PART 2: APPLYING HARDY-WEINBERG TO ROCK POCKET MOUSE FIELD DATA Dr. Nachman and his colleagues collected rock pocket mice across 35 kilometers of the Arizona Sonoran Desert which included both dark, rocky lava outcrops and light, rocky, granite areas. They recorded substrate color and coat-color frequencies for each location. Each site was separated from any of the others by at least eight kilometers. The researchers trapped a total of 225 mice. Their data are summarized below. Field Data Summary Collecting Site Substrate Color Number of Mice Phenotype Light Dark Light 6 2 Light 85 80 3 Dark 7 4 Dark 5 Dark 45 3 42 6 Light 77 34 43 Source of data: Hoekstra, Hopi E., Kristen E. Drumm, and Michael W. Nachman. "Ecological Genetics of Adaptive Color Polymorphism in Pocket Mice: Geographic Variation in Selected and Neutral Genes." Evolution 58, no. 6 (2004): 1329-1344. QUESTIONS 1. Calculate the overall frequencies of light-colored mice and dark-colored mice caught on light-colored substrates. frequency = number of mice of one color/total number of mice Frequency of light-colored mice Frequency of dark-colored mice K 2. Calculate the overall frequencies of light-cołóred mice and dark-colored mice caught on dark-colored substrates. frequency = number of mice of one color/total number of mice 3. Frequency of light-colored mice Frequency of dark-colored mice 7 3. Using the Hardy-Weinberg equation and data from the table above, determine the number of mice with the DD and Dd genotypes on the light, rocky, granite substrate. Frequency of mice with the dd genotype on light-colored substrate „71 q2 Frequency of mice with the DD genotype on light-colored substrate Frequency of mice with the Dd genotype on light-colored substrate _03 p2 26 "2pq"
PART 2: APPLYING HARDY-WEINBERG TO ROCK POCKET MOUSE FIELD DATA Dr. Nachman and his colleagues collected rock pocket mice across 35 kilometers of the Arizona Sonoran Desert which included both dark, rocky lava outcrops and light, rocky, granite areas. They recorded substrate color and coat-color frequencies for each location. Each site was separated from any of the others by at least eight kilometers. The researchers trapped a total of 225 mice. Their data are summarized below. Field Data Summary Collecting Site Substrate Color Number of Mice Phenotype Light Dark Light 6 2 Light 85 80 3 Dark 7 4 Dark 5 Dark 45 3 42 6 Light 77 34 43 Source of data: Hoekstra, Hopi E., Kristen E. Drumm, and Michael W. Nachman. "Ecological Genetics of Adaptive Color Polymorphism in Pocket Mice: Geographic Variation in Selected and Neutral Genes." Evolution 58, no. 6 (2004): 1329-1344. QUESTIONS 1. Calculate the overall frequencies of light-colored mice and dark-colored mice caught on light-colored substrates. frequency = number of mice of one color/total number of mice Frequency of light-colored mice Frequency of dark-colored mice K 2. Calculate the overall frequencies of light-cołóred mice and dark-colored mice caught on dark-colored substrates. frequency = number of mice of one color/total number of mice 3. Frequency of light-colored mice Frequency of dark-colored mice 7 3. Using the Hardy-Weinberg equation and data from the table above, determine the number of mice with the DD and Dd genotypes on the light, rocky, granite substrate. Frequency of mice with the dd genotype on light-colored substrate „71 q2 Frequency of mice with the DD genotype on light-colored substrate Frequency of mice with the Dd genotype on light-colored substrate _03 p2 26 "2pq"
Human Anatomy & Physiology (11th Edition)
11th Edition
ISBN:9780134580999
Author:Elaine N. Marieb, Katja N. Hoehn
Publisher:Elaine N. Marieb, Katja N. Hoehn
Chapter1: The Human Body: An Orientation
Section: Chapter Questions
Problem 1RQ: The correct sequence of levels forming the structural hierarchy is A. (a) organ, organ system,...
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