Plant Breeding - Unit 1 PDF

Summary

This document provides an introduction to plant breeding, covering historical development, key concepts, and the role of plant breeding in agriculture. It details various aspects of plant breeding, including different eras, key figures, and the nature of plant breeding as a scientific and technological pursuit in developing superior plants.

Full Transcript

UNIT -1

Introduction to plant breeding :

Historical development, concept, nature and role of plant breeding.

Major achievements and future prospects and genetics in relation to
plant breeding.

Domestication germplasm conservation and plant introduction :

Domestication, acclimatization and introduction, centres of
origin/diversity.
PLANT BREEDING

“It is an art, science and technology which deals with genetic
improvement of crop plants in relation to their economic use for
mankind.”
 ROLE OF PLANT BREEDING

1. Food

2. Shelter

3. Clothing

4. Drugs : Ranwolfia serpentina, Withania somnifera

5. Fuel: Euphorbia, Jatropha, Maize
 HISTORY OF PLANT BREEDING

In broad sense history of plant breeding can be divided into 4 parts :
1. Pre Mendelian era:- before 1900
2. Mendelian era:- 1900 to 1920.
3. Post Mendelian era:- 1921 to 1950
4. Modern era:- after 1950
1. Pre Mendelian era:-
700 BC Assyrians and Babylonians - Hand pollination of date palm

1665 Hooke (England) –known as father of cell-biology.

1676 Millington - Anthers function as male organs

1694 Camerarius (Germany) - First to demonstrate sex in plants.

1717 Fairchild – produced the first artificial hybrid, popularly known as
Fairchild҆s mule
1753 Linnaeus - Published "Species Plantarum".

1779 Knight - Emphasized the practical aspects of hybrids.

1801 Lamarck - Theory of evolution

1819 Shirreff - Utilized pure line selection.

1831 Brown - nucleus

1837-38 Schleiden and Schwann - cell theory
1859-89 Darwin - Published "Origin of Species"

1866 Mendel - Published "Experiments in plant hybridization"

1884 Strasburger - Demonstrated fertilization

1899 Novaschin and Guignard - Discovered double fertilization

1899 Hopkins - Described ear to row selection method.
2. Mendelian era:-
1900 Correns (Germany), DeVries (Holland) and Von Tschermak
(Austria) - rediscovered Mendel҆s laws of heredity.

Bateson- Introduced the terms "allelomorph", "homozygote",
"heterozygote ", "F1" and "F2"

1902 DeVries (Holland) - mutation theory of evolution

1903 Johannsen - pure line theory of selection
1904 Hannig - embryo culture

1906 Bateson - term "genetics“

1908 Nilsson- Ehle –multiple factor hypothesis

1908-09 Hardy (England) and Weinberg (Germany) –Hardy- Weinberg law.

1914 Shull - Introduced the term "heterosis "
Blakeslee - Discovered trisomics in Datura.
3. Post Mendelian era:-
1927 Muller - Reported artificial mutations in animals by X-rays

1928 Stadler - Described the mutagenic effects of X-rays in barley

1931 Stern, Creighton and McClintock - cytological proof of crossing-over

1933 Rhoades - cytoplasmic male sterility in maize
1944 Avery, MacLeod and McCarty – DNA is the hereditary material

1945 Hull - recurrent selection method

1946 Comstock et al. - Reciprocal (half-sib) recurrent selection

1950 McClintock – Jumping genes
4. Modern era:-
1952 Jensen - multilines in Oats.

1955 Benzer – Cistron, recon and muton.

1963 Vanderplank – vertical and horizontal resistance.

1964 N.E.Borlaug – Green revolution.

1968 Donald – Crop ideotype
1978 - 1st Rice hybrid (CMS based) for commercial cultivation in China.

1983 –1st transgenic (genetically engineered) plant of Tobacco in U.S.A.

1987 –1st transgenic cotton plant by Monsanto company in U.S.A.

