|
1. Abdmishani, S. and Shahnejat-Bushehri, A.A. (1997). Advanced Plant Breeding. University of Tehran Press, Tehran, IR (In Persian). 2. Akbar, M., Gunawardena, I.E. and Ponnamperuma, F.N. (1986). Breeding for Soil Stresses. Progress in Rainfed Lowland Rice. IRRI, Los Baños. PH. 3. Akhtar, S., Islam, M.M., Begum, S.N., Halder, J., Alam, M.K. and Manidas, A.C. (2010). Genetic analysis of F4 rice lines for salt tolerance at the reproductive stage. Agricultoral, 21(1 & 2): 31-38. [ DOI:10.3329/pa.v21i1-2.16746] 4. Aref, F. and Ebrahimi Rad, H. (2012). Physiological characterization of rice under salinity stress during vegetative and reproductive stages. Indian Journal of Science and Technology. 5(4): 0974- 6846. 5. Bakhsh-Balouchzaehi, A. and Kiani, G. (2013). Determination of selection criteria for yield improvement in rice through path analysis. Journal of Crop Breeding, 5: 75-84 (In Persian). 6. Ebrahimi, M.A., Mohammadian, R. and Khalili, M. (2016). Estimation of genetic correlation, heritability and grouping of barley doubled haploid lines based on indicators related to germination under salt stress. Plant Genetic Researches, 3(1): 29-44 (In Persian). [ DOI:10.29252/pgr.3.1.29] 7. FAO. (2016). Food and Agriculture Organization, FAO statistic. http://www.fao.org/faostat/en/#data/ QC. Accessed 26 June 2016 8. Fentie, D., Alemayehu, G., Siddalingaiah, M. and Tadesse, M. (2014). Genetic variability, heritability and correlation coefficient analysis for yield and yield component traits in upland rice (Oryza sativa L.). East African Journal of Sciences, 8(2): 147-154. 9. Garris, A.J., Tai, T.H., Coburn, J., Kresovich, S. and McCouch, S. (2005). Genetic structure and diversity in Oryza sativa L. Genetics, 169: 1631-1638. [ DOI:10.1534/genetics.104.035642] 10. Ghomi, K., Rabiei, B., Sabouri, H. and Sabouri, A. (2013a). Mapping QTLs for traits related to salinity tolerance at seedling stage of rice (Oryza sativa L.): An agrigenomics study of an Iranian rice population. OMICS: A Journal of Integrative Biology, 17(5): 242-251. [ DOI:10.1089/omi.2012.0097] 11. Ghomi, K., Rabiei, B., Sabouri, H. and Sabouri, A. (2013b). Evaluation of seedling stage and identification of appropriate selection criteria in an rice segregating population (Oryza sativa L.) under salinity stress condition. Journal of Crop Breeding, 5(1): 30-48 (In Persian). 12. Ghorbani, H., Samizadeh-Lahiji, H.A., Rabiei, B. and Allahgholipour, M. (2011). Grouping different rice genotypes using factor and cluster analysis. Journal of Agricultural Science. 3: 89-104 (In Persian). 13. Gilroy, S., Suzuki, N. and Miller, G. (2014). A tidal wave of signals: calcium and ROS at the forefront of rapid systemic signaling. Trends in Plant Science, 19: 623-630. [ DOI:10.1016/j.tplants.2014.06.013] 14. Gohari, M., Khayat, M. and Lack, S.H. (2010). Correlation relation and path coefficient analysis effective agronomic traits evolution on seed yield of rice (Oryza Sativa L.) cultivar. Journal of Agricultural New Findings, 3: 261-269 (In Persian). 15. Golparvar, A.R., Ghanadha, M.R., Zali, A.A. and Ahmadi, A. (2003). Evaluation of some morphological traits as selection criteria in breeding wheat. Iranian Journal of Crop Sciences, 4)3): 202-208 (In Persian). 16. Gregorio, G.B., Senadhira, D. and Mendoza, R.D. (1997). Screening Rice for Salinity Tolerance. IRRI 502 Discussion Paper Series No. 22. International Rice Research Institute, Los Baños, PH. 17. Honarnejad, R. (2002). Study of correlation between some quantitative traits and grain yield in rice (Oryza sativa L.) using path analysis. Journal of Iranian Crop Science, 1: 25-33 (In Persian). 18. Hossain, S., Maksudu, H.M.D. and Rahman, J. (2015). Genetic variability, correlation and path coefficient analysis of morphological traits in some extinct local aman Rice (Oryza sativa L). Journal Rice Resource, 3: 158. doi:10.4172/2375-4338.1000158. [ DOI:10.4172/2375-4338.1000158] 19. Islam, M.Z., Khalequzzaman, M., Bashar, M.K., Ivy, N.A., Haque, M.M. and Mian, M.A.K. (2016). Variability assessment of aromatic and fine rice germplasm in Bangladesh based on quantitative traits. The Scientific World Journal, 2016: 2796720. http://dx.doi.org/10.1155/2016/ 2796720 [ DOI:10.1155/2016/2796720] 20. Jahani, M., Nematzade, G. and Mohammadi-Nejad, G.H. (2016). Assessment of genetic diversity in rice varieties with desirable agronomic characteristics. Journal of Crop Production, 9(1): 181-198 (In Persian). 