Biological Science (6th Edition)
6th Edition
ISBN: 9780321976499
Author: Scott Freeman, Kim Quillin, Lizabeth Allison, Michael Black, Emily Taylor, Greg Podgorski, Jeff Carmichael
Publisher: PEARSON
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Textbook Question
Chapter 23, Problem 2TYK
Why isn’t inbreeding considered an evolutionary process?
a. It does not change genotype frequencies.
b. It does not change allele frequencies.
c. It does not occur often enough to be important in evolution.
d. It does not violate the assumptions of the Hardy–Weinberg principle.
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Students have asked these similar questions
What is neutral evolution?
A.
Neutral evolution does not exist.
B.
When certain genes are present or absent in populations due to natural selection (they are advantageous or disadvantageous).
C.
When certain genes are present or absent in populations regardless of selection (they are not advantageous or disadvantageous).
D.
When certain genes are present or absent in populations due to sexual selection (they are selected for by the opposite sex).
Which aspect(s) of natural selection is(are) illustrated by the figure below? Check ALL answers that apply.
A.
Variation among individuals must be genetically transmissible to the next generation.
B.
Variation must exist in a population.
C.
Variation among individuals leads to differences in lifetime reproductive success.
D.
More individuals are produced each generation than the environment can support, resulting in competition for survival.
What is true about evolution by natural selection?
a.
It is a largely random process.
b.
Homology shows that convergence is a useful tool for deducing adaptive function.
c.
Mothers are invariably members of the same species as their offspring, so selection can never create new species.
d.
Harmful recessive genes are eliminated more rapidly than harmful dominant genes.
e.
None of the above is true.
Chapter 23 Solutions
Biological Science (6th Edition)
Ch. 23 - PROCESS OF SCIENCE In what sense is the...Ch. 23 - 2. Why isn’t inbreeding considered an evolutionary...Ch. 23 - 3. CAUTION Why is genetic drift aptly named?
a. It...Ch. 23 - 4. True or false? Gene flow can either increase or...Ch. 23 - 5. QUANTITATIVE In a population of 2500, how many...Ch. 23 - 6. In the 1700s and 1800s, royalty in Europe often...Ch. 23 - 7. CAUTION Determine what is incorrect in the...Ch. 23 - MODEL Draw a small concept map (BioSkllls 12 )...Ch. 23 - 9. QUANTITATIVE In humans, albinism is caused by...Ch. 23 - Prob. 10TYPSS
Ch. 23 - Are toucans important to tropical forests? Human...Ch. 23 - QUANTITATIVE Toucans can eat fruits with large...Ch. 23 - 13. Do these data illustrate directional,...Ch. 23 - 14. Large seeds carry more resources than small...Ch. 23 - 15. PROCESS OF SCIENCE The data in the graphs are...Ch. 23 - 16. SOCIETY If you were a journalist covering this...