1994 – Flavr Savr tomato was introduced by Calgene company of California.
 HISTORY OF PLANT BREEDING IN INDIA

1871- Government of India created the Department of Agriculture.
1905- Imperial Agricultural Research Institute was established in Pusa (Bihar)
1921- The Indian Central cotton committee was established.
1929- Imperial Council of Agricultural Research was established in New
Delhi.
1936- Imperial Agricultural Research Institute shifted to its present location in
New Delhi.
1956- Project for Intensification of Regional Research on Cotton, Oilseeds and
Millets (PIRCOM)
1957- All India Coordinated Maize Improvement Project

1961- First Maize hybrid released(Ganga1, Ganga101, Deccan and
Ranjit)

1964- First Sorghum hybrid (CSH-1) was released.

1965- First Bajra hybrid (HB-1) was released.

1991 – 1st pigeon pea hybrid (ICPH-8)
 NATURE OF PLANT BREEDING
Plant breeding is an art or science
present breeding methods are entirely based on the scientific
principles like; genetics a cytogenetic.
It is based on observation, formulation of hypothesis,
experimentation and conclusion either to accept or reject the
hypothesis.
After Mendel discovery require more knowledge of science.
modern plant breeding is based on through understanding and
use of genetics principles.
Plant breeder must know about difference disciplines viz. genetics,
cytology, Morphology and Taxonomy, plant Physiology, Plant
Pathology, Entomology, Agronomy, and Soil Science, Biochemistry,
Statistics, and Biometrics. Computer and Plant biotechnology.
Thus plant breeding is an art science and a technology of
developing genetically superior plants
OBJECTIVES OF PLANT BREEDING

1. Higher Yield:
2. Improved Quality:
3. Disease and Pest Resistance:
4. Maturity Duration:
5. Agronomic Characters:
6. Photo and Thermo Insensitivity:
7. Synchronous Maturity:
8. Non-Shattering Characteristics:
9. Determinate Growth Habit:
10. Dormancy:
11. Varieties for a New Season:
12. Moisture Stress and Salt Tolerance:
13. Elimination of Toxic Substance:
14. Wider Adaptability:
1. Higher Yield:
Higher yield of grain, fodder, fibre, sugar, oil etc, developing hybrid
varieties of Jowar, Maize, Bajara, etc.

2. Improved Quality:
 The quality characters may vary from one crop to another such as
grain size, shape, colour, milling and baking quality of wheat,
cooking quality in rice, malting in barley.

 Size, colour and flavour of fruits and keeping quality of vegetables,
protein content in legumes, methionine and tryptophan contents in
pulses etc.
3. Disease and Pest Resistance:
Resistant varieties offer the cheapest and most convenient method
of disease and pest control. They not only helps to increase the
production but also stabilize the productivity.
e.g. Rust resistance in wheat.

4. Maturity Duration:
It permits new crop rotation and extends crop area.
Thus breeding for early maturing varieties suitable for different
dates of planting.
This enables the farmer to take two-three crops in a year.
5. Agronomic Characters:

These includes the characters such as dwarfness, profuse tillering,
branching erect, resistant and fertilizer responsiveness.

Tillering

Dwarf Vs Tall varieties in wheat
6. Photo and Thermo Insensitivity:

Development of photo and thermo insensitive varieties in rice and
wheat will permit to extend their cultivation to new areas.

E.g Cultivation of Wheat in Kerala and West Bengal

Cultivation of Rice in Punjab and Himachal Pradesh.
7. Synchronous Maturity:

It is desirable in crops like mung ( Vigna radiata) where several
pickings are necessary.
8. Non-Shattering Characteristics:
E.g. Mung, Black Gram, Horse Gram, etc.

Mung

Soybean
9. Determinate Growth Habit:

It is desirable in mung, pigeon pea and cotton, etc.

Determinate Indeterminate

soybean
10. Dormancy:
A dormant seed is one that is unable to germinate in a specified period
of time under a combination of environmental factors that are
normally suitable for the germination of the non-dormant seed.

In some crops, seeds germinate even before harvesting if there are
rains at the time of maturity.
E.g Mung, barley, etc.
Fig. seed germination on mother plant
11. Varieties for a New Season:
Breeding crops suitable for seasons.
E.g Maize (Kharif) which is grown in Rabi and summer also.

12. Moisture Stress and Salt Tolerance:
Development of varieties for a rainfed area and saline soils would
help to increase crop production in India.
13. Elimination of Toxic Substance:
It will help to make them safe for consumption
E.g Khesari ( Lathyrus sativus) seeds have a neurotoxin causing
paralysis, brassica oil has erucic acid.

