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:: Volume 7, Issue 1 (2020) ::
pgr 2020, 7(1): 1-18 Back to browse issues page
Graphical Analysis of Reaction of Bread Wheat Genotypes to Water Stress in Lorestan Province
Fatemeh Darvishnia , MohammadHadi Pahlevani * , Khalil Zaynali Nezhad , Khosro Azizi , Saied Bagherikia
Department of Plant Breeding and Biotechnology, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran , hpahlevani@gau.ac.ir
Abstract:   (8503 Views)
In order to determine the most effective indices for quantifying drought tolerance and identify genotypes that are tolerant to water stress in bread wheat, 50 bread wheat genotypes were compared in a randomized complete block design with three replications under both the non-stress dry farming with two complementary irrigation and the water stress dry farming conditions in Khorramabad, Iran. Analysis of variance showed that there was a significant difference among the genotypes in terms of all of the traits except the number of spike per area. In this study, eight indices including: Stress Tolerance Index (STI), Geometric Mean Productivity (GMP), Mean Productivity (MP), Yield Index (YI), Harmonic Mean (HM), Yield Stability Index (YSI), Stress Susceptibility Index (SSI), and Tolerance index (TOL) were calculated by using of seed yield of the genotypes under both conditions. Indices that selection based on them will improve the yield in both conditions, are considered as suitable index. STI, GMP, MP and HM were introduced as suitable index for drought resistance selection. Genotypes Shiroodi and S-90-5 were determined as the most appropriate based on 3D plot. Based on positive correlation between water stress resistance indices and yield under stress and non-stress environments, STI and GMP were the best indices. By using the Biplot method, Shiroodi, S-90-5 and Oroum genotypes were considered as high yielding potential genotypes under the both conditions. According to the results of cluster analysis, genotypes were classified into three groups based on drought tolerance indices. Graphical analysis of genotypes also showed that genotypes Shiroodi and S-90-5 were more profitable than others under both drought stress and non-drought stress conditions. These genotypes could also be used as parents caring desirable genes in the crossing programs and selection of tolerate genotypes.
Keywords: Tolerance, Stress, Index, Drought, Wheat
Full-Text [PDF 883 kb]   (1367 Downloads)    
Type of Study: Research | Subject: Plant improvement
References
1. Amini, A., Esmailzade-Moghadam, M. and Vahabzadeh, M. (2005). Genetic diversity based on agronomic performance among Iranian wheat landraces under moisture stress. The 7th International Wheat Conference, Mardel Plata, Argentina.
2. Araus, J.L., Slafer, G.A., Reynolds, M.P. and Royo, C. (2002). Plant breeding and drought in C3 cereals: what should we breed for? Annals of Botany, 89: 925-940.
3. Azizinia, S., Ghanadha, M.R., Zali, A.A., Yazdisamadi, B. and Ahmadi, A. (2005). Evaluation and assess of quantitative traits related to drought tolerance in wheat. Iranian Journal of Agricultural Sciences, 36: 281-292.
4. Biniyaz, M. and Tavili, A. (2007). Drought and plants, drought stress, Journal of Sonbole. 169: 70-75.
5. Bouslama, M. and Schapaugh, W.T. (1984). Stress tolerance in soybean. I: Evaluation of three screening techniques for heat and drought tolerance, Crop Science. 24: 933-937.
6. Choukan, R., Taherkhani, T., Ghannadha, M.R. and Khodarahmi, M. (2006). Evaluation of drought tolerance in grain maize inbred lines using drought tolerance indices. Journal of Agricultural Science, 8(1): 79-89.
7. Emam, Y. (2007). Cereal Crops Agronomy. University Shiraz Press, Shiraz, IR (In Persian).
8. Falahi, H.A., Alat Jafarbai, J. and Sayedi, F. (2011). Evaluation of drought tolerance in durum wheat genotypes using drought tolerance indices. Seed and Plant Improvement Journal, 27(1): 15- 22 (In Persian).
9. Farshadfar, E., Poursiahbidi, M.M. and Safavi, S.M. (2013). Assessment of drought tolerance in land races of bread wheat based on resistance/tolerance indices. International Journal of Advanced Biological and Biomedical Research, 2: 143-158.
10. Fernandez, G.C. (1992). Effective selection criteria for assessing plant stress tolerance. Proceedings of the International Symposium on Adaptation of Vegetables and Other Food Crops in Temperature and Water Stress. Taipei, Taiwan.
11. Fischer, R.A. and Maurer, R. (1978). Drought resistance in spring wheat cultivars. I: grain yield response. Australian Journal of Agricultural Research, 29: 897-912.