21. Konate, A.K., Zongo, A., Kam, H., Sanni, A., and Audebert, A. (2016). Genetic variability and correlation analysis of rice (Oryza sativa) inbred lines based on agromorphological traits. African Journal of Agricultural Research, 11(35): 3340-3346. [ DOI:10.5897/AJAR2016.11415] 22. Kordrostami, M., Rabiei, B. and Hassani Kumleh, H. (2017). Different physiobiochemical and transcriptomic reactions of rice (Oryza sativa L.) cultivars differing in terms of salt sensitivity under salinity stress. Environmental Science & Pollution Research, 24: 7184-7196. [ DOI:10.1007/s11356-017-8411-0] 23. Mirdar-Mansouri, S.H., Babaiyan Golodar, N. and Bagheri, N. (2014). Effects of NaCl Stress on Grain Yield and their Components in Iranian Rice Genotypes. Journal of Crop Breeding, 6(14): 67-83 (In Persian). 24. Mohammadzadeh, M., Peyghambari, S.A., Nabipour, A. and Norouzi, M. (2010). Evaluating of yield and morphological characters in tolerance and sensitive genotypes to salinity stress in rice (Oryza sativa L.). Journal of Planting and Plant Amending, 6(4): 61-71 (In Persian). 25. Munns, R. and Tester, M. (2008). Mechanisms of salinity tolerance. Annual Review of Plant Biology, 59: 651-681. [ DOI:10.1146/annurev.arplant.59.032607.092911] 26. Mahdavi, F., Esmaili, M.A., Pirdashti, H. and Fallah, A. (2003). Study on the Physiological and morphological indices among the modern and old rice (Oryza sativa L.) genotypes. 4th International Crop Science Congress. Brisbane, Queensland, AU. 27. Mahmood, N. and Cowdhry, M.A. (2000). Inheritance of flag leaf in breed wheat genotypes. Wheat Information Service (WIS), 90: 7-12. 28. Mer, R.K., Prajith, P.K., Pandya, D.H. and Dandey, A.N. (2000). Growth of young plants of Hordeum Vulgare, Triticum aestivum, Cicer arienum and Brassica Juncea. Journal Agronomy and Crop Science, 185: 209-217. [ DOI:10.1046/j.1439-037x.2000.00423.x] 29. Maas, E.V. and Hoffmann, G.J. (1977). Crop salt tolerance-current assessment. Journal of the Irrigation and Drainage Division, 103: 115-134. 30. Rahman, M.M., Rasul, M.G., Bashar, M.K., Syed, M.A. and Islam, M.R. (2011). Parent selection for transplanted aman rice breeding by morphological, physiological and molecular diversity analysis. Libyan Agriculture Research Center Journal International, 2: 26-28. 31. Rashid, M.M., Hassan, L. and Begum S.N. (2017). Phenotypic performance of rice landraces under salinity stress in reproductive stage. Progressive Agriculture, 28(1): 1-6. [ DOI:10.3329/pa.v28i1.32850] 32. Sabouri, H., Rezai, A.M. and Moumeni, A. (2008). Evaluation of salt tolerance in Iranian landrace and improved rice cultivars. Journal of Science and Technology of Agriculture and Natural Resources, 45: 47-63 (In Persian). 33. Sabouri, H. and Biabani, A. (2009). Toward the mapping of agronomic characters on rice genetic map: QTL analysis under saline condition. Biotechnology, 8: 144-149. [ DOI:10.3923/biotech.2009.144.149] 34. Savitha, P. and Usha-Kumari, R. (2015). Assessment of genetic variability and correlation studies among traditional land races and improved cultivars for segregating generations of rice (Oryza sativa L.). International Journal of Science and Nature, 6(2): 135-140. 35. Venkata-Lakshmi, M., Suneetha, Y., Yugandhar, G. and Venkata-Lakshmi, N. (2014). Correlation studies in rice (Oryza sativa L.). International Journal of Genetic Engineering Biotechnology, 5(2): 121-126. 36. Yoshida, S., Bhattacharjee, D.P. and Cabuslay, G.S. (1982). Relationship between plant type and root growth in rice. Soil Science and Plant Nutrition, 28(4): 473-482. [ DOI:10.1080/00380768.1982.10432387] 37. Yazdani, M., Kochak, M. and Bagheri, H. (2014). Segregating rice genotypes by cluster analysis procedure at different salt stress condition. Advances Environment Biology, 8(10): 383-387.
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