SlideShare a Scribd company logo

History of plant breeding

Download as PPTX, PDF
Pawan Nagar
Pawan Nagar

History of plant breeding

Education
1 of 21
HISTORY OF PLANT BREEDING PRESENTED BY: Pawan Nagar Reg. no.: 04-2690-2015 M.Sc.(Fruit Science)
HISTORY OF PLANT BREEDING In broad sense history of plant breeding can be divided into Four 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:- The process of bringing a wild species under human management is referred to as Domestication.  9000 B.C.: First evidence of plant domestication in the hills above the Tigris River.  3000 B.C.: Domestication of all important food crops in the Old World completed.  1000 B.C.: Domestication of all important food crops in the New World completed.  700 B.C.: Babylonians and Assyrians hand pollinate date palm artificially.  1665: Robert Hooke(England): First described the cell and known as father of cell biology.  1694: Camerarius of Germany first to demonstrate sex in plants and suggested crossing as a method to obtain new plant types.
CONTINUE…..  1717: Thomas Fairchild: Developed first Inter specific hybrid between sweet William and Carnation Species of Dianthus popularly known as Fair Child’s mule.  1727: The first plant breeding company was established in France by the vilmorins and introduced the pedigree method of breeding.  1753: Linnaeus published “Species planetarium”. Binomial nomenclature of plant taxonomy officially begins with his general list of plant species.  1766: Joseph Koelreuter of Germany demonstrated that hybrid offspring received traits from both parents and were intermediate in most traits observed and produced first scientific hybrid using tobacco.
CONTINUE…..  1800-1835: Knight T.A (English): First used Artificial Hybridization in Fruit Crops.  1819: Shirreff: Utilized pure line selection to develop a new oat cultivar (Released in 1824), and a new wheat cultivar (Released in 1832).  1823: Knight: Dominance, Recessiveness, and segregation observed in peas.  1840: John Le Couteur: They developed the concept of progeny test and individual plant selection in cereals.  1840-50: De Vilmorin (French Biologist): : progeny test in wheat, oat, and sugar-beet breeding.  1856: De Vilmorin: Further elaborated the concept of progeny test and used same in Sugarbeet.  1859-89: Darwin: Published “Origin of species”, and noted inbreeding sterility and differences in reciprocal crosses.
CONTINUE…..  1866: Mendel G.J (Austria): published his discoveries in “Experiments in plant hybridization”, cumulating in the formulation of laws of inheritance in garden pea and discovery of unit factors (genes).  1873: The work of Patrick Shireff was first published and He concluded that only the variation heritable nature responded to selections, and that there variation arose through ‘natural sports’ (= mutation) and by ‘natural hybridization’ (recombination during meiosis in the hybrids so produced).  1890: Rimpu (Sweden): First made inheritance cross between bread wheat (Triticum aestivum) and rye (Secale cereale), which later on gave birth to triticale.
2. MENDELIAN ERA:-  1900: De Varies (Holland) Correns (Germany) Tschermak (Austria) Rediscovered Mendel laws of inheritance independently.  1900: Nilson, H (Swedish): Elaborated individual plant selection method in Sweden.  1903: Johannsen W.L: proposed the pureline theory that provided the genetic basis for Individual plant selection and also coined the terms Genotype, Phenotype and Pureline.  1908–1909: Hardy of England and Weinberg of Germany developed the law of equilibrium of populations.  1908: Devenport, C.B: First proposed dominance hypothesis of heterosis.
CONTINUE… .  1908: Shull, G.H (US) East, E.M (US) proposed over dominance hypothesis independently working with maize.  1909: Shull conducted extensive research to develop inbreds to produce hybrids use of F1 hybrids between inbreds in corn breeding.  1909: Nilsson-Ehle: Given the explanation of multiple factor hypothesis for Grain colour of Wheat by using a Pedigree breeding and Bulk breeding.  1910: Bruce, A.B. keable, F. and Pellew, C. Elaborated the dominance hypothesis of heterosis proposed by davenport.  1914: Shull, G.H: First used the term heterosis for hybrid vigour.
CONTINUE….  1917: Jones developed first commercial hybrid maize and proposed dominance of linked gene hypothesis.  1919: Hays, H.K. Garber, R.J Gave initial idea about recurrent selection. They first suggested use of synthetic varieties for commercial cultivation in maize.
3. POST MENDELIAN ERA:-  1923: Sax: linkage between quantitative and qualitative traits in beans.  1926: East, E.M and Mangelsdorf, A.J: First discovered gametophytic system of self incompatibility in Nicotiana sanderae.  1926: Pioneer Hi-bred Corn Company established as first Seed Company.  1926: Vavilov, N.I: Identified 8 main centers and 3 sub centers of crop diversity. He also developed concept of parallel series of variation or law of homologous series of variation.  1927: Muller produced mutations in fruit flies using x-rays.  1927: Karpencheko developed first intergeneric hybrid between Radish and Cabbage in Russia.  1928: Stadler, L.J (US): First used X-rays for induction of mutations in barley.
CONTINUE…..  1933: Rhoades: Discovered cytoplasmic male sterility in Maize.  1934: Dustin discovered colchicines.  1935: Vavilov published the scientific basis of plant breeding.  1935: Nagahern proposed the origin of tetraploid species of Brassica using a triangle.  1936: East, E.M: Supported over dominance hypothesis of heterosis proposed by East and Shull in 1908.  1939: Goulden, C.H: First suggested the use of single seed descent method for advancing segregating generations of self pollinating crops.  1940: Jenkins, M.T: Described the procedure of recurrent selection.
