Tuesday, November 5, 2024
General Agriculture

Crop Breeding Methods and Mode of Reproduction

The mode of reproduction and crop breeding methods of a crop determines its genetic composition, which, in turn, is the deciding factor to develop suitable breeding and selection methods. Knowledge of mode of reproduction is also essential for its artificial manipulation to breed improved types.

Only those crop breeding and selection methods are suitable for a crop which does not interfere with its natural state or ensure the maintenance of such a state.

It is due to such reasons that imposition of self-fertilization on cross- pollinating crops leads to drastic reduction in their performance.

For this teaching purpose, plant breeding methods are presented as four categories: Line breeding (autogamous crops), population breeding (allogamous crops), hybrid breeding (mostly allogamous crops, some autogamous crops), clone breeding (vegetatively propagated crops).

Self-Fertilizing Crops or Autogamous Crops

Certain restrictions caused the mechanisms for self-fertilization (partial and full self-fertilization) to develop in a number of plant species.

Some of the reasons why a self-fertilizing method of reproduction is so effective are the efficacy of reproduction, as well as decreasing genetic variation and thus the fixation of highly adapted genotypes.

Almost no inbreeding depression occurs in self-fertilizing plants because the mode of reproduction allows natural selection to take place in wild populations of such plants.

Critical steps in the improvement of self-fertilizing crops are the choice of parents and the identification of the best plants in segregating generations. The breeder should also have definite goals with the choice of parents. Self-fertilizing are easier to maintain, but this could lead to misuse of seed.

Some farm and domestic important, self-fertilizing crops include rice, maize, Sorghum, Millets, cowpea beans, soy beans, groundnuts, potatoes and tomatoes, etc.

Mass Selection

This method of selection depends mainly on selection of plants according to their phenotype and performance. The seed from selected plants are bulked for the next generation. This method is used to improve the overall population by positive or negative mass selection.

Mass selection is only applied to a limited degree in self-fertilizing plants and is an effective method for the improvement of land races. This method of selection will only be effective for highly heritable traits.

One shortage of mass selection are the large influence that the environment has on the development, phenotype and performance of single plants.

A plant developed by this method will be more uniform than those developed by mass selection because all of the plants in such a variety will have the same genotype.

The seed from selected plants are not added together but are kept apart and used to perform offspring tests. This is done to study the breeding behavior of the selected plant.

Stratified mass selection for ear size over 22 cycles has drastically altered plant phenotype in the maize population Zacatecas 58. Plants in the C22 cycle were 50 cm taller, had twice the leaf area index, reached anthesis 7 days later and had a 30% higher harvest index than C0.

Differences in growth were detected early in ontogeny. The root growth of C22 exceeded that of C0 and the ratio of shoot dry mass to root dry mass was reduced by nearly 12%, from 8.0±0.2 to 7.1±0.1.

Analysis of yield components revealed that C22 was superior to C0 in grain weight, number of rows per ear, number of grains per row, and total yield per unit area. Because the two genotypes were phenologically different, planting density optima are probably different for each population.

Selection of Cross-Pollinated Crops

Plant species where normal mode of seed set is through a high degree of cross- pollination have characteristic reproductive features and population structure.

Existence of self-sterility, self-incompatibility, imperfect flowers, and mechanical obstructions make the plant dependent upon foreign pollen for normal seed set.

Each plant receives a blend of pollen from a large number of individuals each having different genotypes.

Such populations are characterized by a high degree of heterozygosity with tremendous free and potential genetic variation, which is maintained in a steady state by free gene flow among individuals within the populations.

In the development of hybrid varieties, the aim is to identify the most productive heterozygote from the population, which then is produced with the exclusion of other members of the population.

Read Also : Cytoplasmic Male Sterility in Hybrid Breeding

Mass Selection

It is the simplest, easiest and oldest method of selection where individual plants are selected based on their phenotypic performance, and bulk seed is used to produce the next generation by mixing it.

Mass selection proved to be quite effective in maize improvement at the initial stages but its efficacy especially for improvement of yield, soon came under severe criticism that culminated in the refinement of the method of mass selection.

The selection after pollination does not provide any control over the pollen parent as result of which effective selection is limited only to female parents.

Crop Breeding Methods and Mode of Reproduction

The heritability estimates are reduced by half, since only parents are used to harvest seed whereas the pollen source is not known after the cross pollination has taken place.

Recurrent Selection

This type of selection is a refined version of the mass selection procedure and differs as follows:

Visually selected individuals out of the base population undergo progeny testing

Individuals selected on basis of the progeny test data are crossed with each other in every possible way to produce seed to form the new base population.

Half-Sib Selection with Progeny Testing

Selections are made based on progeny test performance instead of phenotypic appearance of the parental plants.

