Welcome to International Network for Natural Sciences

Paper Details

Research Paper | March 5, 2022

| Download

Evaluation of bread wheat genotypes for variability and association among yield and yield related traits

Rehmat Kabir, Israr Ahmed, Attiq Ur Rehman, Maqsood Qamar, Anisa Intikhab, Adnan Rasheed, Muhammad Zakriya, Muhammad Atif Muneer, Zaib-Un-Nisa

Key Words:

Int. J. Biosci.11(1), 7-14, July 2017

DOI: http://dx.doi.org/10.12692/ijb/20.2.1-20

Certification: IJB 2017 [Generate Certificate]


Ten wheat (Triticum aestivumL.) genotypes were evaluated for genetic variability for yield and association between different plant characters at Mountain Agricultural Research Station (MARC) Chilas during 2014-15.Analysis of variance revealed highly significant variation among different wheat genotypes for all traits studied. Genotypic coefficient of variation (GCV) and phenotypic coefficient of variation (PCV) ranged from days to 50 % maturity (GCV=1.83, PCV=2.33) to grain weight yield per plot (GCV=18.48, PCV=18.59).PCV value for higher than GCV for all traits and narrow difference were found between GCV and PCV for most of traits. High heritability coupled with high genetic advance was estimated for traits like yield per hectare, total grain yield per plot, straw weight per plot and harvest index indicated these traits are under additive gene control and simple selection is effective for improvement of these traits. Yield per hectare showed positive and highly significant correlation with grain yield per plot (r = 0.989**), 100 seeds weight (r = 0.489**) and harvest index (r = 0.648**).


Copyright © 2021
By Authors and International Network for
Natural Sciences (INNSPUB)
This article is published under the terms of the Creative
Commons Attribution Liscense 4.0

Evaluation of bread wheat genotypes for variability and association among yield and yield related traits

Agriculture Statistics of Pakistan, Ministry of food. 2015-16. Agriculture and Livestock Islamabad, Pakistan.

Akhtar N, Chowdhary MA. 2006. Estimation of genetic and phenotypic correlation coefficients among grain yield and its components in bread wheat. Int. J. Agric. Biol. 8(4), 516-522.

Ali MA, Zulkiffal M, Anwar J, Hussain M, Farooq J, Khan SH. 2015. Morpho-physiological diversity in advanced lines of bread wheat under drought conditions at post-anthesis stage. J.  Animal and Plant Sci. 25(2), 431-441.

Ali S, Shah  ASA, Hassnain A, Shah Z, Munir  I. 2007. Genotypic variation for yield and morphological traits in wheat. Sarhad Journal of Agriculture 23(4), 1565-1570.

Ashfaq S, Ahmad HM, Awan SI, Kang SA, Sarfraz M, Ali MA. 2014. Estimation of Genetic Variability, Heritability and Correlation for Some Morphological Traits in Spring Wheat Journal of Biology, Agriculture and Healthcare. 5(4), 10-16.

Chimdesa O. 2014. Genetic variability among bread wheat (Triticum aestivum L.) genotypes for growth characters, yield and yield components in bore district, Oromia regional state. A Thesis Submitted to the Department of Plant Sciences School of Graduate Studies, Haramaya University.

Degewione A, Dejeneand T, Sharif M. 2013. Genetic  variability and traits association in bread wheat (Triticum aestivum l.) genotypes. Int. Re. J. Agric.l Sci. 1(2), 19-29.

Degewione A, Dejene T, Sharif M. 2013. Genetic variability and traits association in bread wheat (Triticum aestivumL.) genotypes. International Research Journal of Agricultural Sciences. 2(1), 19-29.

Dehghani D, Omidi H, Sabaghnia N. 2008. Graphic analysis of trait relations of canola (Brassica napus L.) using  biplot  method. Agron J. 100, 760-764.

Deyong Z. 2011. Analysis among main agronomic traits of spring wheat (Triticum aestivum) in  Qinghai Tibetplateau. Bulgarian J. Agric. Sci. 17(1), 615-622.

Farooq O, Cheema ZA. 2014.  Influence of sowing dates and planting methods on weed dynamics in wheat crop. Pak. J. Agri. Sci. 51(4), 817-825, 2014.

Gashaw A, Mohammed H, Singh H.  2010. Genotypic Variability, Heritability, Genetic Advance and Associations among Characters in Ethiopian Durum Wheat (Triticum durum Desf.) Accessions. East African J. Sci. 4(1), 27-33.