14. Wider Adaptability:
It helps in stabilizing the crop production over region and seasons.
 ACHIEVEMENTS OF PLANT BREEDING

A) Production of dwarf and semi dwarf cereal varieties:

B) Nobilisation of sugarcane

C) Development of hybrid and synthetics
A) Production of Dwarf and Semi Dwarf Cereal Varieties:

Many dwarf and semi dwarf varieties are developed in crops like wheat
and rice.
Dr. Borlaug used NORIN-10 as a source of dwarfing gene, in wheat at
CIMMYT (Mexico).
Variety Kalyan Sona and Sonalika were selected from these materials.

Similarly the development of semi dwarf varieties of Rice has
revolutionized rice cultivation. These varieties were developed by
introducing the gene from japonica variety Dee-Geo-Woo-Gen.
Ex TN. 1 developed at Taiwan and IR-8 at IRRI, Philippines, both were
introduced in India in 1966.
 Semi dwarf Wheat and Rice

Sources of semi dwarf rice
Dee-geo-woo-gen
IR8(Taiwan) Jaya, Ratna(India)

Sources of semi dwarf wheat
Rht1, Rht2, Rht1+Rht2
Rht1+Ppd1/Ppd2
Rht2+Ppd1/Ppd2.
Kalyan Sona, Sonalika.
B) Nobilisation of Sugarcane:

The Indian canes were of Saccharum barberi, largely grown in North
India. They were hardy but poor in yield and sugar content,
……while tropical noble cane of Saccharum officinarum had thicker
stem and higher sugar content but it performed badly in North India due
to low winter temperature.

C.A Barber and T.S Venkatraman at Sugarcane Breeding Institute,
Coimbatore, transferred thick stem, higher sugar content and other
desirable characters from the Noble cane to Indian cane is commonly
referred as Nobilisation on of Indian canes.
C) Development of Hybrid and Synthetic:

1. Maize: Ganga series of hybrid, Ganga safed-2, African Tall,
Manjari, Deccan etc.

2. Sorghum : CSH-1,2,3,4,5,6,7,8,910,12,14 and 15 R.

3. Bajara: WCC-75, PHB-10, ICTP-8203, Shraddha and Saburi.

4. Cotton: H-4, Var.Laxmi, Savitri, NH-44, Jaylaxmi, etc.
Indian Scientist:
1. Dr. M.S. Swaminathan – Mutation breeding
2. Maheshwari and Guha (1964)- Produced haploid plant in Vitro from
pollen grain.
3. C.A.Barber and T.S venkatraman – Nobilisation of sugarcane.
4. Dr. Athwal – Bajra breeder.
5. K. Ramiah- Rice breeder
6. Dr. N.G.P. Rao – Sorghum breeder
7. Pushkarnath - Potato Breeder
8. Ram Dhan Singh- Wheat breeder
9. C. T Patel- Cotton breeder
 Scope of Plant Breeding (Future Prospects)
I) Genetic manipulation of population by increasing the frequency of desirable
alleles in cross pollinated crops and introducing male sterility in self
pollinated crops like wheat and rice.

II) Intensive breeding of pulses and oil seed crops as it was done in cereals
and other crops.

III) Proper breeding methods with improved crop management practices.

IV) Use of heritability methods with improved crop management practices.

V) Development of improved high yielding varieties of vegetable and seed
crops.

VI) Quality Improvement in Oil seed and Vegetables.

VII) Use of transgenic plants. E.g. Bt-Cotton, rice, tomato.
Activities in Plant Breeding
 DOMESTICATION

“Domestication is the process of bringing wild species under
human management.”

All crops grown today have
undergone extensive genetic
change from their wild ancestors.

