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Heterosis and combining ability analysis for
yield and its components in Indian mustard ( Brassica juncea L. Czern & Coss) |
Priti Gupta1,H B Chaudhary1,Sandeep Kumar Lal2, |
1.Division of Genetics,
IARI, New Delhi, India; 2.Division of Seed Science
& Technology, IARI, New Delhi, India; |
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Abstract Half diallel analysis of eight parents was carried out to identify the high heterotic crosses and their relationship in terms of general and specific combining ability (GCA & SCA) in Brassica juncea L. Czern and Coss at IARI, New Delhi, during 2007–2008 and 2008–2009. The relative heterosis and heterobeltiosis were observed to be the highest with respect to seed yield per 100 siliquae and days from sowing to 50% flowering in case of cross IC-199715 × IC-199714, EC-289602 × Prakash in the number of primary branches per plant and harvest index, Agra Local × Pusa Bahar in the length of main axis, Poorbijaya × Agra Local in the number of siliquae on main axis and EC-289602 × Pusa Bahar in the biologic yield per plant and seed yield per plant. Different cross combinations exhibited the maximum value of better and mid-parent heterosis for the remaining traits, viz., days to maturity, number of secondary branches per plant, plant height and 1000-seed weight. GCA and SCA variances were significant in all characters. The variance of GCA (s2g) was observed to be higher from sowing to 50% flowering and maturity in plant height and 1000-seed weight, whereas the variance of SCA (s2s) was higher in seed yield and other remaining parameters.
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Keywords
Brassica juncea
GCA
heterobeltiosis
Indian mustard
mid-parent heterosis
SCA
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Issue Date: 05 September 2010
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Ali A, Shah S A, Hassan S (2000). Mutant heterosis in oilseed rape. Cruciferae Newsletter, 22: 67–68
|
|
Ali T N, Raziuddin, Shah S S, Ali S (2006). Estimation of heterosis for someimportant traits in mustard (Brassica juncea L.). J Agric Biol Sci, 1(4): 6–10
|
|
Allard R W (1960). Principles of Plant Breeding. New York: John willey and Sons
|
|
Banga S S, Labana K S (1984). Heterosis in Indian mustard [Brassica juncea (L.)]. J Plant Breed, 92: 61–70
|
|
Becker H C Loptien, Robbelen G (1999). Breeding: An overview. In: C Gomez-Campo (ed.) Biology of Brassicacoenospecies. Amsterdam:Elsevier Science BV, 413–460
|
|
Brandle J E, McVetty P B E (1989). Heterosis and combining ability in hybrids derived fromoilseed rape cultivars and inbred lines. Crop Sci, 29: 1191–1195
|
|
Fisher R A, Yates F (1967). Statistical tables for biological agricultural and medicalresearch. Hafner Publ. Co. New York.
|
|
Griffing B (1956). Concept of general and specific combiningability in relation to diallel crossing systems. Aust J Biol Sci, 9: 463–493
|
|
Hayes H K, Immer I R, Smith O C (1955). Methods of Plant Breeding. McGraw Hill Co Inc: 52–65
|
|
Jinks J L (1955). A survey of genetical basis of heterosisin a variety of diallel cross. Heredity, 9(2): 223–238
doi: 10.1038/hdy.1955.21
|
|
Jinks J L, Jones R M (1958). Estimation of the components of heterosis. Genetics, 43(2): 223–234
|
|
Khulbe R K, Part D P, Rawat R S (1998). Heterosis for yield and its components in Indian mustard. J Oilseeds Res, 15: 227–230
|
|
Mahmood T, Ali M, Anwar M, Iqbal S (2003). Heterosis for some quantitative characters in Brassica juncea (L.). Asian J Plant Sci, 2(1): 71–73
doi: 10.3923/ajps.2003.71.73
|
|
Mahto J L, Haider Z A (2004). Heterosis in Indian mustard (Brassica juncea L. Czern & Coss). Journal of Tropical Agriculture, 42(1–2): 39–41
|
|
McGee K P, Brown J (1995). Investigation of F1 hybrids performance in fall- and ?spring-planted?canola. ?In: ?Proc. ?9th ?Int ?Rapeseed ?Confr, U K: Cambridge, 116–118
|
|
Melchinger A E, Gumber R K (1998). Overview of heterosis and heterotic groups in agronomiccrops. In: Lamkey K R and Staub J E (ed.), Concepts and Breeding of Heterosis in CropPlants. Madison: CSSA, 29–44
|
|
