Concept explainers
Videos
To compare and contrast:
Genetic drift and natural selection as mechanisms of evolution.
Introduction:
Charles Darwin in his theory of natural selection proposed that natural selection could modify a population to produce new species. Any change in the allelic frequencies in a population that is due to chance is called genetic drift.
Answer to Problem 30A
Genetic drift and natural selection are mechanisms of evolution as they both bring about change in allele frequency. In genetic drift allele frequency changes by chance but in natural selection allele frequency changes by differential reproductive success.
Bottleneck and founder effect are two extreme examples of genetic drift. Natural selection acts on an organism’s phenotype and changes allelic frequencies. It alters
Genetic drift is a more random process but natural selection is not a random process.
Explanation of Solution
Genetic drift- In large populations we know that there are enough alleles that “drift” to ensure that the allelic frequency of the entire population remain constant from one generation to another. In smaller populations, the genetic drift is more pronounced and there is high chance of losing an allele.
Founder effect: Genetic drift may occur when a small population separates from a big population and settles in a new location. Because the small population is a random subset of the original population it carries a random subset of the population’s genes. Uncommon genes may become common in the new population and the offspring will carry those alleles. This can result in large
Bottleneck: This occurs when a population declines to a very low number and then rebounds. The gene pool of the rebound population is genetically similar to the population at its lowest level. Hence it has reduced diversity.
Natural selection- There are four principles of the theory of natural selection:
- Individual in a population show differences called variations.
- Variations can be inherited; i.e they can be passed down from parent to offspring.
- Organisms produce more offspring than can survive on available
resources . - Variations that increase reproductive success will have a greater chance of being passed on than those that do not increase reproductive success.
In this way new species can be introduced into nature. Natural selection can introduce new species into the environment by promoting favorable traits. It selects the individuals that are best adapted for survival and reproduction.
Stabilizing selection- It is the most common forms of natural selection. It occurs to eliminate the extreme expressions of a trait when the average expression leads to higher fitness.
Directional selection- If an extreme version of a trait makes an organism more fit, directional selection might occur. This form of selection increases the expression of the extreme version of a trait in a population.
Disruptive selection- It is a process that splits a population into two groups. It tends to remove individuals with average traits but retains those expressing extreme traits at both ends of a continuum.
Chapter 15 Solutions
Glencoe Biology, Florida Edition
Additional Science Textbook Solutions
Brock Biology of Microorganisms (15th Edition)
The Cosmic Perspective (8th Edition)
Introductory Chemistry (6th Edition)
Campbell Essential Biology (7th Edition)
Biology: Life on Earth (11th Edition)
Microbiology: An Introduction
- The shape of radishes may be long (SL/SL), oval (SL/SS), or round (SS/SS), and the color of radishes may be red (CR/CR), purple (CR/CW) or white (CW/CW). If a long, red radish plant is crossed with a round, white plant, what will be the appearance of the F1 and F2 generations?arrow_forwardNonearrow_forwardQuestion #3: In the KeyGene paper, the authors state that it would be useful if pollen from an apomict would transmit apomixis-inducing genes to the female in the cross (assuming the pollen is viable). Assuming there was just one gene conferring gametophytic obligate apomixis, and that the two parents are inbreds, what would be the consequences of such a cross if: a) The apomixis was a dominant trait? Indicate the genotypes and phenotypes (apomict or non- apomict) of the parents, F1 and F2 generations. Remember to include the expected genotypic and phenotypic ratios (or percentages) in the F1 and F2 generations, and to position the female first (left side) in the parental cross. b) The apomixis was a recessive trait? Indicate the genotypes and phenotypes (apomict or non- apomict) of the parents, F1 and F2 generations. Remember to include the expected genotypic and phenotypic ratios (or percentages) in the F1 and F2 generations, and to position the female first (left side) in the…arrow_forward