The first domesticated
plants were cereals,
legumes and other
species used for their
 PROCESS OF DOMESTICATION

1)Natural Selection

Mechanism of Natural selection given by Nichlson 1962

i) Environmental selection

ii) Competition

2) Artificial Selection
PATTERNS OF EVOLUTION IN CROPS

1. Mendelian Variation

2. Interspecific Hybridization

3. Polyploidy
 Plant Introduction

Plant introduction consists of taking a genotype or a
group of genotypes of plants into new environments
where they were not being grown before
 PLANT INTRODUCTION

PRIMARY INTRODUCTION

SECONDARY INTRODUCTION

Dr. H. B. SINGH – Renowned Plant Explorer
 Types of Plant Introduction
Based on adaptation
Primary Introduction - Variety is well adopted
to the new environment, released for
commercial cultivation without any alteration
in the original genotype. Ex. Sonora 64, Lerma
Roja and TN-1, IR-8 and IR-36
Secondary Introduction - Introduced variety
may be subjected to selection & hybridization
to isolate a superior variety ex. Kalyan Sona
and sonalika
Conti…
Based on utilization
Direct Introduction–new variety takes no
time for establishment
Indirect Introduction–new variety takes
some time for establishment
Exotic variety–foreign variety directly
recommended for commercial cultivation in
new environment
 Plant Introduction Agencies

World wide
IBPGR/IPGRI (1974) –
CGIAR
In India
NBPGR (1946)
FRI
BSI(1890)
 AGENCIES IN INDIA

National Bureau of Plant Genetic Resources (NBPGR)

Forest Research Institute

Botanical Survey of India

NBPGR has its headquarters at IARI New Delhi
 Activities of NBPGR
Introduce & supplement of required germplasm
Exploration & collection of valuable germplasm.
Inspection & quarantine.
Testing, multiplication & maintenance of
germplasm.
Publishing its exchange & collection list.
Setting up natural gene sanctuaries.
 Sources of Plant Introduction

Centre of diversity
Gene bank
Gene sanctuaries
Seed companies
Farmers’ field
PROCEDURE FOR PLANT INTRODUCTION

1. Procurement

2. Quarantine

3. Cataloguing

4. Evaluation

5. Multiplication

6. Distribution
 Procedure of Plant Introduction

Procurement of germplasm
Quarantine
Cataloguing
Germplasm Evaluation
Multiplication & Distribution
 Procurement of germplasm

As Gift from individuals / institutuions
Purchase
collection through exploration
Propagules
Restriction on export & introduction of plant
materials
 Quarantine
Keeping materials in isolation to prevent the spread
of diseases.
Fumigation or other treatments (if necessary).
According to destructive insects & pests act, 1914,
quarantine for different group of plant produce is
carried out by different agencies.
Directorate of plant protection quarantine and
storage maintaine Quarantine & fumigation centres
at Seaports(8), Airports(7) & at entry point of land
routes(7).
 Cataloguing

Accession number is given to a new introduced material
Information regarding name of species & variety, place of
origin, adaptation & its various features are also recorded.
Cataloguing of germplasm collections is published by gene
bank.
The introduced materials are of 3 types & given a prefix-
EC – Exotic Collection
IC – Indigenous Collection
IW –Indigenous Wild
 Purpose of Plant Introduction

Obtain an entirely new crop species (Maize, Potato,
Tomato etc.)
To serve as new varieties (Sonora-64, Lerma rojo – wheat. TN
1, IR 8 -Rice)
To be utilized in crop improvement
To save the crop from disease & pest.
(Coffee was introduced in South America from Africa to prevent losses from
leaf rust).
To be used in scientific studies.
To be used for aesthetic value.
Achievements
introduction as new crop species.
Introductions have been directly released as variety.
Varieties selected from introduction
Introduction helps to develop varieties through hybridization.
Merits of Plant Introduction
Entirely new crop plant is derived.
Quick & economical method of crop improvement.
Genetic base can be broadened by plant introduction.
Protection of crops from damage by introducing them in to
disease free areas.
Development of superior varieties through selection &
hybridization by using introductions.
 Demerits of Plant Introduction
Introduction of weeds along with introduced materials.
Introduction of diseases along with introduced materials.
Introduction of insect pest along with introduced materials.
Some plants introduced as ornamental species became noxious
weeds.
Some introduced plants are threat to the ecological balance.
 CENTRES OF ORIGIN

1. PRIMARY CENTRES OF ORIGIN

2. SECONDARY CENTRES OF ORIGIN

Studies Conducted At Institute Of Plant Industry,
Leningrad (1916-1936)

