Study on genetic components of grain yield and its contributing characters in bread wheat (Triticum aestivum L.) 

U. Tiwari, S. Singh, R. Singh, N. -, P. Saini, Alok Kumar Mourya, Ekta Saini
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Abstract

This study was conducted at Crop Research Farm, Nawabganj, C. S. Azad University of Agriculture and Technology, Kanpur (U. P.) during rabi 2021-22 for estimating the components of variance and other genetic parameters through 8 x 8 parent diallel cross excluding reciprocals for 11 characters in bread wheat. The variance component analysis indicated significant role of additive (D̂) and dominant (Ĥ1 and Ĥ2) genetic components for all the traits viz., days to 75% heading, days to maturity, plant height (cm), number of productive tillers per plant, spike length (cm), number of grains per spike, biological yield per plant (g), harvest index (%) and grain yield per plant (g) except additive component for 1000-grain weight (2.60) and dominant component for number of spikelets per spike (2.91 and 2.53). The estimates of dominant components (Ĥ1 and Ĥ2) were mostly greater than additive component (D̂) for all the characters indicating the greater role of non-additive gene action in the expression of attributes. The relative magnitudes of Ĥ1 component were higher than Ĥ2 component for all the characters except spike length (0.39) indicating unequal distribution of positive and negative alleles in the parent. Over dominance expression for all the attributes was due to the involvement of asymmetrical distribution of dominant genes with positive and negative effects in the parents for all the characters except spike length. Based on study, it was revealed that both additive and non-additive genes were responsible for expression of almost major of the traits.
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面包小麦籽粒产量遗传成分及其贡献性状研究
本研究于2021- 2022年拉比期间在坎普尔(upp)阿扎德农业技术大学作物研究农场进行,通过8 × 8亲本双列杂交(不包括往复杂交)估计面包小麦11个性状的方差组成和其他遗传参数。方差成分分析表明,加性遗传分量(D²)和显性遗传分量(Ĥ1和Ĥ2)对抽穗至75%天数、成熟期天数、株高(cm)、单株有效分蘖数、穗长(cm)、穗粒数、单株生物产量(g)等性状均有显著影响。收获指数(%)和单株籽粒产量(g)除千粒重的附加分量(2.60)和穗粒数的优势分量(2.91和2.53)外。所有性状的显性成分(Ĥ1和Ĥ2)的估计值大多大于加性成分(D²),表明非加性基因作用在性状表达中的作用更大。除穗长(0.39)外,其余性状中Ĥ1分量的相对大小均大于Ĥ2分量,说明正、负等位基因在亲本中分布不均匀。所有性状的超显性表达均与显性基因的不对称分布有关,除穗长外,其余性状在亲本中均存在正显性和负显性效应。研究表明,加性基因和非加性基因都参与了大部分性状的表达。
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