🤭 In Self-Pollinated
Selection in Self-pollinated Crops etc.
Selection in Self-pollinated Crops
- Selection is essentially based on phenotype of the plants.
- The effectiveness of selection primarily depends upon the degree to which the phenotype reflects the genotype.
👉🏻 Basic characteristics of selection:
- Selection is effective only for heritable differences.
- Selection does not create new variation.
👉🏻 It means there are two requirements of selection:
- Variation must be present in the population.
- Variation must be
heritable
.
👉🏻 Purpose of selection:
- To isolate desirable plant types from the population.
👉🏻 Two basic steps of any breeding programme:
- Creation of variation
- Selection
Progeny test
- The value of the plant is judged by the performance of its progeny. Evaluation of the plant on the basis of performance of its progeny is known as progeny test.
- This test was developed by
Louis de Vilmorin
. Therefore it is also known as Vilmorin principle or Vilmorin Isolation Principle. - According to Vilmorin: The real value of a plant can be known only by studying the progeny produced by it.
- Two valuable functions of progeny test:
- To determine the breeding behaviour of a plant i.e. whether the Plant is homozygous or heterozygous.
- To find out whether the character for which the plant was selected is heritable. This is the most important function.
Pureline Theory
- A pureline is the progeny of a single homozygous plant of a self-pollinated species.
- All the plants in a pureline have the same genotype.
- It means the phenotypic differences within a pureline are due to environment and the variation within a pureline is not heritable.
- The concept of the pureline was given by
Johannsen
in 1903 on the basis of his studies with the Princess variety of beans (Phaseolus vulgaris). Johannsen brought commercial seed lot of the Princess variety of beans and found that the seed lot had variation in seed size. He selected the seed of different sizes and grew them separately. The obtained progenies differed in seed size i.e. large seeds were obtained from larger seeds and smaller seeds from smaller seed. - It means that the variation in seed size in commercial seed lot had genetic base and selection for seed size was effective. Johannsen further studied 19 lines i.e. each line was a progeny of a single seed from the original seed lot. He found that variation in seed weight in each 19 line was much smaller than that in original seed lot.
- Ultimately he postulated that the original seed lot was a mixture of purelines means each of 19 lines was a pureline and variation in seed size within each of the purelines had no genetic basis and was purely due to environment.
- Conclusions of Johannsen’s experiment
- A self-fertilized population consists of a mixture of several homozygous genotypes. Here selection is effective because variation in such population has a genetic basis.
- Selection within a pure line is ineffective because variation within pure lines is purely environmental.
- Effects of self-pollination:
- Self-pollination increases homozygosity.
- Self-pollination decreases heterozygosity.
- Inbreeding: Mating between individuals related by descent i.e. having a common parent or parents is called inbreeding.
- Sibmating means brother-sister mating.
- Half sibmating means brother-stepsister mating.
- Self-pollination is the most intense form of inbreeding.
- Main effects of Selfing:
- All the plants in the population become completely homozygous.
- Population is a mixture of several homozygous genotypes.
Pureline Selection
- Here a large no. (i.e. 200-3000 Plants) of plants are selected on the basis of their phenotype from a
self-pollinated
plant and are harvested individually. Their Individual progenies are evaluated and are grown. Undesirable progenies are rejected. Upto seventh year this process may be maintained if necessary. Ultimately the best progeny is selected and released as a pureline variety. - Here individual plant is selected, therefore, pureline selection is also known as individual plant selection.
- Pureline selection is the most commonly used method of improvement of self-pollinated crops. Almost all the present varieties of self-pollinated crops are purelines.
Characteristics of a pureline
- All the plants within a pureline have the same genotype.
- The variation within a pureline is environmental and non-heritable.
- Purelines become genetically variable with time due to mechanical mixture, natural hybridization, chromosomal aberrations & mutation.
