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Biometrical Models and Covariance Between Relatives | Animal Husbandry & Veterinary Science Optional for UPSC PDF Download

Understanding Biometrical Models and Resemblance Between Relatives

Key Concepts:
  • Resemblance between relatives is a fundamental genetic phenomenon seen in metric characters.
  • Degree of resemblance can be measured through simple population-based techniques.
  • Additive variance, specifically heritability, plays a crucial role in determining breeding methods for improvement.
Partitioning Phenotypic Variance:
  • Phenotypic variance is divided into components based on grouping individuals into families.
  • Observational components of phenotypic variance (denoted by 'o') are estimated directly from phenotypic values.
  • Resemblance between relatives is determined by within-group and between-group components of variance.
Intraclass Correlation Coefficient:
  • It quantifies the degree of resemblance as the between-group component relative to the total variance.
  • Expressed as the covariance between members of the same group.
Covariance of Offspring and Parents:
  • Involves computing covariance from sum of cross-products in pairs of observations.
  • Regression coefficient of offspring on parent is used to express the degree of resemblance.

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What is the purpose of partitioning phenotypic variance in biometrical models?
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Implications of Covariance

  • Covariance helps in estimating casual components of variance contributing to resemblance between relatives.
  • Understanding the causal components behind covariance aids in genetic analysis and breeding strategies.

Genetic Covariance

  • Offspring and One Parent: The genetic covariance between offspring and one parent is half the additive variance. This covariance is calculated based on the genotypic values of individuals and their offspring, where the offspring's mean genotypic value is half the breeding value of the parent.
  • Half Siblings: Half-siblings share one common parent and have different other parents. The covariance of half-siblings is a quarter of the additive variance, as it is the variance of the means of half-sibling groups.
  • Offspring and Mid-Parent: The covariance between the mean of the offspring and the mean of both parents (mid-parents) is equal to half the additive variance. This covariance is derived from the genotypic values of the offspring and the mean of the parents.
  • Full Siblings: The genetic covariance of full siblings is half the additive genetic variance plus a quarter of the dominance variance. It is the variance of the means of full-sibling families.
  • Environmental Covariance: Environmental factors contribute to the covariance of relatives by making them resemble each other. This environmental variance affects the variance between family means.
  • Phenotypic Resemblance: Phenotypic resemblance is the sum of covariances from genetic and environmental factors. The covariance between relatives, except for full siblings, is typically a quarter or half of the additive genetic variance.
    (i) The resemblance between siblings is expressed as a correlation coefficient, dividing the covariance by the total phenotypic variance.
    (ii) The regression of offspring on parents is a measure of resemblance, calculated by dividing the covariance by the variance of parents.
    (iii) The correlation between half-siblings is equal to the square root of the phenotypic variance.
    (iv) The correlation between full siblings is twice the correlation between half-siblings in the absence of dominance and common environment effects.
  • Estimation of Heritability: Measurements of resemblance between relatives help estimate the proportion of additive genetic variance, known as heritability (V/V). 

Question for Biometrical Models and Covariance Between Relatives
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What is the genetic covariance between full siblings?
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The document Biometrical Models and Covariance Between Relatives | Animal Husbandry & Veterinary Science Optional for UPSC is a part of the UPSC Course Animal Husbandry & Veterinary Science Optional for UPSC.
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FAQs on Biometrical Models and Covariance Between Relatives - Animal Husbandry & Veterinary Science Optional for UPSC

1. What is the importance of partitioning phenotypic variance in biometrical models?
Ans. Partitioning phenotypic variance in biometrical models helps to distinguish between genetic and environmental factors that contribute to the observed traits in individuals. By understanding how much of the variance is due to genetics, researchers can better predict the heritability of a trait.
2. How is the intraclass correlation coefficient used in biometrical models?
Ans. The intraclass correlation coefficient is used in biometrical models to measure the degree of similarity between relatives for a particular trait. It helps to determine the genetic contribution to the trait by comparing the resemblance between relatives.
3. What does the covariance of offspring and parents indicate in biometrical models?
Ans. The covariance of offspring and parents in biometrical models indicates the extent to which offspring resemble their parents for a particular trait. A high covariance suggests a strong genetic influence, while a low covariance indicates a weaker genetic contribution to the trait.
4. What are the implications of covariance between relatives in biometrical models?
Ans. The covariance between relatives in biometrical models provides insights into the heritability of a trait and the genetic architecture underlying it. By analyzing the covariance, researchers can estimate the genetic contribution to the trait and understand how it is passed down from one generation to the next.
5. How do biometrical models help in understanding the genetic basis of traits through resemblance between relatives?
Ans. Biometrical models use the resemblance between relatives to estimate the heritability of traits and quantify the genetic and environmental influences on phenotypic variation. By analyzing the covariance between relatives, researchers can gain insights into the genetic basis of traits and predict how they may be inherited across generations.
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