Suppose a certain species of insect lives in the lush green canopy of the rain forest. Some of the insects are bright green in color, and some are bright yellow. Assume there is a natural predator of the insect in the area. What do you expect to happen to the populations of the green and the yellow insects over time?  A. The green insect population will increase and the yellow insect population will decrease.  B. The green insect population will decrease and the yellow insect population will increase.  C. Both insect populations will remain constant over time.  D. Both insect populations will increase over time.

Natural selection can operate on predator populations as well as on prey. Suppose that over time trees became covered in lichen and the proportion of light moths increased to nearly 100%. What is the most likely consequence for predator populations?  A. Bird populations will decrease, at least for a while.  B. Over time, birds with better eyesight will become more common.  C. Birds may change hunting strategies or seek other sources of food.  D. All of the above.

Which of the following statements best describes what will most likely occur to the moth populations in the image below?  A. The light moths will be captured by predators more easily than the dark moths, and the population of dark moths will rise.  B. The light moths will be captured by predators more easily than the dark moths, and the population of light moths will rise.  C. The dark moths will be captured by predators more easily than the light moths, and the dark moths will probably go extinct.  D. The light moths will change their wing color to match that of the dark moths.

What change is likely to occur in a population of beetles that suddenly faces predation from an invasive species of frogs? A. The beetles' survivorship curve will change type. B. The beetles' minimal viable population will decrease. C. The carrying capacity of beetles will increase. D. The population density of beetles will decrease.

In a population of beetles, there are two color morphs: green and brown. The green beetles are more easily seen by predators on the forest floor, while the brown beetles blend in with the environment. Over several generations, the proportion of brown beetles in the population increases, while the proportion of green beetles decreases.Question 10Answera.Natural Selectionb.Genetic Driftc.Gene Flowd.Mutation

The pair of population graphs below display the results of two different five-year hunting cycles, one on light trees and one on dark trees. The population of light-colored moths is shown by the light gray dots, and the population of dark moths is shown by the dark gray dots. How do these results demonstrate natural selection?  A. The moth populations shown here demonstrate random fluctuations over time that are not explained by tree color.  B. On light trees, individual moths tried to become lighter in color to match the tree background. On dark trees, individual moths tried to become darker in color.  C. The moths that were the same color as their background were more likely to survive and reproduce. Over time, the populations of these well-adapted moths increased.  D. Small particles of tree bark became embedded in the moth’s wings, causing the moths to become darker on the dark trees and lighter on the light trees. These acquired traits were then passed down to the next generation of moths, causing the populations to change color over time.