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Chapter-7. References 44

7. REFERENCES

A.O.A.C. (1990); Official Methods of Analysis: (15thedn), Association of Official

Analytical Chemists, Washington, D.C.

Abrams R., and Velez- Fortuno J. (1962); Radiation research with pigeonpea

(Cajanus cajan): results on M3 and M4 generation; J. Agric. Uni.

Puerto, Rico, 46 (l): 34-42.

Abrams R., and Velez-Fortuno J. (1961); Radiation research with pigeonpea

(Cajanus cajan): results on M1 and M2 generation; J. Agric. Uni.

Puerto, Rico, 45 (4): 197-204.

Aher G.U., Madrap I.A., Tike M.A. and Gore D.R. (2006); Heterosis and

Inbreeding Depression in Pigeonpea; J. Maha Agric Univ., 31(1): 33-

37.

Ahire D.D., Thengne R.J., Manjaya J.G., George M. and Bhide S.V. (2005);

Induced mutations in soybean [Glycine max (L.) Merr.] cv. MACS-

450; Soybean Research, 3: 1-8.

Ahloowalia B.S., Maluszynski M. and Nichterlein K. (2004); Global impact of

mutation derived varieties; Euphytica, 135(2): 187-204.

Ahmad S. and Godward M.B.E. (1993); Gamma radiation induced mutations

in Cicer arietinum L.; Acta Botanica Indica, 21: 1-8.

*Aiyer A.K.Y.N. (1947); Field crops of India the Bangalore Press, Bangalore,

Pp. 103-107.

Akinola J.O., Priehord A.J. and Whiteman P.C. (1972); Chromosome number

of Pigeonpea [Cajanus cajan (L.) Millsp.]; J. Aus. Ins. Agri. Sci., 38:

305-306.

Akinola J.O., Whiteman P.C., and Wallis E.S. (1975); the agronomy of

pigeonpea (Cajanus cajan), Rev. Sr. Pas. CAB Fd. Crop, Pp. 1-57.

Amano E. (1997); Mutation breeding in Japan and contribution to the region,

In: Strategy Paper on Application of Mutation Techniques for Crop

Improvement in East Asia and Pacific Region. IAEA, Vienna.

Anonymous (1970); Pulse Crops in India; ICAR Publication, Pp. 14-53.

Anonymous (1983); List of varieties; Mutation breeding Newsletter, IAEA.23:

16-21.

Chapter-7. References Page 145

Anonymous (1986); List of varieties; Mutation breeding Newsletter, IAEA.28:

19-23.

Apparao B.J. (2005), Effect of Sodium Azide on Peroxidase Isozyme Profiles

in Cowpea [Vigna unguiculata (L.) Walp]; Adv. Plant Sci, 18(I): 289-

293.

Apparao B.J., and Auti S.G. (2005); Induced leaf morphological mutations in

Mungbean [Vigna radiata (L.) Wilczek]; In: Proceedings of National

Conference in Plant Sciences. March 10-12, 2005. P.V.P. College

Pravaranagar, Pp. 16-19.

Apparao B.J., Dalve S.C., Auti S.G., and Barshile J.D. (2005): Study of

Mutagenic Variability in Yield Component of Chickpea (Cicer

arientinum L.) employing SA, EMS and Gamma Rays; In:

Proceedings of National Conference in Plant Sciences. March 10-12,

2005, P.V.P. College Pravaranagar, Pp: 204-208.

Apparao S., and Jana M.K. (1976); Mutation frequency in relation to M1

sterility; Current Science, 45(13): 498-500.

Ariyanayagam R.P., Rao A.N., Zaveri P.P. and Nandan R. (1993); Progress in

mutagenic induction of gene cytoplasmic male sterility in pigeonpea;

International Pigeonpea Newsletter, 18: 12-15.

Asewar B.V. and Bainade S.S. (2005); Impact of Improved technology on

production of Pulses; Indian J. Pulses Res., 18(2): 57-59.

Ashri A. (1968); Morphology and heritance of sterile dwarf in peanut, Archis

hypogaea; Crop Sci., 8(4): 413-415.

Asra Rayyan (1995), Mutagenesis and tissue culture studies in Vigna mungo

(L.) Hepper., Ph.D. Thesis, Osmania University Hyderabad.

Auti S.G., (2005); Mutational studies in Mung [Vigna radiata (L.) Wilezek];

Ph.D. Thesis, University of Pune

Auti S.G., and Apparao B.J. (2009); Induced Mutagenesis in Mungbean

(Vigna radiata L.), Q.Y.Shu (ed.) Induced Plant Mutation in the

Genomic Era Food and Agriculture organization of the United

Nations, Rome, Pp.107-110.

Badere R.S., and Choudhry A.D. (2007); Effectivity and Efficiency of Gamma

rays, Sodium azide and Ethyl Methanesulphonate in Linseed;

Bioinfolet, 4(3): 181-187.


Badigannavar A.M. and Murty G.S. (2007); Genetic enhancement of

groundnut through gamma ray induced mutagenesis; Plant Mutation

Reports, 1(3):16.21.

Bale S.R. (1999); Mutational studies in soyabean [Glycine max (L.) Merr.],

Ph.D. Thesis, BAM University, Aurangabad

Bandopadhyay B., and Bose S. (1983); Mutation induction by pre-irradiation

treatment with EMS in blackgram; Genetica Iberica, 14(1-2): 107-113.

Barshile J.D, Auti S.G, Dalve S.C, and Apparao B.J. (2006); Mutagenic

sensitivity studies in chickpea employing SA, ESM and gamma rays;

Indian J. Pulses Res., 19(1): 43-46.

Barshile J.D. (2006); Induction of Genetic Variability in Chickpea (Cicer

arietinum L.) employing EMS, SA and Gamma Radiation, Ph.D.

Thesis, University of Pune.

Barshile J.D. and Apparao B.J. (2007); Induced variability in chickpea through

EMS, SA and gamma radiation; J. Food Leg, 20(1): 38-40.

Barshile J.D. and Apparao B.J. (2009); Genetic improvement of chickpea

(Cicer arientinum L.) using induced mutations, Q.Y.Shu (ed.) Induced

Plant Mutation in the Genomic Era, Food and Agriculture organization

of the United Nations, Rome, Pp. 101-104.

Barshile J.D., Auti S.G. and Apparao B.J. (2009); Genetic enhancement of

Chickpea through induced mutagenesis; J. Food Leg., 22 (1): 26-29.

Barshile J.D., Auti S.G., Dalave S.C. and Apparao B.J. (2005); Study of

spectrum and frequency of induced viable mutations in chickpea

(Cicer arietinum L.) employing SA, EMS and gamma rays; In: Proc.

Natl. Conf. Plant Sci., Pravaranagar, and Pp. 238-243.

*Begum S., Majid M.A. and Shaikh M.A.Q. (1995) Selection of promising lentil

mutants derived through gamma irradiation; Lens Newsletter, 22: 5-8.

Bhadra S.K. (1983); Induced macromutations in blackgram, (Vigna mungo L.

Hepper), In: Proc Eight Bangladesh Science Congress, 5-9 Feb.,

Dhaka, Bangladesh, Pp. 99-100.

Bhamburkar S. and Bhalla J.K. (1985); Effect of differential and combined

treatments of gamma rays, hydrazine and mitomycin-c in Blackgram;

Indian J. Bot., 8 (1): 82-87.


Bhamburkar S.(1981); Experimental mutagenesis in Blackgram [Vigna mungo

(L.) Hepper], Ph.D.Thesis Osmania University, Hyderabad.

Bharathi V.B., Prakash M., Jagadeesan S., Kavimani S., Saravanan K. and

Ganesan J. (2005); Variability studies in M2 generation of groundnut

(Arachis hypogea L.) Var. VRI-2; Legume Res., 28(1): 68-70.

Bhargava B.S. and Raghupathi H.B. (2005); Methods of Analysis of soils,

Plants, Waters, Fertilizers and Organic Manures; Second edn edited

by Tondon HLS., Fertilizer Development and Consultation

organization, New Delhi Pp-87-88.

Bhatia C.R. (2000); Induced Mutations for Crop Improvement- the generation

next; In: Proc., DAE BRNS Symp. Dec. 6-8, Mumbai, India, Pp. 1-7.

Bhatia C.R., Nichterlein, K. and Maluszynksi, M. (2001); Mutation affecting

nodulation in grain legumes and their potential in sustainable

cropping systems; Euphytica, 20(3): 415-432.

Bhatia C.R., Thakare R.G., Pawar S.E., Kale D.M. and Kitto P.H. (Ed.)(1991);

Induced mutations for yield and yield components showing altered

partitioning of dry matter, Plant mutation breeding for crop

improvement jointly organized by IAEA and FAO, U.N. (Vienna), 18-

22 June 1990, 2: 43-53.

Bhatnagar P.S., Sengupta P.K., Gangwar L.C., Saxena J.K. and Kumar V.

(1964); A Fascinated mutant in Pigeonpea; Sci. Cult., 33:120-121.

Bhatnagar S.K. (1991); Induced Variability in kabuli Chickpea (Cicer arietinum

L.), in: Plant Mutation Breeding for Crop Improvement; Proc.of a

Symposium, 18-22 June, IAEA, Vienna, 1: 455-462.

Bhosale D.J. and Nawale R.N. (1983); Relative Susceptibility of Pigeonpea

Germplasm to Pod borer; J Mah Agri. Univ., 8(1): 30-31.

Biradar A.B. (2004); Gamma Ray and Ethyl Methane Sulphonate (EMS)

Induced Mutation Studies in Pigeonpea [Cajanus Cajan (L.) Millsp.],

MPKV Rahuri, Ph.D Thesis.

Blixt S. (1961); Quantitative studies of induced mutations in peas, V.

chlorophyll mutations; Agri. Hort. Genet, 19: 402-447.

Blixt S. (1967); Studies of induced mutations in peas XXlV genetically

conditioned differences in radiation sensitivity-2, Herediatas, 59: 303-

326.


Blixt S. (1968), Quantitative Studies of Induced Mutations in Peas, IV.

Segregation after mutation; Agri Hort Genet, 18: 219-227.

Bolbhat S.N. and Dhumal K.N. (2009); Induced Macro mutations in

Horsegram [Macrotyloma uniflorum (Lam.) Verdc.]; Legume Res., 32

(4): 278-281.

Brij V.S. and Pandya B.P. (1986); Ultra-early semidwarf variant in pigeonpea;

Current Sci., 55(9): 466-467.

Brock R.D. (1965); Induced mutations affecting quantitative characters; Rad.

Bot., 51: 451-467.

Brock R.D. (1967); Quantitative variations in Arabidopsis thaliana induced by

ionizing radiations; Rad. Bot., 7: 193-203.

Brucher H. (1977); Tropische Nutzpflazen: Urspruna. Evolution and

Domestication (Commercial Tropical Plants: Origin, Evoluyion and

Domestication); Springer Verlag, Berlein.

