カテゴリー 全て - disease - culture - plant - tissue

によって Anshita Jaiswal 4年前.

290

STRATEGIES_FOR_ENHANCEMENT_IN_FOOD_PRODUCTION(2)

The document outlines various strategies to enhance food production, focusing on plant breeding, tissue culture, and biofortification. Plant breeding is highlighted as a method for developing disease-resistant varieties, with specific examples such as Wheat Himgiri and Chilli Pusa Sadabahar.

STRATEGIES_FOR_ENHANCEMENT_IN_FOOD_PRODUCTION(2)

STRATEGIES FOR ENHANCEMENT IN FOOD PRODUCTION

ANIMAL HUSBANDRY

CONTROLLED(ARTIFICIAL) BREEDING EXPERIMENTS
MULTIPLE OVULATION EMBRYO TRANSFER TECHNOLOGY (MOET)

high milk yielding females and high quality meat yielding bulls obtained

PROCEDURE:

genetic mother are induced for another round of superovulation

the fertilised cells at 8-32 cells stage are recovered non-surgically and transferred to surrogate mothers

as the eggs are ready,the female is inseminated

a number of follicles undergo maturation producing 6-8 eggs

induces follicular maturation and superovulation

in this technique a female is administered with FSH

employed for herd improvement to improve chances of successful production of hybrids

ARTIFICIAL INSEMINATION

:ADVANTAGES

contagious diseases don't spread

economical as semen of a single male is sufficient to inseminate a large number of females

the semen can be frozen and used later

high yielding males not available everywhere,semen can be collected and transported to distant places

ensures good quality progeny

the semen of the chosen male is collected and injected into the reproductive tract of the slected female by the breeder.

ANIMAL BREEDING

OUTBREEDING

Interspecific Hybridization

only performed when sterile hybrid is superior to either of the parents

different related species

Cross breeding

Allows the desirable qualities of two differenet breeds to be combined

different breeds

Out-crossing

single out-cross helps overcoming inbreedong depression

best for animals that are below average in milk production

same breed but no common ancestors up to 4-6 generations

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

INBREEDING

It is the mating of closely related individuals of the same species but from different populations

DISADVANTAGES

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

decrease in the lifespan and loss of milk production in dairy cows

meat of such animals is tougher due to high pH

Inbreeding depression: decreased vigour and productivity and reduction in weight gain in the offspring.

ADVANTAGES

accumulation of superior genes

eliminates harmful or deleterious recessive genes

increases homozyosity (evolve pure line)

Step iv) The process is repeated for 4-6 generations

Step iii) Again,the superior males and females are identified from the progeny

Step ii) Assessment and evaluation of progeny obtained from such mating for desirable traits

Step i) Identification and mating superior males and superior females of the same breed in pairs.

MAIN AIMS OF ANIMAL BREEDING

higher growth rate

Longer productive life and higher reproductive rate

resistance to various diseases

Increased yeild and better quality of animal products like miks, eggs,meat and wool

DEFINITION: Controlled mating followed by selection to obtain superior genotype of domesticated animals is known as animal breeding

PLANT BREEDING

PLANT TISSUE CULTURE

step iv) Callus formation: CONTINUE

step iii)transfer of explants to culture medium under aseptic condition with optimum conditions for growth

step ii) Sterilisation (free from microbes) of explant,vessels,culture medium and all instruments using chlorine water or sodium or calcium hypochlorite solution

step i) selection of explant

Technique of growing plant cells,tissues or organs in a sterile culture medium under controlled evnvironmental conditiond
BIOFORTIFICATION
Examples:

iron-fortified rice

Wheat: Atlas 66

Maize hybrids

Breeding of crops with higher levels of vitamins and minerals or higher proteins and healthier fats is called bio-fortification
PLANT BREEDING FOR DEVELOPING RESISTANCE TO INSECT PESTS
COMMON PEST RESISTANT VARIETIES

Okra(bhindi) Pusa Sawani, Pusa A- 4 Shoot and fruit borer

Flat bean Pusa sem 2, Pusa Sem 3 Jassids, Aphids and fruit borer

Brassica (rapeseed mustard) Pusa Gaurav Aphids

PLANT BREEDING FOR DISEASE RESISTANCE
DISEASE RESISTANT VARIETIES

Chilli Pusa Sadabahar Chilly , mosaic virus, tobacco mosaic virus and leaf curl diseases