CONTINUE…. .  1944: Avery, MacLeod, and McCarty: Described the transforming principle and suggested that DNA, not protein, is the hereditary material.  1945: Hull, F.H: Coined the terms recurrent selection and overdominance working with maize.  1950: Hughes and Babcock: First discovered sporophytic system of self incompatibility in Crepis foetida.  1950: McClintock discovered the Ac-Ds system of transposable elements.
4. MODERN ERA:-  1952: Jensen, N.F: First suggested the use of multi lines in oats.  1953: Borlaug, N.E: First outlined the method of developing multilines in Wheat.  1953: Watson, Crick, and Wilkins proposed a model for Double Helical Structure of DNA.  1956: Flor: gene for gene hypothesis for host-parasite resistance.  1964: Borlaug, N.E: Developed high yielding semi dwarf varieties of wheat which resulted in green revolution.  1965: Graphius, J.E: First applied Single Seed Descent (SSD) method in oats.  1968: Donald: Developed the concept of crop ideotype in wheat.
CONTINUE…..  1970: Patel, C.T: Developed world’s first cotton hybrid for commercial cultivation in India.  1970: Borlaug received Nobel Prize for the Green Revolution  1970: Berg, Cohen, and Boyer introduced the Recombinant DNA technology.  1976: Yuan Long Ping et al: Developed world’s first rice hybrid (CMS based) for commercial cultivation in China.  1983: Fraley et al.: Development of first transgenic (Genetically engineered) plant tobacco in USA.  1987: Monsanto: Developed world’s transgenic cotton plant in USA.  1991: ICRISAT: Developed world’s first pigeon pea hybrid (ICPH 8) (GMS based) for commercial cultivation in India.
CONTINUE…..  1994: “FlavrSavr” tomato developed as first genetically modified food produced for the market by calgene company of California.  1995: Bt corn developed.  1996: Glyphosate Resistant Crop® soybean introduced.  1997: Monsanto, USA: First identified terminator gene, which allows germination of seed for one generation only.  1908: Monsanto, USA: Identification of traitor gene, which responds to specific brand of fertilizers and insecticides.  2001:Protection of Plant Varieties and Farmers’ Rights Act (PPVFRA).  2002:Mahyco-Monsanto: Released three Bt Hybrids (MECH12, MECH16, MECH 184).  2004: Glyphosate Resistant Crop® wheat developed.  2005: Govt. of India: Approved cultivation of some Bt cotton hybrids in Punjab, Haryana and Rajasthan.
INSTITUTIONAL DEVELOPMENT AND HISTORY OF PLANT BREEDING IN INDIA  1871: The Government of India created the Department of Agriculture.  1892: First scientist appointed in the Department. He was agricultural chemist.  1901-05: Agricultural Colleges were established at Kanpur, Pune, Sabour, Llyalpur, Coimbatore.  1905: The Imperial Agricultural Research Institute was established in Pusa, Bihar.  1934: The buildings of the institute damaged in earthquake.  1936: Shifted to New Delhi.  1946: Name was changed Indian Agricultural Research Institute.
CONTINUE…. .  1929: Imperial council of Agricultural Research was established in New Delhi.  1946: Name was change to Indian Council Agricultural Research.  1921: Indian Central Cotton Committee was established Notable researches on Breeding and cultivation of cotton. E.g.: 70 improved varieties of cotton.  1956: Project for intensification of regional research on cotton, oilseeds and millets (PIRRCOM) was initiated to intensify research on these crops located at 17 Different centres throughout the country.  1957: All India Coordinated maize improvement project was started with objective of exploiting heterosis.  1960: First Agricultural University established at Pantnagar, Nainital, U.P.  1961: The first hybrid maize varieties released by the project. ICAR initiated Coordinated projects for improvement of the other crops.
CONTINUE…. .  1961: First Maize hybrid was released (Ganga1, Ganga101, Deccan and Ranjit).  1964: First Sorghum Hybrid (CSH-1) was released.  1965: First Bajra hybrid (HB-1) was released.  1971: One of the pioneer centre for research in India TNAU was established.  1991: First pigeon pea hybrid (ICPH-8) was released from ICRISAT(Six Mandate Crop are Pearl millet, Sorghum, Pigeon pea, Chickpea, Finger millet, Groundnut), Hyderabad.
SOME INDIAN PLANT BREEDER Sr No. Scientists Contribution 1 T.S. Venkatraman An eminent sugarcane breeder, he transferred thick stem and high sugar contents from tropical noble cane (Saccharum officinanum) to North Indian Canes (Saccharum barberi). This process is known as Noblization of sugarcane. 2 B.P. Pal An eminent Wheat breeder, developed superior disease resistant varieties of wheat and also first director general of ICAR. 3 M.S. Swaminathan Responsible for green revolution in India, developed high yielding dwarf varieties of Wheat and Rice. 4 Pushkarnath A Famous potato breeder who developed several high yielding varieties of potato. He was the Director of CPRI, Shimala.
SOME INDIAN PLANT BREEDER Sr No. Scientists Contribution 5 N.G.P. Rao An eminent sorghum breeder who developed the world’s first hybrid of sorghum(CSH-1). 6 K. Ramaiah A renowned rice breeder. He developed several high yielding varieties of rice when he was the Director of CRRI, Cuttack. 7 K. Athwal Famous pearlmillet breeder. He worked in PAU, Ludhiana and developed several superior varieties. 8 Bosisen An eminent maize breeder. He Developed several varieties of maize for Hill region of Uttranchal 9 Dharampal Singh An eminent oil-seed breeder. He released several varieties of oil-seeds(Rapeseed and Mustard) from Kanpur. 10 C.T. Patel Famous cotton breeder who developed world’s first cotton hybrid(H-4) in 1970 known as FATHER of Hybrid Cotton. 11 V. Santhanam Famous cotton breeder.
History of plant breeding

