[Alan B.L., Svenson K.L., Churchill G.A., Valdar W. (2012): A General Bayesian Approach to Analyzing Diallel Crosses of Inbred Strains. Genetics 190: 413-435.10.1534/genetics.111.132563]Search in Google Scholar
[Cockerham C.C. (1963): Estimation of genetic variances, pp. 53-94. In W.D. Hanson and H.F. Robinson (ed.), Statistical Genetics and Plant Breeding. National Research Council Publication 982, National Academy of Science, Washington, D.C.]Search in Google Scholar
[Cockerham C., Weir B. (1977): Quadratic analyses of reciprocal crosses. Biometrics 33(1): 187-203.10.2307/2529312]Search in Google Scholar
[Downey, R.K., Rimer S.R. (1993): Agronomic improvement in oilseed Brassicas. Advances in Agronomy 50: 1-150.10.1016/S0065-2113(08)60831-7]Search in Google Scholar
[Ferreira F.M., Junior J.I.R., Patto Pacheco C.A., Osorio Silva S.H., Cruz C.D. (2004): Efficiency of circulant diallels as compared to complete diallels for the estimation of combining ability. Crop Breeding and Applied Biotechnology 4: 145-151.]Search in Google Scholar
[Gardner C., Eberhart S. (1966): Analysis and interpretation of the variety cross diallel and related populations. Biometrics 22(3): 439-452.10.2307/2528181]Search in Google Scholar
[Greenberg A.J., Hackett S.R., Harshman L.G., Clark A.G. (2010): A hierarchical Bayesian model for a novel sparse partial diallel crossing design. Genetics 185(1): 361-373.10.1534/genetics.110.115055287097020157001]Search in Google Scholar
[Griffing B. (1956): Concept of general and specific combining ability in relation to diallel crossing systems. Australian Journal of Biology Science 9: 463-493.10.1071/BI9560463]Search in Google Scholar
[Hayman B.I. (1957): Interaction, heterosis and diallel crosses. Genetics 42: 336-355.10.1093/genetics/42.3.336120983617247702]Search in Google Scholar
[Jinks J.L. (1954): Analysis of continuous variation in diallel crosses of Nicotiana rustica. Genetics 39: 767-88.10.1093/genetics/39.6.767120968817247519]Search in Google Scholar
[Kearsey M.J., Pooni H.S. (1996): The Genetical Analysis of Quantitative Traits. Chapman and Hall, London.10.1007/978-1-4899-4441-2]Search in Google Scholar
[Kempthorne O., Curnow R.N. (1961): The partial diallel crosses. Biometrics 17: 229-250.10.2307/2527989]Search in Google Scholar
[Khan F.A., Khan R.S.A. (2005): Inheritance pattern of quantitative characters in Brassica napus. International Journal of Agriculture and Biology 7(3): 420-423.]Search in Google Scholar
[Khan M.N., Shah S.A., Wani S.A., Zaffar G. (2006): Combining ability and gene action in gobhi sarson (Brassica napus L.). Advances in Plant Science 19(1): 285-293.]Search in Google Scholar
[Lynch M., Walsh B. (1998): Genetics and Analysis of Quantitative Traits. Sinauer Associates, Sunderland, MA.]Search in Google Scholar
[Mahmud F., Rasul M.G., Mian M.A.K., Rahim M.A. (2009): Combining ability and gene action for seed yield and yield components in Brassica napus L. International Journal of Agriculture Environment and Biotechnology 2(3): 235-242.]Search in Google Scholar
[Mather K., Jinks J.L. (1982): Biometrical Genetics, 3rd Ed. Chapman and Hall, London.10.1007/978-1-4899-3406-2]Search in Google Scholar
[McGee, K.P., Brown J. (1995): Investigation of F1 hybrids performance in fall- and spring-planted canola. P. 116-118. In Proc. 9th Int. Rapeseed Confr., 4-10 July 1995. Cambridge, U.K.]Search in Google Scholar
[Murty B.R., Anand I.J. (1966): Combining ability and diversity in some varieties of Linus uritatissemum. Indian Journal of Genetics Plant Breeding 26: 21-36.]Search in Google Scholar
[Nassimi A.W., Ali R.S., Hassan G., Ali N. (2006): Combining ability analysis for maturity and other traits in rapeseed (Brassica napus). Journal of Agronomy 5(3): 523-526.10.3923/ja.2006.523.526]Search in Google Scholar
[Pederson D.G. (1972): A comparison of four experimental designs for the estimation of heritability. Theoretical and Applied Genetics 42: 371-377.10.1007/BF0027536424429492]Search in Google Scholar
[Rameeh V. (2011): Combining ability analysis of rapeseed genotypes under restricted nitrogen application. J. of Oilseed Brassica, 2(1): 7-12.]Search in Google Scholar
[Singh, D., Malik V., Singh H. (1995): Gene action of seed yield and other desirable characters in oilseed rape (Brassica napus). Annals of Biology Ludhiana 11(1-2): 94-97.]Search in Google Scholar
[Singh M., Singh L., Srivastava S.B.L. (2010): Combining ability analysis in Indian mustard (Brassica juncea). Journal of Oilseed Brassica, 1(1): 23-27.]Search in Google Scholar
[Singh, R.K., Chaudhry B.D. (2004): Biometrical Methods in Quantitative Genetic Analysis. Kalyani Publishers, New Delhi, India.]Search in Google Scholar
[Teklewold A., Becker H.C. (2005): Heterosis and combining ability in a diallel cross of Ethiopian Mustard inbred lines. Crop Sci. 45: 2629-2635.10.2135/cropsci2005.0085]Search in Google Scholar
[Thakur H.L., Sagwal J.C. (1997): Heterosis and combining ability in oilseed rape (Brassica napus). Indian Journal of Genetics and Plant Breeding 57: 163-167.]Search in Google Scholar
[Wos H., Bartkowiak-Broda I., Budzianowski G., Krzymanski J. (1999): Breeding of winter and spring oilseed rape hybrids at Malyszyn. Paper 544. In Proc. 10th Int. Rapeseed Confr. [CD-ROM]. 26-29 Sep. 1999, Canberra, Australia.]Search in Google Scholar
[Yadav Y.P., Prakash R., Singh R., Singh R.K., Yadav J.S. (2005): Genetics of yield and its component characters in Indian mustard (Brassica juncea (L.) Czern and Coss.) under rainfed conditions. Journal of Oilseed Research 22: 255-258.]Search in Google Scholar
[Zhang Z., Kang S.K. (1997): A SAS Program for Griffing’s Diallel Analyses. Agronomy Journal 89: 176-182.10.2134/agronj1997.00021962008900020005x]Search in Google Scholar
[Zhu J., Weir B. (1996): Mixed model approaches for diallel analysis based on a biomodel. Genetics Research 68(3): 233-240.10.1017/S0016672300034200]Search in Google Scholar