Burton G.W. and De Vane E.M. (1953); Estimating Heritability in tall Fescus

(Festuca arundinaceaea) from replicated clonal material, Agron. J.,

45: 478-481.

Chandirakala R. and Subbaraman N. (2010); Character association and path

analysis for yield attributes in full sib progenies in Pigeonpea

(Cajanus cajan (L.) Millsp.); Electronic J. Plt. Breeding, 1(4): 824-827.

Chary S.N and Bhalla J.K. (1988); Mutagenic effectiveness and efficiency of

gamma rays & EMS on Pigeonpea [Cajanus cajan (L.) Millsp],

J.Cytol. Genet, 23: 174-182.

Chary S.N. (1983); Mutagenic studies in pigeon pea (Cajanus cajan L.

Millsp.); Ph.D. Thesis, Osmania University, Hyderabad.

Chary S.N. and Bhalla J.K. (1986); Mineral and trace element composition in

induced mutants of pigeonpea [Cajanus cajan (L.) Millsp.]; Qualitas

plantarum plant foods for Human Nutrition, 36(2): 85-92.

Chary S.N. and Bhalla J.K. (1988a); EMS Induced male sterile mutant in

pigeonpea [Cajanus cajan (L.) Millsp.], Indian J. Genet. Pl. Breed,

48(3): 303-304.

Chatterjee S.R. and Abrol Y.P. (1975); Amino acid composition of new verities

of cereals and pulses and nutitional potential of cereal pulse

combination; J. food sci. tech., 12: 221-227.


Chaturvedi S.K. and Ali M. (2002); “Poor man’s meat” needs fresh fillip; The

Hindu Survey of Indian Agriculture, Pp- 63-69.

Chaturvedi S.N. and Sharma R.P. (1978a); EMS-induced male sterile mutants

in redgram; Curr Sci., 47(5): 173-174.

Chaturvedi S.N. and Sharma R.P. (1978c); Induced male sterile mutant in

Cajanus cajan (L.) Millsp; Curr. Sci., 47(16): 597-598.

Chaturvedi S.N. and Sharma, R.P. (1978b); Induced mutations in redgram

with special reference to floral composition; Curr Sci., 47(10): 348-

352.

Chaturvedi S.N. and Singh V.P. (1978); Increased Mutagenic Effects of EMS

in Mungbean (Phaseolus aureus Roxb.) by DMSO; J. Cytol Genet,

13: 116-119.

Chaturvedi S.N., Sharma R.P. and Paliwal S.P. (1982); Effect of gamma-rays,

ethyl methane sulfonate and N-nitroso-N-Methyl urea on M1

parameters of Cajanus cajan (L.) Millsp; Curr. Sci., 48(5): 172-173.

Chaudhary J.B. and Nirmala. (1976); Effect of gamma-rays on seedling height

and chromosome aberration in Triticale. Acta Bot Indica, 4: 126-130.

Chaudhary R.K. and Sharma G.R. (1984); Effect of gamma irradiation on

some quantitative characters in pigeonpea; International Pigeonpea

Newsletter, 3: 17-19.

Chaudhary R.K. and Singh B.P. (1980); Effect of Gamma Irradiation on

Germination in Pulse crops; Tropical Grain Legume Bulletin, 21: 1-5.

Chauhan R. and Dahiya B. (1986); Damage due to pod borer and pod fly in

early maturing genotypes of pigeonpea in Haryana; Indian J. Plant

protection, 15(1): 5-9.

Chavan J.K., Kadam S.S. and Salunkhe, D.K. (1989); Chemical composition

of some pigeonpea cultivars In: Nutritional Chemistry, Processing

Technology and Utilization; CRC Press, Inc. Boca Raton, Florida, 2:

253-270.

Cheema A.A. and Atta B.M. (2003); Radiosensitivity studies in Basmati rice;

Pak. J. Bot., 35(2): 197-207.

Chopde P.R. (1969); Mutagenic effect of X-rays irradiation on Cajanus cajan

(L.) Millsp; In: Proceeding Of symposium on radiation and radiometric

in mutation breeding, BARC, Mumbai.


Chopde P.R. (1976); Chemical mutagenesis in pigeonpea [Cajanus cajan (L.)

Millsp.]; J. Marathwada Agric. Univ. Parbahni, India, Pp. 17-20.

Chopra V.L. (2005); Mutagenesis: Investigating the process and processing

the outcome for crop improvement; Curr. Sci., 89 (2): 353-359.

Crino P. and Saccardo T. (1986); Induced variability in Italian chickpea (Cicer

arietinum L.) Iandrace; Genetica Agraria, 40(4): 444-445.

Dahiya B.S. (1973); Improvement of Mungbean through Mutation; Indian

J.Genet Plant Breed, 33: 460-68.

Das P.K. and Tickoo J. (1977); Effect of Ethyl Methane Sulphonate (EMS) on

Germination and Seedling Injury in Different Verities of Pigeonpea

(Cajanus cajan L.); Indian Agric., 21 (3): 211-215.

Das T.R., Misra R.C., Sahu P.K. (2006); Efficiency of mutagenic treatments in

expression of macro and micro-mutations in M2 generation in green

gram and its early predictability on basis of M1 parameters;

Environment and Ecology, 24(2): 283-288.

Datta A.K. and Biswas A.K. (1985); Induced mutagenesis in Nigella sativa L.;

Cytologia, 50(3): 545-562.

Davis D.R. and Evans H.J. (1966); The Role of Genetic damage in Radiation

induced cell lethality; Adv. Rad. Biol., 2: 143-429.

De D.N. (1974); Pigeonpea, In: Hutchinson, J. (Ed). Evolutionary studies in

World Crops: Diversity and the change in the Indian Subcontinent;

Cambridge University Press, London, and Pp.79-87.

Deodikar G.B. and Thakar, C.V. (1956); Cytotaxanomic evidence for the

affinity between Cajanus indicus spreng and certain erect species of

Atylosia W & A; Proc, Indian Acad. Sci., 43B: 37.

Deshmukh N.Y and Phirke T.S. (1962); Flattened Pod-A Point Mutation in

Cajanus cajan (L.) Millsp; Nagpur Agri. Coll. Mag., 36: 46-47.

Deshmukh N.Y. (1959). Sterile mutants in tur (Cajanus cajan); Nagpur Agric.

Coll. Mag., 33: 20-21.

Deshpande N.M. (1980); The Effect of Gamma rays and Chemical mutagens

in Mamoridica charantia L., Ph.D. Thesis, University of Nagpur

Dhanavel D.P., Pavada L., Mullainathan D., Mohana G., Raju M., Girija and

Thilagavathi C. (2008); Effectiveness and efficiency of chemical


mutagens in cowpea [Vigna unguiculata (L.) Walp]; African Journal of

Biotechnology, 7 (22): 4116-4117.

Dhari Ram and Wadia R.S. (2005); Identification of Dwarf and Extra-early

Mutant of Pigeonpea [Cajanus cajan (L.) Millsp.], ICPN, 12: 41.

*Down E.E. and Anderson A.L. (1956); Agronomic use of X-ray induced

mutants; Science, 124: 223-224.

Duke J.A. (1981); Handbook of legumes of world economic importance;

Plenum Press, NewYork.

Duthie J.F. and Fuller J.B. (1983); Field and Garden crop of N.W.P, Oudth,

Part-II, Pp- 68.

Dutta M., Bandopadhyay A., Arunachalam V., Kauland S.I., Prasad M.V.R.

(1986); Radiation induced pollen sterility and enhanced crossing in

groundnut (Arachis hypogaea L.); Envir and Expt. Bot., 26(1):25-29.

*Ehrenberg L. (1955); The Radiation induced growth inhibition in seedlings;

Bot. Nuiser, 108: 184-215.

*Ehrenberg L. (1960); Induced mutations in plants: Mechanisms and

Principles; Genet Agri, 12: 364-89.

Elangovan M. and Selvraj R. (1994); Effect of Gamma Irradiation on

Biochemical Characteristics of Sunflower Seeds; J. Ind. Bot. Soc., 73:

345-346.

Elayaraja K., Prakash M., Saravanan K., Kumar B.S. and Ganeshan J.

(2004); Studies on Variability and Heritability in M2 generation of Rice

(Oryza sativum L.); Res. on Crops, 5(2 &3): 240-242.

Evans H.J. (1965); Effects of Radiations on Meristematic Cells; Rad Bot, 5:

171-182.

Evans H.J. and Sparrow A.H. (1961); Nuclear factors affecting

Radiosensitivity,II. Dependence on nuclear and chromosome

structure and organization; BrookhavenSymp, In Biol., 14: 101-127.

Faris D.G. and Singh U. (1990); Pigeonpea: nutrition and products In the

Pigeonpea (Nene, Y.L., Hall, S.D., and Sheila, V.K., Eds.).

Wallingford, Oxon, UK: CAB International, Pp. 401-434.

Faris D.G., Saxena K.B., Mazumdar S. and Singh U. (1987); Vegetable

Pigeonpea: a promising crop for India; ICPN, Pp.13.


Fattepurkar S.C. (2002); Nutritional evaluation of grains and leaf nitrate

reductase activity in Pigeonpea genotypes, M.Sc. Agri. Thesis,

MPKV, Rahuri

Feix G., Hochholdinger F. and Wulff D. (1997); Genetic analysis of root

formation in maize; In: Developmental Pathways in Plants:

Biotechnological Implications. The Hebrew University of Jerusalem,

Rehovot, Pp. 10.

*Freisleben R. and Lenin A.(1942); Uber die Auffindung einer

mehlttauresistenten mutanate nach Rontgenbestrahlung einer

anfalligen reinen Linie von Sommergerste; Naturwissenschafen. 30:

608.

*Frey K.J. (1955); Agronomic mutations in oats induced by X-ray treatment;

Agron J, 47: 207-212.

Gahlot M.K., Sharma A.K. and Sharma R. (2009); Effect of Gamma irradiation

on regeneration of mothbean; J. food legume, 22(3): 260-263.

Gahukar C.S., Raut S.K. and Deotale R.D. (1996); Sensitivity of pigeonpea to

physical and chemical mutagens; J Soils and crops, 6(2): 159-161.

Gaikwad N.B. (2002); Genetic Improvement of Lentil (Lens culinaris Medik.)

Through Mutagenesis, Ph.D. Thesis, BAM University Aurangabad.

Gaikwad N.B. and Kothekar V.S. (2004); Mutagenic effectiveness and

efficiency of EMS and SA in lentil (Lens culinaris Medic.); Indian J.

Genet, 64(1): 73-74.

Gardner C.O. (1969); Genetic variation in irradiated and control populations of

corn after ten cycles of mass selection for high grain yield; Induced

mutations in plants, IAEA, Vienna, 469-477.

Gaul H, Frimel G., Giehner T. and Ulonaska E. (1972); Induced Mutation and

plant Improvement; Proc. Symp, IAEA, Vienna, Pp.121.

Gaul H. (1964); Mutation in Plant Breeding; Rad. Bot., 4(3): 155-232.

