Genetic Analysis of Morphological Traits in Oriental Tobacco (Nicotina tabacum L.) by Using Generation Mean Analysis

Darvishzadeh, Reza; Mousavi Andazghi, Mir Javad; Fayyaz Moghaddam, Amir; Abbassi Holasou, Hossein; Alavi, Seyyed Reza

doi:10.29252/pgr.3.2.11

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Volume 3, Issue 2 (2017)

pgr 2017, 3(2): 11-24

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Genetic Analysis of Morphological Traits in Oriental Tobacco (Nicotina tabacum L.) by Using Generation Mean Analysis

Reza Darvishzadeh ^*

, Mir Javad Mousavi Andazghi

, Amir Fayyaz Moghaddam

, Hossein Abbassi Holasou

, Seyyed Reza Alavi

Department of Plant Breeding and Biotechnology, Faculty of Agriculture, Urmia University, Urmia, Iran

Abstract: (21690 Views)

In order to evaluate heritability and gene action for some of the important quantitative traits in oriental tobacco, two genotypes, Basma 16-10 and SPT406 were crossed with Basma S. 31 cultivar, separately in 2009-2010. Parents with F1, F2, BC1 and BC2 generations were planted in a randomized complete block design with three replications. Traits such as plant height, leaf length, leaf width, leaf number, internnode number, stem diameter and yield per plant were recorded. The results obtained from analysis of variance indicated that generations mean squares were statistically significant for all traits expect for stem diameter. Therefore, generation mean analysis was performed for significant triats to estimate gene actions using Chi-square and scaling tests. The Chi-square of simple three-parametric model (additive-dominance model) was significant for studied crosses, indicating the presence of non allelic-interactions in the inheritance of these traits in oriental tobacco. Both additive and dominance genetic effects were significant for plant height, leaf length, leaf width, leaf number and internnode number. In addition, presence of high amount of dominance effect and dominance × dominance interactions suggests the importance of non-additive genetic effects for these traits in oriental tobacco. Therefore, selection for these traits in early generations can not be successful. However, additive genetic effects play an important role in the inheritance of yield, and then selection for this trait is hopeful in early generations during tobacco breeding process.

Keywords: Generation mean analysis, Genetic diversity, Morphological traits, Oriental tobacco

Full-Text [PDF 1033 kb] (2346 Downloads)

Type of Study: Research | Subject: Plant improvement

References

1. Allard, R.W. (1960). Principles of Plant Breeding. 2ndedition. John Wily and Sons, Inc. NewYork, USA.

2. Akhtar, N. and Chowdhry, M.A. (2006). Genetic analysis of yield and some other quantitative traitsin bread wheat. International Journal of Agriculture and Biology, 4: 523-527.

3. Banumathy, S. and Thiyagarajan, K. (2005). Genetic analysis of yield traits in rice. Crop Research, 30(2): 20-202.

4. Chaplin, J.F. (1975). Genetic influence on chemical constituents of tobacco leaf and smoke. zur Tabakforschung International, 8: 233-240.

5. Coates, S.T. and White. D.G. (1998). Inheritance of Resistance to Gray Leaf spot in Crosses Involving Selected Resistant Inberd Lines of Corn. Physiopathology, 88: 972-982.

6. Dashti, H., Naghavi, M.R. and Tajabadipour, A. (2010). Genetic analysis of salinity tolerance in bread wheat crosses. Journal of Agricultural Science and Technology, 12: 347-356.

7. El-Morsy, Sh.I., Dorra, M.D.M., Abd El-Hady, E.A.A., Hiba A.A.A. and Mohamed, A.Y. (2009). Comparative studies on diploid and tetraploid levels of Nicotiana alata. Academic Journal of Plant Sciences, 2(3): 182-188.

8. Farshadfar, E. (2000). Application of Quantitative Genetics in Plant Breeding. Vol. 1. Tagh-EBostan Press, Kermanshah, Iran (In Persian).

9. Gamil, K.H. and Saheal, Y.A. (1986). Estimation of genetic effects for agronomic traits in wheat. Wheat Information Service, 62: 36-41.