Recommended

Maintenance breeding
Maintenance breedingMaintenance breeding
Maintenance breeding
Pawan Nagar
 
Breeding methods in cross pollinated crops
Breeding methods in cross pollinated cropsBreeding methods in cross pollinated crops
Breeding methods in cross pollinated crops
Dev Hingra
 
Rice Introduction, origin, floral description, floral formula and cultivation...
Rice Introduction, origin, floral description, floral formula and cultivation...Rice Introduction, origin, floral description, floral formula and cultivation...
Rice Introduction, origin, floral description, floral formula and cultivation...
Sindh Agriculture University Tandojam, Sindh Pakistan
 
Recurrent selection sca1
Recurrent selection sca1Recurrent selection sca1
Recurrent selection sca1
Vipin Pandey
 
Breeding self pollinated crops
Breeding self pollinated cropsBreeding self pollinated crops
Breeding self pollinated crops
Pawan Nagar
 
PEDIGREE METHOD OF PLANT BREEDING
PEDIGREE METHOD OF PLANT BREEDINGPEDIGREE METHOD OF PLANT BREEDING
PEDIGREE METHOD OF PLANT BREEDING
ShekhAlisha
 
$Male sterility
$Male sterility$Male sterility
$Male sterility
Indranil Bhattacharjee
 
Plant Ideotype Concept
Plant Ideotype ConceptPlant Ideotype Concept
Plant Ideotype Concept
Dr. Kaushik Kumar Panigrahi
 

Recommended

Maintenance breeding
Maintenance breedingMaintenance breeding
Maintenance breeding
Pawan Nagar
 
Breeding methods in cross pollinated crops
Breeding methods in cross pollinated cropsBreeding methods in cross pollinated crops
Breeding methods in cross pollinated crops
Dev Hingra
 
Rice Introduction, origin, floral description, floral formula and cultivation...
Rice Introduction, origin, floral description, floral formula and cultivation...Rice Introduction, origin, floral description, floral formula and cultivation...
Rice Introduction, origin, floral description, floral formula and cultivation...
Sindh Agriculture University Tandojam, Sindh Pakistan
 
Recurrent selection sca1
Recurrent selection sca1Recurrent selection sca1
Recurrent selection sca1
Vipin Pandey
 
Breeding self pollinated crops
Breeding self pollinated cropsBreeding self pollinated crops
Breeding self pollinated crops
Pawan Nagar
 
PEDIGREE METHOD OF PLANT BREEDING
PEDIGREE METHOD OF PLANT BREEDINGPEDIGREE METHOD OF PLANT BREEDING
PEDIGREE METHOD OF PLANT BREEDING
ShekhAlisha
 
$Male sterility
$Male sterility$Male sterility
$Male sterility
Indranil Bhattacharjee
 
Plant Ideotype Concept
Plant Ideotype ConceptPlant Ideotype Concept
Plant Ideotype Concept
Dr. Kaushik Kumar Panigrahi
 
Backcross method for dominant and recessive gene transfer.
Backcross method for dominant and recessive gene transfer.Backcross method for dominant and recessive gene transfer.
Backcross method for dominant and recessive gene transfer.
Pawan Nagar
 
History of plant breeding
History of plant breedingHistory of plant breeding
History of plant breeding
Roshan Parihar
 
Ideotype breeding
Ideotype breedingIdeotype breeding
Ideotype breeding
Pawan Nagar
 
Seed certification
Seed certificationSeed certification
Seed certification
sidjena70
 
16.Recurrent selection
16.Recurrent selection16.Recurrent selection
16.Recurrent selection
Naveen Kumar
 
Ear to row method
Ear to row methodEar to row method
Ear to row method
Dev Hingra
 
RICE BREEDING
RICE BREEDINGRICE BREEDING
RICE BREEDING
Narayan Awasthi
 
Hybrid Maize seed Production
Hybrid Maize seed ProductionHybrid Maize seed Production
Hybrid Maize seed Production
International Institute of Tropical Agriculture
 
Component of genetic variation
Component of genetic variationComponent of genetic variation
Component of genetic variation
Roshan Parihar
 
Bulk method pedigree method &line breeding
Bulk method pedigree method &line breedingBulk method pedigree method &line breeding
Bulk method pedigree method &line breeding
Pawan Nagar
 
Male sterility applications in Hybrid seed production.
Male sterility applications in Hybrid seed production.Male sterility applications in Hybrid seed production.
Male sterility applications in Hybrid seed production.
Roshan Parihar
 
Genetic purity testing
Genetic purity testingGenetic purity testing
Genetic purity testing
sunil kumar
 
Two line breeding in RICE
Two line breeding in RICETwo line breeding in RICE
Two line breeding in RICE
sandeshGM
 