Seed from selected half-sibs which have been pollinated by random pollen from the population, is grown in unreplicated progeny rows for the purpose of selection.

A part of the seed is planted to determine the yielding ability, or breeding value, for any character of each plant. The seed from the most productive rows or remnant seed from the outstanding half-sibs is bulked to complete one cycle of selection.

Full-Sib Selection with Progeny Testing

A number of full-sib families, each produced by making crosses between the two plants from the base population are evaluated in replicated trials.

A part of each full- sib family is saved for recombination. Based on evaluation the remnant seed of selected full-sib families is used to recombine the best families.

Breeding of Asexually Propagated Crops

Asexual reproduction covers all those modes of multiplication of plants where normal gamete formation and fertilization does not take place making these distinctly different from normal seed production crops.

In the absence of sexual reproduction, the genetic composition of plant material being multiplied remains essentially the same as its source plant.

Clones of mother plants can be made with the exact genetic composition of the mother plant. Superior plants are selected and propagated vegetatively; the vegetative propagated offspring are used to develop stable varieties without any deterioration due to segregation of gene combinations. This unique characteristic of asexual reproduction helped to develop a number of cultivars of fruits and vegetables including grapes, apples, pears and peaches.

Improving Asexual Plant Material through Selection

The selection in these crops is restricted to the material introduced from other sources, such as field plantations. The improvement of asexually propagated plants through induced mutations has distinct advantages and limitations.

Any vegetative propagule can be treated with mutagens and even a single desirable mutant or a part of a mutated propagule (chimera) can be multiplied as an improved type of the original variety.

Selection of Asexual Plants

Selection, in the case of asexual plants, can be defined as the selection of the best performing plant and the vegetative propagation thereof. Because plants are not totally genetically stable, it can be expected that deviations would occur through the years.

Selection is thus an ongoing process where deviants are selected or removed from the selection program. The main purpose of selection is to better the quality and yield of forthcoming plantations.

Different approaches can be followed in the selection process of asexual plants, such as mass selection and clone selection from clone blocks.

In mass selection there are some factors that must be considered when selecting plants in a mother block, e.g. vineyard. Time of selection is a big factor, because you have to select when most of the characteristics of the plant are clearly showing.

With asexual perennials the best time is just before harvest. For the best results the selected plant must be evaluated during the next season, when growth- abnormalities, leave disfigurations and virus symptoms are best visualized.

Mass selection is done annually on the same plant for a minimum of three years. A plant that does not conform to the requirements in any given year of the selection cycle is discarded from the program.

New Clone Development

The development and registration of new clones take place by means of local clone selection in old plantations, as well as the importation of high quality clones from abroad, for local evaluation.

A clone is the vegetative offspring of one specific mother plant; it does not show any genetic, morphologic or physiologic deviations from the mother plant. Evaluation takes place with the different selected clones after selection.

Some plants reproduce by (more or less strict) self-fertilization where pollen from a plant will fertilize reproductive cells or ovules of the same plant. Other plants only (mainly) allow cross- pollination where pollen from one plant can only fertilize a different plant.

Asexual propagation (vegetative propagation) can also occur in plants (e.g. runners from sweet potato Ipomeabatatas plant or suckers from Plantains or bananas Musaspp.) which gives a new plant which is genetically identical to its parent plant. All these differences change the way plant breeders work.

Apomixis is the phenomenon that seeds are produced, but in an essentially asexual way, so that parent and offspring belong to one clonejust as in case of ‘normal’ asexual propagation.

In summary, plant breeding methods are in four categories: Line breeding (autogamous crops), population breeding (allogamous crops), hybrid breeding (mostly allogamous crops, some autogamous crops) and clone breeding (vegetatively propagated crops).

To develop suitable breeding and selection methods the knowledge of the mode of reproduction is essential for its artificial manipulation to breed improved types.

Breeding and selection methods are suitable for a crop production to ensure food security.

Read Also : Ways To Generate Income From Grey Water

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Benadine Nonye is an agricultural consultant and a writer with several years of professional experience in the agriculture industry. - National Diploma in Agricultural Technology - Bachelor's Degree in Agricultural Science - Master's Degree in Science Education - PhD Student in Agricultural Economics and Environmental Policy... Visit My Websites On: 1. Agric4Profits.com - Your Comprehensive Practical Agricultural Knowledge and Farmer’s Guide Website! 2. WealthinWastes.com - For Effective Environmental Management through Proper Waste Management and Recycling Practices! Join Me On: Twitter: @benadinenonye - Instagram: benadinenonye - LinkedIn: benadinenonye - YouTube: Agric4Profits TV - Pinterest: BenadineNonye4u - Facebook: BenadineNonye

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