Gaul H. (1965); The Concept of macro and micro mutations and results on

induced mutations in plant breeding (FAO / IAEA meeting Rome).

Pergamon Press, Pp: 407.

Gaur P.M. and Gour V.K. (2001); A gene inhibiting flower colour in chickpea

(Cicer arietinum L.); Indian J. Genet, 62(3): 273-274.


Gawade S. M. (1997); Evaluation of nutritional composition of grains and leaf

nitrate reductase potential in some pigeonpea cultivars, M.Sc. Agri

Thesis, MPKV, Rahuri.

Gill L.S. and Husaini S.W.H. (1986), Cytological Observations in

Leguminosae from Southern Nigeria, Willdenowia, 15: 521-527.

Gillman Jason D., Vincent R., Pantalonr and Kristin Bilyeu (2008); The low

phytic acid phenotype in soybean line Cx1834 is due to mutations in

two homologous of the maize low phytic acid gene; The Plant

Genome, 2(2): 179-190.

Girhe S. (1999); “Mutational studies in Lathyrus sativus L.”, Ph.D. Thesis,

RTM Nagpur University.

Girija M. and Dhanvel D. (2009); Mutagenic Effectiveness and Efficiency of

Gamma rays, EMS and their combined treatments in cowpea (Vigna

unguiculata L. Walp.); Global J. Mol. Sci., 4(2): 68-75.

Giriraj K. and Deshpande S.K. (1996); Effects of gamma irradiation on seed

characteristics in restorer lines of sunflower; in: “International

Sunflower Yearbook”, Pp-90.

*Goodspeed T.H. and Olson A.R. (1929); The production of variation in

Nicotiana app., By X-ray treatment of sex cells; Proc. Nat. Acad. Sci.

U.S., 14: 66-69.

Goswami L.C. (1980); Cytogenetic and breeding behaviour of X-rays induced

chlorophyll mutations in Vigna mungo; Genetica Agraria, 34: 299-311.

Gottashalk W. and Wolf G. (1983); Induced Mutations in Plant Breeding

Monograph on Theoretical and Applied Genetics; Springer-Verlag,

Berlin, Heidelberg, Pp. 323-327.

Gottschalk W. and Muller H. (1970); Monogenic Alterations of Seed protein

content and protein pattern in X-ray induced Pisum mutants; in:

“Improving Plant Protein by Nuclear Techniques.” IAEA, Vienna, Pp:

201-215.

Green P.W.C., Sharma H.C., Stevenson P.C. and Simmonds M.S.J. (2006);

Susceptibility of pigeonpea and some of its wild relatives to predation

by Helicoverpa armigera: implication of breeding resistant cultivars;

Aus. J. of Agri. Res., 57(7): 831-836.


*Gregory W.C. (1955); X- Ray Breeding of Peanut (Arachis hypogea); Agron.

47: 396-399.

*Gregory W.C. (1956); Induction of useful mutations in the peanut; in:

“Genetics in plant breeding.” Proc, Bronkhabev Symp. Biol., 9: 177-

190.

Gregory W.C. (1961); The Efficiency of Mutation breeding, Mutation and Plant

Breeding; NAS-NRC, Pp. 461-485.

Gunasekaran M., Selvaraj U. and Raveendran T.S. (1998); Induced polygenic

mutations in cowpea [Vigna unguiculata (L.) Walp.]; South Indian

Hort., 46(1-2): 13-17.

*Gunckel J.E. and Sparrow A.H.(1962); Ionizing radiations, biochemical,

physiological and morphological aspects of their effects on plants;

Encyclopedia of Plant Physiology, 16: 555-611.

*Gunckel J.E.(1957); Symposium on the effects of ionizing radiation on plants,

Morphological effects; Quart Rev Biol., 2: 32-56.

Gupta D.N., Parab A.A., Mehta H.R. and Goyal R. (2001); Evaluation of

nutritive value of promising genotypes of pigeonpea and horsegram

in Konkan; J. Res., 2: 143-146.

Gupta Y.P., (1982); Nutritive value of Food Legumes In: Chemistry and

Biochemistry of Legumes (Arora S.K. ed.); Oxford and IBH Publ. Co.,

Delhi, Pp. 287-327.

*Gustafsson A. (1940); The mutation system of the chlorophyll apparatus.

Lund Univ; Arskr, 36 : 1-40.

*Gustafsson A. (1963); Productive mutations induced in barley by ionizing

radiations and chemical mutagens; Heredites, 50: 211-263.

*Gustafsson A. (1951); Induction of changes in genes and chromosomes II.

Mutation, environment and evolution; Cold spring Harbour Symp,

Quant. Bio., 16: 263-281.

Hakande T.P. (1992); Cytological studies in Psophocarpus tetragonolobus (L,)

D.C. Ph.D. Thesis, BAM University Aurangabad, India.

*Hanson C.H., Robinson H.F., and Combstock R.E. (1956); Biometric studies

of yield in segregating populations, of Korean and iespedeza; Agron

J., 48: 268-272.


Harsulkar A.M. (1994); Studies on the mutagenic effects of pesticides in

barley; Ph.D. Thesis, BAM University Aurangabad, India

Heringa R J. (1964); Mutation research in pea; Euphytica, 13: 330-336.

Heslot H. (1965); The Nature of Mutations In: the use of Induced mutations in

plant breeding, FAO/IAEA.Pp. 3- 45.

*Hooker J.D. (1879); A Flora of British India, Vol -II. L. Rove and Co., London.

I.S.T.A. (1993); International Seed Testing Association; Handbook of Seedling

Evaluation, ISTA, Zurich.

Ignacimathu S. and Babu C.R. (1987); Induced variation in mungbean; J.

Nuclear Agric. Biol., 16: 169-175.

Ignacimathu S. and Babu C.R. (1993); Induced quantitative variation in wild

and cultivated urd and mungbeans; J. Nuc. Agri. Biol., 22: 133-137.

Jahagirdar H.A. (1975); “Cytological studies in Foeniculum vulgare Mill” Ph.D.

Thesis, RTM Nagpur University.

Jahagirdar J.E., Katare N.B. and Sudewad S.M. (2005); Biparental Mating: A

tool for creation of genetic variability in chickpea; Indian J. Pulses

Res., 18(1): 12-13.

Jain H.K. (1976); Induced mutations and improved plant types in pulses,

Evaluation of seed protein alterations by mutation breeding, Part 3.

Vienna: IAEA, Pp. 209.

Jain K.C., Sharma D., Gupta S.C., Reddy L.J. and Singh U. (1981); Breeding

for Vegetable type Pigeonpea In: procedding of the International

Workshop on pigeonpeas; ICRISAT, 15-19 Dec.1980, 2: 165-172.

Jain S.K. and Khandelwal V. (2009); Mutagenic effect of EMS and DMS on

frequency and spectrum of chlorophyll and other macro mutations in

blackgram; J. food legumes, 22(4): 264-268.

Jan C.C. and Vick B.A.(2007); Inheritance and allelic relationship of fertility

restoration genes for seven new sources of male- sterile cytoplasm in

Sunflower; Plant Breed, 126: 213-217.

*Jana M.K. (1962); X-ray induced mutants of Phaseolas mungo L., II. Sterility

and vital mutants, Genet Iber, 14: 71-104.

Jayakumar S. and Selvaraj R. (2003); Mutagenic effectiveness and efficiency

of gamma rays and ethyl methane sulphonate in sunflower

(Helianthus annus L.); Madras Argic J., 90 (7-9): 574-576.


Jeswani L.M. and Deshpande R.B. (1962); Inheritance studies on some sterile

mutants in pigeonpea; Indian J Genet Pl. Breed, 22(3): 236-240.

Johnson H.W., Robinson H.F. and Comstock R.E. (1955); Estimates of

genetic and environmental variability in Soybean; Agron J., 47: 314-

318.

*Jones D.B. (1931); Factor for converting percentages of nitrogen in food and

feed in to percentages of proteins, U.S. Deptt; Agri Circ., 183: 21.

Joshi B.C. and Ramanujam S. (1963); Genetics of Two Mutants in Pigeonpea,

Indian J Genet, 23: 64-66.

Joshua D.C. and Bhatia C.R. (1983); Increased Cotyledonary cell size in

induced large seed mutants in three grain legumes; Envrn. Exp. Bot.,

23(2): 175-181.

Joshua D.C., Rao C. and Gottschalk W. (1972); Evolution of leaf shape in

jute; Ind J Genet, 32: 392-399.

Kadam J.R., Patil G.N., Chavan A.P., Kadam D.B. and Mhaske B.M. (2005);

Efficacy of Some Insecticide Sequences Against Pod Borer Complex

in Pigeonpea; Indian J. Environ. & Ecoplan, 10 (3): 731-734.

Kajale M.D. (1974); Ancient grains from India; Bulletin of the Deccan College

Research Institute, 34 (1): 455-474.

Kale U.V, Patil V.D. and Chopade P.R. (1980); Induced mutagenic variability

in Bengal gram (Cicer arietinum L.); Genetic Agriaria, 34: 314-353.

Kalia N.R. and Gupta V.P. (1988); Differential radiosensitivity in Microsperma

and Macrosperma lentils; Lens Newsletter; 15(1): 5-8.

Karthika R. and Lakshmi Subba B. (2006); Effect of gamma rays and EMS on

two varieties of soybean; Asian J.Pl. Sci., 5(4): 721-724.

Khadke S.G. (2005); Genetic improvement of mothbean [Vigna aconitifolia

Jacq.] through mutation breeding, Ph.D.Thesis, BAM University,

Aurangabad.

Khan I.A. (1989); Studies on pattern of induced mutability in mungbean;

Bangladesh J. Agric. Res., 14: 15-18.

Khan M.N. (1999); Mutagenic Effectiveness and Efficiency of EMS, Gamma

Rays and Their Combination in Blackgram [Vigna mungo (L.)

Hepper]; Adv. Plant Sci., 12(I): 203-205.


Khan S. and Goyal S. (2009); Mutation Genetic Studies in Mingbean IV.

Selection of Early maturing mutants; Thai J. Agri.Sci., 42(2): 109-113.

Khan Samiullah and Wani Mohd Rafiq (2004); Studies on the Effect of EMS

and MMS on Biological Damage and Quantitative Characters of

Mungbean; Vegetos, 17: 15-20.

Khan Samiullah and Wani Mohd Rafiq (2006); MMS and SA induced genetic

variability for quantitative traits in mungbean; Indian J. Pulses Res.,

19(1): 50-52.

Khan Samiullah, Mohd Rafiq Wani and Kouser Parveen (2005). An Induced

Bushy Mutant in Mungbean; Mutation Breeding Newsletter and

Review, No.1, June 2005.

Khan Samiullah, Mujeeb Ur Rehaman, Meheraj-Ud-Din Bhat and Bahar A.

Sidduqui (2000); MMS induced biological damage and polygenic

variability in greengram [Vigna radiata (L.) Wilczek]; Legume

Research, 23(2): 126-129.