Breeding methods in cross pollinated crops
Breeding methods in cross pollinated cropsBreeding methods in cross pollinated crops
Breeding methods in cross pollinated crops
Yashwanth Jv
 
Male sterility
Male sterilityMale sterility
Male sterility
Pawan Nagar
 
Mutation breeding ppt
Mutation breeding ppt Mutation breeding ppt
Mutation breeding ppt
SHRIKANT YANKANCHI
 
Principles of hybrid seed production
Principles of hybrid seed productionPrinciples of hybrid seed production
Principles of hybrid seed production
VIJAYKUMARSHRIVASTAV2
 
Floral biology and crossing techniques in groundnut
Floral biology and crossing techniques in groundnutFloral biology and crossing techniques in groundnut
Floral biology and crossing techniques in groundnut
Manjappa Ganiger
 
Maize
MaizeMaize
Maize
Varsha Gayatonde
 
Definition and historical aspects of heterosis by Devendra kumar
Definition and historical aspects of heterosis by Devendra kumarDefinition and historical aspects of heterosis by Devendra kumar
Definition and historical aspects of heterosis by Devendra kumar
DevendraKumar375
 
Plant breeding, its objective and historical development- pre and post mendel...
Plant breeding, its objective and historical development- pre and post mendel...Plant breeding, its objective and historical development- pre and post mendel...
Plant breeding, its objective and historical development- pre and post mendel...
Avinash Kumar
 
Plant breeding
Plant breedingPlant breeding
Plant breeding
Thea Mercader
 

More Related Content

What's hot

Floral biology and crossing techniques in groundnut
Floral biology and crossing techniques in groundnutFloral biology and crossing techniques in groundnut
Floral biology and crossing techniques in groundnut
Manjappa Ganiger
 

What's hot (20)

Backcross method for dominant and recessive gene transfer.
Backcross method for dominant and recessive gene transfer.Backcross method for dominant and recessive gene transfer.
Backcross method for dominant and recessive gene transfer.
 
History of plant breeding
History of plant breedingHistory of plant breeding
History of plant breeding
 
Ideotype breeding
Ideotype breedingIdeotype breeding
Ideotype breeding
 
Seed certification
Seed certificationSeed certification
Seed certification
 
16.Recurrent selection
16.Recurrent selection16.Recurrent selection
16.Recurrent selection
 
Ear to row method
Ear to row methodEar to row method
Ear to row method
 
RICE BREEDING
RICE BREEDINGRICE BREEDING
RICE BREEDING
 
Hybrid Maize seed Production
Hybrid Maize seed ProductionHybrid Maize seed Production
Hybrid Maize seed Production
 
Component of genetic variation
Component of genetic variationComponent of genetic variation
Component of genetic variation
 
Bulk method pedigree method &line breeding
Bulk method pedigree method &line breedingBulk method pedigree method &line breeding
Bulk method pedigree method &line breeding
 
Male sterility applications in Hybrid seed production.
Male sterility applications in Hybrid seed production.Male sterility applications in Hybrid seed production.
Male sterility applications in Hybrid seed production.
 
Genetic purity testing
Genetic purity testingGenetic purity testing
Genetic purity testing
 
Two line breeding in RICE
Two line breeding in RICETwo line breeding in RICE
Two line breeding in RICE
 
Breeding methods in cross pollinated crops
Breeding methods in cross pollinated cropsBreeding methods in cross pollinated crops
Breeding methods in cross pollinated crops
 
Male sterility
Male sterilityMale sterility
Male sterility
 
Mutation breeding ppt
Mutation breeding ppt Mutation breeding ppt
Mutation breeding ppt
 
Principles of hybrid seed production
Principles of hybrid seed productionPrinciples of hybrid seed production
Principles of hybrid seed production
 
Floral biology and crossing techniques in groundnut
Floral biology and crossing techniques in groundnutFloral biology and crossing techniques in groundnut
Floral biology and crossing techniques in groundnut
 
Maize
MaizeMaize
Maize
 
Definition and historical aspects of heterosis by Devendra kumar
Definition and historical aspects of heterosis by Devendra kumarDefinition and historical aspects of heterosis by Devendra kumar
Definition and historical aspects of heterosis by Devendra kumar
 

Viewers also liked

Plant Breeding Methods
Plant Breeding MethodsPlant Breeding Methods
Plant Breeding Methods
THILAKAR MANI
 
Method of breeding
Method of breedingMethod of breeding
Method of breeding
nehavik
 
Breeding techniques in self pollinated crops presentation
Breeding techniques in self pollinated crops presentationBreeding techniques in self pollinated crops presentation
Breeding techniques in self pollinated crops presentation
Dev Hingra
 

Viewers also liked (7)

Plant breeding, its objective and historical development- pre and post mendel...
Plant breeding, its objective and historical development- pre and post mendel...Plant breeding, its objective and historical development- pre and post mendel...
Plant breeding, its objective and historical development- pre and post mendel...
 
