Evolution Lab Write-Up
Evolution Lab
A.
1.
a. The default value of 20 cm of rainfall is relatively low compared the range that the island may receive, which is anywhere between 0 cm to 100 cm.
b. From an average of 20 cm of rainfall I would expect more hard seeds to be produced.
2.
a. The beak size of 12 mm is relatively shallow compared to the available range from 10 mm to 30 mm.
b. The shallow beak size of 12 mm is not suited for the hard seeds that are available because of the low rainfall of 20 cm.
3. The beak size went up on the islands as time progressed because only hard seeds were available to the finches. Therefore the average beak size increased over time because the trait of larger more deep beaks were more suitable for survival in the given environment. As more finches with larger beaks more easily reproduced under the given conditions, the larger beak trait would be more likely to be passed down to the next generation.
4. The population reaches a maximum value because of the clutch size and island size. The population of finches is limited to the number of eggs that can be produced (clutch size), and the carrying capacity of the island (island size).
B.
1.
a.
b. Beak size increases more rapidly on Wallace compared to Darwin because the precipitation for Wallace is 5 cm compared to 20 cm for Darwin. Therefore the trait for larger beaks in the Wallace community is favored to reproduce over those with shorter beaks, and over time the heritability of this trait is seen in the offspring of the large beaked Wallaces.
c. Wallace shows an initial population dip because the shorter beaked Wallaces had traits that were not suitable for the low precipitation and harder seeds. Therefore the population decreased because the short beaked Wallaces were not able to produce as well. Then once the population of shorter beaked Wallaces decreased there were less of the short beaked traits to make with larger beaked Wallaces, therefore the
A.
1.
a. The default value of 20 cm of rainfall is relatively low compared the range that the island may receive, which is anywhere between 0 cm to 100 cm.
b. From an average of 20 cm of rainfall I would expect more hard seeds to be produced.
2.
a. The beak size of 12 mm is relatively shallow compared to the available range from 10 mm to 30 mm.
b. The shallow beak size of 12 mm is not suited for the hard seeds that are available because of the low rainfall of 20 cm.
3. The beak size went up on the islands as time progressed because only hard seeds were available to the finches. Therefore the average beak size increased over time because the trait of larger more deep beaks were more suitable for survival in the given environment. As more finches with larger beaks more easily reproduced under the given conditions, the larger beak trait would be more likely to be passed down to the next generation.
4. The population reaches a maximum value because of the clutch size and island size. The population of finches is limited to the number of eggs that can be produced (clutch size), and the carrying capacity of the island (island size).
B.
1.
a.
b. Beak size increases more rapidly on Wallace compared to Darwin because the precipitation for Wallace is 5 cm compared to 20 cm for Darwin. Therefore the trait for larger beaks in the Wallace community is favored to reproduce over those with shorter beaks, and over time the heritability of this trait is seen in the offspring of the large beaked Wallaces.
c. Wallace shows an initial population dip because the shorter beaked Wallaces had traits that were not suitable for the low precipitation and harder seeds. Therefore the population decreased because the short beaked Wallaces were not able to produce as well. Then once the population of shorter beaked Wallaces decreased there were less of the short beaked traits to make with larger beaked Wallaces, therefore the