Cowpea Pusa Komal Bacterial blight

Cauliflower Pusa Shubhra, Pusa Snowball K-1 Black rot and curl blight, black rot

Brassica Pusa swarnim (Karan Rai) White rust

Wheat Himgiri Leaf and stripe rust, Hill Bunt

DISEASES

Viruses: tobacco mosaic

Bacteria : black rot of crucifers

Fungi: brown rust of wheat , late blight of poatato

HIGH YEILDING (HYVs)
Millets: Hybrid Bajra (PHB,BJ,BK) and Jowar (CSH series)
Sugaecane: Saccharum officinarum
Maize: Protina
Rice: Jaya, Ratna
Wheat: Kalyan Sona,Sharbati Sonara
EXTRA TERMS:
HETEROSIS/HYBRID VIGOUR

when such hybrids are produced,they are better than parents and continue to be cultivated

better yeilding varieties in plants in terms of growth,size,climatic condition

INBREEDING DEPRESSION

indiviuals

reduced biological fitness in a given population because of interbreeding among related

genetically similar plants produce reccessive traits in their progeny

MAIN STEPS IN BREEDING
MULTIPLICATION OF IMPROVED SEEDS

caonatins information:

validity of certificate

special features (if any)

absence of weeds and presnce of inert matter (not more than 1%)

purity of seeds (99%)

date of test

Seeds are certified and packed in sealed packects as certified seeds. Each sealed packet

National Seeds Corporation (NSC)streamlines raising seeds of improved varieties

high rate of germination

high order of purity

free of pathogens and pests

free of weed seeds

TESTING RELEASE AND COMMERCIALISATION
SELECTION AND TESTING OF SUPERIOR RECOMBINANTS

STEPS:

qualities and then F1 seeds can be directly grown

iii) Crossing the selected inbred lines to produce uniform F1 population with desired

inbred lines

ii) Selfing the selected plants through several generations to produce uniform homozygous

i) Selection of haploid plants that have the combination of desired characters

CROSS HYBRIDIZATION BETWEEN SELECTED PARENTS

TYPES

Intergeneric: different genera

Interspecific: different species

Intervarietal: different lines or varieties of the same species

Intravarietal: same variety

STEPS

crosses show the desirable combination. such hybrid plants are sleceted

step 2: Not all hybrids show the desired characters. only, one in a few 100 to 1000

placed on stigma of flowers of female parents

step 1: pollen grains from the desirable plant chosen as male parent are collected and

PROCEDURE

pollination or crossing

tagging

bagging

emasculation (stamens removed at bud stage)

Selection and Isolation ofmplants

EVALUATION AND SELECTION OF PARENTS

phenotypic characters

Clonal Selection

new genetic variability cannot be introduced

helps in conserving hybrid vigour and quality of crop

plants that multiply by vegetative propogation

Pure Line Selection

process repeated continously to obtain pure line

sown in separate rows

plants selected on basis of best agronomic characters

self pollinated crops

Mass Selection

the process is repeated many times to obtain homozygosity

plants selected for desired features and their seeds are collected

grown in same field

cross polinated plants

identified. selection is carried out for plants with advantageous charaters based on

The germplasm is evaluated and plants with desired combinations of characters are

GERMPLASM COLLECTION FOR VARIABILITY

Types of Seeds

Cyropreserved (-196° C)

Recalcitrant Seeds (aerobic humid conditions)

Orthodox Seeds (-10° to -20° C)

Centres for plant genetic resources

International

International Board of Plant Genetic Resources (IBPGR)

indian

Central Rice Research Institute(CRRI)

International Crops Research Institute for Semi-Arid Tropics (ICRISAT

crop and its wild relatives constitutes the germplasm

wild species related to the crop species

pur lines produced by plant breeders

old local or desi varieties

improved varities that are no mor in cultivation

all cultivated improved varieties

The sum total of all alleles of the genes present in the existing and past varieties of a

OBJECTIVES
better adaptability
better quality
abiotic resistance
eary maturity
resistance to diseases and pests
high yeild
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