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- What is the difference between evolution, natural selection, and artificial selection? A. Evolution is a genetic change in a population over time which can occur through natural selection. Artificial selection is the differential reproduction of individuals in a population to promote the characteristics chosen by the breeder. B. Natural selection is the change of allele frequencies in a population over time. Evolution leads to differential survival and reproduction of individuals. Artificial selection has produced domesticated animals and plants. C. Evolution is a mechanism of artificial selection. Natural selection is a form of artificial selection in which nature selects the characteristics that are most beneficial to a species. D. Artificial selection is a mechanism of evolution and is the main process of domesticating animals and plants for human use. Natural selection is the same as evolution.arrow_forwardCheck all of the following that are true: a. Mutation alone is a weak force of evolution. b. Only small populations evolve by genetic drift. c. Selection is always the strongest force of evolution a population can experience. d. Overdominance occurs when there is disruptive selection favoring the homozygotes. e. It is easier to purge a population of dominant deleterious alleles compared to recessive deleterious alleles. f. Populations may change a lot or a little when migration occurs depending on how different the populations are. g. Nonrandom mating in the form of inbreeding is not considered a true evolutionary force. h. Drift and migration can offset or counterbalance the effects of selection in a population.arrow_forwardWhich of the following most accurately describes mutations? a. They typically have immediate and impactful evolutionary effects on populations. b. They are required for all populations to evolve. c. They are always deleterious. d. They occur so infrequently that most populations to harbor very little variation.arrow_forward
- Which of the following statements does NOT agree with the tenets of Darwin's theory of evolution by means of natural selection? O A. The phenotypes of individuals in a population will differ and, in some cases, these differences are the result of traits passed down from parent to offspring. B. Phenotypes become more common over time if individuals with those phenotypes have higher reproductive success. O C. The fitness of an individual with a particular phenotype is independent of the environmental conditions it experiences. O D. Resources limit the total number of individuals in a population.arrow_forwardWhich of the following statements is true? O A. Chance and random events only influence the evolutionary process in small populations. O B. Chance and random events can influence the evolutionary process in all populations, but especially in small ones. O C. Chance and random events play no role in the evolutionary process. O D. Chance and random events influence the evolutionary process in all populations in the form of natural selection. SUBMITarrow_forwardWhich of the following best explains the role mutations play in natural selection?A. Most mutations are negative and result in the extinction of the entire speciesB. Mutations may appear for one or two generations, but they usually disappear quickly.C. If the environment changes, an existing organism develops a mutation that will help them to survive.D. Some mutations give individuals an advantage in their environment, allowing them to survive and reproduce.D is my answer is it correct?arrow_forward
- Consider the trait in Figure 22.5a. Which statement about this trait is correct? Please choose the best option. a) In humans, the trait cannot be explained by the theory of evolution by natural selection. b. In humans, the trait improves the biological fitness of individuals. c. In humans, the trait is similar to a functional version of the trait in closely related species. d. Humans lack vestigial traitsarrow_forwardWhen comparing individuals of a population, a scientists finds a trait (A) that is shared by most members of a population and another trait (B) that is present in only a few individuals. How could this BEST be explained using descent with modification by natural selection? A. Trait A evolved earlier in time and was not favored by selection. B. Trait A evolved earlier in time and was favored by selection. C. Trait A evolved in more locations and was not favored by selection. D. Trait A evolved in more locations and was favored by selection.arrow_forwardEnvironments all over the world are changing as a result of global warming. Will this cause natural selection to occur? A. No.The environment is always changing. Global warming is nothing new. B. Yes, warmer temperatures will induce mutations that are favorable to survial in the new teperature regime C. No. The only change will be that species from hot environments will expand their ranges. D. Yes. Traits that help individuals produce more offspring in warmer environments will increase in frequency. E. Yes. Warmer temperatures will increase the rate of chemical reactions in poikilothemic species and thus natural selection will be enhanced.arrow_forward
- Which of the following conclusions are MOST likely to be supported by genetic evidence? A. Some modern-day organisms did not exist in the past. B. Some organisms found in the fossil record do not currently exist. C. Environmental change affected the fitness of individuals differently based on their traits. D. Some disease-causing traits may remain in a population because their alleles provide an advantage to heterozygotes.arrow_forwardWhich statement is correct, based on current evolutionary theory? a. Selection will favor alleles only if they are good for the species. b. Selection will favor alleles only if, on average, they increase the reproductive success of individuals who have them. c. In small populations genetic drift can be more effective than natural selection in building adaptations. d. Selection sometimes favors alleles that systematically lower the reproductive success of the individuals who have them. e. Two of the above are correct.arrow_forwardWhich of the following statements describes an example of genetic drift?a. Allele g for fat production increases in a small population because birds with more bodyfat have higher survivorship in a harsh winter.b. Random mutation increases the frequency of allele A in one population but not inanother.c. Allele R reaches a frequency of 1.0 because individuals with genotype rr are sterile.d. Allele m is lost when a virus kills all but a few individuals and just by chance, none ofthe survivors possess allele m.arrow_forward
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