[Home ] [Archive]   [ فارسی ]  
:: About :: Main :: Current Issue :: Archive :: Search :: Submit :: Contact ::
Main Menu
Home::
Journal Information::
Articles archive::
For Authors::
For Reviewers::
Registration::
Contact us::
Site Facilities::
::
Search in website

Advanced Search
..
Receive site information
Enter your Email in the following box to receive the site news and information.
..



 
..
:: Volume 7, Issue 2 (2021) ::
pgr 2021, 7(2): 83-96 Back to browse issues page
Genetic Analysis of Agronomic Traits of Barley (Hordeum vulgare L.) Cultivars under Salinity Stress using Diallel Cross
Jamal Rahimi Darabad , Varahram Rashidi * , Hossein Shahbazi , Mohammad Moghaddam Vahed , Ebrahim Khalilvand
Department of Agronomy and Plant Breeding, Tabriz Branch, Islamic Azad University, Tabriz, Iran , rashidi@iaut.ac.ir
Abstract:   (8521 Views)
In order to determine the heritability and genetic parameters of some agronomic traits in barely (Hordeum vulgare L.) cultivars, a seven-parent half diallel (F1 crosses + parents) was conducted in the non-stress and salt stress (8 and 12 ds m-1) conditions in a randomized complete block design with three replications. Genetic analysis was performed by Hayman’s method and Griffing’s fixed model, method 2. The slope of linear regression of Wr on Vr were significantly higher than 0 and had not significant difference with 1 indicating the additive-dominant model was satisfied in all cases. The narrow-sense heritability of traits was medium to high (0.4-0.8) but their broad-sense heritability was estimated relatively high (0.7-0.9). Results of regression graphs showed that Afzal parent had the most dominant allele. The significance of “a” component in most of the studied traits indicated the presence of the additive effects in controlling of traits. The significance of “b” component in most of the studied traits indicated the presence of the dominance effects in controlling of traits. The proportion of positive and negative genes was lower than 0.25 in all of the traits (except for grain weight per spike in 12 ds m-1 salinity), indicating the presence of asymmetry in the distribution of the positive and negative alleles in the parents. Based on general combining ability effects, it was concluded that under salinity, cultivar “Kavir” had favorable alleles in plant height, grain weight per spike and 100 grain weight traits and can be used as a general parent in breeding programs. Estimates of high broad-sense heritability and narrow-sense heritability in most traits indicated that these genetic materials were promising for breeding under normal and salinity stress conditions.
Keywords: Additive and dominance effects, Combining ability, Hayman's approach, Heritability
Full-Text [PDF 745 kb]   (1470 Downloads)    
Type of Study: Research | Subject: Population genetics
References
1. Ali, M.A. and Awan, S.I. (2009). Inheritance pattern of seed and lint traits in cotton (Gossypium hirsutum). International Journal of Agriculture and Biology, 11(1): 44-48.
2. AL-Tabbal, J.A. and AL-Fraihat, A.H. (2012). Genetic variation, heritability, phenotypic and genotypic correlation studies for yield and yield components in promising barley genotypes. Journal of Agricultural Science, 4: 193-210.
3. Ashraf, M. (2002). Salt tolerance of cotton: some new advances. Crit. Rev. Plant Science, 21: 1-30.
4. Ashraf, M. (2010). Registration of 'S-24'spring wheat with improved salt tolerance. Journal of Plant Registrations, 4: 34-37.
5. Ayers, R.S., and Wescot, D.W. (1985). Water Quality for Agriculture. Food and Agriculture Organization of the United Nations, Viale delle Terme di Caracalla, Rome, IT.
6. Baghizadeh, A., Talei, E., Naghavi, M.R. and Zeinali Khanghah, H. (2005). Genetic analysis of grain yield related treats in barley (Hordeum vulgare L.), Afzal/Cwb cross. Journal of Plant and Seed, 20: 235-243 (In Persian).
7. Bhatnagar, V.K., Sharma, S.N. and Sastry, E.V.D. (2001). Genetics of quantitative characters in six rowed barley over environments. Indian Journal of Genetics, 61: 358-359.
8. Chaudhry, F.M., Alam, S.M., Rashid, A. and Latif, A. (1977). Mechanism of differential susceptibility of tow rice varieties to zinc deficiency. Plant and Soil, 46: 637-642.
9. Chen, Z.H., Sgabala. S., Mendham, N., Newman, I., Zhang, G.P. and Zhou, M.X. (2008). Combining ability of salinity tolerance on the basis of NaCl-induced K+ flux from roots of barley. Crop Sceience, 48: 1382-1388.
