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Test: ACT Biology Research Summaries Questions - ACT MCQ


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Test: ACT Biology Research Summaries Questions - Question 1

Sleep plays a vital role in defining the daily activities of virtually all animals. During periods of sleep, the parasympathetic nervous system becomes active and induces a relaxed state in response to increased levels of the hormone melatonin. Yet, despite its ubiquity in the animal kingdom, the purpose of sleep and its role in our daily lives has been disputed by scientists. Two scientists discuss their theories about the purpose of sleep.

Scientist 1

During periods of sleep, animals are able to conserve energy that they would otherwise be spending on unnecessary activity. If an animal’s primary food source is most abundant during daylight, it is a waste of precious energy to be moving about at night. For example, many herbivores, such as squirrels, are diurnal (sleep during the night) because their food source is available during the day, while many insectivores, such as bats, are nocturnal (sleep during the day) because their food source is available during the night. Food sources, as an animal’s most valuable resource, dictate their sleep cycles. Many animal traits observable today evolved as a result of the supply and demand of food in their natural habitat.

Scientist 2

During waking hours, it is true that the body utilizes large amounts of energy. However, the role of sleep is to restore biological products that were utilized during periods of wakefulness, rather than simply avoid utilizing energy in the first place. Many types of biological molecules, such as hormones, are released throughout the body while an animal is active. Sleep serves as a period of inactivity during which the body can manufacture and store a supply of these molecules for future use during the next period of activity. Furthermore, sleep allows the body to repair cellular damages that has accumulated during waking hours. Experimental evidence shows that when animals are deprived of sleep, their immune system quickly weakens and death rates increase. Sleep is necessary for animals to prevent accumulation of damage and to regenerate crucial biomolecules for daily life.

Q. Which of the following, if true, would most support Scientist 2?

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 1

Scientist 2's theory states that "when animals are deprived of sleep, their immune system quickly weakens". Thus, when tigers are deprived of sleep, their immune systems would weaken and they would be likely to become sick.

The only other answer choice dealing with repairing damage and restoring the body is "Antelope that have been injured sleep less than those that are healthy". According to scientist 2, animals with more damage would likely sleep more to repair the damage, not less.

Test: ACT Biology Research Summaries Questions - Question 2

Sleep plays a vital role in defining the daily activities of virtually all animals. During periods of sleep, the parasympathetic nervous system becomes active and induces a relaxed state in response to increased levels of the hormone melatonin. Yet, despite its ubiquity in the animal kingdom, the purpose of sleep and its role in our daily lives has been disputed by scientists. Two scientists discuss their theories about the purpose of sleep.

Scientist 1

During periods of sleep, animals are able to conserve energy that they would otherwise be spending on unnecessary activity. If an animal’s primary food source is most abundant during daylight, it is a waste of precious energy to be moving about at night. For example, many herbivores, such as squirrels, are diurnal (sleep during the night) because their food source is available during the day, while many insectivores, such as bats, are nocturnal (sleep during the day) because their food source is available during the night. Food sources, as an animal’s most valuable resource, dictate their sleep cycles. Many animal traits observable today evolved as a result of the supply and demand of food in their natural habitat.

Scientist 2

During waking hours, it is true that the body utilizes large amounts of energy. However, the role of sleep is to restore biological products that were utilized during periods of wakefulness, rather than simply avoid utilizing energy in the first place. Many types of biological molecules, such as hormones, are released throughout the body while an animal is active. Sleep serves as a period of inactivity during which the body can manufacture and store a supply of these molecules for future use during the next period of activity. Furthermore, sleep allows the body to repair cellular damages that has accumulated during waking hours. Experimental evidence shows that when animals are deprived of sleep, their immune system quickly weakens and death rates increase. Sleep is necessary for animals to prevent accumulation of damage and to regenerate crucial biomolecules for daily life.

Q. Which of the following, if true, would most support Scientist 1?

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 2

Scientist 1 claims that sleep allows animals to conserve energy during times when food is less readily available. Thus, a bear sleeping because its food is unavailable supports Scientist 1's theory.