Khan W.M.A. and Veeraswamy R. (1974); Mutations Induced in Red gram

[Cajanus cajan (L.) Millsp.] By Gamma radiation and EMS; Rad. Bot,

14: 237-242.

Khan W.M.A., Sivaswamy, N. and Ramaswamy, K.R. (1973); Sensitivity of

two red gram [Cajanus cajan (L.) Millsp.] Strains to different

mutagens; Madras Agric. J., 60(6): 406-407.

Khandelwal A.R. (1996); Cytological, Biochemical and Mutational Studies in

Psophocarpus tetragonolobus L. (DC); Ph.D. Thesis, BAM University,

Aurangabad.

Khanna V.K. (1988); Effect of Gamma irradiation of seeds on Nuclic acid and

ribonucleic activity in chickpea seedling; International chickpea

Newsletter, 18: 8-10.

Khanolkar S.M. (1977); “Cytogenetic studies in Carum copticumi”. Ph.D.

Thesis, RTM Nagpur University.

Kharkwal M.C. (1978); Comparative Mutagenesis and Cytological Studies in

Gram (Cicer arietinum L.), Ph. D. Thesis, Agra University.

Kharkwal M.C. (1998); Induced Mutations for Improvement of Protein in

Chickpea and Pigeonpea; Indian J. Genet, 58(1): 61-68.

Chapter-7. References 8

Kharkwal M.C. (1999); Induced Mutations in Chickpea (Cicer arietinum L.), III.

Frequency and Spectrum of Viable Mutations; Indian J. Genet, 59(4):

451-464.

Kharkwal M.C. (2000); Induced Mutations in Chickpea (Cicer arietinum L.), IV.

Types of Macromutation Induced; Indian J. Genet, 60(3): 305-320.

Kharkwal M.C. (2001); Induced mutations in chickpea (Cicer arietinum L.) and

Evaluation of micro-mutations; Indian J. Genet, 61 (2):115-124.

Kharkwal M.C. and Shu Q.Y. (2009); The Role of Induced Mutations in World

Food Security Q.Y.Shu (ed.) Induced Plant Mutation in the Genomic

Era, Food and Agriculture organization of the United Nations. Rome,

Pp. 33-38.

Kharkwal M.C., Pandey R.N. and Pawar S.E. (2004); Mutation Breeding for

Crop Improvement, Plant Breeding- Mendelian to Molecular

Approaches; Narosa Publishing House New Delhi, Pp-601-645.

Kharkwal M.C., Pawar S.E. and Pandey R.N. (2001); Seventy five years of

research on induced mutations with special reference to crop

improvement in India; In: Proceedings of NAARRI International

Conference on Applications of Radiosotopes and Radiation

Technology in the 21st century. (Eds.) N. Ramamurthy, M.

Ananthakrishnan and A.N. Nandakumar, Dec. 2001, Mumbai, Pp.

230-235.

Khatod L.D., Meshram L.D., Jain P.P. and Thawari S.D. (2002); Mutagenesis

in naturally coloured cotton; Crop Res., 23 (1): 121-128.

Kirmani V. (1992); Tissue culture and Mutagenic studies in Helianthus annus

L., Ph.D. Thesis. Osmania University, Hyderabad.

Kirtane S.A. (2002); Cytophysiological studies in onion (Allium cepa L.) with

reference to mutagenesis, Ph.D. Thesis, University of Pune.

Kole S.K., Meher and Hasib K.M. (2003); Biological effects of gamma rays on

Zinia; J. Nuclear Agric. Biol., 32(3-4): 213-216.

Koli N.R. and Ramkrishna K. (2002); Frequency and spectrum of induced

mutations andmutagenic effectiveness and efficiency in fenugreek

(Trigonella foenumgraecum L.); Indian J. Genetics, 62(4):365.366.

*Konzak C.F. (1954); Stem rust resitance in oats induced by nuclear radiation;

Agron J., 46: 538-540.


Konzak C.F., Nilan R.A., Harle J.R. and Heiner R.E. (1961); A control of

Factors Affecting the response of Plant to Mutagens; Brookhaven

Symp, In Biol., 14: 128-157.

Konzak C.F., Wagner T. and Foster R.J. (1965); Efficient chemical

mutagenesis, the use of induced mutations in Plant Breeding (Rep.

FAO/IAEA Tech. Meeting Rome, 1964); Porgamon Press, Pp. 49-70.

Kothekar A.V. and Kothekar V.S. (1992); Promising mutants in mothbean;

Marathwada Univ J. Sci., 19:1-2.

Kothekar V.S. (1978); Mutational studies in Solanum nigrum L., Ph.D. Thesis,

University of Nagpur.

Kothekar V.S. (1987); Differential mutagenic sensitivity in Coriandrum sativum

Linn; Curr Sci., 56: 491-492.

Kothekar V.S. (1989); Differential radiation sensitivity in mothbean; Curr Sci.,

58 (13): 758-760.

Kothekar V.S. and Dnyansagar V.R. (1985); Polyploidy and sensitivity to

radiations in Solanum nigrum L.; J. Cytol Genet, 20: 79-88.

Kothekar V.S., Harsulker A.M., and Khandelwal A.R. (1994); Winged bean- A

promising system for mutation breeding In: DAE / BRNS symposium

on “Nuclear applications in agriculture, animal husbandry and food

preservation.” March 16-18, NRL, IARI, New Delhi, Pp: 280.

*Krishnaswamy N. and Ayyangar, G.N.R.(1935); Chromosome number in

Cajanus indicus, Spreng; Curr Sci., 3: 614-615.

Kumar Arvind, Mishra M.N., and Kharkwal M.C. (2007); Induced mutagenesis

in Blackgram (Vigna mungo L. Hepper); Indian J. Genet, 67 (1): 67-

50.

Kumar L.S.S., Cruz R.D., and Thombre M.V. (1958); Cytological studies on an

intergeneric hybrid of Cajanus cajan and Atylosia lineata; Proc. Indian

Acad Sci., 47(B): 252-262.

Kumar Naresh S. and Singh C.P. (1995); Chlorophyll content in maize (Zea

mays L.) leaves: Physiological and seasonal variation; Ind. J. Plant

Physiol., 1 (3): 189-194.

Kumar P. and Sinha S.S.N. (1989a); Effect of gamma radiation on plant

attributes in two cultivars of Cajanus cajan and two species of

Moghania; Legume Res., 12(3): 115-122.


Kumar P. and Sinha, S.S.N. (1989b.); Gamma rays induced meiotic

abnormalities in two cultivars if Cajanus cajan and two species of

Moghanoa; Indian J. Forestry, 12(2): 122-131.

Kumar S. and Gupta P.K. (1978); An Induced sterile mutant in black gram

(Vigna mungo) showing failure of chromosome pairing; National

Acad. of Sci. Letter, 1(2): 51-53.

*Kumar Sushil, Bansal H.C, Dalmir Singh and Swaminathan M.S. (1967);

Pathways of height reduction in induced dwarf mutation in barley; Z.

Pflanzenzuchtung, 57: 317-324.

Kundu S.K. and Singh D.P. (1982); Gamma ray induced variability for

quantitative characters in blackgram [Vigna mungo (L.) Hepper];

Madras Agricultural Journal, 69: 299.308.

Kwon S.H. and Oh J.H. (1983); Mungbean mutation breeding; Korea Mutation

Breeding Newsletter, 21: 4.

Lackey J.A. (1980); Chromosome numbers in the Phaseoleae (Fabaceae:

Faboideae) and their relation to taxonomy; American journal of

Botany, 67: 595-602.

Lagoda P.J.L. (2009); Networking and Forecasting of Cooperation I Plant

Mutation Genetics and Breeding: Role of the Joint FAO/IAEA

Division. Q.Y. Shu (ed.) Induced Plant Mutation in the Genomic Era,

Food and Agriculture organization of the United Nations, Rome, Pp.

27-30.

*Lamprecht H. (1958); Rontgen Empfindlichkeit und Genoty pische

Konstitution von Pisum; Agri Hort Genet, 11: 40-54.

Larik A.S., Memon S. and Soomro Z.A. (2009); Radiation induced polygenic

mutations in Sorghum bicolor L.; J. Agric. Res., 47 (1): 11.19.

Lawn R.J. and Troedson R.J. (1990); Pigeonpea: Physiology of Yield

Formation. In: The Pigeonpea edited by Y.L.Nene, Susan D. and

V.K.Sheila; CAB international, Wallingford, UK, Pp-190.

*Leclerq P. (1968); Heredite de quelqus characters qualities chez le tournesol,

Ann. Amelior plantes, 18: 307-315.

*Linnaeus C. (1737); Genera plantarum, Ed.I. Lugduni Batavorum.


*Lush J.L. (1949).Heritabolity of quantitative character in farm animals;

Proceedings 8th International Congress of Genet 1948; Heriditas,

Suppl, Vol. Pp-356-357.

Lyakh V., Saroka, A. and Vasin, V. (2005); Influence of mature and immature

sunflower seed treatment with ethyl methanesulphonate on mutation

spectrum and frequency; Helia, 43: 87-98.

Malik C.P. and Mary T.N. (1973); Mutation breeding in some rye grass

species; Int. Symp., on use of isotopes and radiation in agriculture

and Animal Husbandary Res., Pp. 39-45.

Manapure Prema and Patil Shanti. (1997); Induced mutants in Blackgram; J.

Soils and Crops, 7(2): 208.209.

Manjaya J.G. (2009); Genetic improvement of Soybean Variety VLS-2 through

Induced mutations, Q.Y. Shu (ed.) Induced Plant Mutation in the

Genomic Era Food and Agriculture organization of the United

Nations, Rome, Pp- 106-110.

Manjaya J.G. and Nandanwar R.S. (2007); Genetic improvement of soybean

variety JS 80-21 through induced mutations; Plant Mutation Reports,

1(3): 36-40.

Manjaya J.G., Gopalakrishna T., Pawar S.E. and Bapat V.A. (2007); Genetic

variability for trypsin inhibitor content in soybean [Glycine max (L.)

Merrill] and its correlation with oil and protein; Indian J. Genet, 67(1):

51-55.

Marekar R.V. (1986); Spontaneous mutant in pigeonpea; PKV Res. J., 11(2)

148-149.

Marekar R.V. (1987); Performance of pigeonpea M4 variants; PKV Res.J.,

11(2): 163-164.

Marekar R.V. (1988a); Leaf mutation in pigeonpea; PKV Res. J., 12(1): 64-66.

Marekar R.V. (1988b); Mutations in pigeonpea; PKV, Res. J., 12(2): 141-145.

Markeen Kouser G. Suresh Babu and Lavanya G.R. (2007); Effect of

mutagenesis on M1 population in urdbean; Journal of Food

Legumes, 20(1): 109-110.

Maruti A.N. and Van der Maesen L.J.G. (1979); Leaf variants in pigeonpea

Cajanus cajan (L.) Millsp; Tropical Agriculture (Trinidad), 56: 81-83.


*McCarthy T.E. and Paille, M.M. (1959); A rapid determination of methionine

in crude protein; Bioche Biophys, Res. Commun, 1: 29-33.