10. Chowdhry, M.A., Ambreen, A. and Khalig, I. (2002). Genetic control of some polygenic traits in vulgare Species. Plant Science, 1: 235-237.
11. Dharam, P. and Sanjay, K. (2009). Genetic analysis of forage yield and other traits in barley (Hordeum vulgare L.). Barley Genetics Newsletter, 39: 13-19.
12. Ehab, M.R.M., Saeid, H.M.A., Rania, A.R.E. and Naif, M.S.K. (2014). An investigation of gene action on different traits of barley (Hordeum Vulgare L.) using partial diallel crosses system. Life Science Journal, 11(1): 64-71.
13. Eraja, L., Chuhan, T.P.S., Thiagaraja, V., Lakshman, V. and Kamble, C.K. (1997). Line×tester analysis of combining ability in new genotypes of biviltine silkworm. Indian Journal of Agriculture Science, 67: 287-290.
14. Eshaghi, R. and Akhundova, E. (2010). Inheritance pattern of β-glucan and protein countents in hulless barley. International Journal of Agriculture and Biology, 12: 68-72 (In Persian).
15. FAO. (2018). FAO Soil Portal, Extents of Salt Affected Soils. Accessed 05 June 2018. Available at: http://www.fao.org/soils-portal/soil-management/management-ofsome-problem-soils/salt-affected-soils/more-information on-saltaffected-soils/en/.
16. Farooq, J., Khaliq, I., Kashif, M., Ali, Q. and Mahpara, S. (2011). Genetic analysis of relative cell injury percentage and some yield contributing traits in wheat under normal and heat stress conditions. Chilean Journal of Agricultural Research, 71(4): 511-520.
17. Fehr, W.R. (1993). Principles of Cultivar Development. MacMillan Publish. Co. New York, USA.
18. Flower, T.J. (2004). Improving crop salt tolerance. Journal of Experimental Botany, 55: 307-319.
19. Fronza, V., Vello, N.A. and Camargo, L.E.A. (2004). Genetic analysis of soybean resistance to Fusarium solani f. sp. glycines. Genetics and Molecular Biology, 27(3): 400-408.
20. Genec, Y., Oldach, K., Verbyla, A., Lott, G., Hassan, M., Tester, M., Wallwork, H. and McDonald, G.K. (2010). Sodium exclusion QTL associated with improved seedling growth in bread wheat under salinity stress. Theoretical and Applied Genetics, 121: 877-894.
21. Griffing, B. (1956). A generalized treatment of the use of diallel crosses in quantiataive inheritance. Heredity, 10: 31-50.
22. Hayman, B.I. (1954). The theory and analysis of diallel crosses. Genetics, 39: 789-809.
23. Jagtap, D.R. and Mehetre, S. (1996). Combining ability analysis for agronomic traits in Gossypium hirsutum L. Journal of Cotton Research and Development, 10(1): 12-19.
24. Jibr, N., Ayadi, A., Amar, S., Chaibi, W. and Brulfert, J. (2002). Seed germination of two wheat species differing in their sensitivity to NaCl, in response to salt stress. Journal of Trace and Microprobe Techniques, 20: 625-637.
25. Katerji, N., Van Hoorn, J.W., Hamdy, A., Mastrorilli, M. and Fares, C. (2006). Classification and salt tolerance analysis of barley varieties. Agricultural Water Management, 85: 184-192.
26. Madhukar, K., Prasad, L.C., Lal, J.P., Prasad, R. and Chandra, K. (2018). Generation mean analysis for yield and drought related traits in barley (Hordeum vulgare L.). International Journal of Pure and Applied Biological Science, 6(1): 1399-1408.
27. Madić, M.R., Djurović, D.S., Knezević, D.S., Paunović, A.S. and Tanaskovic, S.T. (2014). Combining abilities for spike traits in a diallel cross of barley. Journal of Central Europran Agriculture, 15(1): 108-116.
28. Mahmood, T., Turner, M., Stoddard, F.L. and Javed, M.A. (2004). Genetic analysis of quantitative traits in rice (Oryza sativa L.) exposed to salinity. Crop and Pasture Science, 55(11): 1173-1181.
29. Mansour, E. and Moustafa, E.S.A. (2016). Estimation of combining ability and genetic components for yield contributing traits in spring barley under normal and salinity conditions. Egyptian Journal of Agronomy, 38: 431-453.
30. Mantri, N., Patade, V., Penna, S., Ford, R. and Pang, E. (2012). Abiotic Stress Responses in Plants Present and Future. In: Ahmad, P. and Prasad, M.N.V., Eds., Abiotic Stress Responses in Plants: Metabolism to Productivity, pp. 1-20. Springer, New York, USA.
31. Mather, K. and Jinks, J.L. (1971). Biometrical Genetics. Chapman & Hall: London, UK.
32. Moameni, A. (2010). Geographical distribution and salinity levels of soil resources of Iran. Soil Research Journal, 24: 203-215 (In Persian).
33. Mohammadi, M. and Roustaie, M. (2016). Estimation of genetic parameters of grain yield and some agronomic traits in bread wheat using diallel crosses. Plant Genetic Researches, 2(2): 57-72 (In Persian).