The only other answer involving food states "Bats that are given infinite food availability sleep more." According to Scientist 1, this would mean that the bats also have unlimited energy and would require less sleep. They would not need to conserve energy if they had unlimited food.

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Test: ACT Biology Research Summaries Questions - Question 3

Sleep plays a vital role in defining the daily activities of virtually all animals. During periods of sleep, the parasympathetic nervous system becomes active and induces a relaxed state in response to increased levels of the hormone melatonin. Yet, despite its ubiquity in the animal kingdom, the purpose of sleep and its role in our daily lives has been disputed by scientists. Two scientists discuss their theories about the purpose of sleep.

Scientist 1

During periods of sleep, animals are able to conserve energy that they would otherwise be spending on unnecessary activity. If an animal’s primary food source is most abundant during daylight, it is a waste of precious energy to be moving about at night. For example, many herbivores, such as squirrels, are diurnal (sleep during the night) because their food source is available during the day, while many insectivores, such as bats, are nocturnal (sleep during the day) because their food source is available during the night. Food sources, as an animal’s most valuable resource, dictate their sleep cycles. Many animal traits observable today evolved as a result of the supply and demand of food in their natural habitat.

Scientist 2

During waking hours, it is true that the body utilizes large amounts of energy. However, the role of sleep is to restore biological products that were utilized during periods of wakefulness, rather than simply avoid utilizing energy in the first place. Many types of biological molecules, such as hormones, are released throughout the body while an animal is active. Sleep serves as a period of inactivity during which the body can manufacture and store a supply of these molecules for future use during the next period of activity. Furthermore, sleep allows the body to repair cellular damages that has accumulated during waking hours. Experimental evidence shows that when animals are deprived of sleep, their immune system quickly weakens and death rates increase. Sleep is necessary for animals to prevent accumulation of damage and to regenerate crucial biomolecules for daily life.

Q. An animal is deprived of sleep for three days. According to Scientist 1?

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 3

Scientist 1 argues that sleep is necessary in order to conserve energy. Thus, if an animal is deprived of sleep, they will have lower energy.

Scientist 2, however, might argue that the animal would become sick.

Test: ACT Biology Research Summaries Questions - Question 4

A scientific experiment is conducted to test if calcium can affect gene regulation. Scientists hypothesized that high levels of calcium would interact with the proteins Cs3 and Gfy, which in turn would increase the transcription of genes F4597 and BC392. The experiment procedure is summarized below.

  1. Isolate the genes F4597 and BC392.
  2. Create a vector within yeast cells containing the two genes
  3. Culture yeast cells
  4. Grow yeast cells in different growth mediums- one medium lacking calcium (plate A) and one medium with supplemented calcium (plate B)

Q. What might it suggest if both plates were found to have no gene activity?

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 4

All of the possible statements are situations that could exist within this experiment. It is very possible contamination took place. If the vectors were not done properly, then the genes might even be in the yeast cells, which would show up as no gene activity. It is also always possible an outside factor not addressed in the experiment is interferring with the results. 

Test: ACT Biology Research Summaries Questions - Question 5

A scientific experiment is conducted to test if calcium can affect gene regulation. Scientists hypothesized that high levels of calcium would interact with the proteins Cs3 and Gfy, which in turn would increase the transcription of genes F4597 and BC392. The experiment procedure is summarized below.

  1. Isolate the genes F4597 and BC392.
  2. Create a vector within yeast cells containing the two genes
  3. Culture yeast cells
  4. Grow yeast cells in different growth mediums- one medium lacking calcium (plate A) and one medium with supplemented calcium (plate B)

Q. Would new information about the lack of absorption of calcium through a growth medium strengthen or weaken this experiment and why?

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 5

Information showing that calclum is not properly absorbed into growth mediums would weaken the experiment because it would skew the results for Plate B and create a smaller contrast between Plate A and Plate B.

