Textbook Question
List as many human traits as you can that are likely to be under the control of a polygenic mode of inheritance.
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Ch. 20 - Quantitative Genetics and Multifactorial Traits
Klug10th EditionEssentials of GeneticsISBN: 9780135588789
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Table of contents
- Ch. 1 - Introduction to Genetics16
- Ch. 2 - Mitosis and Meiosis28
- Ch. 3 - Mendelian Genetics37
- Ch. 4 - Modification of Mendelian Ratios53
- Ch. 5 - Sex Determination and Sex Chromosomes32
- Ch. 6 - Chromosome Mutations: Variation in Number and Arrangement37
- Ch. 7 - Linkage and Chromosome Mapping in Eukaryotes36
- Ch. 8 - Genetic Analysis and Mapping in Bacteria and Bacteriophages24
- Ch. 9 - DNA Structure and Analysis38
- Ch. 10 - DNA Replication29
- Ch. 11 - Chromosome Structure and DNA Sequence Organization22
- Ch. 12 - The Genetic Code and Transcription36
- Ch. 13 - Translation and Proteins27
- Ch. 14 - Gene Mutation, DNA Repair, and Transposition34
- Ch. 15 - Regulation of Gene Expression in Bacteria22
- Ch. 16 - Regulation of Gene Expression in Eukaryotes37
- Ch. 17 - Recombinant DNA Technology27
- Ch. 18 - Genomics, Bioinformatics, and Proteomics30
- Ch. 19 - The Genetics of Cancer21
- Ch. 20 - Quantitative Genetics and Multifactorial Traits37
- Ch. 21 - Population and Evolutionary Genetics45
Chapter 20, Problem 12a
Corn plants from a test plot are measured, and the distribution of heights at 10-cm intervals is recorded in the following table:
Height (cm) Plants (no.)
100 20
110 60
120 90
130 130
140 180
150 120
160 70
170 50
180 40
Calculate
(a) the mean height,
(b) the variance,
(c) the standard deviation, and
(d) the standard error of the mean.
Plot a rough graph of plant height against frequency. Do the values represent a normal distribution? Based on your calculations, how would you assess the variation within this population?
Verified step by step guidance1
Step 1: Calculate the total number of plants by summing all the frequencies given for each height interval. This total will be used as the denominator for calculating the mean and other statistics.
Step 2: Calculate the mean height using the formula for the weighted average: \(\text{Mean} = \frac{\sum (x_i \times f_i)}{\sum f_i}\), where \(x_i\) is the height value and \(f_i\) is the number of plants at that height.
Step 3: Calculate the variance using the formula: \(\text{Variance} = \frac{\sum f_i (x_i - \text{Mean})^2}{\sum f_i}\). This involves subtracting the mean from each height, squaring the result, multiplying by the frequency, summing all these values, and dividing by the total number of plants.
Step 4: Calculate the standard deviation by taking the square root of the variance: \(\text{Standard Deviation} = \sqrt{\text{Variance}}\). This gives a measure of the spread of the heights around the mean.
Step 5: Calculate the standard error of the mean (SEM) using the formula: \(\text{SEM} = \frac{\text{Standard Deviation}}{\sqrt{n}}\), where \(n\) is the total number of plants. This quantifies the precision of the mean estimate.
Step 6: To plot the graph, place plant height on the x-axis and frequency (number of plants) on the y-axis. Connect the points to visualize the distribution shape. Assess whether the distribution resembles a normal distribution by checking if it is roughly symmetric and bell-shaped.
Step 7: Based on the calculated variance and standard deviation, discuss the degree of variation within the population. A smaller standard deviation indicates less variation, while a larger one indicates more spread in plant heights.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Measures of Central Tendency (Mean)
The mean is the average value of a data set, calculated by summing all observations multiplied by their frequencies and dividing by the total number of observations. It represents the central point of the data distribution and is essential for summarizing the typical plant height in the population.
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Variance and Standard Deviation
Variance measures the average squared deviation of each data point from the mean, quantifying the spread of the data. The standard deviation is the square root of the variance, providing a measure of dispersion in the same units as the data. Both indicate how much individual plant heights vary around the mean.
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Standard Error of the Mean and Normal Distribution
The standard error of the mean estimates the precision of the sample mean as an estimate of the population mean, calculated by dividing the standard deviation by the square root of the sample size. Assessing the shape of the frequency distribution (e.g., normal distribution) helps determine if the data variation is random and symmetrically distributed around the mean.
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Related Practice
Textbook Question
In a cross between a strain of large guinea pigs and a strain of small guinea pigs, the F₁ are phenotypically uniform, with an average size about intermediate between that of the two parental strains. Among 1014 F₂ individuals, 3 are about the same size as the small parental strain and 5 are about the same size as the large parental strain. How many gene pairs are involved in the inheritance of size in these strains of guinea pigs?
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Textbook Question
What advantages do cDNA libraries provide over genomic DNA libraries? Describe cloning applications where the use of a genomic library is necessary to provide information that a cDNA library cannot.
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Textbook Question
The following variances were calculated for two traits in a herd of hogs.
Calculate broad-sense (H²) and narrow-sense (h²) heritabilities for each trait in this herd.
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Textbook Question
The following variances were calculated for two traits in a herd of hogs.
Which of the two traits will respond best to selection by a breeder? Why?
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Textbook Question
The mean and variance of plant height of two highly inbred strains (P₁ and P₂) and their progeny (F₁ and F₂) are shown here.
Strain Mean (cm) Variance
P₁ 34.2 4.2
P₂ 55.3 3.8
F₁ 44.2 5.6
F₂ 46.3 10.3
Calculate the broad-sense heritability (H²) of plant height in this species.
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