*Mehata D.N. and Dave, B.B. (1931); “Studies in Cajanus indicus”. Mem

Dept.Agrio, India; (Bot. Ser.), 19: 1-25.

Mehetre S.S., Deshmukh, R.B. and Karale, M.U. (1989); Spontaneous close

flower mutant and its inheritance in pigeonpea; Legume Res., 15(3):

111-113.

Mehetre S.S., Desmukh, R.B. and Rodga, R.G. (1983); Effect of gamma-rays

on Different growth and economic characters in pigeonpea; Indian

Journal of Heridity, 13: 19-23.

Mehraj-ud-din, Bahar A.Siddiqui, Samiullah Khan and Mujeeb-Ur-Rehman

(1999); Induced mutations in mungbean (Vigna radiata (L.) Wilczek):

Efficiency and effectiveness of chemical mutagens; Legume

Research, 22(4): 245-248.

Mehta P.M., Patel R.J. and Rao B.V.N. (1975); Effects of gamma irradiations

on enzyme amylase in soyabean (Glycine max L. var. J-202);

Botaniques, 4: 125-130.

Micke A. (1975); Induced Mutations in Plant Breeding; Can J. Pl.Sci., 55 (3):

865.

Micke A., Domini B, and Maluszyski M. (1990); Induced mutations for crop

improvement; Mutation breeding Review, 7: 41.

Micke A.K. (1988); “Genetic improvement of grain legumes using induced

mutation.”; Proc. FAO/IAEA Workshop on “Improvement of grain

legume production using induced mutation,” 1-5 July, 1986 Pullman,

USA, IAEA, Vienna, Pp.1-51.

Mishra S.K., Singh B.B., Daya Chand, Meena K.N. and Choudhary D.C.

(2005); Creating Genetic variability for economic traits in cowpea

through induced mutagenesis; J. Aride Legu., 2 (1): 75-77.

Mitra P.K and Bhowmik G. (1999); Estimation of Mutagenic Effectiveness and

Efficiency of physical and Chemical Mutagens in Nigella sativa L.;

Adv. Plant Sci., 12(II): 373-378.

*Molchan I.M. (1990); Systemic approch in mutation breeding for adeptive

potential; Selektsiyai semenovodstvo (Moskva), 2: 12-15.


More A.D. (1992); Cytogenetical studies in Medicago sativa L, Ph.D. Thesis,

BAM University, Aurangabad.

*Morton J.F. (1976); The Pigeonpea (Cajanus cajan Millsp.) a high protein

tropical bush legume; Hort.Science, 11(1): 11–19.

Muhammad Yaqoob and Abdur Rashid (2001); Induced mutation studies in

some Mungbean cultivars; Pak. J. Bio. Sci., 1(9): 805-808.

*Muller H.J. (1927); Artificial Transmission of the Genes; Sci., 66: 84-87

Mundhe B.F. (2008); Gamma rays and Ethyl methane sulphonate (EMS)

Induced Mutation Studies in Soybean [Glycine max (L.) Merill.],

Ph.D.Thesis, University of Pune.

Muthusamy A. and Jayabalan N. (2002); Effect of mutagens on pollen fertility

of cotton (Gossypium hirsutum L.); Indian J. Genet, 62(2): 187.

Nadarajan N. and Ramalingam R.S. (1982); Mutagenic effectiveness and

efficiency in Cajanus cajan (L.) Millsp; Madras agric. J., 69(2): 71-75.

Nadarajan N., Ramalingam R.S. and Sivasamy N. (1982a); Studies on

induced chlorophyll mutations in Cajanus cajan (L.) Millsp; Madras

agric. J., 69(11): 707-712.

Nadarajan N., Ramalingam R.S. and Sivasamy N. (1982b); Investigations on

induced macromutants in Cajanus cajan (L.) Millsp; Madras agric. J.,

69(11): 713-717.

Nadarajan N., Ramalingam R.S. and Sivasamy N. (1985); Biological effect of

mutagenic treatments in Cajanus cajan (L.) Millsp; Madras agric. J.,

72(6): 301-305.

Nadarajan N., Ramalingam R.S., and Sivasamy N. (1983); Induced variation

in quantitative characters in red gram; Madras agric. J., 70(4): 219-

222.

Naithani S.P. (1941); Cytological studies on Indian pulses, Part-I. The somatic

chromosome and the prochromosome of Cajanus; Proceedings of the

national Academy of science, India 11: 67-73.

Narayana K.P. and Konzak C.F. (1969); Influence of chemical post treatments

on the mutagenic efficiency of alkylating agents In: Induced mutation

in plants IAEA. Vienna, Pp.28.

Narhari P. (1962); Effect of diethyl sulphate on seedling emergence and

height in some varieties of rice; Indian J Genet, 29: 42-52.


Nasare P.N. and Chaudhary A.D. (2010); Induction of Chlorophyll Mutations

in Ocimum sanctum L.; Bioinfolet, 7(1): 89-90.

Natarajan C., Thiyagarajan K., and Ammyamperumal.(1990); Genetic

variability, correlation and path analysis in pigeonpea; Madras Agri J.,

77 (9-12): 378-381.

Nene Y.L., Hall S.D. and Sheila V.K. (1990); Pigeonpea In: Geography and

importance. ICRISAT, Hyderabad, India, Pp. 1-4.

Nerkar Y.S. (1970); Studies on the induction of mutagenesis in Lythyrus

sativus L. with special refrence to the elimination of the neurotoxic

principle. Ph.D. Thesis. IARI, New Delhi.

Nerkar Y.S. and Mote S.B. (1978); Induced mutagenesis in Bengal gram

(Cicer arietinum.) l. visible mutations; J. Mah Agril.Univ., 3(3):174-

177.

Nguyen Thi Lang, Tran Anh Nguyet, Nguyen van Phang and Bui Chi, Buu.

(2007); Breeding for low phytic acid mutants in rice (Oryza sativa L.);

Omonrice, 15: 29-35.

Nilan R.A., Konzak C.F., Heiner R.E. and Froese-Gertzen F.E. (1964);

Chemical Mutagenesis in Barley; Proc. Int: Barley Genetics Symp.

Wegeningen, Pp. 35-54.

Nwokolo E. (1987); Nutritional evaluation of pigeonpea meal; Qual Plant Fds

Hum Nutr, 37:283-390.

Ojomo O.A. and Raji J.A. (1978); Some Effects of ionizing radiation on M1

population of cowpea [Vigna unguiculata (L.) Walp.].; Trop. Grain

Legume Bull. No. 13: 11-13.

Oshodi A.A., Olaofe O., and Hall G.M. (1993); Amino acid, fatty acid and

mineral composition of pigeonpea (Cajanus cajan); Intern. J. Food

Sci. Nutr., 43: 187-191.

Padhye V.W. and Salunkhe, D.K. (1979); Biochemical studies on blackgram

(Phaseolus mungo L.), II. Protein amino acid composition of fraction

of the proteins; J. Food Sci., 44: 606-609.

Padmavathi T. (1993); Mutagenic studies for the improvement of sunflower

(Helianthus annus L.).; Ph.D. Thesis, Osmania University,

Hyderabad.


Padmavathi T., (1993). Mutagenic studies for the improvement of sunflower

(Helianthus annus L.). Ph.D. Thesis, Osmania University, Hyderabad.

Panchbhaye P.M. (1997); Mutation Breeding of Sunflower (Helianthus annus

L.); Ph.D. Thesis BAM University Aurangabad.

Pandey N., Ojha C.B., Jha V.B. and Sigh N.B. (1996), Effect of chemical

mutagens on the rate of germination mutagens on the rate of

germination, seedling mortality and induced sterility in pigeonpea;

ICPN, 7: 65-67.

Pandey R.N. and Pawar, S.E. (2000); Multifoliate variant in pigeonpea; ICPN,

7: 63-64.

Pandey R.N., Dhanasekar P. and Soufrumanien J. (2004); RAPD based DNA

fingerprinting and analysis of genetic diversity in radiation induced

mutants of cowpea [Vigna unguiculata (L.) Walp.]; The Indian Journal

of Genetics and plant Breedintg, 64(2): 97-101.

Pandya P.S., Patil J.A. and Chaudhari B.B. (1954); ‘Round and Tiny’ leaf

mutants in Cajanus cajan Millsp; Poona Agric. Coll. Mag, 45:18.

Panton C.A., Coke L.B. and Pierre R.E. (1972); Seed protein improvement in

certain legumes through induced mutation: Pigeonpea, Kinney beans,

soybeans; In: Nuclear techniques for seed protein improvement.

Proc. Research coordination Meet, Nehuerberg.

Patel K.N. and Patel D.R. (1998); Studies on Genetic Variability in Pigeonpea;

ICPN, 5: 28-30.

*Pathak G.N. and Singh K.P. (1964); A new type of mutant in pigeonpea

[Cajanus cajan (L.) Millsp.]; Sci. Cutt., 30: 397-398.

Patil M.T. (2009); Genetic Improvement of Cowpea for Agronomic Traits,

through Mutation Breeding; Ph. D. Thesis, University of Pune

Patil S. and Bawankar S. (2000); Mutation studies in lathyrus (Lathyrus

sativus L.); In: Proceedings DAE-BRNS symposium on the use of

nuclear molecular techniques in crop improvement, Pp.117-123.

Paul A. and Bajpai, G.C. (2000); Selection indices for yield in determinate

pigeonpea; Legume Res., 23(1): 52-54.

Pawar S.E. and Wanjari K.B. (1994); Breeding high yielding varieties of

pigeon pea, mung bean and blackgram using induced mutations. In.


DAE / BRNS Symp; “Nuclear Applications in Agriculture, Animal

Husbandry and Food Preservation,” NRL; IARA, New Delhi, Pp. 7-8.

Pawar S.E., Thakare R.G. and Joshua D.C. (1978); Relative biological

effectiveness and mutagenic efficiency of fast neutrons in Cajanus

cajan; Indian J. Exp. Bio., 16: 656-659.

Pawar S.E., Thakare R.G. and Joshua D.C. (1979); Early Maturing bold

seeded mutant in pigeonpea [Cajanus cajan (L.) Millsp.]; Curr Sci.,

48(14): 643-645.

Pawar S.E., Thakare R.G., Mitra R., Krishna T.G. and Bhatia C.R. (1984);

Induced mutations for the genetic improvement of pulse crops In:

Srivastava, H.C., Bhaskaran, S., Menon, K.K.G., Ramanujam, S. and

Rao, M.V. (Eds); Pulse Production-Constraints and Opportunities.

Oxford and IBH Publishing Co., New Delhi, India, Pp. 361-367.

Pele S.K. and Howard A. (1955); Effect of various doses of X-rays on the

number of cells synthesizing DNA; Rad Res., 3: 135-142.

Phad D.S, Madrap I.A and Dalvi V.A. (2009); Heterosis in relation to

combining ability effects and phenotypic stability in pigeonpea; J. of

Food Legumes, 22(1): 59-61.