12. Gavuzzi, P., Rizza, F., Palumbo, M., Campaline, R.G., Ricciardi, G.L. and Borghi, B. (1997). Evaluation of field and laboratory predictors of drought and heat tolerance in winter cereals. Canadian Journal of Plant Science, 77: 523-531.
13. Hosseini, S.Z., Ismaili, A. and Sohrabi, S.S. (2018). Evaluation of drought tolerance in safflower (Carthamus tinctorius L.) under water deficit stress conditions. Plant Genetic Researches, 5(2): 55-72.
14. Mohammadi, R., Armion, M., Kahrizi, D. and Amri, A. (2010). Efficiency of screening techniques for evaluating durum wheat genotypes under mild drought conditions. International Journal of Plant Production, 4(1): 27-39.
15. Nazeri, M. (2016). Water use efficiency and water deficit tolerance indices in terminal growth stages in promising bread wheat genotypes. Iranian Journal of Field Crops Research, 13(4): 715-727 (In Persian).
16. Nourizadeh, H., Ehtemam, M.H., Arzani, A. and Esmailzadeh-Moghadam, M. (2017). Effect of moisture stress on agronomic and morphological characteristics of recombinant inbred lines in wheat (Triticum aestivum L.). Iranian Journal of Field Crops Research, 14(4): 599-617 (In Persian).
17. Nourmand Moayyed, F., Rostami, M.A. and Ghannadha, M.R. (2001). Evaluation of drought resistsnce indices in bread wheat (Triticum aestivum L.). Iranian Journal of Agricultural Science, 32(4): 796-805 (In Persian).
18. Pour Aboughadareh, A., Yousefian, M., Moradkhani, H., Moghaddam Vahed, M., Poczai, P.K. and Siddique, H.M. (2019). iPASTIC: An online toolkit to estimate plant abiotic stress indices. Applications in Plant Sciences, 7(7): e11278.
19. Richards, R.A. (1996). Defining selection criteria to improve yield under drought. Plant Growth Regulation, 20: 157-166.
20. Rossielle, A. and Hamblin, A.J. (1981). Theoretical aspects of selection for stress and non-stress environment. Crop Science, 21: 1441-1446.
21. Saberi, M.H., Nikkhah, H.R., Tajali, H. and Arazmjo, E. (2013). Effects of terminal drought stress on yield and choosing best tolerance indices in promising lines of Barley. Agronomy Journal (Pajouhesh & Sazandegi), 111: 27-34 (In Persian).
22. Saeidi, M., Ahmadi, A., Postini, K. and Jahansooz, M.R. (2007). Evaluation of germination traits of different genotypes of wheat in osmotic stress situation and their correlations with speed of emergence and drought tolerance in Farm situation. Journal of Science and Technology of Agriculture and Natural Resources, 11: 281-293 (In Persian).
23. Schnider, K.A., Rosales Serna, R., Ibarra Perez, F., Cazares Enriques, B., Acosta Gallegos, J.A., Ramirez Allejo, P., Wassimi, N. and Kelly, J.D. (1997). Improving common bean performance under drought stress. Crop Science, 37: 43-50.
24. Sio-Se Mardeh, A., Ahmadi, A., Poustini, K. and Mohammadi, V. (2006). Evaluation of drought resistance indices under various environmental conditions. Field Crop Research, 98: 222-229.
25. Talebi, R., Fayazi, F. and Naji, A.M. (2009). Effective selection criteria for assessing drought stress tolerance in durum wheat. General and Applied Plant Physiology, 35(1-2): 64-74.
26. Zabet, M., Hosein Zade, A.H., Ahmadi, A. and Khialparas, F. (2003). Effect of water stress on different traits and determination of the best water stress index in mung bean (Vigna radiata). Iranian Journal of Agriculture Science, 34 (4): 889-898 (In Persian).
27. Zarei, S., Amini, A., Mahfoozi, S., Bihamta, M.R. (2011). Study of genetic diversity for morpho-physiological and agronomic traits of Iranian local wheat genotypes under drought stress conditions. International Journal of Clinical Pharmacy, 4(4): 123-138.
28. Zebarjadi, A.R., Tavakoli Shadpey, S., Etminan, A.R. and Mohammadi, R. (2013). Evaluation of drought stress tolerance in durum wheat genotypes using drought tolerance indices. Seed and Plant Improvment Journal, 29: 1-12 (In Persian).
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Darvishnia F, Pahlevani M, Zaynali Nezhad K, Azizi K, Bagherikia S. Graphical Analysis of Reaction of Bread Wheat Genotypes to Water Stress in Lorestan Province. pgr 2020; 7 (1) :1-18
URL: http://pgr.lu.ac.ir/article-1-172-en.html


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Volume 7, Issue 1 (2020) Back to browse issues page
پژوهش های ژنتیک گیاهی Plant Genetic Researches
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