Role of exogenous phytoprotectants in mitigation of adverse effects of abiotic stresses
Subject Areas : GeneticAli Namvar 1 , Hashem Hadi 2 , Raouf Seyed sharifi 3
1 - Department of Crop Physiology, Faculty of Agronomy, Urmia University, Urmia, Iran
2 - Department of Agronomy, Faculty of Agronomy, Urmia University, Urmia, Iran
3 - Department of Agronomy and Plant Breeding, University of Mohaghegh Ardabili, Ardabili, Iran
Keywords: Abiotic stresses, Phytoprotectants, Stress tolerance, Yield increasing,
Abstract :
Plants are always subjected to various environmental adverse factors such as salinity, drought, high/low temperatures, heavy metal toxicity, waterlogging, UV-B radiation, and ozone. Abiotic stresses cause hampering in the growth, physiology, and yield of crops and thus, are an important challenge for crop production and food security. Various strategies have been proposed to improve crop production under stress conditions, but attempts to enhance yield under these conditions have been largely unsuccessful. However, in recent years, exogenous application of phytoprotectants such as osmoprotectants (like proline and Glycinebetaine), phytohormones (for instance Abscisic acid, Salicylic acid, Gibberellic acid, Jasmonic acid, Brassinosteroids, and polyamines), antioxidants (including Ascorbic acid, Glutathione, and Tocopherol), micro nutrients (like Iron and Zinc), and trace elements (including Selenium and Silicon) have been found effective in mitigating the stress-induced damage in plant. This strategy has gained considerable attention because of its high efficiency, feasibility, and cost and labor effectiveness. Moreover, exogenous phytoprotectants show acceptable capacity to enhance plants’ growth, yield, as well as stress tolerance under adverse environmental factors. Regarding the importance of the application of exogenous phytoprotectants under stress condition, this article provides a review of the major responses of plants to these components in the presence of growth restriction factors.
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Agarie, S., Hanaoka, N., Ueno, O., Miyazaki, A., Kubota, F. and Agata, W. (1998). Effects of silicon on tolerance to water deficit and heat stress in rice plants (Oryza sativa L.), monitored by electrolyte leakage. Plant Production Science. 1:96-103.
Ahmad, P. (2010). Growth and antioxidant responses in mustard (Brassica juncea L.) plants subjected to combined effect of gibberellic acid and salinity. Archive of Agronomy and Soil Science. 56:575-588.
Ahmad, P., Azooz, M.M. and Prasad, M.N.V. (2013). Ecophysiology and Responses of Plants under Salt Stress. Published by Springer.
Ahmed, M., Hassen, F., Qadeer, U. and Aslam, M.A. (2011). Silicon application and drought tolerance mechanism of sorghum. African Journal of Agricultural Research. 6:594-607.
Alam, M.M., Nahar, K., Hasanuzzaman, M. and Fujita, M. (2014). Exogenous jasmonic acid modulates the physiology, antioxidant defense and glyoxalase system in imparting drought stress tolerance in different Brassica species. Plant Biotechnology Report.8:279-293.
Ali, B., Hasan, S.A. and Hayat, S. (2008). A role for brassinosteroids in the amelioration of aluminium stress through antioxidant system in mung bean (Vigna radiata L. Wilczek). Environmental and Experimental Botany.62:153-159.
Ali, Q., Ashraf, M. and Athar, H.R. (2007). Exogenously applied proline at different growth stages enhances growth of two maize cultivars grown under water deficit conditions. Pakistan Journal of Botany. 39:1133-1144.
Arora, A.S., Umer, S. and Mishra, S.N.(2012). Boron and zinc response on growth in Vigna radiata L. Wilczek var. Pusa Vishal under salinity. International Journal of Plant, Animal and Environmental Sciences.2:131-138.
Ayub, N., Bano, A., Ramzan, S. and Usman, M. (2000). Effect of VAM on drought tolerance and growth of plant in comparison with the effect of growth regulators. Pakistan Journal of Biological Sciences. 3:957-959.
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Broadley, M., Brown, P., Cakmak, I., Ma, J.F., Rengel, Z. and Zhao, F. (2012). Beneficial Elements. In: Marschner, P. (Ed.), Marschner’s Mineral Nutrition of Higher Plants, 3rd edition Elsevier, Amsterdam, pp. 249-269.
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Chai, Y.Y., Jiang, C.D., Shi, L., Shi, T.S. and Gu, W.B.(2010). Effects of exogenous spermine on sweet sorghum during germination under salinity. Biologia Plantarum. 54:145-148.
Chu, I., Yao, X. and Zhang, Z.(2010). Responses of wheat seedlings to exogenous selenium supply under cold stress. Biological Trace Element Research. 136:355-363.
Davies, P.J.(2004). Plant Hormones, Biosynthesis, Signal Transduction, Action. Kluwer, Dordrecht.
Deivanai, S., Xavier, R., Vinod, V., Timalata, K. and Lim. O.F. (2011). Role of exogenous proline in ameliorating salt stress at early stage in two rice cultivars. Journal of Stress Physiology and Biochemistry. 7:157-174.
