تأثیر سطوح مختلف شوری و رژیم‌های آبیاری روی برخی خصوصیات رشد و کارآیی مصرف آب در ارقام گندم (Triticum aestivum L.)

Bauder, T. A., Waskom, R. M. and Davis, J. G. 2006. Irrigation water quality criteria. Colorado State University Cooperative Extension Fact Sheet 0.506.

Chaves, M. M., Flexas, J. J. and Pinheiro, C. 2009. Photosynthesis under drought and salt stress: regulation mechanisms from whole plant to cell. Annals of Botany, 103: 551-560.

Cuin, T. A., Tian, Y., Betts, S. A., Chalmandrier, R. and Shabala, S. 2009. Ionic relation and osmotic adjustment in durum and bread wheat under saline conditions. Functional Plant Biology, 36: 1110-1119.

Fereres, E. and Soriano, M. A. 2007. Deficit irrigation for reducing agricultural water use. Journal of Experimental Botany, 58 (2): 147-159.

Greets, S. and Raes, D. 2009. Deficit irrigation and on farm strategy to minimize crop water productivity in dry areas. Agricultural Water Managenent, 96: 1275-1284.

Garcia del Moral, L. F., Rharrabti, Y., Villegas, D. and Royo, C. 2003. Evaluation of grain yield and its components in durum wheat under Mediterranean conditions: an ontogenic approach. Agronomy Journal,95: 266-274.

Gontia, N. K., Tiwari, K. N., 2008. Development of crop water stress index of wheat crop for scheduling irrigation using infrared thermometery. Agricultural Water Management, 95: 1144-1152.

Hsiao, T. C., Steduto, P. and Fereres, E. 2007. A systematic and quantitative approach to improve water use efficiency in agriculture. Irrigation Science, 25: 209-231.

Husain, S., Munns, R. and Condon, A. G. 2003. Effect of sodium exclusion trait on chlorophyll retention and growth of durum wheat in saline soil. Australian Journal of Agricultural research, 54: 589-597.

Husain, S., Caemmerer, S. V. and Munns, R. 2004. Control of salt transport from root to shoot. Functional Plant Biology, 31: 1115-1126.

Jiang, J., Huo, Z. L., Feng, S. F. and Zhang, C. B. 2012. Effect of irrigation amount and water salinity on water consumption and water use efficiency of spring wheat in Northwest China. Field Crop Research, 137: 78-88.

Katerji, N., Mastrorilli, M. and Rana, G. 2008. Water use efficiency of crops cultivated in the Mediterranean region: Review and analysis. European Journal of Agronomy, 28: 493-507.

Kazuhiro, N., Nasir M. K. and Sho S. 2009. Effects of salt accumulation on the leaf water potential and transpiration rate of pot-grown wheat with a controlled saline groundwater table. Soil Science and Plant Nutrition, 55: 375-384.

Munns, R., Hare, R. A., James, R. A. and Rebetzke, G. J. 2000. Genetic variation for improving the salt tolerance of durum wheat. Australian Journal of Agricultural Research, 51: 69-74.

Munns, R. 2002. Comparative physiology of salt and water stress. Plant, Cell and Environment, 25: 239-250.

Munns, R., Husain, S., Rivelli, A. R., James, R. A. and Condon, A. G. 2002. Avenues for increasing salt tolerance of crops, and the role of physiologically based selection traits. Plant and Soil, 247: 93-105.

Munns, R. and James, R. A. 2003. Screening method for salinity tolerance: a case study with tetraploid wheat. Plant and Soil, 253: 201-218.

Munns, R. 2005. Genes and salt tolerance: bringing them together. New Phytologist, 167: 645-663.

Munns, R., James, R. A. and Lauchli, A. 2006. Approaches to increasing the salt tolerance of wheat and other cereals. Journal of Experimental Botany, 57: 1025-1043.

Munns, R. and James, R. A. 2007. Recent advances in breeding wheat for production and salt stresses. M. A. Jenks, et al. (eds.). Advances in molecular breeding toward drought and salt tolerant crops, Springer, Chapter 22, 565-585.

Munns, R. and Tester, M. 2008. Mechanism of Salinity tolerance. Annual Review of Plant Biology, 59: 651-681.

Munns, R., Wallace, P., Teakle, N. and Colmer, T. 2010. Measuring soluble ion concentrations (Na⁺, K⁺, Cl^-) in salt treated plants. pp. 371-382, In: R. Sunkar (Ed.), Plant Stress Tolerance, Methods in Molecular Biology, Springer Science Business Media.

Munns, R., James, R. A., Islam, M. R. and Colmer, T. D. 2011. Hordeum marinum-wheat amphiploids maintain higher leaf K⁺: Na⁺ and suffer less leaf injury than wheat parents in saline conditions. Plant and Soil, 348: 365-377.

Munns, R., James, R. A., Xu, B., Athman, A., Conn, S. J., Jordans, C., Byrt, C. S., Hare, R. A., Tyerman, S. D., Tester, M., Plett, D. and Gilliham, M. 2012. Wheat grain yield on saline soils is improved by an ancestral Na⁺ transporter gene. Nature Biotechnology, 30 (4): 360-366.

Munns, R. and Gilliham, M. 2015. Salinity tolerance of crops-what is the cost? New Phytologist. Available online at: http://www.newphytologist.com. Accessed 15 December 2015.

Poustini, K. and Siosemardeh, A. 2004. Ion distribution in wheat cultivars in response to salinity stress. Field Crops Research, 85: 125-133.

Rahnama, A., Munns, R., Poustini, K. and Watt, M. 2011a. A Screening method to identify genetic variation in root growth response to a salinity gradient. Journal of Experimental Botany, 62: 69-77.

Rahnama, A., Poustini, K., Tavakkol-Afshari, R. and Alizadeh, H. 2011b. Growth properties and ion distribution in different tissues of bread wheat genotypes (Triticum aestivum L.) differing in salt tolerance. Journal of Agronomy and Crop Science, 197: 21-30.

Rahnama, A., Fakhri, Sh. and Meskarbashi, M. 2016. Relation between root growth traits and physiological indices of two bread wheat cultivars under salt stress. Iranian Journal of Filed Crop Science, 47 (1): 109-117.

Shelden, M., Roesnner, U., Sharp, R. E., Tester, M. and Bacic, A. 2013. Genetic variation in the root growth response of barley genotypes to salinity stress. Functional Plant Biology, 40: 516-530.

Southorn, N. 1997. Farm irrigation (planning and management). Reed International Books Australia. Inkata press, Port Melbourne, 164 pp.

Wang, X., Yang, J., Liu, G., Yao, R. and Yu, S. 2015. Impact of irrigation volume and water salinity on winter wheat use efficiency and soil salinity distribution. Agricultural Water Management, 149: 44-54.

Yousfi, S., Serret, D. M., Voltas, J. and Araus, J. L. 2010. Effect of salinity and water stress during the reproductive stage on growth, ion concentrations, ∆¹³ C, and δ¹⁵N of durum wheat and related amphiploids. Journal of Experimental Botany, 61 (13): 3529-3542.

Zhu, M., Shabala, L., Cuin, T. A., Huang, X., Zhou, M., Munns, R. and Shabala S. 2016. Nax loci affect SOS1-Like Na⁺/H⁺ exchanger expression and activity in wheat. Journal of Experimental Botany, 67 (3): 835-844.