Plant breeding
Plant breedingPlant breeding
Plant breeding
 
Mutation breeding
Mutation breedingMutation breeding
Mutation breeding
 
Plant introduction
Plant introductionPlant introduction
Plant introduction
 
Plant Breeding Methods
Plant Breeding MethodsPlant Breeding Methods
Plant Breeding Methods
 
Method of breeding
Method of breedingMethod of breeding
Method of breeding
 
Breeding techniques in self pollinated crops presentation
Breeding techniques in self pollinated crops presentationBreeding techniques in self pollinated crops presentation
Breeding techniques in self pollinated crops presentation
 

Similar to History of plant breeding

B I O T E C N O L O G I A
B I O T E C N O L O G I AB I O T E C N O L O G I A
B I O T E C N O L O G I A
guesta793de
 

Similar to History of plant breeding (20)

Pbg 301
Pbg 301Pbg 301
Pbg 301
 
Plant breeding - History, Objectives & Activities
Plant breeding - History, Objectives & ActivitiesPlant breeding - History, Objectives & Activities
Plant breeding - History, Objectives & Activities
 
History of plant breeding
History of plant breedingHistory of plant breeding
History of plant breeding
 
Plant Breeding - Objectives and History
Plant Breeding - Objectives and HistoryPlant Breeding - Objectives and History
Plant Breeding - Objectives and History
 
History of plant breeding(Pre and post mendelian era)
History of plant breeding(Pre and post mendelian era)History of plant breeding(Pre and post mendelian era)
History of plant breeding(Pre and post mendelian era)
 
Principles of plant breeding.
Principles of plant breeding.Principles of plant breeding.
Principles of plant breeding.
 
Roshan Chandurkar Definition & History of Plant Breeding
Roshan Chandurkar Definition & History of Plant BreedingRoshan Chandurkar Definition & History of Plant Breeding
Roshan Chandurkar Definition & History of Plant Breeding
 
1. Innovations and Scientists.pptx
1. Innovations and Scientists.pptx1. Innovations and Scientists.pptx
1. Innovations and Scientists.pptx
 
Evolutionary concepts of genetics and plant breeding
Evolutionary concepts of genetics and plant breedingEvolutionary concepts of genetics and plant breeding
Evolutionary concepts of genetics and plant breeding
 
Plant tissue culture By Allah Dad Khan
Plant tissue culture By Allah Dad Khan Plant tissue culture By Allah Dad Khan
Plant tissue culture By Allah Dad Khan
 
Plant breeding introduction and history
Plant breeding introduction and history Plant breeding introduction and history
Plant breeding introduction and history
 
B I O T E C N O L O G I A
B I O T E C N O L O G I AB I O T E C N O L O G I A
B I O T E C N O L O G I A
 
The History of Biotechnology
The History of BiotechnologyThe History of Biotechnology
The History of Biotechnology
 
HISTORY OF PLANT TISSUE CULTURE.pptx
HISTORY OF PLANT TISSUE CULTURE.pptxHISTORY OF PLANT TISSUE CULTURE.pptx
HISTORY OF PLANT TISSUE CULTURE.pptx
 
Plant science
Plant sciencePlant science
Plant science
 
History of Biotechnology
History of BiotechnologyHistory of Biotechnology
History of Biotechnology
 
Development of biotechnology.pptx
Development of biotechnology.pptxDevelopment of biotechnology.pptx
Development of biotechnology.pptx
 
History of transgenics
History of transgenics History of transgenics
History of transgenics
 
History of Plant Tissue Culture
History of Plant Tissue CultureHistory of Plant Tissue Culture
History of Plant Tissue Culture
 
History Of Plant Tissue Culture
History Of Plant Tissue CultureHistory Of Plant Tissue Culture
History Of Plant Tissue Culture
 

More from Pawan Nagar

More from Pawan Nagar (20)

Canopy
CanopyCanopy
Canopy
 
Canopy
CanopyCanopy
Canopy
 
Seminar (Pawan Kumar Nagar)
Seminar (Pawan Kumar Nagar)Seminar (Pawan Kumar Nagar)
Seminar (Pawan Kumar Nagar)
 
Advanced production technology of wood apple
Advanced production technology of wood appleAdvanced production technology of wood apple
Advanced production technology of wood apple
 
Advanced production technology of walnut
Advanced production technology of walnutAdvanced production technology of walnut
Advanced production technology of walnut
 
Advanced production technology of pear
Advanced production technology of pearAdvanced production technology of pear
Advanced production technology of pear
 
Advanced production technology of peach
Advanced production technology of peachAdvanced production technology of peach
Advanced production technology of peach
 
Advanced production technology of mangosteen
Advanced production technology of mangosteenAdvanced production technology of mangosteen
Advanced production technology of mangosteen
 
Advanced production technology of litchi
Advanced production technology of litchiAdvanced production technology of litchi
Advanced production technology of litchi
 
Advanced production technology of kiwi fruit
Advanced production technology of kiwi fruitAdvanced production technology of kiwi fruit
Advanced production technology of kiwi fruit
 
Advanced production technology of jamun crop
Advanced production technology of jamun cropAdvanced production technology of jamun crop
Advanced production technology of jamun crop
 
Advanced production technology of bael
Advanced production technology of baelAdvanced production technology of bael
Advanced production technology of bael
 
Advanced production technology of almond
Advanced production technology of almondAdvanced production technology of almond
Advanced production technology of almond
 
Techniques of in vitro clonal propagation for fruit crops
Techniques of in vitro clonal propagation for fruit cropsTechniques of in vitro clonal propagation for fruit crops
Techniques of in vitro clonal propagation for fruit crops
 
Recent advances and commercial propagation technique in fruit crops
Recent advances and commercial propagation technique in fruit cropsRecent advances and commercial propagation technique in fruit crops
Recent advances and commercial propagation technique in fruit crops
 
