a total of 4 new generations. Don't forget to record your data!

Red

White

Black

Speckled

total

1st generation

Initial

25

25

25

25

100

Remaining

10

3

24

13

50

2nd generation

Initial

20

6

48

26

100

Remaining

8

0

36

6

50

3rd generation

Initial

16

0

72

12

100

Remaining

5

0

41

4

50

4th generation

Initial

10

0

82

8

100

Remaining

2

0

47

1

50

Question 1.

a. How would you simulate the founder effect using your bean populations? Answer:

b. How would you simulate the bottleneck effect using your bean populations? Answer:

c. How would you simulate gene flow using your bean populations? Answer:

Question 2. What would need to happen for macro-evolution to occur? How would you simulate that, using your bean populations?

Question 3.

a. Is this experiment an example of directional, stabilizing or disruptive selection? Answer:

b. How would you simulate the other two forms of selection using your bean populations? Answer:

Question 4. Describe how the concepts you investigated in the game apply to the real example.

Question 5. Relate your experience back to your predictions. What happened? Was this different from your prediction? If so, explain why.

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