#Question id: 3324
#Section 2: Evolution
If only 20 males and 20 female grizzlies exist today, but only 10 of the males and 6 female breed, what are effective population size?
#Question id: 3325
#Section 2: Evolution
The frequency of the dominant red allele (R) in a population of diploid organisms is equal to the frequency of the recessive white allele (r). The frequency of red individuals assuming Hardy-Weinberg equilibrium is (express the frequency using decimal notation, not as a fraction or a percentage)
#Question id: 3329
#Section 2: Evolution
The following genotypes of one locus in population are given - Genotype ( Number)
AA (120) AB ( 30) BB (50) CC (300)
AC (400) BC (100)
Which of the following is the correct frequency of C allele and A allele respectively?
#Question id: 3338
#Section 2: Evolution
If the expected frequency of heterozygotes in a population (based on the Hardy–Weinberg law) is 0.4, but the observed frequency is 0.2, what is the inbreeding coefficient?
#Question id: 3339
#Section 2: Evolution
In a plant species, flower color locus either homozygous or heterozygous with genotype RR-red, Rr- pink and rr- white. The Proportional of pink flower in generation 0 is .50. What is the level of remaining pink flower in a third generation of repeated selfing?
#Question id: 3341
#Section 2: Evolution
In a given population of 400 individuals, 64 percent of population is caused cancer due to completely dominat allele B. Assuming the population is in Hardy- Weinberg equilibrium, which of the following is the expected proportion of individuals who are not expected to develop the cancer?