Principle & different method of cutting & layering]
Principle & different method of cutting & layering]Principle & different method of cutting & layering]
Principle & different method of cutting & layering]
 
Factor affecting of seed germination
Factor affecting of seed germinationFactor affecting of seed germination
Factor affecting of seed germination
 
Commercial exploitation of micropropagation& its tech in fruit crops
Commercial exploitation of micropropagation& its tech in fruit cropsCommercial exploitation of micropropagation& its tech in fruit crops
Commercial exploitation of micropropagation& its tech in fruit crops
 
Direct organogenesis, embryogenesis, micro grafting, meristem culture and its...
Direct organogenesis, embryogenesis, micro grafting, meristem culture and its...Direct organogenesis, embryogenesis, micro grafting, meristem culture and its...
Direct organogenesis, embryogenesis, micro grafting, meristem culture and its...
 
Commercial exploitation of micro its technology
Commercial exploitation of micro its technologyCommercial exploitation of micro its technology
Commercial exploitation of micro its technology
 

Recently uploaded

1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf
QucHHunhnh
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptx
heathfieldcps1
 
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in DelhiRussian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
kauryashika82
 
The basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptxThe basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptx
heathfieldcps1
 
Beyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactBeyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global Impact
PECB
 

Recently uploaded (20)

1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf1029-Danh muc Sach Giao Khoa khoi 6.pdf
1029-Danh muc Sach Giao Khoa khoi 6.pdf
 
Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...
Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...
Ecological Succession. ( ECOSYSTEM, B. Pharmacy, 1st Year, Sem-II, Environmen...
 
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
Explore beautiful and ugly buildings. Mathematics helps us create beautiful d...
 
The basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptxThe basics of sentences session 2pptx copy.pptx
The basics of sentences session 2pptx copy.pptx
 
psychiatric nursing HISTORY COLLECTION .docx
psychiatric nursing HISTORY COLLECTION .docxpsychiatric nursing HISTORY COLLECTION .docx
psychiatric nursing HISTORY COLLECTION .docx
 
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptxBasic Civil Engineering first year Notes- Chapter 4 Building.pptx
Basic Civil Engineering first year Notes- Chapter 4 Building.pptx
 
Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024Mehran University Newsletter Vol-X, Issue-I, 2024
Mehran University Newsletter Vol-X, Issue-I, 2024
 
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in DelhiRussian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
Russian Escort Service in Delhi 11k Hotel Foreigner Russian Call Girls in Delhi
 
Unit-IV; Professional Sales Representative (PSR).pptx
Unit-IV; Professional Sales Representative (PSR).pptxUnit-IV; Professional Sales Representative (PSR).pptx
Unit-IV; Professional Sales Representative (PSR).pptx
 
Introduction to Nonprofit Accounting: The Basics
Introduction to Nonprofit Accounting: The BasicsIntroduction to Nonprofit Accounting: The Basics
Introduction to Nonprofit Accounting: The Basics
 
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
 
How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17How to Give a Domain for a Field in Odoo 17
How to Give a Domain for a Field in Odoo 17
 
Sociology 101 Demonstration of Learning Exhibit
Sociology 101 Demonstration of Learning ExhibitSociology 101 Demonstration of Learning Exhibit
Sociology 101 Demonstration of Learning Exhibit
 
ICT role in 21st century education and it's challenges.
ICT role in 21st century education and it's challenges.ICT role in 21st century education and it's challenges.
ICT role in 21st century education and it's challenges.
 
The basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptxThe basics of sentences session 3pptx.pptx
The basics of sentences session 3pptx.pptx
 
Application orientated numerical on hev.ppt
Application orientated numerical on hev.pptApplication orientated numerical on hev.ppt
Application orientated numerical on hev.ppt
 
This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.
 
Unit-V; Pricing (Pharma Marketing Management).pptx
Unit-V; Pricing (Pharma Marketing Management).pptxUnit-V; Pricing (Pharma Marketing Management).pptx
Unit-V; Pricing (Pharma Marketing Management).pptx
 
Role Of Transgenic Animal In Target Validation-1.pptx
Role Of Transgenic Animal In Target Validation-1.pptxRole Of Transgenic Animal In Target Validation-1.pptx
Role Of Transgenic Animal In Target Validation-1.pptx
 
Beyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global ImpactBeyond the EU: DORA and NIS 2 Directive's Global Impact
Beyond the EU: DORA and NIS 2 Directive's Global Impact
 