34. Munns, R., Husain, S., Rivelli, A.R., James, R.A., Condon, A.G., Lindsay, M.P., Lagudah, E.S., Schahtman, D.P. and Hare, R.A. (2002). Avenues for increasing salt tolerance of crops, and the role of physiologically based selection traits. Plant Soil, 247: 93-105.
35. Munns, R. and James, R.A. (2003). Screening methods for salinity tolerance: A case study with tetraploid wheat. Plant and Soil, 253: 201-218.
36. Nakhjavan, SH., Darvish, F., Sorkhi, B. and Zahravi, M. (2009). Assesmet Inheritance ability quantitative of treats in barley (Hordeum vulgare L.) under irrigation and drought season using mean gene ration analysis. The New fond Agricultural, 3: 204-223 (In Persian).
37. Naseer, S.H. (2001). Response of barley (Hordeum vulgare L.) at various growth stages to salt stress. Journal of Biological Science, 1(5): 326-329.
38. Parida, A.K. and Das, A.B. (2005). Salt tolerance and salinity effects on plants. A review Ecotoxicology and Environmental Safety, 60(11): 324-349.
39. Patial, M., Pal, D. and Kumar, J. (2016). Combining ability and gene action studies for grain yield and its component traits in barley (Hordeum vulgare L.). SABRAO Journal of Breeding and Genetics, 48: 90-96.
40. Rahimi, M., Ebrahimpour, F. and Eshgi, R. (2013). Determine heritability and mapping controlling genes agronomic traits on barley. Crop Biotechnology, 2: 35-48 (In Persian).
41. Rohman, M.M., Sultana, R., Podder, R., Tanjimul Islam, A.T.M., Kamrul Islam, M. and Islam, M.S. (2006). Nature of gene action in barley (Hordeum vulgare L.). Asian Journal of Plant Sciences, 5: 170-173.
42. Sadeghzadeh-Ahari, D., Sharifi, P., Karimizadeh, R. and Mohammadi, M. (2015). Estimation of genetic parameters of morphological traits in rainfed durum wheat (Triticum turgidum L.) using diallel method. Plant Genetic Researches, 2(1): 45-62 (In Persian).
43. Shahbazi, H., Ali, E., Imani, A.A. and Zaeefizadeh, M. (2013). Inheritance of cell membrane stability under heat and osmotic stresses in bread wheat. SABRAO Journal of Breeding and Genetics, 45(2): 187-194.
44. Shakeel, A.I., Ahmad Khan, K. and Azhar, F.M. (2001). Study pertaining to the estimation of gene action controlling yield and related traits in upland cotton. Online Journal of Biological Sciences, 1(12): 67-70.
45. Shavrukov, Y., Gupta, N.K., Miyazaki, J., Baho, M.N., Chalmers, K.J., Tester, M., Langridge, P. and Collins, N.C. (2010). HvNax3-a locus controlling shoot sodium exclusion derived from wild barley (Hordeum vulgare ssp. spontaneum). Functional & Integrative Genomics, 10: 277-291.
46. Sing, N. (2012). Study of heritability and genetic advance in barley (Hordeum vulgare L.) on affected soil. International Journal of Food, Agriculture and Veterinary Sciences, 2: 35-39.
47. Singh, M. and Singh, R.K. (1984). A comparison of different methods of half-diallel analysis. Theoretical and Applied Genetics, 67: 323-326.
48. Singh, S.K., Singh, H.C. and Singh, H.L. (2006). Inheritance of quality traits in barley (Hordeum vulgare L.). International Journal of Plant Sciences, 1: 304-305.
49. Tofiq, S.E., Amin, T.N.H., Abdulla, S.M.S. and Abdulkhaleq, D.A. (2015). Genetic analysis in some barley varieties and their hybrids in F2 generation. International Journal of Plant, Animal and Environmental Sciences, 5: 208-217.
50. Zhang, X., Lv, L., Lv, C., Guo, B. and Xu, R. (2015). Combining ability of different agronomic traits and yield components in hybrid barley. PLoS ONE, [DOI:10.1371/journal.pone.0126828]
51. Walter, D.E. and Morton, R. (1978). On the analysis of variance of half diallel table. Biometerics, 34: 91-94.
52. Ukai, Y. (1989). A microcomputer program DIALL for diallel analysis of quantitative characters. Japanese Journal of Breeding, 39: 107-109.
Send email to the article author



XML   Persian Abstract   Print


Download citation:
BibTeX | RIS | EndNote | Medlars | ProCite | Reference Manager | RefWorks
Send citation to:

Rahimi Darabad J, Rashidi V, Shahbazi H, Moghaddam Vahed M, Khalilvand E. Genetic Analysis of Agronomic Traits of Barley (Hordeum vulgare L.) Cultivars under Salinity Stress using Diallel Cross. pgr 2021; 7 (2) :83-96
URL: http://pgr.lu.ac.ir/article-1-173-en.html


Rights and permissions
Creative Commons License This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Volume 7, Issue 2 (2021) Back to browse issues page
پژوهش های ژنتیک گیاهی Plant Genetic Researches
Persian site map - English site map - Created in 0.06 seconds with 38 queries by YEKTAWEB 4657