STRATEGIES FOR ENHANCEMENT IN
FOOD PRODUCTION
PLANT BREEDING
DEFINATION
plant breeding is a technique
of genotypic improvement of
economically important crop
plants to produce new crops
that are better suited for
cultivation,give better yeild
and are disease resistant
OBJECTIVES
high yeild
resistance to diseases and
pests
eary maturity
abiotic resistance
better quality
better adaptability
MAIN STEPS IN BREEDING
GERMPLASM COLLECTION FOR
VARIABILITY
The sum total of all alleles
of the genes present in the
existing and past varieties of
a
crop and its wild relatives
constitutes the germplasm
all cultivated improved
varieties
improved varities that are no
mor in cultivation
old local or desi varieties
pur lines produced by plant
breeders
wild species related to the
crop species
Centres for plant genetic
resources
indian
International Crops Research
Institute for Semi-Arid
Tropics (ICRISAT
Central Rice Research
Institute(CRRI)
International
International Board of Plant
Genetic Resources (IBPGR)
Types of Seeds
Orthodox Seeds (-10° to -20° C)
Recalcitrant Seeds (aerobic
humid conditions)
Cyropreserved (-196° C)
EVALUATION AND SELECTION OF
PARENTS
The germplasm is evaluated and
plants with desired
combinations of characters are
identified. selection is
carried out for plants with
advantageous charaters based
on
phenotypic characters
Mass Selection
cross polinated plants
grown in same field
plants selected for desired
features and their seeds are
collected
the process is repeated many
times to obtain homozygosity
Pure Line Selection
self pollinated crops
plants selected on basis of
best agronomic characters
sown in separate rows
process repeated continously
to obtain pure line
Clonal Selection
plants that multiply by
vegetative propogation
helps in conserving hybrid
vigour and quality of crop
new genetic variability cannot
be introduced
CROSS HYBRIDIZATION BETWEEN
SELECTED PARENTS
PROCEDURE
Selection and Isolation
ofmplants
emasculation (stamens removed
at bud stage)
bagging
tagging
pollination or crossing
STEPS
step 1: pollen grains from the
desirable plant chosen as male
parent are collected and
placed on stigma of flowers of
female parents
step 2: Not all hybrids show
the desired characters. only,
one in a few 100 to 1000
crosses show the desirable
combination. such hybrid
plants are sleceted
TYPES
Intravarietal: same variety
Intervarietal: different lines
or varieties of the same
species
Interspecific: different
species
Intergeneric: different genera
SELECTION AND TESTING OF
SUPERIOR RECOMBINANTS
STEPS:
i) Selection of haploid plants
that have the combination of
desired characters
ii) Selfing the selected
plants through several
generations to produce uniform
homozygous
inbred lines
iii) Crossing the selected
inbred lines to produce
uniform F1 population with
desired
qualities and then F1 seeds
can be directly grown
TESTING RELEASE AND
COMMERCIALISATION
MULTIPLICATION OF IMPROVED
SEEDS
National Seeds Corporation
(NSC)streamlines raising seeds
of improved varieties
free of weed seeds
free of pathogens and pests
high order of purity
high rate of germination
Seeds are certified and packed
in sealed packects as
certified seeds. Each sealed
packet
caonatins information:
date of test
purity of seeds (99%)
absence of weeds and presnce
of inert matter (not more than
1%)
special features (if any)
validity of certificate
EXTRA TERMS:
INBREEDING DEPRESSION
genetically similar plants
produce reccessive traits in
their progeny
reduced biological fitness in
a given population because of
interbreeding among related
indiviuals
HETEROSIS/HYBRID VIGOUR
better yeilding varieties in
plants in terms of
growth,size,climatic condition
when such hybrids are
produced,they are better than
parents and continue to be
cultivated
HIGH YEILDING (HYVs)
Wheat: Kalyan Sona,Sharbati
Sonara
Rice: Jaya, Ratna
Maize: Protina
Sugaecane: Saccharum
officinarum
Millets: Hybrid Bajra
(PHB,BJ,BK) and Jowar (CSH
series)
PLANT BREEDING FOR DISEASE
RESISTANCE
DISEASES
Fungi: brown rust of wheat ,
late blight of poatato
Bacteria : black rot of
crucifers
Viruses: tobacco mosaic
DISEASE RESISTANT VARIETIES
Wheat
Himgiri
Leaf and stripe rust, Hill Bunt
Brassica
Pusa swarnim (Karan Rai)
White rust