10. Ghannadha, M.R. (2000). Gene functiona for resistance to yellow rust in wheat. Iranian Journal ofCrop Sciences, 3: 397-407 (In Persian).

11. Honarnezhad, R. and Shoaei Deylami, M. (2003). Gen effects and combining ability of quantitative and qualitative characteristics of Burley tobacco (Nicotiana tabacum L.). Journal of Agricultural Science, 12(4): 23-35.

12. IRRI. (1996). International network for Genetic evaluation of rice. Report of the INGER monitoring visiton Finegrain Aromatic Rice in India, Iran, Pakistan and Tailand, 80-81 pp.

13. Kearsey, M. and Pooni, H.S. (1998). The Genetical Analysis of Quantitative Traits. Chapman and Hall, London, UK.

14. Legg, P.D. and Collins, G.B. (1971). Genetic Parameters in Burly populations of Nicotina tabacumL. I. ‘Ky 10’ × ‘Burley 21’. Crop Science, 11(3): 365-367.

15. Li, Z., Pinson, S.R.M., Park, W.D., Paterson, A.H. and Stansel, J.W. (1997). Epistasis for Three Grain Yield Components in Rice (Oryza sativa L.). Genetics, 145: 453-465.

16. Mahmud, I. and Kramer, H.H. (1951). Segregation for yield, height and maturity following a soybean cross. Agronomy Journal, 43(12): 605-609.

17. Mather, K. and Jinks, T.L. (1982). Biometrical Genetics. 3nded chapman & Hall. London, UK.

18. Mihaljevic, R., Utz, H.F. and Melchinger, A.H. (2005). No evidence of epistasis in hybrid and per se performance of elite European flint maize inbreds from generation means analysis and QTL analysis. Crop Science, 45: 2613-5605.

19. Munir, M., Chowdhry, M.A. and Ahsan, M. (2002). Generation Means Studies in Bread Wheat under Drought Condition. International Journal of Agricultural and Biology, 9(2): 282-286.

20. Nagarajan, K. and Prasadrao, J.A.V. (2004). Text book of Field Crops Production. Published by Directorate of Information and Publication of Agriculture Indian Council of Agricultural Research Krishi Anusandh Bhavan, Pusa, New Delhi, IN.

21. Pirkhezri, M., Hassani, M.E. and Fakhre Tabatabai, M. (2008). Evaluation of genetic diversity of some German chamomile populations (Matricaria chamomilla L.) using some morphological and agronomical characteristics. Journal of Horticulture Science (Agricultural Sciences and Technology), 22(2): 87-99 (In Persian).

22. Rao, G.S.B. (1989). Heterosis and combbining ability studies in inter-varietal crosses of chewing tobacco (Nicotina tabacum L.). Madras Agricultural Juournal, 76(11): 617-620.

23. Roff, D.A. and Emerson, K. (2006). Epistasis and dominance: Evidence for differential effects in lifehistory versus morphological traits. Evolution, 60: 1981-1990.

24. Singh, R.P. and Singh, S. (1992). Estimation of genetic parameters through generation mean analysis in bread wheat. Indian Journal of Genetics, 52: 369-375.

25. Shapiro, S.S. and Wilk, M.B. (1965). An analysis of variance test for normality. Biometrika, 52: 591-599.

26. Stansfield, W.D. (1991). Theory and Problems in Genetics. McGraw-Hill, New York, USA.

27. Warnner, J.N. (1952). A method for estimating heritability. Agronomy Journal 44: 427-430.

28. Yu, J. and Bernardo, R. (2004). Changes in genetic variances during advanced cycle breeding in maize. Crop Science, 44: 405-410.

‎ 10.29252/pgr.3.2.11

‎ 20.1001.1.23831367.1395.3.2.2.3

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Darvishzadeh R, Mousavi Andazghi M J, Fayyaz Moghaddam A, Abbassi Holasou H, Alavi S R. Genetic Analysis of Morphological Traits in Oriental Tobacco (Nicotina tabacum L.) by Using Generation Mean Analysis. pgr 2017; 3 (2) :11-24
URL: http://pgr.lu.ac.ir/article-1-96-en.html

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