Plensnik S. (1993); The Evaluation of Some quantitative traits in M1

generation in soybean after laser emission and ethyleneimine

treatment; Genetica et biologia molecularis, 24-25: 105-113.

Pokle Y.S. (1976); Pleiotropic mutant in red gram (Cajanus cajan Millsp.);

Nagpur Agric. Coll. Mag., 48: 42-44.

Potdukhe N.R. and Narkhede M.N. (2002); Induced Mutations in Pigeonpea

[Cajanus cajan (L.) Millsp.]; J. Nuclear Agric. Biol., 31(1): 41-46.

Prasad A.B. and Das, A.K. (1980); Morphological variants in Khesari; Indian J.

Genet and Plant Breed, 40(1): 172-175.

Pundir R.P.S., Remanandan P. and Sastry D.V.S.S.R. (1989); Status of the

world collection of pigeonpea germplasm at ICRISAT In:

Collaboration on Genetic Resources. Summary Proceeding of a Joint

ICRISAT/NBPGR (ICAR) Workshop on Germplasm Exploration and

Evaluation in India, 14-15 Nov.1988; ICRISAT India, Pp. 31-34.


Raboy V. (2008); Induced mutation-facilated genetic studies of seed

phosphorus, International symposium on induced mutations in plants,

12 -15 Aug., FAO/IAEA, Vienna, Pp. 68.

Raboy V., P. Gerbasi, KA Young, JA Dooch, and A Cook (2001); Genetics

and breeding seed with low phytic acid; J. Plant Physiol, 158: 489-

497.

Raghuvanshi S.S. and Singh D.N. (1979); Comparative sensitivity of different

varieties of Impatiens balsamia L.; Cytologia, 44: 111-121.

Rajasekaran V.P.A. (1973); Induced mutagenesis in Blackgram (Phaseolus

mungo L.).; M.Sc.Thesis Tamil Nadu Agric. Univ., Coimbatrore.

Rajput M.A. (1973); Gamma irradiated studies in mungbean; Pak J. Scientific

Res. 25: 167-172.

Ramanathan T. (1984); Effect of mutagenic treatment on Arachis hypogea L.

in M1 generation; Madars Agri J., 71: 41-46.

*Ramanna M.S. and Natarajan A.T. (1965); Studies on the relative mutagenic

efficiency of alkylating agents under different conditions of treatment;

Indian Journal of Genetics and Plant breeding, 25(1): 24-44.

Rangaswamy R. (2002); A Text Book of Agriculture Stasitics; New age

international (P) Ltd., New Delhi.

Rangaswamy S.R. (1986); Applied Mutation Research in Field Crops at Tamil

Nadu Agricultural University; Mutation Breeding Newsletter, 28:13-14.

Rao C.H. (1974); Studies on induced variability in pigeonpea and chickpea.

Ph.D. Thesis, IARI, New Delhi.

Rao D.M. and Reddy T.P. (1983); Induction of mutations in Pigeonpea

(Cajanus cajan L.); Mut. Breeding Newsletter, IAEA, Vienna, 23:8.

Rao D.M. and Reddy T.P. (1989); Response of pigeonpea cultivars to

mutagens; International Pigeonpea Newsletter, 2 (10): 15-16.

Rao D.M. and Reddy T.P. (1993); Induction and evaluation of certain

beneficial mutants in Cajanus cajan L.; Adv. Pl. Sci., 6(2): 246-259.

Rao D.M. and Reddy, T.P. (1986); Induced polygenic variability in Cajanus

cajan L. In: Manna, G.K. and Shiha, U. (ed.); Perspectives in

Cytology and Genetics, 5: 303-309.


Rao D.M., Reddy T.P. and Kinoshita T. (1988); Characterization of induced

polygenic variability in pigeonpea (Cajanus cajan L.); J. of the faculty

of Agriculture, Hokkaido University, 63 (4): 387-395.

Rao D.M., Reddy T.P. and Manohar R.D. (1983); Response of pigeonpea

cultivars to mutagens; International Pigeonpea Newsletter, 2: 15-16.

Rao D.M., Reddy T.P. and Manohar R.D. (1984); Induction of mutations in

pigeonpea (Cajanus cajan L.); Mutation Breeding Newsletter, 24: 8.

Rao P.K. and Suvartha C. (2006); Effect of Gamma Rays on In vivo and In

vitro Seed germination, Seedling Height and Survival Percentage of

Lycopersicon esculentum cv.Pusa Ruby; Adv. Plant Sci., 19(II): 335-

339.

Rao Rama Mohan D., Reddy T.V. and V.Seetharami (1983); Induction of

seedling injury in two varieties of rice by gamma rays, sodium azide

alone and in combination; Indian J. Bot., 7(1): 64.67.

Rao S. (1980); Effect of X-rays, gamma rays and metasystox on physiological

and morphological variabilities in Abelmoschus esculentus (L) Taub.

Ph.D. Thesis Kakatiya University, Warangal (A.P.).

Rao S. and Rao D. (1982). Studies on the effect of X-irradiation on

Cyamopsis tetragonolaba L.; Proc. Ind. Nat. Sci. Acad., 48: 410-415.

Rasmussen S.K. (2008); Biosynthesis and deposition of seed phytate and its

impact on mineral bioavailability, International symposium on induced

mutations in plants, 12-15 Aug. FAO/IAEA; Vienna, Pp. 68.

Rathod T.H. and Patil B.N. (1991); Performance of pigeonpea mutants for

biomass production, growth and yield in versitol; Annals of Pl.

Physiology, 5(1): 18-23.

Raveendran and Jayabalan N. (1997); Induced Chlorophyll Mutation Studies

in Cowpea [Vigna unguiculata (L) Walp.]; J. Ind. Bot. Soc., 76: 197-

199.

Ravi S.B and Bala R.S. (1983); A dwarf mutant of pigeonpea used in cross

breeding; Mutation Breeding Newsletter, 21: 5.

Ravi S.B. (1988); Studies on mutagenesis to improve yield and seed protein

and seed protein quality of pigeonpea: Improvement of grain legume

production using induced mutations, Proceedings of workshop;

Pullman, Washington, USA, 1-5 July, 1986, Pp. 251-278.


Ravikesavan R., Kalaimagal T., and Rathnaswamy R. (2001); An Extra early

mutant of pigeonpea, Mutation Breedibg Newsletter, 45: 19-20.

Reddy C.S. and Smith J.D. (1984); Mutagenic effectiveness and efficiency of

hydrazine and EMS in Sorghum bicolor, Ind. J Genet, 49(1): 49-54.

Reddy G.M. and Reddy T.P. (1972); Induction of Mutations by hydrazine in

rice; Ind, J Genet, 32: 388-391.

Reddy M. (1991); Mutagenic studies in safflower (Carthamus tinctorius L.).;

Ph.D. Thesis, Osmania University.

Reddy V.R.K. (1992); Mutagenic parameters in single and combined

treatments of gamma rays, EMS and sodium azide in Triticale, Barley

and Wheat; Adv. Plant Sci., 5(2): 542-553.

Reddy V.R.K. and Annadurai M. (1991); Chlorophyll mutants in lentil,

frequency and spectrum; J. Cytol and Genet, 26: 31-37.

Reddy V.R.K. and Gupta P.K. (1989); Induced mutations in triticale-

Frequency and spectrum of chlorophyll mutations; Indian J. Genet,

49(2): 183-190.

Reddy Y.R.K., Viswanathan P., Asir R. and Arumugam S. (1995); Frequency

and Spectrum of Chlorophyll Mutants in Triticales with Different Rye

Chromosome Constitution; J. Ind. Bot. Soc., 74: 335-336.

*Rheede Tot Draakestein, H. Van (1686); Hortus Indicus Malabaricus

Amsterdam, 6: 13.

Rita Kumari (1996); Effectiveness and Efficiency of Physical Chemical and

Physico-chemical Mutagens in M2 Generation of Vicia faba L. var

VH82- 1; J. Nuclear Agric. Biol., 25(3): 172-175.

*Roy B. (1933); Studies in the Development of the female Gametophyte in

some leguminous crop plants of India, Indian J. Agri. Sci. 3: 1098-

1107, illus.

Sadasivam S. and Manickam A. (2008); Biochemical Methods, New Age

International (P) Ltd., Publishers New Delhi, 3rd Edition.

Sagade A.B. (2008); Genetic Improvement of Urdbean through Mutation

Breeding, Ph. D. Thesis, University of Pune

Sahu G.R., Mukherji P., Singh B.B. and Singh R.B. (1980); Induced polygenic

variability in safflower (Carthamus tinctorius L.); J. Cytol. Genet, 15:

81-85.


Salunkhe D.K., Kadam, S.S. and Chavan, J.K. (1985); Post harvest

Biotechnology of legumes, CRC press Boca Raton Florida, Pp.35-

160.

Santhoslal P.S. and Pavithran K. (1997); Genetics of EMS induced recessive

tall mutation in rice; Indian J. Genet., 57(2): 210-213.

Sato M. and Gaul H.(1967); Effect of Ethyl Methane Sulphonate on Fertility in

Barley; Rad. Bot, 7: 7-14.

Satpute R.A. (1994); Mutational Studies in safflower (Carthamus tinctorius L.),

Ph.D. Thesis, BAM University Aurangabad.

Satpute R.A. (2009); Studies on the mutagenic effectiveness and efficiency of

gamma rays in lentil; Bioinfolet, 6(2): 161-164.

Satpute R.A. and Dhulgande G.S. (2010); Studies on Protein content in

Prominent Induced Mutants of Pea (Pisum sativum L.); Bioinfolet,

7(1): 64-65.

Satpute R.A. and Kothekar V.S. (1996); Mutagenic Efficiency and

Effectiveness in Safflower; J. Nuclear Agric. Biol., 25(4): 230-234.

Sax K. (1963); The Stimulation of Plant growth by ionizing; Rad. Bot., 3: 179-

186.

Saxena K.B. (2005); Genetic Resources, Chromosome Engineering and

Crop Improvement: Grain Legume.CRC press; Taylor & Francis

Group. Boca Raton.

Saxena K.B. (1989); Breeding pigeonpeas Lecture note for In- Country

Training Course on Legumes, 9-18 Sep. 1989, Joydebpur, and

Gazipur, Bangladesh; Bangladesh Agricultural Research Institute.

Saxena K.B.(2008); Genetic Improvement of Pigeon Pea- A Review Tropical

Plant Biol., 1: 159-178.

Saxena K.B., Gupta, M.D. and Faris D.G. (1984); A Nonflowering uniculm

mutant of Pigeonpea; Int: Pigeonpea News letter, 3: 11-12.

Saxena K.B., Kumar, R.V. and Rao P.V. (2002); Pigeonpea nutrition and its

improvement; J. Crop Production, 5(1/2): 227-260.

Saxena K.B., Singh, A.K. and Faris D.G. (1988); The Morphogenesis and

inheritance of an open carpel mutant cdl in pigeonpea; J. Heridity,

79(1): 75-77.