Djanaguiraman, M., Prasad, P.V.V. and Seppanen, M. (2010). Selenium protects sorghum leaves from oxidative damage under high temperature stress by enhancing antioxidant defense system. Plant Physiology and Biochemistry. 48:999-1007.
Dolatabadian, A. and Jouneghani, R.S. (2009). Impact of exogenous ascorbic acid on antioxidant activity and some physiological traits of common bean subjected to salinity stress. Notulae Botanicae Horti Agrobotanici Cluj-Napoca.37:165-172.
El-Bassiony, A.M., Ghoname, A.A., El-Awadi, M.E., Fawzy, Z.F. and Gruda, N. (2012). Ameliorative effects of brassinosteroids on growth and productivity of snap beans grown under high temperature. Gesunde Pflanzen.64:175-182.
Farooq, M., Wahid, A. and Lee, D.J. (2009). Exogenously applied polyamines increase drought tolerance of rice by improving leaf water status, photosynthesis and membrane properties. Acta Physiologiae Plantarum. 31, 937-945.
Farouk, S. (2011). Ascorbic acid and Tocopherol minimize salt-induced wheat leaf senescence. Journal of Stress Physiology and Biochemistry. 7:58-79.
Feng, R., Wei, C. and Tu, S. (2013). The roles of selenium in protecting plants against abiotic stresses. Environmental and Experimental Botany.87:58-68.
Foyer, C.H. and Noctor, G. (2011). Ascorbate and glutathione: The heart of the redox hub. PlantPhysiology. 155:2-18.
Fricke, W., Akhiyarova, G., Veselov, D. and Kudoyarova, G. (2004). Rapid and tissue-specific changes in ABA and in growth rate in response to salinity in barley leaves. Journal of Experimental Botany. 55:1115-1123.
Hasanuzzaman, M., Hossain, M.A. and Fujita, M. (2011). Selenium-induced up-regulation of the antioxidant defense and methylglyoxal detoxification system reduces salinity-induced damage in rapeseed seedlings. Biological Trace Element Research. 143:1704-1721.
Hasanuzzaman, M., Hossain, M.A. and Fujita, M. (2012). Exogenous selenium pretreatment protects rapeseed seedlings from cadmium-induced oxidative stress by upregulating the antioxidant defense and methylglyoxal detoxification systems. Biological Trace Element Research. 149:248-261.
Hussain, M., Malik, M.A., Farooq, M., Ashraf, M.Y. and Cheema, M.A. (2008). Improving drought tolerance by exogenous application of glycinebetaine and salicylic acid in sunflower. Journal of Agronomy and Crop Sciences. 194:193-199.
Imami, S., Jamshidi, S. and Shahrokhi, S. (2011). Salicylic acid foliar and soil application effect on chickpea resistance to chilling stress. International Proceedings of Chemical, Biological and Environmental Engineering. 24:403-407.
Kamran, M., Shahbaz, M., Ashraf, M. and Akram, N.A. (2009). Alleviation of drought induced adverse effects in spring wheat (Triticum aestivum L.) using proline as a presowing seed treatment. Pakistan Journal of Botany. 41:621-632.
Kattab, H. (2007). Role of glutathione and polyadenylic acid on the oxidative defense systems of two different cultivars of canola seedlings grown under saline condition. Australian Journal of Basic and Applied Sciences. 1:323-334.
Kaya, C., Tuna, A.L. and Yokas, I. (2009). The role of plant hormones in plants under salinity stress. In: Ashraf, M., Ozturk, M., Athar, HR. (eds) Salinity and water stress: improving crop efficiency. Springer, Berlin.
Kumar, S., Kaushal, N., Nayyar, H. and Gaur, P. (2012). Abscisic acid induces heat tolerance in chickpea (Cicer arietinum L.) seedlings by facilitated accumulation of osmoprotectants. Acta Physiologiae Plantarum. 34:1651-1658.
Kumar, S., Singh, R. and Nayyar, H. (2013). α-Tocopherol application modulates the response of wheat (Triticum aestivum L.) seedlings to elevated temperatures by mitigation of stress injury and enhancement of antioxidants. Journal of Plant Growth Regulation. 32(2):307-314.
Kumari, M., Sinhal, V.K., Srivastava, A. and Singh, V.P. (2011). Zinc alleviates cadmium induced toxicity in Vigna radiata (L.) Wilczek. Journal of Phytology.3:43-46.
Li, S.W., Leng, Y., Feng, L. and Zeng, Z.Y. (2014). Involvement of abscisic acid in regulating antioxidative defense systems and IAA oxidase activity and improving adventitious rooting in mung bean [Vigna radiata (L.) Wilczek] seedlings under cadmium stress. Environmental Science and Pollution Research. 21:525-537.
Liang, Y., Zhu, J., Li, Z., Chu, G., Ding, Y. and Zhang, J., (2008). Role of silicon in enhancing resistance to freezing stress in two contrasting winter wheat cultivars. Environmental and Experimental Botany. 64:286-294.
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