Ali, O. I., Fghire, R., Anaya, F., Benlhabib, O., Wahbi, S., 2019. Physiological and morphological responses of two Quinoa cultivars (Chenopodium quinoa Willd.) to drought stress. Gesunde Pflanzen, 71, 123-133.
Arnon, A.N., 1967. Method of extraction of chlorophyll in the plants. Agronomy Journal. 23, 112-121.
Asch, F., Dingkuhn, M., Sow, A., Audebert, A., 2005. Drought-induced changes in rooting patterns and assimilate partitioning between root and shoot in upland Rice. Field Crops Research. 93, 223-236.
Aziz, A., Akram, N.A., Ashraf, M., 2018. Influence of natural and synthetic vitamin C (ascorbic acid) on primary and secondary metabolites and associated metabolism in Quinoa (Chenopodium quinoa Willd.) plants under water deficit regimes. Plant Physiology and Biochemistry. 123, 192-203.
Barrientos, E., Carevic, F., Delatorre, J., 2017. The sustainability of the southern highlands of Bolivia and its relationship with the expansion of quinoa growing areas. IDESIA. 35, 7-15.
Carvalho, L.G.D., Evangelista, A.W.P., Oliveira, K.M.G., Silva, B.M., Alves, M.D.C., Júnior, S., Miranda, W.L., 2013. FAO Penman-Monteith equation for reference evapotranspiration from missing data. IDESIA (Chile). 31, 39-47.
Cornic, G., Massacci, A., 1996. Leaf photosynthesis under drought stress. In: Baker, N.R. (ed.), Photosynthesis and the Environment. Advances in Photosynthesis and Respiration, Springer, Dordrecht.
https://doi.org/10.1007/0-306-48135-9_14
Daniel, C., Triboi, E., 2008. Changes in Wheat protein aggregation during grain development, effects of temperature and water stress. European Journal of Agronomy, 16, 1-12.
Daryanto, S., Wang, L., Jacinthe, P.A., 2017. Global synthesis of drought effects on cereal, legume, tuber and root crops production, a review. Agricultural Water Management. 179, 18-33.
Elewa, T.A., Sadak, M.S., Dawood, M.G., 2017. Improving drought tolerance of quinoa plant by foliar treatment of trehalose. Agricultural Engineering International, CIGR Journal. 19 (Special Issue), 245-254.
Farooq, M., Gogoi, N., Barthakur, S., Baroowa, B., Bharadwaj, N., Alghamdi, S.S., Siddique, K.H.M., 2017. Drought stress in grain legumes during reproduction and grain filling. Journal of Agronomy and Crop Science. 203, 81-102.
Farooq, M., Wahid, A., Kobayashi, N., Fujita, D., Basra, S.M.A., 2009. Plant drought stress: effects, mechanisms and management. Agronomy for Sustainable Development. 29, 185-212.
Fischer, S., Wilckens, R., Jara, J., Aranda, M., 2013. Variation in antioxidant capacity of Quinoa (Chenopodium quinoa Will) subjected to drought stress. Industrial Crops and Products. 46, 341-349.
Fu, J., Fry, J., Huang, B., 2004. Minimum water requirements of four turfgrasses in the transition zone. Horticultural Science. 39, 1740-1744.
Gangopadhyay, G., Das, S., Mukherjee, K.K., 2002. Speciation in chenopodium in west Bengal, India. Genetic Resources and Crop Evolution. 49, 503–510.
Geerts, S., Raes, D., Garcia, M., Vacher, J., Mamani, R., Mendoza, J., Taboada, C., 2008. Introducing deficit irrigation to stabilize yields of quinoa (Chenopodium quinoa Willd.). European Journal of Agronomy. 28, 427-436.
Ghorbani, S., Khiabani, B.N., Amini, I., Ardakani, M.R., Pirdashti, H., Moakhar, S.R., 2009. Effect of iron and zinc on yield and yield components of mutant line's wheat. Asian Journal of Biological Sciences. 2, 74-80.
Gonzalez, J.A., Gallardo, M., Hilal, M., Rosa, M., Prado, F.E., 2009. Physiological responses of quinoa (Chenopodium quinoa Willd.) to drought and waterlogging stresses, dry matter partitioning. Botanical Studies. 50, 35-42.
Hall, A.J., Richards, R.A., 2013. Prognosis for genetic improvement of yield potential and
water-limited yield of major grain crops. Field Crops Research. 143, 18–33.
Hevia, F., Berti, M., Wilckens, R., Serri, H., Pino, A., 1998. Contenido de proteínas, saponinasy algunas características delalmidón en semillas de quinoa sembradas endiferentes fechasy localidades. Agro-Ciencia. 14, 293 –302.
Howell, T.A., 2001. Enhancing water use efficiency in irrigated agriculture. Agronomy Journal. 93, 281-289.