Schiemann E. (1972); Mutation bei Aspergillus niger Z. Ind. Abst. U.

Vereblrhra. 8:1; In: Induced Mutation in Plants, IAEA, Vienna, Pp. 9.

Sekar S.P. (1979); Studies on induced mutagenesis in redgram [Cajanus

cajan (L.). Millsp.], Ph.D.Thesis.

Sen S., Sur S.C., and Gupta K. (1966); Inheritance of dwarfness in pigeonpea

[Cajanus cajan (L.) Millsp.], TAG theoretical and applied Genetics;

Springer Berlin, 36(8): 379-380.

*Shaikh M.A.Q. (1970); Nucleus, 3: 133.

Shaikh M.A.Q. (1986); Breeding of improved grain legume genotypes for

Bangladesh through nuclear and conventional techniques; In: Proc.

Workshop Improv, Grain Legume Production Using Induced Mutation,

July 1-5, Pullman, Washington, USA, pp. 53-73.

Shanmugasundaram P., Sheriff H.M., Annappan R.S., Rajagopalan R. and

Ayyamperumal S. (1989); Co-5 an early mutant redgram variety for

Tamil Nadu; Madras Agric. J., 76(10): 581-584.

Sharma A.K., Singh V.P. and Singh R.M. (2006); Efficiency and effectiveness

of the gamma rays, EMS and their combinations in urdbean; Indian J.

Pulses Res., 19 (1): 111-112.

Sharma B. (1979); Mutation breeding of grain legumes in India, Proc. Symp:

The role of induced mutation in crop improvement. September 10-13.

Osmania Univ.Hyderabad, Pp. 165-176.

Sharma B.A. (1969); Non.random reduction of mutations in higher plants;

Proc.Symp: On Radiation radiometric substances in mutation

breeding DAE/BARCBombay, Pp: 22-31.

Sharma D. and Shrivastava, M.P. (1974); An Induced useful mutant of

Cajanus cajan (L.) Millsp; J.N.K.V.V, Res. J., 8 (3/4): 263-266.

Sharma P.C. and Gupta, P.K. (1982); Karyotypes in some pulse crops;

Nucleus, 25: 181-185.

Sharma S.K., Ritu Sood and Pandey D.P. (2005); Studies on mutagen

sensitivity, effectiveness and efficiency in urdbean [Vigna mungo (L.)

Hepper]; Indian J. Genet, 65(1): 20-22.

Sheeba A.S. and Babu M. (2003); Effect of mutagens on quantitative traits in

M2 generation in sesame (Sesamum indicum L.); Indian J. Genet.,

63(2): 173-174.


*Sheldrake A.R. (1984); Pigeonpea; In: Goldsworthy and Fisher eds., the

phys. of Trop. Field Crops Wiley, London.

Shen S.Q., M. Li, Z.J. Guo, H.X. Ye, Q.Y. Shu, D.X. Wu, and J.S. Bao.(2008);

Rapid pyramiding of low low phytic acid mutation and ferritin gene for

improvement of mineral nutritional quality of rice, International

symposium on induced mutations in plants, 12-15 August, FAO/IAEA,

Vienna, Pp. 74.

Sheriff M.N. and Veeraswamy, R. (1977); Genotypic and phenotypic variability

of mutants in red gram [Cajanus cajan (L.)Millsp.]; Madras Agric. J.,

64(1): 44-45.

Sheriff M.N., Khan W.M.A. and Anappan R.S. (1977), Red gram Co-3 an

economic mutant strains for Tamil Nadu; Madras. Agric. J., 64(9):

561-565.

Shinde M.D. (2007); Assessment of Variability in M3 Lines of Pigeonpea

[Cajanus cajan (L.) Millisp.], M.P.K.V. Rahuri. M.Sc. Agri.Thesis.

Shivraj A.N., Ramana G.P., Rao B.V. and Razvi H. A. (1962); Effects of fast

neutrons and gamma rays on groundnut; Ind. Oilseeds J., 6: 24-30.

Shrivastava Alok, Singh, V.P. and Srivastava, A. (1992); Induced high yielding

Pigeonpea mutants; SABRAO Journal, 24(2): 137-140.

Shrivastava M.P. (1975); Effect of gamma irradiation on diploid and tetraploid

seeds of Cajanus cajan (L.) Millsp; Curr Sci., 44(5): 167-168.

Shrivastava M.P., Sharma, D, and Singh Laxman (1973); Karyotype analysis

in Cajanus cajan (L.) and Atylosia lineata W & A; Cytologia, 38:219-

227.

Siddiqi E.A. and Swaminathan M.S. (1968); Mutational analysis of Radial

differentiation of Oryza sativa L.; Mut Res., 6: 478-481.

Siddiqi E.A. and Swaminathan M.S. (1969); Enhanced mutation induction and

recovery caused by nitrosoguanidine in Oryza sativa; Indian J.Genet.

Pl. Breed, 28(3): 297-300.

Sidker A.K. and De D.N. (1967); Cytological studies of two species of

Atylosia; Bull. Bot. Soc. Bengal., 21: 25-28.

Sigurbjornsson B. and Micke A. (1969); Progress in mutation breeding In:

Induced mutations in plants. IAEA; Vienna, Pp. 673-698.


Singh A.K. and Singh K.P. (2003); Induced quantitative variation for yield and

its components in okra [Abelmoschus esculentus (L.) Moench]; Adv.

Plant Sci., 16(11): 519-525.

Singh B.B. (1973); Effect of gamma-irradiation on growth and yield of

pigeonpea; Haryana Journal of Horticultural Science, 2 (3-4): 83-87.

Singh B.B., Gupta S.C. and Singh B.D. (1974); Note on ‘UPAS-120’ and early

maturing mutant of pigeonpea; Indian J. agric. Sci., 54(4): 233-234.

Singh B.P. and Chaudhary J.B. (1972); Studies on irradiated guar; The

Nucleus, 15(1): 16–22.

Singh Gajraj, Sareen P.K., Saharan R.P. and Ajit Singh (2001); Induced

variability in mungbean [Vigna radiata (L.) Wilczek]; Indian J. Genet.,

61(3): 281-282.

Singh K.B., Malhotra R.S. Halila H. Knight F.J. and Verma M.M.(1994);

Current Status and future strategy in breeding chickpea for resistance

to biotic and abiotic stresses; Euphytica, 73: 137-149.

Singh L., Sharma, D., Deodhar A.D. and Sharma Y.K. (1973); Variation in

protein, methionine, tryptophan and cooking period in pigeonpea

[Cajanus cajan (L.) Millsp.]; Indian J. Agric. Sci., 43: 795-798.

Singh Manju and Kumar D. (2005); Mutants with high productivity induced in

mothbean; Indian J. Pulses Res., 18(2): 244-245.

Singh R.H. and Raghuvanshi S.S. (1991); Bold seeded mutant in Blackgram;

Mut.Breed. Newsletter, 38: 5-6.

Singh R.K. (1996); Gamma rays induced bold seeded mutant in [Vigna mungo

(L.) Hepper]; Indian J. Genet, 56: 104-108.

Singh R.K. and Raghuvanshi S.S. (1985); Pentaphyllus mutant in Vigna

mungo (L.); Current Science, 54(24): 1286-1287.

Singh V.P. and Agarwal S. (1986); Induced high yielding mutants in cluster

bean; Ind. J. Agric. Sci., 56(10): 595-700.

Singh V.P. and Lal J.P. (1998); Mutagenic effects of gamma rays and EMS on

frequency of chlorophyll and macromutations in urdbean [Vigna

mungo (L.) Hepp.]; Ind. J. Genet, 59: 203-210.

Singh V.P. and Yadav D.S. (1991); Induced mutations for qualitative and

quantitative traits in green gram [Vigna radiata L. Wilczek] cv. T 44;

Indian J. Genet., 45: 1-6.


Singh V.P., Man Singh and Lal J.P. (2000); Gamma ray and EMS induced

genetic variability for quantitative traits in urdbean [Vigna mungo L.

Hepper]; Indian J. Genet., 60(1): 89-96.

Singh Yogeshwar, and Sharma Akhileshwar (1988); Effect of Gamma

Irradiation on Seed Protein Content of Lathyrus Spp; Adv. Plant Sci.,

1(2): 131-135.

Sinha S.S.N and Kumar P. (1971); Karyotypes study of Cajanus cajan; J.

Cytol Genet, 6: 18.

Sinha S.S.N and Kumar P. (1979); Karyotypes in different varieties of Cajanus

cajan; Cytologia, 44: 551.

Sinha S.S.N. and Akhaury, S.B. (1969); Effect of gamma-radiation and E.M.S.

on Cajanus cajan; Proc. Indian Sci. Cong. Assoc., 56(3): 348-349.

*Sjodin J. (1962); Some Observations in X1 and X2 of Vicia faba (L.) after

treatment with different mutagens; Hereditas, 48: 565-586.

Solanki I.S. and Sharma B. (1994); Mutagenic effectiveness and efficiency of

gamma rays, ethylene imine and N-nitroso-N-ethyl urea in

macrosperma lentil (Lens culinaris Medik.); Indian J. Genet, 54(1):

72-76.

Solanki I.S. and Sharma B. (2001); Frequency and spectrum of chlorophyll

mutations in macrosperma lentil (Lens culinaris Medik.); Indian J.

Genet, 61(3): 283-286.

Solanki I.S. and Sharma B. (2003); Morphological mutations induced by

gamma rays, ethylene amine and N-Niroso-N-Ethyl urea in Lentil; J.

Genet, 53(2): 168-173.

Sparrow A.H., Cyany R.L., Miksche J.P. and Schairer, L.A. (1961); Some

factors affecting the response of plants to acute and chronic radiation

exposure; Rad. Bot., 1: 10-34.

*Sparrow, A.H. and Konzak, C.F. (1958); The use of Radiation in Plant

Breeding, Accomplishments and prospects, Camelia Cult., Pp. 425-

452.

Sparrow, A.H. and Woodwell, G.M. (1962); Production of the Sensitivity of the

plants to chronic gamma radiation, Rad Bot., 2: 9-26.

Spice J.R. and Chambers, D.C. (1949); Chemical composition of Tryptophan

in proteins; Anal. Chem., 21: 1249-1252.


Srivastava A. and Singh, V.P. (1993); Induced polygenic variability in

pigeonpea [Cajanus cajan (L.) Millsp.]; J. Indian Bot. Society, 72:

281-284.

Srivastava A. and Singh, V.P. (1996); Induced high yielding pigeonpea

mutants; Mutation Breeding Newsletter, 42: 8-9.

Srivastava L.S., Hira Chand, and Sudhir Kumar (1973); Dose response

studies on EMS and MMS treated Gram; Science and Culture, 39 (8):

345-347.

*Stadler L.J. (1928). Mutations in barley induced by X-rays and radium;

Science, 68: 186-187.

*Stubbe H. (1937); Dev gene wartige stand experimentation Eezenguing Van,

Mutation durch Einwiring Van Chemikalian Angeus charllie, 13: 241.

