- Adolf, V. I., Jacobsen, S. E., & Shabala, S. (2013). Salt tolerance mechanisms in quinoa (Chenopodium quinoa). Environmental and Experimental Botany, 92, 43-54. https://doi.org/10.1016/j.envexpbot.2012.07.004
- Akbari Ghozhdi, E., Izadi Darbandi, A., Borzoyei, A., & Majdabadi, A. (2010). Evaluation of morphological changes of wheat genotypes under salinity stress conditions. Journal of Greenhouse Culture Science and Technology, 1(4), 71-82. https://dorl.net/dor/20.1001.1.20089082.1389.1.4.7.7
- Bagheri, M., Zamani, M. R., Shouride, H., Molaei, A. R., Mansourian, A. R., & Heydari, F. (2019). Evaluation of compatibility of quinoa Genotypes in Mashhad and Isfahan. Final Research Project Report, Agricultural Research and Information Center, Registration No. 53795. (in Persian with English abstract).
- Bagheri, M., Anafjeh, Z., Keshavarz, S., & Foladi, B. (2021). Evaluation of quantitative and qualitative characteristics of new quinoa genotypes in spring cultivation at karaj. Iranian Journal of Field Crops Research, 18(4), 465-475. (in Persian with English abstract). https://doi.org/10.52547/abj.22.4.376
- Bagheri, M., Miri, Kh., Kloshkam, S. G., Anafjeh, Z., & Keshavarz, S. (2022). Assessment of adaptability and seed yield stability of autumn sown quinoa (Chenopodium quinoa) genotypes using AMMI analysis. Seed and Plant, 38, 453-472. (in Persian with English abstract). https://doi.org/10.22092/spj.2023.362282.1308
- Bertero, H. D., de la Vega, A. J., Correa, G., Jacobsen, S. E., & Mujica, A. (2004). Genotype and genotype-by-environment interaction effects for grain yield and grain size of quinoa (Chenopodium quinoa) as revealed by pattern analysis of international multi-environment trials. Field Crops Research, 89, 299-318. https://doi.org/10.1016/j.fcr.2004.02.006
- Beyrami, H., Rahimian, M., Salehi, M., Yazdani Biouki, R., & Shiran-Tafti, M., (2020). Nikkhah, M. Effect of Irrigation Frequency on Yield and Yield Components of Quinoa (Chenopodium quinoa) under Saline Condition. Journal of Agricultural Science and Sustainable Production, 30(3), 347-357. https://dorl.net/dor/20.1001.1.24764310.1399.30.3.20.5
- Eisa, S., Hussin, S., Geissler, N., & Koyro, H. W. (2012). Effect of NaCl salinity on water relations, photosynthesis and chemical composition of Quinoa (Chenopodium quinoa) as a potential cash crop halophyte. Australian Journal of Crop Science, 6(2), 357-368.
- Flowers, T. J., & Muscolo, A. (2015). Introduction to the Special Issue: Halophytes in a changing world, AoB PLANTS, 7, plv020. https://doi.org/10.1093/aobpla/plv020
- Hariadi, Y., Marandon, K., Tian, Y., Jacobsen, S. E., & Shabala, S. (2011). Ionic and osmotic relations in quinoa (Chenopodium quinoa) plant grown at various salinity levels. Journal of Experimental Botany, 62(1), 185-193. https://doi.org/10.1093/jxb/erq257
- Hatami, A. A., Aminian, R., Mafakheri, S., & Soleimani Aghdam, M. (2021). Effect of Gamma Amino Butyric Acid on Morpho-Physiological Traits and Seed Yield of Quinoa under Salinity Stress. Plant Production, 44(4), 559-572. https://doi.org/10.22055/ppd.2021.35988.1960
- Jacobsen, S. E., Mujica, A., & Jensen, C. R., (2003). The resistance of quinoa (Chenopodium quinoa) to adverse abiotic factors. Food Reviews International, 19(1 and 2), 99-109. https://doi.org/10.1081/FRI-120018872
- Jacobsen, S. E., Quispe, H., & Mujica, A. (2001). Quinoa: an alternative crop for saline soils in the Andes, Scientists and Farmer-Partners in Research for the 21st Century. CIP Program Report 1999-2000, pp. 403-408.