History of plant breeding

  • 1. HISTORY OF PLANT BREEDING PRESENTED BY: Pawan Nagar Reg. no.: 04-2690-2015 M.Sc.(Fruit Science)
  • 2. HISTORY OF PLANT BREEDING In broad sense history of plant breeding can be divided into Four 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.
  • 3. 1. PRE MENDELIAN ERA:- The process of bringing a wild species under human management is referred to as Domestication.  9000 B.C.: First evidence of plant domestication in the hills above the Tigris River.  3000 B.C.: Domestication of all important food crops in the Old World completed.  1000 B.C.: Domestication of all important food crops in the New World completed.  700 B.C.: Babylonians and Assyrians hand pollinate date palm artificially.  1665: Robert Hooke(England): First described the cell and known as father of cell biology.  1694: Camerarius of Germany first to demonstrate sex in plants and suggested crossing as a method to obtain new plant types.
  • 4. CONTINUE…..  1717: Thomas Fairchild: Developed first Inter specific hybrid between sweet William and Carnation Species of Dianthus popularly known as Fair Child’s mule.  1727: The first plant breeding company was established in France by the vilmorins and introduced the pedigree method of breeding.  1753: Linnaeus published “Species planetarium”. Binomial nomenclature of plant taxonomy officially begins with his general list of plant species.  1766: Joseph Koelreuter of Germany demonstrated that hybrid offspring received traits from both parents and were intermediate in most traits observed and produced first scientific hybrid using tobacco.
  • 5. CONTINUE…..  1800-1835: Knight T.A (English): First used Artificial Hybridization in Fruit Crops.  1819: Shirreff: Utilized pure line selection to develop a new oat cultivar (Released in 1824), and a new wheat cultivar (Released in 1832).  1823: Knight: Dominance, Recessiveness, and segregation observed in peas.  1840: John Le Couteur: They developed the concept of progeny test and individual plant selection in cereals.  1840-50: De Vilmorin (French Biologist): : progeny test in wheat, oat, and sugar-beet breeding.  1856: De Vilmorin: Further elaborated the concept of progeny test and used same in Sugarbeet.  1859-89: Darwin: Published “Origin of species”, and noted inbreeding sterility and differences in reciprocal crosses.
  • 6. CONTINUE…..  1866: Mendel G.J (Austria): published his discoveries in “Experiments in plant hybridization”, cumulating in the formulation of laws of inheritance in garden pea and discovery of unit factors (genes).  1873: The work of Patrick Shireff was first published and He concluded that only the variation heritable nature responded to selections, and that there variation arose through ‘natural sports’ (= mutation) and by ‘natural hybridization’ (recombination during meiosis in the hybrids so produced).  1890: Rimpu (Sweden): First made inheritance cross between bread wheat (Triticum aestivum) and rye (Secale cereale), which later on gave birth to triticale.
  • 7. 2. MENDELIAN ERA:-  1900: De Varies (Holland) Correns (Germany) Tschermak (Austria) Rediscovered Mendel laws of inheritance independently.  1900: Nilson, H (Swedish): Elaborated individual plant selection method in Sweden.  1903: Johannsen W.L: proposed the pureline theory that provided the genetic basis for Individual plant selection and also coined the terms Genotype, Phenotype and Pureline.  1908–1909: Hardy of England and Weinberg of Germany developed the law of equilibrium of populations.  1908: Devenport, C.B: First proposed dominance hypothesis of heterosis.
  • 8. CONTINUE… .  1908: Shull, G.H (US) East, E.M (US) proposed over dominance hypothesis independently working with maize.  1909: Shull conducted extensive research to develop inbreds to produce hybrids use of F1 hybrids between inbreds in corn breeding.  1909: Nilsson-Ehle: Given the explanation of multiple factor hypothesis for Grain colour of Wheat by using a Pedigree breeding and Bulk breeding.  1910: Bruce, A.B. keable, F. and Pellew, C. Elaborated the dominance hypothesis of heterosis proposed by davenport.  1914: Shull, G.H: First used the term heterosis for hybrid vigour.
  • 9. CONTINUE….  1917: Jones developed first commercial hybrid maize and proposed dominance of linked gene hypothesis.  1919: Hays, H.K. Garber, R.J Gave initial idea about recurrent selection. They first suggested use of synthetic varieties for commercial cultivation in maize.
  • 10. 3. POST MENDELIAN ERA:-  1923: Sax: linkage between quantitative and qualitative traits in beans.  1926: East, E.M and Mangelsdorf, A.J: First discovered gametophytic system of self incompatibility in Nicotiana sanderae.  1926: Pioneer Hi-bred Corn Company established as first Seed Company.  1926: Vavilov, N.I: Identified 8 main centers and 3 sub centers of crop diversity. He also developed concept of parallel series of variation or law of homologous series of variation.  1927: Muller produced mutations in fruit flies using x-rays.  1927: Karpencheko developed first intergeneric hybrid between Radish and Cabbage in Russia.  1928: Stadler, L.J (US): First used X-rays for induction of mutations in barley.
  • 11. CONTINUE…..  1933: Rhoades: Discovered cytoplasmic male sterility in Maize.  1934: Dustin discovered colchicines.  1935: Vavilov published the scientific basis of plant breeding.  1935: Nagahern proposed the origin of tetraploid species of Brassica using a triangle.  1936: East, E.M: Supported over dominance hypothesis of heterosis proposed by East and Shull in 1908.  1939: Goulden, C.H: First suggested the use of single seed descent method for advancing segregating generations of self pollinating crops.  1940: Jenkins, M.T: Described the procedure of recurrent selection.