Test: ACT Biology Research Summaries Questions - Question 6

A scientific experiment is conducted to test if calcium can affect gene regulation. Scientists hypothesized that high levels of calcium would interact with the proteins Cs3 and Gfy, which in turn would increase the transcription of genes F4597 and BC392. The experiment procedure is summarized below.

  1. Isolate the genes F4597 and BC392.
  2. Create a vector within yeast cells containing the two genes
  3. Culture yeast cells
  4. Grow yeast cells in different growth mediums- one medium lacking calcium (plate A) and one medium with supplemented calcium (plate B)

Q. What result would disprove the hypothesis? 

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 6

If both Plate A and Plate B had equal gene activity, it would mean that calcium levels did not affect the proteins or the gene activity. This would disprove the hypothesis, which stated that calcium would increase the transcription of the genes. 

Test: ACT Biology Research Summaries Questions - Question 7

Scientists studied a species of termites and looked at their foraging habitats across the United States. The termite’s population in a given tree was measured by the level of decomposition within a tree due to the termites eating the bark. The experiment also kept track of the level of shade tolerance for each species of tree. For the species of trees in this experiment, shade tolerance fell into two main categorizes- shade tolerant (ST) and intermediate shade (IS). Lastly, they recorded the average amount of rainfall in that given month for the species location being observed. The chart below summarizes the data. Scientists hypothesized that the level of decomposition would be highest in tree species with a higher average rainfall. In addition, they hypothesized trees allowing more shade would allow for more termites, and in turn more decomposition. 

Q. Based on this experiment, the optimal foraging habitats of termites can best be described as __________.

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 7

The experimental data shows that the greatest amount of termites are found in trees that have a high shade tolerance and get a lot of rain. 

Test: ACT Biology Research Summaries Questions - Question 8

Scientists studied a species of termites and looked at their foraging habitats across the United States. The termite’s population in a given tree was measured by the level of decomposition within a tree due to the termites eating the bark. The experiment also kept track of the level of shade tolerance for each species of tree. For the species of trees in this experiment, shade tolerance fell into two main categorizes- shade tolerant (ST) and intermediate shade (IS). Lastly, they recorded the average amount of rainfall in that given month for the species location being observed. The chart below summarizes the data. Scientists hypothesized that the level of decomposition would be highest in tree species with a higher average rainfall. In addition, they hypothesized trees allowing more shade would allow for more termites, and in turn more decomposition. 

Q. According to the data in the chart, did the experiment support or disprove their hypothesis? 

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 8

As stated in the prompt, scientists hypothesized the level of decomposition would be highest in tree species with a higher average rainfall. In addition, they hypothesized trees allowing more shade would allow for more termites, and in turn more decomposition.

Test: ACT Biology Research Summaries Questions - Question 9

An experiment was done to look at the effects of iodine supplements on the production of the thyroid hormone thyroxine. Individuals in the study were divided into categorizes based on the dosage of iodine supplemented. The chart below summarizes the data collected. THY1 is the average amount of thyroxine in the group prior to taking the supplement. THY2 is the average amount of thyroxine in the group after three months of taking supplements.

Q. Group 2 was given a placebo supplement, which shows:

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 9

Group 2 had a higher thyroxine increase ( a .114 difference)  than the thyroxine increase in Group 1 (0.069).  

Test: ACT Biology Research Summaries Questions - Question 10

An experiment was done to look at the effects of iodine supplements on the production of the thyroid hormone thyroxine. Individuals in the study were divided into categorizes based on the dosage of iodine supplemented. The chart below summarizes the data collected. THY1 is the average amount of thyroxine in the group prior to taking the supplement. THY2 is the average amount of thyroxine in the group after three months of taking supplements.

Q. The results of this experiment strengthen the theory that: 

Detailed Solution for Test: ACT Biology Research Summaries Questions - Question 10

When looking at the chart, the higher the thyroxine level, the greater the difference between THY1 and THY2. 

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