Summary
Biomass (above ground plant parts) yield may be a useful selection trait for yield improvement in wheat (Triticum aestivum L.). This study was conducted to estimate realized heritability of biomass yield and to determine the response to selection for high and low biomass yield in 8 genetically diverse populations of spring wheat under two production systems. Selections were made among the F3 lines. Progenies of the selected lines were evaluated in replicated field tests in the F4 generation under high fertility and low fertility production systems at Rampur, Nepal, in 1991. Fertility level had a significant effect on biomass yield, grain yield, effective tiller number, number of kernels per spike, thousand kernel weight, and harvest index. Selection in the F3 for high and low biomass yield was effective in identifying F4 lines with high and low biomass yield, respectively. Biomass yield differences between high and low selection groups in the F4 generation, expressed as percent of the mean of the low selection group and averaged over the eight populations, were 53.9 and 36.5% higher than the mean of the low selection group under the high and the low fertility production systems, respectively. The corresponding figures for grain yield were 48.8 and 34.9% under the high and the low production systems, respectively. Also, selection for high biomass yield resulted in higher effective tiller number, and number of kernels per spike, but lower harvest index. Realized heritability estimates for biomass yield were greater at high fertility (range 0.49 to 0.85) than at low fertility (range 0.22 to 0.44). Biomass yield showed positive genotypic correlations with grain yield, effective tiller number, and number of kernels per spike but a negative correlation with harvest index. The results indicated that selection for high biomass yield should bring about positive improvements in biomass yield, grain yield, effective tiller number, and number of kernels per spike. The correlation between F3 and F4 generations suggested that biomass yield in the F3 generation was a good predictor of biomass yield and grain yield in the F4 generation. Selection for biomass yield in wheat should be made under the standard production system to obtain a realistic response.
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References
Abdelkader, B., M.S. Menki & D.C. Rasmusson, 1984. Breeding for high tiller and yield in barley. Crop Sci. 24: 968–972.
Alexander, W.L., E.L. Smith & C. Dhanasobhan, 1984. A comparison of yield and yield component selection in winter wheat. Euphytica 33: 953–961.
Bhatt, G.M., 1977. Respoonse to two-way selection for harvest index in two wheat (Triticum aestivum L.) crosses. Aust. J. Agric. Res. 28: 29–36.
Donald, C.M. & J. Hamblin, 1976. The biological yield and harvest index of cereals as agronomic and plant breeding criteria. Adv. Agron. 28: 361–405.
Falconer, D.S., 1981. Introduction to quantitative genetics. 2nd ed., Longman Inc., New York.
Grafius, J.E., 1978. Multiple characters and correlated response. Crop Sci. 18: 931–934.
Grafius, J.E., R.L. Thomas & J. Barnard, 1976. Effect of parental component complementation on yield and components of yield in barley. Crop Sci. 16: 673–677.
Helsel, D.B., 1985. Grain yield improvement through biomass selection in oats (Avena sativa L.). Z. Pflanzenzüchtg. 94: 298–306.
Jain, H.K. & V.P. Kulshrestha, 1976. Dwarfing genes and breeding for yield in bread wheat. Z. Pflanzenzüchtg. 76: 102–112.
Nass, H.G., 1980. Harvest index as a selection criterion for grain yield in two spring wheat crosses grown at two population densities. Can. J. Plant Sci. 60: 1141–1146.
Rosielle, A.A. & K.J. Frey, 1975. Estimation of selection parameters associated with harvest index in oat lines derived from a bulk population. Euphytica 24: 121–131.
Sharma, R.C., 1992. Analysis of phytomass in wheat. Agron. J. 84: 926–929.
Sharma, R.C. & E.L. Smith, 1986. Selection for high and low harvest index in three winter wheat populations. Crop Sci. 26: 1147–1150.
Sharma, R.C., E.L. Smith & R.W. McNew, 1991. Combining ability analysis for harvest index in winter wheat. Euphytica 55: 229–234.
Sidwell, R.J., E.L. Smith & R.W. McNew, 1976. Inheritance and interrelationships of grain yield and selected yield-related traits in a hard red winter wheat cross. Crop Sci. 16: 650–654.
Takeda, K. & K.J. Frey, 1985. Increasing grain yield of oats by independent culling for harvest index and vegetative growth index or unit straw weight. Euphytica 34: 33–41.
Waddington, S.R., J.K. Ransom, M. Osmanzai & D.A. Saunders, 1986. Improvement in the yield potential of bread wheat adapted to northwest Mexico. Crop Sci. 26: 698–703.
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Sharma, R.C. Selection for biomass yield in wheat. Euphytica 70, 35–42 (1993). https://doi.org/10.1007/BF00029638
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DOI: https://doi.org/10.1007/BF00029638