Gautam D, Garg D. 2002. Evaluation of genetic divergence in wheat (Triticum aestivum L.) germplasm.  The Indian Journal of Genetics and Plant Breeding. 56, 1.

Golabady M, Arzani A. 2003. Genetic Variation and Factor analysis for agronomic characteristics in the durum wheat.  Journal of Science and Technology of Agriculture and Natural Resources 10(1), 115-126.

Hailegiorgis D, Mesfin M, Genet T. 2011. Genetic divergence analysis on some bread wheat genotypes grown in Ethiopia. J. Central Eur. Agric. 12, 344-352.

Haq MMG, Hassan, Fakharuddin, Khalil Z, Iqbal N, Ullah U, Ataullah. 2016.  Estimation of heritability and genetic advance in F3 populations of wheat. Pure and Applied Biology 5(4), 773-781.

Haq WU, Malik MF, Rashid M, Munir M, Akram Z. 2008. evaluation and estimation of heritability and genetic advancement for yield related attributes in wheat lines. Pak. J. Bot. 40(4), 1699-1702.

Hussain T, Tariq MA, Akram Z, Iqbal J, Rehman AU, Rabbani G. 2014. Estimation of Some Genetic Parameters and Inter-Relationship of Grain Yield and Yield Related Attributes in Certain Exotic Lines of Wheat (Triticum aestivumL.). Journal of Biology, Agriculture and Healthcare 4(2), 48-53.

Kaddem WK, Marker S, Lavanya GR. 2014. Investigation of genetic variability and correlation analysis of wheat (Triticum aestivum L.) genotypes for grain yield and its Component traits european academic research. 2(5), 6529-6538.

Kalimullah, Khan SJ, Irfaq M, Rehman HU. 2012. Ge 2015ntetic variability, correlation and diversity studies in bread wheat (Triticum aestivum L.) germplasm. The Journal of Animal & Plant Sciences. 22(2), 330-333.

Kumar N, Markar S, Kumar V. 2014. Studies on heritability and genetic advance estimates in timely sown bread wheat (Triticum aestivum L.). Bioscience Discovery. 5(1), 64-69.

Majumder DAN, Shamsuddin AKM, Kabirand MA, Hassan L. 2008.Genetic variability correlated response and path analysis of yield and yield contributing traits of spring wheat. J. Bangladesh Agri. Univ. 6(2), 224-227.

Navin K, Markar S, Vijay Kumar. 2014. Studies on heritability and genetic advance estimates in timely sown bread wheat (Triticum aestivum L.). Bioscience Discovery. 5(1), 64-69.

Nawaz R, Ullah I, Ahmad H, Din SU, Iqbal MS. 2013. Agromorphological studies of local wheat varieties for variability and their association with yield related traits. Pak. J. Bot. 45(5), 1701-1706.

Peymaninia Y, Valizadeh M, Shahryari R, Ahmadizadeh M. 2012. Evaluation of morpho-physiological responses of wheat genotypes against drought stress in presence of a leonardite derived humic fertilizer under greenhouse condition. J. Anim. Plant 22(4), 1142-1149.

Rahman MA, Kabir ML, Hasanuzzaman M, Rahman MA, Rumi RH, Afrose MT. 2016. Study of variability in bread wheat (Triticum aestivum L.). Int. Journal Agro. Agric. Res. 8(5), 66-76.

Singh RK, Chaudhery BD. 1997. Biometrical Methods in Quantitative Genetic Analysis. Kalyani Pub. N. Delhi, India.

Shafi M, Khan MJ, Bakht J, Aman khan M. 2013. Response of wheat genotypes to salinity under field environment. Pak. J. Bot. 45(3), 787-794.

Steel RGD, Torrie JH. 1980. Principles and procedures of statistics. McGraw Hill Book  Co. New York. 107-109.

Tabbal JA, Fraihat AHA. 2012. Heritability Studies of Yield and Yield Associated Traits in Wheat Genotypes. J. Agri. Sci. 4(4), 11-22.

Thanna HA, Kareem AE, Saidy AE. 2011. Evaluation of yield and Grain quality of some bread Wheat genotypes under normal irrigation and drought stress condition in calcareous soil. J. Bio. Sci. 11(2), 156-164.


Style Switcher

Select Layout
Chose Color
Chose Pattren
Chose Background