Subramanian D. (1980); Effect of gamma radiation in Vigna; Indian Journal of

Genetics and Plant Breeding, 40 (1): 187-194.

Sudharani T. (1990); Genetical studies in induced mutants of Phaseolus

mungo L. Ph.D. Thesis, Osmania University, Hyderabad.

Sundaram K.M. (1974); Induced mutagenesis in redgram [Cajanus cajan (L.)

Millsp.].; M.Sc.Thesis, Tamil-Nadu Agri.Univ, Coimbatore.

*Suss A. (1966); Effect of low doses of seed irradiation on plant growth. IAEA;

Tech Repser, 64: 1.

Swaminathan M.S. (1961); Effect of diplontic selection on the frequency and

spectrum of mutations induced in polyploids following seed

irradiation. In: Effect of ionizing Radiations on seeds, IAEA; Vienna,

Pp. 279-288.

Swaminathan M.S. (1963); Evaluation of the use of induced micro and

macromutations in the breeding of polyploid crop plants; “Symp.

Application of Nuclear Energy.” Rome. 1961, Pp. 241-277.

Swaminathan M.S., Chopra V.L. and Bhaskaran S. (1962); Chromosome

aberrations and the frequency and spectrum of mutations induced by

ethyl methane sulphonate in barley and wheat; Indian J. of Genet.and

Plant Breeding, 22: 192-207.

Sybenga J. (1983); Genetic manipulation in plant breeding; somatic versus

generative Theor Appl, Genet, 66: 179-201.


Szarejko l. and Maluszynski M. (1980); Analysis of usefulness of sodium

azide in plant breeding; Acta Bio, 9: 60-66.

Talukdar D., Biswas S. and Biswas A. (2002); An Induced dwarf mutant of

grass pea; Indian J. Genet, 61(4): 383-384.

Tambe A.B. (2009); Induction of Genetic Variability in Soybean [Glycine max

(L.) Merrill.] For yield Contributing Traits.; Ph.D. Thesis, University of

Pune.

Tambe A.B. and Apparao B.J. (2009); Gamma- rays Induced Mutations in

Soybean [Glycine max (L.) Merill.] for Yield-Contributing Traits, Q.Y.

Shu (ed.) Induced Plant Mutation in the Genomic Era Food and

Agriculture organization of the united nations, Rome, Pp.105-106.

Tarar J.L. and Dnyansagar V.R. (1979); Effect of Gamma rays and EMS on

growth and branching in Turnera ulmifolia, J Cytol Genet., 14: 118-

123.

Tarar J.L., and Dnyansager V.R. (1974); Effect of EMS on Turnera ulmifolia.

T. Var.anqustifolia Wild.; Proc. 61st Ind. Sci. Cong., Pp. 67-71.

Tariq Mahmud Shah, Javed Iqbal Mirza, Muhammad Ahsanul Haq and Babar

Manzoor Atta. (2008); i. Induced genetic variability in chickpea (cicer

arietinum L.), ii.Comparative mutagenic effectiveness and efficiency

of physical and chemical mutagens; Pak. J. Bot., 40(2): 605-613.

Thohirah Lee Abdullah, Johari Endan and B. Mohd Nazir (2009); Changes in

flower development, chlorophyll mutation and alteration in plant

morphology of Curcuma alismatifolia by gamma irradiation; American

Journal of Applied Sciences, 6(7):1436-1439.

Tickoo J.L. and Chandra N. (1999); Mutagen induced variability in mungbean

[Vigna radiata (L.) Wilczek]; Indian J. Gen. Plant Breeding, 59(2):

193-201.

Tickoo J.L., and Jain H.K. (1979); Breeding high yielding varieties of mung

[Vigna radiata (L.) Wilczek] through mutagenesis; Proc., “The role of

induced mutations in crop improvement.” Osmania University,

Hyderabad, Sept. 10-13. Pp: 198-203.

Toker C. and Cagiranan M.I. (2004); Spectrum and Frequency of Induced

Mutations in Chickpea; ICPN, 11: 8-10.


Toprope V.N., Zote K.K., Chavan G.V., Navgire K.D. and Gosalwal S.S.

(1999); A floral mutant in pigeonpea; ICPN, 6: 38.

Tripathi R.D., Srivastava, G.P., Misra, M.C. and Sinha, S.C. (1975);

Comparative studies in the quality characteristics of early and late

varieties in red gram (Cajanus cajan L.); Indian J. Agric. Chem.,

8(1&2): 57-61.

Upadhyaya H.D. (1985); Induced genetic variability for oil content in soybean;

J. Nulear Agric and Bio., 14(3): 119-120.

Van der Maesen L.J.G. (1986); Cajanus DC.and Atylosia W.&A.

(Leguminosae). Agricultural University Wageningen papers 85-4

(1985); Netherlands, Pp.225.

Van der Maesen L.J.G., (1982); World Distribution of Pigeonpea; Infornation

Bulletin No. 14. (July-1983) ICRISAT, Hydrabad.

Vandana and Dubey D.K. (1990); Effect of EMS and DES on germination,

growth, fertility and yield of lentil var. K-85 (Macrosperma); Lens

Newsletter, 17(2): 8-12.

Vanniarajan C.P. Vivekanndan and Ramalingam J. (1993); Spectrum and

frequency of chlorophyll and viable mutations in M2 generation of

Blackgram; Crop Improvement, 20(2): 215-218.

Varshney R.K., Penmetsa R.V., Dutta S. Kulwal P.L., Saxena R.K., Sharma

T.R. Rosen B., N. Carrasquilla-Garcia A.D. Farmer A. Dubey K. B.

Saxena J. Gao B. Fakrudin M. N. Singh B.P. Singh K.B. Wanjari M.

Yuan R.K. Srivastava A. Kilian H.D. Upadhyaya N. Mallikarjuna

C.D.Town G.E. Bruening G. He G.D. May R. McCombie S.A. Jackson

N.K. Singh D.R. Cook. (2009); Pigeonpea genomics initiative (PGI):

an international effort to improve crop productivity of pigeonpea

(Cajanus cajan L.); Online J Mol Breed, Springerlink.com, Pp.1-16.

Veeraswamy R., Rangasamy P. and Sheriff N.M. (1975b); Co-2 redgram-a

new strain with early maturity and improved plant type; Madras

Agricultural Journal, 62: 541-543.

Veeraswamy R., Rathnaswany R. and Murugesan M. (1975a); Path analysis

in redgram [Cajanus cajan (L.) Millsp.]; Madras Agricultural Journal,

62(3): 166-168.


Venkatachalam P. and Jaybalan N. (1997); Mutagenic Response of

Groundnut (Arachis hypogea L.) to Gamma Rays, EMS and SA I.

Observations on the M1 generation; J. Cytol Genet, 32(1): 1-10.

Venkateshwarlu S., Singh R.M., Singh, R.B. and Singh, B.D. (1976b);

Radiosensitivity and frequency of chlorophyll in pigeonpea; Indian J.

Genetics Plt. Breed, 38(1): 90-94.

Venkateshwarlu S., Singh, R.M. and Reddy L.J. (1981); Induced Mutagenesis

in pigeonpea with gamma rays and ethyl methane sulfonate (EMS)

and Hydroxylamine; In: Proceedings of the International Workshop on

pigeonpeas; ICRISAT, 15-19 Dec. 1980, 2: 67-73.

Venkateshwarlu S., Singh, R.M. and Singh, R.B. (1976a); EMS- induced

multicarpellate condition in Cajanus cajan; Curr. Sci., 45(2): 773-774.

Venkateswarlu S., Singh, R.M., Singh, B.D. (1978); Radiosensitivity and

frequency and frequency of chlorophyll in pigeonpea; Indian J. Gen.

Plant Breeding., 38(1): 90-94.

Verulkar Satish (1996);"Inheritance of resistance of pod-borer and pod-fly in

the interspecific cross of pigeonpea [Cajanus cajan (L.) Millsp.]”;

Ph.D. Thesis, G.B. Pant University of Agriculture (UP).

Virupakshappa K., Mahishi D.K., and Sivashankar G. (1980); Variation in

cowpea following hybridization and mutagenesis; Indian J. genet, 40:

396-398.

Viswanathan P.V. and Reedy R.K. (1998); Induced desirable agronomical

mutants in wheat and triticale; J. Ind. Bot. Soc, 77: 67-69.

Wang L.Q. (1991); Induced mutation for crop improvement in China; In: Proc.

IAEA Symp.on Plant Mutation Breeding for Crop Improvement. June

18-22, 1990. IAEA; Vienna, Pp. 9-32.

Wani A.A. and Anis M. (2001); Gamma rays induced bold seeded high

yielding mutant in chickpea; Mutation breeding Newsletter, 45:20-21.

Wanjari K.B. (1981); Spontanaous mutations with pleiotropic effect in

pigeonpea In: Procedding of the International workshop on

pigeonpeas; ICRISAT, 15-19 Dec.1980, 2: 75-79.

Wanjari K.B. and Kutarekar D.R.(1977); Study of some M1 parameters in

different treatments of Gamma rays and Chemical mutagens in

Sorghum; J. Cyto. Genet, 12: 55-61.


*Wenholz H. (1920); Pigeonpea; Agri. Gaz. N.S.W., 31(12): 888.

*Westergarrd M. (1960), A Discussion of Mutagenic specificity, 1.Specificity

on the-Chemische mutagenese Erwin-Baur-Gadachtmisv-orlesungen

Academic-Verlag, Berlin, 116.

*Whiteman P.C., and Norton, B.W. (1981); Alternative uses of pigeonpea in:

proceedings of International Workshop on Pigeonpeas, 15-19 Dec

1980; ICRISAT, India, 1: 365-378.

Yadav D.S. (1992). Pulse Crop (Production Technology), Kalyani Publishers,

New Delhi-Ludhiana.

Yathaputanon C., Kumsueb B., Malipan A., Srisombun S. and Bunyarut J.

(2009); Protein content in high-protein Soybean mutant in Thailand,

Q.Y. Shu (ed.) Induced Plant Mutation in the Genomic Era Food and

Agriculture organization of the United Nations, Rome, Pp. 195-196.

*Zacharias M. (1956); Mutations verscbean kaltirflanzen. Vl. Rontgenbest

ranlungender sasabohne (Glycine soja L.); Zilcchter, 26: 321-328.

Zareen F. and Devi P. (1995); Mutagenic effectiveness and efficiency of

certain mutagens in Brassica compestris; J Cytol Genet, 30(1): 7-12.

Zeven A.C. and Zhukovshy P.M. (1975); Dictionary of cultivated plants and

their centres of diversity, Centre for Agricultural Publishing and

Documentation, Wageningen, Netherlands.

Zhao L.S., Liu L.X., Yang S.R., Guo H.J., and Zhao S.R. (2008); Production

of mutants with high inorganic phosphorus content in seeds by

Germplasm reselection and mutation technique in wheat,

International symposium on induced mutations in plants, 12-15 Aug.

2008, FAO/IAEA, Vienna, Pp- 79.

*Originals not seen.

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