Cauliflower
Pusa Shubhra, Pusa Snowball K-1
Black rot and curl blight, black rot
Cowpea
Pusa Komal
Bacterial blight
Chilli
Pusa Sadabahar
Chilly , mosaic virus, tobacco mosaic virus
and leaf curl diseases
PLANT BREEDING FOR DEVELOPING
RESISTANCE TO INSECT PESTS
COMMON PEST RESISTANT VARIETIES
Brassica (rapeseed mustard)
Pusa Gaurav
Aphids
Flat bean
Pusa sem 2, Pusa Sem 3
Jassids, Aphids and fruit borer
Okra(bhindi)
Pusa Sawani, Pusa A- 4
Shoot and fruit borer
BIOFORTIFICATION
Breeding of crops with higher levels of vitamins and minerals or higher proteins and healthier fats is called bio-fortification
Examples:
Maize hybrids
Wheat: Atlas 66
iron-fortified rice
PLANT TISSUE CULTURE
Technique of growing plant cells,tissues or organs in a sterile culture medium under controlled evnvironmental conditiond
PROCEDURE
step i) selection of explant
step ii) Sterilisation (free from microbes) of explant,vessels,culture medium and all instruments using chlorine water or sodium or calcium hypochlorite solution
step iii)transfer of explants to culture medium under aseptic condition with optimum conditions for growth
step iv) Callus formation: CONTINUE
ANIMAL HUSBANDRY
ANIMAL BREEDING
DEFINITION: Controlled mating followed by selection to obtain superior genotype of domesticated animals is known as animal breeding
MAIN AIMS OF ANIMAL BREEDING
Increased yeild and better quality of animal products like miks, eggs,meat and wool
resistance to various diseases
Longer productive life and higher reproductive rate
higher growth rate
TYPES
INBREEDING
It is the mating of closely related individuals of the same species but from different populations
PROCEDURE
Step i) Identification and mating superior males and superior females of the same breed in pairs.
Step ii) Assessment and evaluation of progeny obtained from such mating for desirable traits
Step iii) Again,the superior males and females are identified from the progeny
Step iv) The process is repeated for 4-6 generations
ADVANTAGES
increases homozyosity (evolve pure line)
eliminates harmful or deleterious recessive genes
accumulation of superior genes
DISADVANTAGES
Inbreeding depression: decreased vigour and productivity and reduction in weight gain in the offspring.
meat of such animals is tougher due to high pH
decrease in the lifespan and loss of milk production in dairy cows
NOTE: to overcome inbreeding depression it is advisable to breed superior animals of the local populations with the superior animals of another unrelated population but of the same breed
OUTBREEDING
It is the mating between unrelated animals belonging to the same breed or different breeds of the same species or between individuals of different species
TYPES
Out-crossing
same breed but no common ancestors up to 4-6 generations
best for animals that are below average in milk production
single out-cross helps overcoming inbreedong depression
Cross breeding
different breeds
Allows the desirable qualities of two differenet breeds to be combined
Interspecific Hybridization
different related species
only performed when sterile hybrid is superior to either of the parents
CONTROLLED(ARTIFICIAL) BREEDING EXPERIMENTS
ARTIFICIAL INSEMINATION
the semen of the chosen male is collected and injected into the reproductive tract of the slected female by the breeder.
:ADVANTAGES
ensures good quality progeny
high yielding males not available everywhere,semen can be collected and transported to distant places
the semen can be frozen and used later
economical as semen of a single male is sufficient to inseminate a large number of females
contagious diseases don't spread
MULTIPLE OVULATION EMBRYO TRANSFER TECHNOLOGY (MOET)
employed for herd improvement to improve chances of successful production of hybrids
PROCEDURE:
in this technique a female is administered with FSH
induces follicular maturation and superovulation
a number of follicles undergo maturation producing 6-8 eggs
as the eggs are ready,the female is inseminated
the fertilised cells at 8-32 cells stage are recovered non-surgically and transferred to surrogate mothers
genetic mother are induced for another round of superovulation
high milk yielding females and high quality meat yielding bulls obtained