Law of Homologous Series in Variation
 LIST OF CENTRES OF ORIGIN

Centre of Origin Primary Centre of Origin Secondary Centre of Origin
Barley , Triticum spp, jawar, bajara,
gram, lentil,pea,khesari, liseed,
safflower, seasamum, castor,
Abyssinian Centre coffee, onion, okra,etc Broad bean ( Vicia faba)
Triticum spp, rye, alfalfa, carrot,
cabbage, oat, lettuce, apple, pyrus
spp, prunus spp, grape, alomond,
Asia Minor Centre ( Syn, near chestnut, pistachio nut, persain B.compestris , B. nigra, turnip,
East or Persian Centre) clover, etc. apricot, etc.
Maize, rajma, lina beans, melon,
pumkin, sweet potato, arrowrrot,
Central American Centre (Syn. chillies, G.hirsutum, papaya,
Mexican Centre) guava, avacado, etc.
Triticum aestivum , pea, mung,
linseed, sasamum, safflower,
hemp, G. herbaceum, radish,
muskmelon, carrot, onion, garlic,
Centra Asia Centre ( Syn, spinach, pear, almond, grape,
Afganistan Centre) apple, etc. Rye ( Secale cereale)
 Centre of Origin Primary Centre of Origin Secondary Centre of Origin
Soybean , radish, bunda
(Colocasia sp), proso millet,
buckwheat, opium poppy, brinjal,
pear, peach, apricot, plum, Maize, rajma, cowpea, turnip,
China Centre orange, Chinese tea, etc seasamum, etc.

Rice , pigeon pea, chickpea,
cowpea, mung, brinjal, cucumber,
Hindustan Centre ( Divided Indian radish , noble canes,
into 1) Indoburma and 2) G.arboreum, Mango, orange,
Siam-malaya- java Centre) coconut, banana, etc.

Triticum spp, barley, Avena spp,
lentil, pea, broad bean, lathyrus
spp, chickpea, clovers, Brassica
spp, onion, garlic, beets, lettuce,
asparagus, lavender, peppermint,
Mediterranean Centre etc.
South American Centre (1. Potato, maize, pineapple,
Peru, 2. Chile and 3. Brazil- pumpkin, G.b barbadense,
Paraguay Centres) tomato, tobacco
(1) Mexico-Guatemala, (2) Peru-Ecuador-Bolivia, (2A) Southern Chile, (2B)
Southern Brazil, (3) Mediterranean, (4) Middle East, (5) Ethiopia, (6) Central
Asia, (7) Indo-Burma, (7A) Siam-Malaya-Java, (8) China and Korea
 CENTER OF DIVERSITY

Geographic region in which greatest variability of a crop occurs.

Types of Centers of Diversity of Crops

The centers of crop diversity of three types viz:
1) Primary centers of diversity
2) Secondary centers of diversity
3) Micro –Centers
1. Primary Centers of Diversity:

Primary centers are regions of vast genetic diversity of crop
plants. These are original homes of the crop plants.

Main features of these centers are given below:

1. They have wide genetic diversity.
2. Have large number of dominant genes.
3. Mostly have wild characters.
4. Natural selection operates.
2. Secondary Centers of Diversity:

N.I. Vavilov (1926) suggested that valuable forms of crop plants
are found far away from their primary area of origin, which he
called secondary centers of diversity.

These are generally the cultivated areas and have following main
features.

1. Have lesser genetic diversity than primary centers.
2. Have large number of recessive genes.
3. Mostly have desirable characters.
4. Exhibit more crossing over
5. Both natural and artificial selections operate.
3. Microcenters:

In some case, small areas within the centers of diversity exhibit
tremendous genetic diversity of some crop plants. These areas are
referred to as micro-centres.

The main features of micro centers are given below:
1. They represent small areas within the centers of diversity.
2. Exhibit tremendous genetic diversity.
3. The rate of natural evolution is faster than larger areas.
4. They are important sites for the study of crop evolution.
GENE BANKS
Gene Banks:

Gene bank refers to a place where germplasm can be conserved in
living state. Gene banks are also known as germplasm banks.

The germplasm is stored in the form of seeds, pollen or in vitro
cultures, or in the case of a field gene bank, as plants growing in the
field.

