Abstract
Combining ability for grain yield, yield components, and several agronomic and qualitative traits, was studied in a seven-parent diallel cross. The 21 F1 hybrids and the seven parental cultivars were grown in replicated plot trials sown at normal seed density in three locations in the years 1992 and 1993. The effects of general combining ability (gca) were highly significant for all the traits measured with the exception of seeds per spikelet, while the specific combining ability (sca) effects were statistically significant for grain yield, plant height, heading time, for all the yield components, and for the Chopin alveographic parameters P and P/L ratio. For the majority of the traits measured gca was greater than sca. Standard heterosis (sh) for grain yield, i.e., the superiority of the hybrids over the best pure line cultivar(cv Eridano), was only 3.3%, confirming previous finding which indicate sh effects in the range of 10%. The most interesting hybrid derived from the cross Maestra x Golia revealed a yield level approaching that of the highest yielding cv Eridano but appeared more interesting because of its reduced plant height and superior bread-making quality, signifying a selling price 30% higher. It was concluded, therefore, that the first generation of hybrids, likely to appear on the market in the next few years, will be characterized by a yield potential only slightly superior to that of the best standard cvs but associated with other desirable traits, such as bread-making quality.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Boland OW, Walcott JJ (1985) Levels of heterosis for yield and quality in an F1 hybrid wheat. Aust J Agric Res 36:545–552
Borghi B, Perenzin M (1990) Yield and yield stability of conventional varieties and F1 bread wheat hybrids. J Genet Breed 44:307–310
Borghi B, Perenzin M, Nash RJ (1988) Agronomic and qualitative characteristics of ten bread hybrids produced using a chemical hybridizing agent. Euphytica 39:185–194
Borghi B, Perenzin M, Nash RJ (1989) Combining ability estimates in bread wheat and performance on 100 F1 hybrids produced using a chemical hybridizing agent. J Genet Breed 43:11–16
Brears T, Bingham J (1989) Exploitation of heterosis in hybrid wheat using gametocides. V für Pflanzenzücht 16:397–409
Carver MF, Nash RJ (1984) The future for hybrid cereals. Spain 2:64–65
Comstock RE, Robinson HP (1950) Estimation of average dominance of genes. In: Gowen JW (ed) Heterosis. Iowa State Univ Press, Ames Iowa, pp 494–516
Driscoll CJ (1981) New approaches to wheat breeding. In: Evans LT, Peacock WJ (eds) Wheat science today and tomorrow. University Press, Cambridge, pp 97–106
Edwards IB (1987) Baking quality of hard red winter and hard red spring wheat hybrids. In: Borghi B (ed) Hard wheat (T. aestivum): agronomic, technological, biochemical and genetic aspects. CEC Publ EUR 11172 EN, Brussels, Belgium, pp 215–224
Griffing B (1956) A generalised treatment of the use of diallel crosses in quantitative inheritance. Heredity 10:31–50
Johnson VA, Schmidt JW (1968) Hybrid wheat. Adv Agron 44:179–190
Lucken KA (1986) The breeding and production of hybrid wheat. In: Genetic improvement in yield of wheat. CSSA Spec Pub No. 13. Crop Science Society of America and American Society of Agronomy. Madison, Wisconsin, pp 87–197
Morgan CL, Austin RB, Ford MA, Bingham J, Angus WJ, Chowdhury S (1989) An evaluation of F1 hybrid winter-wheat genotypes produced using a chemical hybridising agent. J Agric Sci Cam 112:143–149
Perenzin M, Pogna NE, Borghi B (1992) Combining ability for bread-making quality in wheat. Can J Plant Sci 72:743–754
Pickett AA (1993) Hybrid wheat — results and problems. Paul Parey Scientific Publishers, Berlin Hamburg, pp 259
Pogna NE, Mellini F, Beretta A, Dal Belin Peruffo A (1989) The high-molecular-weight glutenin subunits of common wheat cultivars grown in Italy. J Genet Breed 43:17–24
Romani M, Borghi B, Alberici R, Delogu G, Hesselbach J, Salamini F (1993) Intergenotypic competition and border effect in bread wheat and barley. Euphytica 69:19–31
Stroike JE (1987) Technical and economic aspects of hybrid wheat seed production. In: Hybrid seed production of selected cereal, oil and vegetable crops, FAO Plant Protection and Production paper 82, Food and Agriculture Organisation of the United Nations, Rome, pp 177–185
Virmani SS, Edwards IB (1983) Current status and future prospects for breeding hybrid rice and wheat. Adv Agron 36:145–214
Walton PD (1971) Heterosis in spring wheat. Crop Sci 11:422–424
Wienhues F (1968) Long-term yield analyses of heterosis in wheat and barley: variability of heterosis, fixation of heterosis. Euphytica 17:49–62
Zeller FJ, Gunzel G, Fischbeck G, Gerstenkorn P, Weipert D (1982) Veränderungen der Backeigenschaften des Weizens durch die Weizen-Roggen-Chromosomentranslokation 1B/1R. Getreide Mehl Brot 36:141–143
Author information
Authors and Affiliations
Additional information
Communicated by J. MacKey
Rights and permissions
About this article
Cite this article
Borghi, B., Perenzin, M. Diallel analysis to predict heterosis and combining ability for grain yield, yield components and bread-making quality in bread wheat (T. aestivum). Theoret. Appl. Genetics 89, 975–981 (1994). https://doi.org/10.1007/BF00224527
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00224527