Mass-Selection
- Here a large no. of plants (i.e. 200-2000 plants) of similar phenotype (i.e.
phenotypically superior
) are selected and their seeds are mixed together to constitute a new variety. The variety developed through mass selection would have considerable genetic variation. - Generally plants selected in mass selection are not subjected to progeny test but according to Allard (1960) progeny test should be done.
- In self-pollinated crops, mass selection has two major applications:
- Improvement of Desi or local varieties.
- Purification of existing pureline varieties.
- In cross pollinated crops through mass selection, inbreeding, is avoided or kept to minimum because in mass selection several plants are selected and their seeds are mixed to raise the next generation.
- Due to popularity of pureline varieties, mass selection is not commonly used in improvement of self-pollinated crops.
- At present use of mass selection is limited to purification of pureline varieties of self-pollinated crops.
- Pureline selection and Mass selection are used in selecting new varieties from mixed populations that have homozygous plants. These selections cannot be applied to segregating populations e.g. F2, F3 etc. obtained from crosses.
- The methods generally used in handling the segregating generations are:
- Pedigree Method
- Bulk Method
- Backcross Method
- The objective of the above three methods is to develop pureline varieties.
Pedigree Method
- Here individual plants are selected from F2 and subsequent generations. Their progenies are tested during the entire operation and a record of all the parent-offspring (progeny) relationships is kept. Individual plant selection is continued till the progenies show no segregation.
- Pedigree means a description of the ancestors of an individual.
- Pedigree method is the most commonly used method for selection from the segregating generations from crosses in
self-pollinated crops
. - This method is often used to correct some specific weakness of an established variety (i.e. combination breeding). Pedigree method provides the best opportunity for the breeder to exercise his skill in selection.
Bulk Method
- This method was first used by Nilsson-Ehle in 1908 at Svalof. This method is also known as mass method or the population method of breeding.
- When a group of phenotypically similar appearing plant is selected and harvested and their seeds are bulked, the process is known as bulk method of breeding.
- It is the best method of breeding to carry forwards maximum number genes to the advanced generations against the force of natural selection.
- Here F2 and subsequent generations are harvested in mass or as bulks to raise the next generation. At the end of the bulking period, individual plants are selected and evaluated in a similar manner as in pedigree method.
- In pedigree method individual plant progenies are grown and evaluated in F3 and subsequent generations but in bulk method these generations are grown as bulks.
Purpose of bulk method
- Isolation of homozygous lines with a minimum effort & expense.
- Waiting for opportunity of selection. Selection for resistance, lodging etc. depends upon the presence of suitable environmental conditions favouring disease epidemic, severe lodging etc. Such environment do not occur every year. The segregating generations may be carried in bulk units such environments occur.
- Opportune for natural selection: Some bulk population may be carried upto F20 to F30 to provide opportunity for natural selection to act. It was called evolutionary method of breeding by Suneson.
Backcross method
- Backcross is a cross between hybrid (F1 or a segregating generation) and one of its parent. This method, the hybrid and the progenies in the subsequent generations are repeatedly back crossed to one of the parent. At the end of 6-8 backcrosses, the progeny would be almost identical with the parent used in backcross.
- Objective of backcross: To improve one or two specific defects of a high yielding variety.
- The characters lacking in the variety are transferred to it from a donor parent without changing its genotype except for the gene (genes) being transferred.
- Since recipient parent is repeatedly used in backcross, recipient parent is also known as recurrent parent and the donor parent is known as non-recurrent parent because it is used only once for producing the F1 hybrid.
- Backcross method changes the genotype of the recurrent parent only for the gene under transfer. It is the only useful method for gene transfers from related species and for producing addition and substitution lines. It is suitable for transfer of both qualitative and quantitative characters provided they have moderate to high heritability.
- The objective of pure line selection, pedigree method, bulk method and backcross method is to develop pure line varieties. These methods either use the variability present in the population (mass selection & pure line selection) or the variability created through hybridization.
- The F1 hybrid from a cross is either allowed to self-pollinate (pedigree and bulk method) or is backcrossed to the desirable parent (backcross method).
- The effect of either of the above approaches is increase in homozygosity.