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Selection for General and Specific Combining Ability | Animal Husbandry & Veterinary Science Optional for UPSC PDF Download

Introduction

The variance between crosses in plant breeding is traditionally calculated under the assumption that a large number of lines were crossed at random. This assumption implies that each line was used solely in one cross. However, when each line is crossed with several others, the resulting variance between crosses takes on greater significance. This partitioning of variance is crucial for comprehending the utilization of crossbreeding in plant improvement.

Combining Abilities and Mean Performance

General Combining Ability (GCA):

  • The mean performance of a line, expressed as a deviation from the overall cross mean.
  • Obtained when a line is crossed with several others.
  • Represents the average value of all crosses involving the line as one parent.

Specific Combining Ability (SCA):

  • The deviation from the expected value in a particular cross.
  • Represents the interaction between the two parental lines.
  • Increases more rapidly than GCA with higher levels of inbreeding.

Mathematical Expression of Cross Mean:

  • The true mean of a cross between lines P and Q expressed as X = X̄ + GCA + SCA.
  • Where X̄ is the mean of all crosses, GCA is the general combining ability, and SCA is the specific combining ability.
  • Includes a term for sampling error (E) in estimating X.

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What is the general combining ability (GCA) in plant breeding?
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Measurement of Combining Ability

Crossbreeding Method:

  • Lines crossed in various ways to measure GCA and SCA.
  • SCA becomes significant as inbreeding levels increase.

Testcrossing Method:

  • Individuals from the line to be tested are crossed with individuals from the base population.
  • Identifies lines with good general combining ability.

Selection Strategies

Selection for General Combining Ability:

  • Some lines may be discarded based on their own performance before crosses are made.
  • Testing at relatively low coefficients of inbreeding.
  • Recurrent selection involves repeated cycles of selection for GCA.

Selection for Specific Combining Ability:

  • Requires mating and testing specific crosses.
  • Intensity of selection increases with a large number of cases made and tested.
  • Development of many inbred lines, main crosses, and selection of lines with favorable cross abilities.

Question for Selection for General and Specific Combining Ability
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What is the purpose of the testcrossing method in measuring combining ability?
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Approaches to Estimating General and Specific Combining Ability in Plant Breeding

The estimation of general combining ability (GCA) and specific combining ability (SCA) is a critical aspect of plant breeding. A convenient method for this estimation, particularly suitable for plants, is known as the polycross method. This method involves growing several plants from different lines together, allowing natural pollination while preventing self-pollination through either natural mechanisms or careful arrangement.

Polycross Method

Implementation:

  • Plants from all lines to be tested are grown together.
  • Natural pollination occurs, preventing self-pollination.
  • Seeds collected from each line represent a mixture of random crosses with other lines.

Evaluation of General Combining Ability:

  • The performance of these seeds when grown tests the general combining ability of each line.
  • General combining abilities are estimated for lines used as female parents.

Variance Estimation:

  • Assuming equal variances of general combining ability for male and female parents allows estimation of both general and specific combining ability.

Testcross Method

Procedure:

  • General combining ability of a line is estimated by crossing it with individuals from the base population.
  • Equivalent to crossing with a random set of inbred lines from the base population without selection.

Diallel Cross Experimental Design

Diallel Cross Implementation:

  • Involves crossing each line with every other line in the experiment.
  • Commonly used for crossing inbred lines.

Complexity of Analysis:

  • The analysis of a diallel cross for estimating variances of general and specific combining ability is intricate.
  • Depends on whether reciprocal crosses are included and assumptions about the population's genetic components.

Estimating general and specific combining abilities in plant breeding involves practical methods like the polycross and testcross approaches, as well as the utilization of experimental designs like diallel crosses. Understanding the intricacies of these methods is crucial for effective selection and improvement in plant breeding programs.

Question for Selection for General and Specific Combining Ability
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Which method is commonly used for estimating general and specific combining ability in plant breeding?
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Diallele and Fractional Diallele Crosses in Breeding Programs

Diallele and fractional diallele crosses are techniques used to assess the breeding value of multiple males by breeding them at different times to the same groups of females and comparing the resulting averages. This method helps eliminate differences between males and minimizes environmental variations influenced by dam effects.

Diallele Crosses

Practical Application:

  • Breeding value is determined by breeding males multiple times to different groups of females.
  • Averages of each set of offspring are compared for evaluation.

Example Scenario:

  • Consider breeding ten boars (labeled 1 to 10) to two different sows (A and B) in a progeny test.
  • Breeding arrangements ensure each boar is bred to each sow during the year, eliminating differences between litters.
  • Environmental differences due to dam effects are also minimized.

