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Please show all work anc calculations. There are two pictures.
This question involves calculations and analysis using the Hardy-Weinberg equations. The equations are provided below for your convenience. p2 + 2pq+q2 = 1 p+9 = 1 A researcher is studying the effect of increased water temperature in a population of coral. The researcher is interested in genotype and allele frequencies for a particular gene which determines growth rate in the coral. The gene has a dominant allele (G) and a recessive allele (g). Homozygous dominant individuals grow very quickly, homozygous recessive individuals grow very slowly, and heterozygous individuals grow at an intermediate rate. The researcher records the number of individuals in the coral reef with each growth type: Growth Type Genotype Number Quick GG 102 Intermediate GE 247 Slow BE 151 Use the data in the table to calculate the OBSERVED allele frequencies in the parent population for the two alleles of this gene. You should calculate: • p - Observed frequency of the dominant allele G .- Observed frequency of the recessive alleleg Use your OBSERVED allele frequencies in the parent population to calculate the PREDICTED genotype frequencies for the next generation using Hardy-Weinberg. You should calculate:

Use your OBSERVED allele frequencies in the parent population to calculate the PREDICTED genotype frequencies for the next generation using Hardy-Weinberg. You should calculate: • Predicted frequency of GG • Predicted frequency of Gg • Predicted frequency of gg The researcher returns two years later and observes the coral again. She records the following OBSERVED genotype frequencies in the new generation: Growth Type Genotype Frequency Quick GG 0.431 Intermediate Gg 0.387 Slow 88 0.182