Physiological responses of Nigella Sativa ecotypes to drought stress condition
Subject Areas : Stress PhysiologyAtena Alaghemand 1 , Shahab Khaghani 2 , Mohammad Reza Bihamta 3 , Masoud Gomarian 4 , Mansour Ghorbanpour 5
1 - Department of Medicinal Plants, Faculty of Agriculture, Islamic Azad University, Arak Branch, Arak, Iran
2 - Department of Agronomy and Plant Breeding, Islamic Azad University, Arak Branch, Arak, Iran
3 - Agriculture and Natural Resources Campus, University of Tehran, Karaj, Iran
4 - Department of Agronomy and Plant Breeding, Islamic Azad University, Arak Branch, Arak, Iran
5 - Department of Medicinal Plants, Faculty of Agriculture and Natural Resources, Arak University, Arak, Iran
Keywords: Linoleic acid, oil percent, Oleic acid, black cumin, linolenic acid,
Abstract :
In order to study the effect of drought stress at budding stage on five black cumin (Nigella sativa L.) ecotypes (Arak, Yasuj, Semirom, Azarbaijan, and Torbat Heydarieh), an experiment was conducted in based on a factorial randomized complete block design (RCBD) with four replications in Islamic Azad University, Arak branch, Arak, Iran. Treatments included control (normal irrigation) and drought stress (stop irrigation at budding stage until the end of the growth period). Oil percentage, oleic acid, linoleic acid, and linolenic acid were affected by drought and the highest values of oil percentage (2.6%), oleic acid (0.27%), linoleic acid (13.02%) and linolenic acid (1.57%) were observed in Arak, Torbat Heydarieh, Yasuj, and Torbat Heydarieh ecotypes, respectively. Results of tolerance indices showed that Torbat Heydarieh had the highest value of GMP (233.8), STI (2.26), and SSI (84.64). The correlation analysis showed Yp with GMP (r=+0.89**), STI (r=+0.95**), and MP (r=+0.89**). Based on the present study, Torbat Heydarieh ecotype is recommended for planting in arid and semi-arid regions.
Ahmad, Z. and A. Ghafoor. 2007. Nigella sativa – A potential commodity in crop diversification traditionally used in healthcare in: Breeding of Neglected and Under-Utilized Crops, Spices and Herbs. Science Press.
Aljabre, S.H.M., O.M. Alakloby and M.A. Randhawa. 2015. 'Dermatological effects of Nigella sativa'. Journal of Dermatology and Dermatologic Surgery, 19(2): 92- 98.
Amin, B. and H. Hosseinzadeh. 2016. 'Black Cumin (Nigella sativa) and Its active constituent, thymoquinone: An overview on the analgesic and anti-inflammatory effects'. Planta Medica, 82(1-2): 8-16.
Bagheri, H., and M., Sam– Daliri. 2011. 'Effect of water stress on agronomic traits of spring safflower cultivars (Carthamus tinctorius L.)'. Journal of Basic Applied Science, 5(12), 2621-2624.
Bannayan, M., F. Nadjafi, M. Azizi, L. Tabrizi and M. Rastgoo. 2008. 'Yield and seed quality of Planta goovata and Nigella sativa L. under different irrigation treatments'. Industrial Crops and Products, 27(1): 11- 16.
Bouslama, M. and W.T. Schapaugh. 1984. 'Stress tolerance in soybean. Part 1: evaluation of three screening techniques for heat and drought tolerance'. Crop Science, 24: 933–937.
Clarke, J.M., R.M. De Pauw and T.M. Townley-Smith. 1992. 'Evaluation of methods for quantification of drought tolerance in wheat'. Crop Science, 32, 728–732.
Fernandez, G.C.J. 1992. 'Effective selection criteria for assessing stress tolerance. In: Kuo, C.G. (Ed.)'. Proceedings of the International Symposium on Adaptation of Vegetables and Other Food Crops in Temperature and Water Stress, Publication, Tainan, Taiwan.