Meng J, Shi S, Gan L, Li Z, Qu X (1998). The production of yellow seeded Brassica napus (AACC) through crossing interspecific hybrids of B. campestris (AA) and B. carinata (BBCC) with B. napus. Euphytica, 103(3): 329–333
doi: 10.1023/A:1018646223643
|
|
Miller J F (1999). Oilseeds and heterosis. In: Coors J G and Pandey S (ed.) The Genetics and Exploitation of Heterosis in Crops. Madison: ASA, CSSA, and SSSA,. 399–404
|
|
Nassimi A W, Raziuddin, Ali S, Hassan G, Ali N(2006). Combining ability analysis for maturityand other traits in rapeseed (Brassica napus L.). J Agron, 5(3): 523–526
doi: 10.3923/ja.2006.523.526
|
|
Pandey L D, Singh B, Sachan J N (1999). Brassica hybrid researchin India: Status and prospect. Paper 263. In: Proc 10th Int Rapeseed Confr [CD-ROM], Canberra, Australia
|
|
Pradhan A K, Sodhi Y S, Mukeropandhyay A, Pental D (1993). Heterosis breeding in Indian mustard (Brassica juncea L. Czern &Coss): Analysis of component characters contributing to heterosisfor yield. Euphytica, 69(3): 219–229
doi: 10.1007/BF00022368
|
|
Rakow G (1995). Developments in the breeding of edibleoil in other Brassica species. In: Proc. 9th Int. Rapeseed Confr. U.K: Cambridge, 401–406
|
|
Ram K, Ram K, Chauhan Y S, Katiyar R P (1976). Partial diallel analysis in F2 generation in Indian mustard. Indian J Agric Sci, 46(5): 229–232
|
|
Rawat D S (1975). Genetical studies on yield, oil contentand characters related to yield in Brassica juncea. Ph D Thesis, New Delhi: IARI
|
|
Satwinder K, Paramjit, Gupta V P, Kaur S, Singh P (2000). Combining ability analysis for oil yield and its components in Brassica napus L. Cruciferae Newslett, 22: 67–68
|
|
Shull J H (1952). Beginnings of the heterosis concept. In: J W Gowen (ed.), Heterosis, Ames: Iowa State CollegePress, 14–48
|
|
Singh D (2003). Genetic improvement in Ethiopianmustard (Brassica carinata A. Braun) vis a vis Indian mustard (Brassica juncea L. Czern and Coss). In: Proc. 11th Int. Rapeseed Confr. Copenhagen: Denmark, 513
|
|
Singh D, Kumar P, Gulati S C, Dixit R K, Pathak A R, Rambhajan R (1996). Extent of heterosis for seed yield over the locations in Indian mustard (Brassica juncea L. Czern & Coss). CCSHAU, Hisar, (Symposium), 58
|
|
Singh H, Lather V S, Singh D (1985). Extent of heterosis in relation to genotypic diversity in Indian ×Exotic cross of Indian mustard (Brassica juncea L.). Genet Iber, 37: 97–105
|
|
Singh M, Lallu, Swarnkar G B, Lalta P, Dixit R K (2003). Heterobeltiosis and inbreeding depression in Indian mustard. (Brassica juncea L. Czern & Coss). Crop Res, 26(2): 318–325
|
|
Singh S K, Haider Z A, Ram S (2005). Combining ability and heterosis for seed yield and its components in Indianmustard (Brassica juncea). Indian J Agric Sci, 75(4): 28–229
|
|
Teklewold A, Becker H C (2005). Heterosis and combining ability in a diallel cross ofEthiopian mustard inbred lines. Crop Sci, 45(6): 2629–2635
doi: 10.2135/cropsci2005.0085
|
|
Thakur H L, Sagwal J C (1997). Heterosis and combining ability in rapeseed (Brassica napus L.). Indian J Genet, 57: 163–167
|
|
Turner J H (1953). A study of heterosis in upland cotton.II. Combining ability and inbreeding effects. Agron J, 43: 487–490
|
|
Varshnay S K (1985). Heterosis in crosses between parentsselected for harvest index and plant height in Indian rapeseed. Indian J Agric Sci, 5: 398–402
|
|
Verma O P, Khushwala G D, Singh H P (2000). Heterosis in relation to genetic diversity in Indian mustard. Cruciferae Newsletter, 22: 93–94
|
|
Wang Y, Luo P, Wang, Luo P (1997). Intergenic hybridization between Brassica species and Crambe abyssinica. Rosliny Oleiste, 18: 171–178
|
|
Weirong W, Liu H, Fany G, Zhao H (1999). Analysis of heterosis and combining abilities of fiverapeseed cultivars in Brassica napus L.. Shanghai: ACTA Agric, 15: 45–50
|
|
Wos H Bartkowiak-Broda, Budzianowski G, Krzymanski J (1999). Breeding of winter and spring oilseed rape hybridsat Malyszyn. In: Proc 10th Int Rapeseed Confr (CD-ROM), Canberra, 544
|
|
Yadava T P, Singh H, Gupta V P, Rana R K (1974). Heterosis and combining ability in raya for yield andits components. Indian J Genet, 34(A): 684–695
|
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