Suitability in Swine and Poultry:

  • Effective in predicting traits in swine and poultry where each female can produce multiple offspring multiple times per year.
  • Less practical when only one offspring is produced per year.

Calculation of General Combining Ability

Large Number of Lines:

  • General combining ability of each line is calculated as a deviation from its mean (TA-1) in relation to the overall mean (X).

Limitations with Small Number of Lines:

  • With a small number of lines, this approach is not valid as each line contributes a fraction (1/n-1) of the general combining ability to the mean of the line.
  • For instance, the mean (A) of Line A in all its crosses is affected by a fraction contributed by the other lines.

Selection for General and Specific Combining Ability | Animal Husbandry & Veterinary Science Optional for UPSC

where the Ge are the general combining abilities of the lines A to N as indicated by the subscripts.

Selection for General and Specific Combining Ability | Animal Husbandry & Veterinary Science Optional for UPSC

It is more convenient to work with the total than with the mean subscribing.

Selection for General and Specific Combining Ability | Animal Husbandry & Veterinary Science Optional for UPSC

The expected value of each cross can now be calculated. The difference between observed and expected values estimates the specific combining abilities of the two lines in combination.

[Question: 970476]

The document Selection for General and Specific Combining Ability | 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 Selection for General and Specific Combining Ability - Animal Husbandry & Veterinary Science Optional for UPSC

1. What is the concept of combining ability in plant breeding?
Combining ability refers to the genetic compatibility of different parental lines in a plant breeding program. It helps in determining the potential of the parents to produce superior offspring with desirable traits. The combining ability of a parent is assessed by evaluating the performance of its progeny in terms of yield, quality, disease resistance, and other important traits.
2. How is combining ability measured in plant breeding?
Combining ability is measured through a series of controlled crosses between different parental lines in a breeding program. These crosses are typically performed using diallel or fractional diallel mating designs. The performance of the resulting hybrids is then evaluated to determine the general and specific combining ability of each parent. General combining ability (GCA) represents the average performance of a parent across different crosses, while specific combining ability (SCA) represents the performance of a parent in specific crosses.
3. What are the selection strategies based on combining ability in plant breeding?
There are several selection strategies based on combining ability in plant breeding: 1. Selection for high general combining ability (GCA): This strategy involves identifying and selecting parents with consistently high GCA across multiple crosses. These parents are expected to contribute positively to the performance of their progeny in various combinations. 2. Selection for high specific combining ability (SCA): This strategy focuses on identifying and selecting parents with superior SCA for specific crosses. These parents are expected to produce hybrids with exceptional performance in targeted breeding programs. 3. Selection for complementary combining ability: This strategy aims to combine parents with contrasting but complementary combining abilities. By combining parents with different strengths, breeders can create hybrids with improved performance and a wider range of desirable traits. 4. Reciprocal recurrent selection: This strategy involves crossing a set of parental lines in both directions to assess the SCA of each parent. The best-performing parents are then selected for further breeding cycles. 5. Combining ability-based hybrid development: This strategy involves developing hybrids by combining parents with the highest GCA and SCA values. By selecting parents with superior combining ability, breeders can improve the performance of their hybrid varieties.
4. What is the significance of diallele and fractional diallele crosses in plant breeding programs?
Diallele and fractional diallele crosses are important tools in plant breeding programs for assessing combining ability. These mating designs involve crossing a set of parental lines in all possible combinations (diallele) or a subset of possible combinations (fractional diallele). The resulting hybrids are evaluated for their performance, and the combining ability of each parent is estimated. These crosses are significant because they allow breeders to identify parents with high GCA and SCA, which are crucial for developing superior hybrid varieties. The diallele and fractional diallele designs provide a systematic approach to assess the genetic potential of different parental lines and select the most promising ones for further breeding.
5. How can general and specific combining ability be selected for in plant breeding?
General combining ability (GCA) and specific combining ability (SCA) can be selected for in plant breeding through a combination of pedigree selection and performance testing. For selecting high GCA parents, breeders can evaluate the performance of individual parents across multiple crosses and select those with consistently high average performance. This approach helps in identifying parents that contribute positively to the overall performance of their progeny. To select for high SCA parents, breeders can perform specific crosses between different parental lines and evaluate the performance of resulting hybrids. Parents that consistently produce hybrids with superior performance in targeted crosses are selected for further breeding. By combining the selection for high GCA and SCA, breeders can develop hybrid varieties that exhibit both general adaptability and specific superiority in desired traits.
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