Fischer, R.A. and R. Maurer. 1978. 'Drought resistance in spring wheat cultivars. Part 1: grain yield response'. Australian Journal of Agricultural Research, 29: 897–912.
Ghamarnia, H., H. Khosravy and S. Sepehri. 2010. 'Yield and water use efficiency of (Nigella sativa L.) under different irrigation treatments in a semiarid region in the west of Iran'. Journal of Medicinal Plants Research, 4(16): 1612-1616.
Gharby, S.,H. Harhar, D. Guillaume, A. Roudani and S. Boulbaroud. 2015. 'Chemical investigation of Nigella sativa L. seed oil produced in Morocco'. Journal of the Saudi Society of Agricultural Sciences, 14(2), 172-177.
Gholamnezhad, Z., R. Keyhanmanesh and M.H. Boskabady. 2015. 'Anti-inflammatory, antioxidant, and immunomodulatory aspects of Nigella sativa for its preventive and bronchodilator effects on obstructive respiratory diseases: A review of basic and clinical evidence'. Journal of Functional Foods, 17: 910-927.
Gupta, S.C., D. Hevia, S. Patchva, B. Park and W. Koh, 2012. 'Upsides and downsides of reactive oxygen species for cancer: the roles of reactive oxygen species in tumorigenesis, prevention, and therapy'. Antioxid Redox Signal, 16(11): 1295-1322.
Hajivand Ghassemabadi, F., H. R. Eisvand and O. A. Akbarpour. 2018. 'Evaluation of salinity tolerance of different clover species at germination and seedling stages'. Iranian Journal of Plant Physiology 8 (3), 24692477.
Heshmati, J., and N. Namazi, 2015. 'Effects of black seed (Nigella sativa) on metabolic parameters in diabetes mellitus: a systematic review'. Complementary Therapies in Medicine, 23(2): 275-282.
Mahdavi, R., J. Heshmati, and N. Namazi. 2015. 'Effects of black seeds (Nigella sativa) on male infertility: A systematic review'. Journal of Herbal Medicine, 5(3): 133-139.
Mardeh A.S.S., A. Ahmadi, K. Poustini and V. Mohammadi. 2006.' Evaluation of drought resistance indices under various environmental conditions'. Field Crops Research, 98, 222– 229.
McCaig, T.N. and J. M. Clarke. 1982. 'Seasonal changes in nonstructural carbohydrate levels of wheat and oats grown in semiarid environment'. Crop Science, 22: 963–970.
Mozzafari, F. S., M. Ghorbanli, A. Babai and M. Faramarzi. 2000. 'The effect of water stress on the seed oil of Nigella sativa'. Journal of Essential Oil Research, 12(1): 36-38.
Nadaf N.H., S.S. Gawade, A.S. Muniv, S.R. Waghmare, and D.B. Jadhav. 2015. 'Exploring anti-yeast activity of Nigella sativa seed extracts'. Industrial Crops and Products, 77: 624-630.
Omidbeygi, R., 2005. Production and Processing of Medicinal Plants. Vol.I. Behnashr Press. Mashhad, Iran. (In Persian).
Randhawa, M. A., O. M. Alaklobi, S. H. M. Ajabre, A. M. Alqurashi and N. Akhtar. 2005. 'Thymoquinone, an active principle of Nigella sativa, inhibited Fusarium solani'. Pakistan Journal of Medical Research, 44(1):1–3.
Sio-Se Mardeh, A., A. Ahmadi, K. Poustini and V. Mohammadi. 2006. 'Evaluation of drought resistance indices under various environmental conditions'. Field Crops Research, 98(2-3), 222-229.
Soltan S. and C. Mansourifar. 2017. The effect of drought stresson morphological and physiological traits and essence percentage of medicinal plant, Nigella sativa'. Biosci Biotech Res Comm. 1:298–305.