- Question #5: Assume that two genes are identified that confer gametophytic facultative apomixis in soybean. The genes show independent assortment. Recessive alleles at both loci are required for the facultative apomixis. Facultative apomixis is triggered when the temperature at pollination is above 20 degrees C. At temperatures below 20 degrees C, all reproduction is sexual, independent of genotype. A facultative apomict male, capable of producing viable pollen, was crossed with a sexually reproducing female. Assuming the parents are completely inbred, what are the predicted phenotypic ratios (apomict: non-apomict) for the F1, F2, and DH (F1-derived) generations at each of the following temperatures*: a) 15°C? b) 25°C? *for full credit, show crosses and genotypes where appropriate. Remember to position the female first (left side) in the cross. Type your answer here:arrow_forwarda. What percentage of a drug is eliminated after 4 half-lives? Please round to the nearest percent. b. What will happen to elimination of the drug in the previous question if the system is saturated? explain and show any math involvedarrow_forwardIf you wanted to reduce the difference between peak and trough levels that occur with repeated administration of a drug, how would you adjust the dose and dose interval without changing the plateau concentration (plateau is the average of peak and trough levels)? Select your answers for both dose and interval. Hint: It may be helpful to think about this problem using an example such as food. How would you eat if you wanted to maintain very steady hunger/satiety levels without changing your total caloric intake? Options: A. Dose; Increase dose B. Dose; Decrease dose C. Dose; Do not change dose D. Interval; Increase the interval between doses (give the drug less frequently) E. Interval; Decrease the interval between doses (give the drug more frequently) F. Interval; Do not change the intervalarrow_forward
- What percentage of a drug is eliminated after 4 half-lives? Please round to the nearest percent. Show the matharrow_forwardBriefly explain the 6 domain of interprofessional collaboration: Role clarification, Team functioning, Interprofessional communication, Patient/client/family/community-centered care, Interprofessional conflict resolution, Collaborative leadership. Provide a specific negative events that nursing student would observe in a clinical setting for each domain.arrow_forwardwhat is an intermittent water course and what kind of fish habitat it would providearrow_forward
- why are native freshwater mussels are an important part of great lakes ecosystemarrow_forwardwhat morphological features differentiate the lamprey species and other species in the great lakesarrow_forwardThere are a wide range of therapeutic applications available as options for patients. Medical professionals should be aware of these applications so they can make informed recommendations to patients. To gain a better understanding of some therapeutic applications and how they are related to RNA and mRNA, research long non-coding RNA. Respond to the following in a minimum of 175 words: What is lncRNA and what does it do? How does IncRNA differ from mRNA? What are some therapeutic applications associated with lncRNA? Think about possible future uses of this application. What are the advantages and disadvantages of this application and its continued use?arrow_forward
Human Anatomy & Physiology (11th Edition)BiologyISBN:9780134580999Author:Elaine N. Marieb, Katja N. HoehnPublisher:PEARSON
Biology 2eBiologyISBN:9781947172517Author:Matthew Douglas, Jung Choi, Mary Ann ClarkPublisher:OpenStax
Anatomy & PhysiologyBiologyISBN:9781259398629Author:McKinley, Michael P., O'loughlin, Valerie Dean, Bidle, Theresa StouterPublisher:Mcgraw Hill Education,
Molecular Biology of the Cell (Sixth Edition)BiologyISBN:9780815344322Author:Bruce Alberts, Alexander D. Johnson, Julian Lewis, David Morgan, Martin Raff, Keith Roberts, Peter WalterPublisher:W. W. Norton & Company
Laboratory Manual For Human Anatomy & PhysiologyBiologyISBN:9781260159363Author:Martin, Terry R., Prentice-craver, CynthiaPublisher:McGraw-Hill Publishing Co.
Inquiry Into Life (16th Edition)BiologyISBN:9781260231700Author:Sylvia S. Mader, Michael WindelspechtPublisher:McGraw Hill Education