  • 12. CONTINUE…. .  1944: Avery, MacLeod, and McCarty: Described the transforming principle and suggested that DNA, not protein, is the hereditary material.  1945: Hull, F.H: Coined the terms recurrent selection and overdominance working with maize.  1950: Hughes and Babcock: First discovered sporophytic system of self incompatibility in Crepis foetida.  1950: McClintock discovered the Ac-Ds system of transposable elements.
  • 13. 4. MODERN ERA:-  1952: Jensen, N.F: First suggested the use of multi lines in oats.  1953: Borlaug, N.E: First outlined the method of developing multilines in Wheat.  1953: Watson, Crick, and Wilkins proposed a model for Double Helical Structure of DNA.  1956: Flor: gene for gene hypothesis for host-parasite resistance.  1964: Borlaug, N.E: Developed high yielding semi dwarf varieties of wheat which resulted in green revolution.  1965: Graphius, J.E: First applied Single Seed Descent (SSD) method in oats.  1968: Donald: Developed the concept of crop ideotype in wheat.
  • 14. CONTINUE…..  1970: Patel, C.T: Developed world’s first cotton hybrid for commercial cultivation in India.  1970: Borlaug received Nobel Prize for the Green Revolution  1970: Berg, Cohen, and Boyer introduced the Recombinant DNA technology.  1976: Yuan Long Ping et al: Developed world’s first rice hybrid (CMS based) for commercial cultivation in China.  1983: Fraley et al.: Development of first transgenic (Genetically engineered) plant tobacco in USA.  1987: Monsanto: Developed world’s transgenic cotton plant in USA.  1991: ICRISAT: Developed world’s first pigeon pea hybrid (ICPH 8) (GMS based) for commercial cultivation in India.
  • 15. CONTINUE…..  1994: “FlavrSavr” tomato developed as first genetically modified food produced for the market by calgene company of California.  1995: Bt corn developed.  1996: Glyphosate Resistant Crop® soybean introduced.  1997: Monsanto, USA: First identified terminator gene, which allows germination of seed for one generation only.  1908: Monsanto, USA: Identification of traitor gene, which responds to specific brand of fertilizers and insecticides.  2001:Protection of Plant Varieties and Farmers’ Rights Act (PPVFRA).  2002:Mahyco-Monsanto: Released three Bt Hybrids (MECH12, MECH16, MECH 184).  2004: Glyphosate Resistant Crop® wheat developed.  2005: Govt. of India: Approved cultivation of some Bt cotton hybrids in Punjab, Haryana and Rajasthan.
  • 16. INSTITUTIONAL DEVELOPMENT AND HISTORY OF PLANT BREEDING IN INDIA  1871: The Government of India created the Department of Agriculture.  1892: First scientist appointed in the Department. He was agricultural chemist.  1901-05: Agricultural Colleges were established at Kanpur, Pune, Sabour, Llyalpur, Coimbatore.  1905: The Imperial Agricultural Research Institute was established in Pusa, Bihar.  1934: The buildings of the institute damaged in earthquake.  1936: Shifted to New Delhi.  1946: Name was changed Indian Agricultural Research Institute.
  • 17. CONTINUE…. .  1929: Imperial council of Agricultural Research was established in New Delhi.  1946: Name was change to Indian Council Agricultural Research.  1921: Indian Central Cotton Committee was established Notable researches on Breeding and cultivation of cotton. E.g.: 70 improved varieties of cotton.  1956: Project for intensification of regional research on cotton, oilseeds and millets (PIRRCOM) was initiated to intensify research on these crops located at 17 Different centres throughout the country.  1957: All India Coordinated maize improvement project was started with objective of exploiting heterosis.  1960: First Agricultural University established at Pantnagar, Nainital, U.P.  1961: The first hybrid maize varieties released by the project. ICAR initiated Coordinated projects for improvement of the other crops.
  • 18. CONTINUE…. .  1961: First Maize hybrid was released (Ganga1, Ganga101, Deccan and Ranjit).  1964: First Sorghum Hybrid (CSH-1) was released.  1965: First Bajra hybrid (HB-1) was released.  1971: One of the pioneer centre for research in India TNAU was established.  1991: First pigeon pea hybrid (ICPH-8) was released from ICRISAT(Six Mandate Crop are Pearl millet, Sorghum, Pigeon pea, Chickpea, Finger millet, Groundnut), Hyderabad.
  • 19. SOME INDIAN PLANT BREEDER Sr No. Scientists Contribution 1 T.S. Venkatraman An eminent sugarcane breeder, he transferred thick stem and high sugar contents from tropical noble cane (Saccharum officinanum) to North Indian Canes (Saccharum barberi). This process is known as Noblization of sugarcane. 2 B.P. Pal An eminent Wheat breeder, developed superior disease resistant varieties of wheat and also first director general of ICAR. 3 M.S. Swaminathan Responsible for green revolution in India, developed high yielding dwarf varieties of Wheat and Rice. 4 Pushkarnath A Famous potato breeder who developed several high yielding varieties of potato. He was the Director of CPRI, Shimala.
  • 20. SOME INDIAN PLANT BREEDER Sr No. Scientists Contribution 5 N.G.P. Rao An eminent sorghum breeder who developed the world’s first hybrid of sorghum(CSH-1). 6 K. Ramaiah A renowned rice breeder. He developed several high yielding varieties of rice when he was the Director of CRRI, Cuttack. 7 K. Athwal Famous pearlmillet breeder. He worked in PAU, Ludhiana and developed several superior varieties. 8 Bosisen An eminent maize breeder. He Developed several varieties of maize for Hill region of Uttranchal 9 Dharampal Singh An eminent oil-seed breeder. He released several varieties of oil-seeds(Rapeseed and Mustard) from Kanpur. 10 C.T. Patel Famous cotton breeder who developed world’s first cotton hybrid(H-4) in 1970 known as FATHER of Hybrid Cotton. 11 V. Santhanam Famous cotton breeder.