Gene banks are mainly of two types, viz:
1) Seed gene banks, and
2) Field gene banks.
1. Seed Gene Bank: A place where germplasm is conserved in the
form of seeds is called seed gene bank.

Seeds are very convenient for storage because they occupy smaller
space than whole plants.

However, seeds of all crops can not be stored at low temperature in the
seed banks.

The germplasm of only orthodox species (whose seed can be dried to
low moisture content without losing viability) can be conserved in
seed banks.
In the seed banks, there are three types of conservation, viz.

1) Short term:- Working collections are stored for short term (3-5
years) at 5-10 0C.

2) Medium term:- Active collection are stored for medium term (10-
15 years) at below 15 0C.

3) Long term. Base collections are conserved for long term (50 years
or more) at -18 or -20 0C.
Advantages of gene banks:
1. Large number of germplasm samples or entire variability can be
conserved in a very small space.
2. In seed banks, handling of germplasm is easy.
3. Germplasm is conserved under pathogen and insect free environment.

Disadvantages of gene banks:
1. Seeds of recalcitrant species can not be stored in seed banks.
2. Failure of power supply may lead to loss of viability and there by loss of
germplasm.
3. It requires periodical evaluation of seed viability. After some time
multiplication is essential to get new or fresh seeds of storage.
2. Field Gene Banks:
Field gene banks also called plant gene banks are areas of land in which
germplasm collections of growing plants are assembled.

This is also ex-situ conservation of germplasm. Those plant species that
have recalcitrant seeds or do not produce seeds readily are conserved in
field gene bank.

In field gene banks, germplasm is maintained in the form of plants as a
permanent living collection.

Eg. coconut, rubber, mango, cassava, yam, and cocoa.
Advantages field gene banks:

1. It provides opportunities for continuous evaluation for various
economic characters.
2. It can be directly utilized in the breeding programmes.

Disadvantages field gene banks:

1. Field gene banks can not cover the entire genetic diversity of a
species. It can cover only a fraction of the full range of diversity of
a species.
2. The germplasm in field gene banks is exposed to pathogen and
insects and some times is damaged by natural disasters such as
bushfires, cyclones, floods , etc.
3. Maintenance of germplasm in the field gene banks is costly affair.
Gene Banks for Various Crops in India
Location of Gene
Crop Species Bank Name of Research Institute
Wheat Karnal Directorate of Wheat Research ( DWR)
Rice Cuttack Central Rice Research Institute( CRRI)
Potato Shimla Central Potato Research Institute ( CPRI)
Cotton Nagpur Central Institute for Cotton Research ( CICR)
Pulses Kanpur Indian Institute for Pulses Research ( IIPR)
Oil seed crops Hyderabad Directorate of Oil Seed Research ( DOR)
Sorghum Hyderabad National Research Centre of Sorghum
Soybean Indore National Research Centre of Soybean
Groundnut Junagarh National Research Centre of Groundnut
Maize New Delhi Indian Agricultural Research Institute
Citrus Nagpur National Research Centre of Citrus
Sugarcane Coimbatore Sugarcane Breeding Institute
Indian grassland and Fodder Research
Forage Crop Jhansi Institute ( IGFRI)
Tobacco Rajahmundry Central Tobacco Research Institute ( CTRI)
International Gene Banks for Different Crops
Sr. Location of
No. Name of Institute Gene Bank Crops Maintained
International Rice Research
1 Institute (IRRI) Philippines Rice
International Wheat and Maize Maize, Wheat,
2 Improvement Centre ( CIMMYT) Mexico Triticale, Barley
International Centre for Tropical Cassava, beans, Rice
3 Agriculture ( CIAT) Columbia and Maize
Cowpea, Soybean,
International Institute for lima bean, cassava,
4 Tropical Agriculture ( IITA) Nigeria Sweet potato.
5 International Potato Centre Peru Potato
International Crop Research Sorghum, Pearl Millet,
Institute for Semiarid Tropics ( pigeon pea,
6 ICRISAT) India groundnut.
International Centre for
Agriculture Research in Dry land Durum Wheat, Barley,
7 Areas ( ICARDA) Syria beans.