Jacobsen, S.E., 2003. The worldwide potential for quinoa (Chenopodium quinoa Willd.). Food Reviews International. 19, 167-177.
Jamali, S., Sharifan, H., Sajadi, F., 2018. The effect of different seawater and deficit irrigation regimes on leaf properties of quinoa. Water and Irrigation Management, 8, 177-191. [In Persian with English summary].
Kalapos, T., 1994. Leaf water potential, leaf water deficit relationship for ten species of semiarid grassland community. Plant and Soil. 160, 105 –112.
Killi, D., Haworth, M., 2017. Diffusive and metabolic constraints to photosynthesis in quinoa during drought and salt stress. Plants. 6, 49.
Liu, H.P., Yu, B.J., Zhang, W.H., Liu, Y.L., 2005. Effect of osmotic stress on the activity of Ht ATPase and the levels of covalently and non-covalenty conjugated polyamines in plasma membrance preparation from wheat seeding roots. Plant Sciences. 168, 1599-1607.
Ma, S.C., Duan, A.W., Wang, R., Guan, Z.M., Yang, S.J., Ma, S.T., Shao, Y., 2015. Root-sourced signal and photosynthetic traits, dry matter accumulation and remobilization, and yield stability in winter Wheat as affected by regulated deficit irrigation. Agricultural Water Management. 148, 123-129.
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.
Nakabayashi, R., Yonekura‐Sakakibara, K., Urano, K., Suzuki, M., Yamada, Y., Nishizawa, T., Michael, A.J., 2014. Enhancement of oxidative and drought tolerance in Arabidopsis by overaccumulation of antioxidant flavonoids. The Plant Journal. 77, 367-379.
Omidbeygi, R., 2007. Production and Processing of Medicinal Plants. 2. Astane Qhodse Razavi Publications, Mashhad, Iran. [In Persian].
Pessarkli, M., 1999. Handbook of Plant and Crop Stress. Marcel Dekker. New York Inc. 697p.
Pulvento, C., Riccardi, M., Lavini, A., Iafelice, G., Marconi, E., d'Andria, R., 2012. Yield and quality characteristics of quinoa grown in open field under different saline and non‐saline irrigation regimes. Journal of Agronomy and Crop Science. 198, 254-263.
Rakszegi, M., Darkó,É., Lovegrove, A., Molnár, I., Láng, L., Bedő, Z., Shewry, P., 2019. Drought stress affects the protein and dietary fiber content of whole meal Wheat flour in wheat/Aegilops addition lines. Plos One. 14, e0211892.
Rodríguez-Pérez, L., Ñústez L, C.E., Moreno, F.L.P., 2017. Drought stress affects physiological parameters but not tuber yield in three Andean Potato (Solanum tuberosum L.) cultivars. Agronomía Colombiana. 35, 158-170.
Senobar, A., Tabatabayi, S.A., Dehghani, F., 2011. Effect of irrigation intervals on grain yield, yield components and harvest index of bread wheat cultivars in Yazd region. Environmental Stresses in Crop Sciences. 3, 95-104. [In Persian with English summary].
Shahattary, F.S., Mansoorifar, C., 2017. The effect of drought stress on morphological and physiological traits and essence percentage of medicinal plant (Nigelle sativa L.). Bioscience and Biotechnology Research Communications. 11, 298-305.
Stikic, R., Glamoclija, D., Demin, M., Vucelic-Radovic, B., Jovanovic, Z., Milojkovic-Opsenica, D., Milovanovic, M., 2012. Agronomical and nutritional evaluation of quinoa seeds (Chenopodium quinoa Willd.) as an ingredient in bread formulations. Journal of Cereal Science. 55, 132-138.
Vannozi, G., Larner, F., 2007. Proline accumulation during drought rhizogene in maise. Journal of Plant Physiology. 85, 441-467.
Wang, G.P., Zhang, X.Y., Li, F., Luo, Y., Wang, W., 2010. Over accumulation of glycine betaine enhances tolerance to drought and heat stress in wheat leaves in the protection of photosynthesis. Photosynthetica. 48, 117-126.
Wnuk, A., Górny, A.G., Bocianowski, J., Kozak, M., 2013. Visualizing harvest index in crops. Communications in Biometry and Crop Science, 8, 48-59.
Yang, A., Akhtar, S.S., Amjad, M., Iqbal, S., Jacobsen, S.E., 2016. Growth and physiological responses of quinoa to drought and temperature stress. Journal of Agronomy and Crop Science. 202, 445-453.
Zhang, J., Sui, X., Li, B., Su, B., Li, J., Zhou, D., 1998. An improved water-use efficiency for winter wheat grown under reduced irrigation. Field Crops Research. 59, 91-98.
)