- Kia, M., Bagheri, N., Babaeian Jelodar, N., & Bagheri, M. (2022). Investigation of Morphological and Genotypic Characteristics of Quinoa in Gorgan Region. Journal of Crop Breeding, 14(43), 145-154. (in Persian with English abstract). https://doi.org/10.52547/jcb.14.43.145
- Konishi, Y. (2002). Nutritional Characteristics of Pseudocereal Amaranth and Quinoa: Alternative Foodstuff for Patients with Food Allergy. Journal of Japan Society of Nutrition and Food Sciences, 55, 299-302.
- Koyro, H. W., & Eisa, S. S. (2008). Effect of salinity on composition, viability and germi-nation of seeds of Chenopodium quinoa Plant and Soil, 302, 79-90. https://doi.org/10.1007/s11104-007-9457-4
- Lieth, H. (1999). Development of crops and other useful plants from halophytes, in: Lieth, H., Moschenko, M., Lohmann, M., Koyro, H-W., Hamdy, A. (Eds.), Halo-phyte uses in different climates: Ecological and ecophysiological studies. Prog. Biometeorology, vol. 13. Backhuys Publ., Leiden, NL, pp. 1-18.
- Maamri, K., Zidane, O. D., Chaabena, A., Fiene, G., & Bazile, D. (2022). Adaptation of Some Quinoa Genotypes (Chenopodium quinoa). Grown in a Saharan Climate in Algeria. Life, 12, 1854. https://doi.org/10.3390/life12111854
- Mamedi, A., Tavakkol Afshari, R., & Oveisi, M. (2016). Evaluation of various temperatures on Quinoa plant seeds under salinity stress. Iranian Journal of Field Crop Science, 46(4), 583-589. https://doi.org/10.22059/ijfcs.2015.56808
- Mishra, R. K. (2023). Fresh Water availability and Its Global challenge. British Journal of Multidisciplinary and Advanced Studies, 4(3), 1-78.https://doi.org/10.37745/bjmas.2022.0208
- Munns, R., & Tester, M. (2008). Mechanisms of salinity tolerance. Annual Review of Plant Biology, 59, 651-681. https://doi.org/10.1146/annurev.arplant.59.032607.092911
- Nadali, F., Asghari, H. R., Abbasdokht, H., Dorostkar, V., & Bagheri, M. (2020). Improved Quinoa growth, physiological response, and yield by hydropriming under drought stress conditions. Gesunde Pflanzen, 73, 53-66. https://link.springer.com/article/10.1007/s10343-020-00527-1
- Pearsall, D. (1992). The origins of plant cultivation in South America. In: Wesley Cowan, C., Jo Watson, P. (Eds.), The Origins of Agriculture. An International Perspective. Smithsonian Institution Press, Washington, London, pp. 173-205. https://doi.org/10.1086/659998
- Rahimian, M., & Banakar, M. (2013). Technical publication of Iran's National Saline Research Center. How to use the four-electrode salinity meter. Publications of Research, Education and Promotion Organization. Pages 2-18. Tehran.
- Sharifan, H., Jamali, S., & Sajadi, F. (2018). Investigation the Effect of Different Salinity Levels on the Morphological Parameters of Quinoa (Chenopodium quinoa) under Different Irrigation Regimes. Journal of Water and Soil Science, 22(2), 15-27. (in Persian with English abstract). https://doi.org/10.29252/jstnar.22.2.15
- Vega-Gálvez, A., Miranda, M., Vergara, J., Uribe, E., Puente, L., & Martínez, E. A. (2010). Nutrition facts and functional potential of quinoa (Chenopodium quinoa), an ancient Andean grain: a review. Journal of the Science of Food and Agriculture, 90(15), 2541-2547. https://doi.org/10.1002/jsfa.4158
- Wang, Y., Li, Y., Li, C., Lu, W., Sun, D., Yin, G., Hong, B., & Wang, L. (2019). Correlation and path analysis of the main agronomic traits and yield per plant of Quinoa. Crops, 35(6), 156-161.https://doi.org/10.16035/j.issn.1001-7283.2019.06.025
- Wilson, C., Read, J. J., & Abo-Kassem, E., (2002). Effect of mixed-salt salinity on growth and ion relations of a quinoa and a wheat variety. Journal of Plant Nutrition, 25(12), 2689-2704. https://doi.org/10.1081/PLN-120015532
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