Ans: The answer is explained in the image enclosed below:
Hence option C is correct.
In a population where there is a heterozygous advantage, if the relative fitness of the A1A1(W11)...
Find the calculations for the data of this population? a) Calculate the relative fitness for each of the three genotypes? b) What is the mean fitness of this population, and how do you expect it to change in response to selection? c) Based on the calculations in a), calculate the values of h and s. What type of selection has occured? d) If the surviving individuals mate at random, what will be the genotype frequencies in the next generation (...
You are studying a population of milkweeds and you find the following allele frequencies: f(A1A1) = 0.36 f(A1A2) = 0.48 f(A2A2) = 0.16 If the fitness of the heterozygote (w12) is 0.9 and the average fitness of the population is 0.916, what do we expect the new frequency of the heterozygote genotype to be in the next generation?
6 pts D Question 4 A1A1 A1A2 A2A2 10 10 15 Offspring Using the above table showing the average number of offspring for an individual with a given genotype, what are the the relative fitness values for the following (no more than 3 significant digits): W11 W12 W22
Fitness is the relative reproductive success of a genotype. We calculated the fitness values (W) for a series of genotypes to be as follows: A1A1: W11 = 0.67 A1A2: W12 = 1.00 A2A2: W22 = 0.45 After comparing these fitness values, you conclude that: It appears that one allele is favoured over another, therefore, directional selection is likely the form of selections. The fitness of the heterozygote is greater than both the homozygotes, and therefore overdominance is the likely the...
AlleleA1 program Natural selection ASAP please please Please help if you know about this program, because ihave truble with explaining rezults. thank you!!! 1. Set the fitness value of A1A1 genotype to 0.9 .Describe and explain results? 2. There's horizontal line ,explain why a horizontal line is expected? 3. Is it possible that two genotype (see image) have the same fitness values? How such a situation could arise in an actual population? Thank you!! Al: 0.02062 A2: 0.97938 AIA1: 0.00043...
The relative fitness of three genotypes at a particular locus are W11=0.65, W12=0.75, W22=0.9. Four populations have the following set of allele frequencies. In which population will the change in allele frequencies (due to selection) be the most rapid? (Show work) CLEAR hand writing or typing A. p = 0.86 & q = 0.14 B. p = 1.0 & q = 0.0 C. p = 0.05 & q = 0.95 D. p = 0.49 & q = 0.51
(Hardy Weinberg Equation) In a population of rabbits, there are 423 A1A1, 1484 A2A2, and 1661 A1A2 individuals. If the enviornment changes so that the homozygous recessive genotype suffers a reduction of fitness where it's fitness is now 0.59 , but the other genotypes are unaffected, what will be the frequency of the dominant allele in the NEXT generation?
A population is made up of individuals where 74 have the A1A1 genotype, 192 have the A1A2 genotype, and 145 have the A2A2 genotype. What is the allele frequency of A1? Answer to 2 decimal places.
Question 3: Explain why the fixation time of a beneficial, recessive allele is often much longer than that of a beneficial, dominant allele. (2 points) Question 4: Name two types of natural selection that can maintain polymorphism. (2 points) Question 5: Consider an annual plant population in an environment with alternating dry and wet years. You observe the dry and wet years are equally frequent. At a locus with two alleles (A1 and A2), the relative fitnesses of the three...
The relative fitness of three genotypes at a particular locus are W11=0.65, W12=0.75, W22=0.9. Four populations have the following set of allele frequencies. In which population will the change in allele frequencies (due to selection) be the most rapid? (Show work) CLEAR typing explanation please. (A, B, C, and D are answer choices not givens in the problem so explain and select one answer choice) A. p = 0.86 & q = 0.14 B. p = 1.0 & q =...