Improving Effects of Salicylic Acid on Morphological, Physiological and Biochemical Responses of Salt-imposed Winter Jasmine

Document Type : Research paper

Authors

1 Horticulture Department, Isfahan (Khorasgan) Branch, Islamic Azad University, Isfahan, Iran.

2 Young Researchers Club, Isfahan (Khorasgan) Branch, Islamic Azad University, Isfahan, Iran.

Abstract

To investigate the positive effects of salicylic acid (SA) on morphological and biochemical traits of salinity stress-imposed winter jasmine, an experiment was conducted in a research greenhouse. The experiment was conducted using a factorial experiment based on completely randomized design with four levels of salinity stress (2, 4, 6, and 8 dS.m-1) as the first factor and different levels of SA plant hormone (control, 181 and 362 μM) as the second factor in three replications. The results showed that spraying SA on winter jasmine plants,  significantly improved all studied traits such as plant height, internode distance, fresh and dry weights, flower number, flower diameter, content of protein, POD and SOD enzyme activities. The positive effects of SA was concentration dependent. Salinity stress increased the activity of peroxidase (POD) and superoxide dismutase (SOD) enzymes compared to 2 dS.m-1 salt treatment. The highest enzymatic activities ​​were observed at 8 dS m-1. In general, according to the obtained results, it can be concluded that foliar application of SA on the plants, has the potential to reduce the negative effects of salinity stress on winter jasmine.

Keywords


Aboutalebi Jahromi A, Hosseini Farahi M. 2016. Seed germination, vegetative growth and concentration of some elements in French marigold (Tageta patula) as influenced by salinity and ammonium nitrate. International Journal of Horticultural Science and Technology3(2): 199-209.
Al-Hakimi A.M.A, Hamada A.M. 2001. Counteraction of salinity stress on wheat plants by grain soaking in ascorbic acid, thiamin or sodium salicylate. Journal of Plant Biology 44(2): 253-261.
Al-Whaibi H.M, Siddiqui M.H, Basalah M.O. 2012. Salicylic acid and calcium-induced protection of wheat against salinity. Protoplasma 249: 769-778.
Aliniaeifard S, Hajilou J, Tabatabaei S.J. 2016. Photosynthetic and growth responses of olive to proline and salicylic acid under salinity condition. Notulae Botanicae Horti Agrobotanici Cluj-Napoca 44(2): 579-585.
Averina N.G, Gritskevich E.R, Ershilovskaya I.V.V, Usatov A.V, Yaronskaya E.B. 2010. Mechanisms of salt stress tolerance development in barley plants under the influence of 5-aminolevulinic acid. Russian Journal of Plant Physiology 57(6): 792-798.
Aydin A, Kant C, Turan M. 2011. Hydrogel substrate alleviates salt stress with increase antioxidant enzymes activity of bean (Phaseolus vulgaris L.) under salinity stress. African Journal of Agricultural Research 6: 715-724.
Bailly C. 2004. Active oxygen species and antioxidants in seed biology. Seed Science Research 14: 93-107.
Erasalan F, Inal A, Gunes A, Alpaslan M. 2007. Impact of exogenous salicylic acid on the growth, antioxidant activity and physiology of carrot plants subjected to combined salinity and boron toxicity. Scientia Horticulturae 113(2): 120-128.
Fikret Y, Manar T, Şebnem E, Şebnem K, Özlem U. 2013. SOD, CAT, GR and APX enzyme activities in callus tissues of susceptible and tolerant eggplant varieties under salt stress. Research Journal of Biotechnology 8(11): 45-51.
Grailoo S, Ghasemnezhad M. 2011. Effect of salicylic acid on antioxidant Enzyme activity and petal senescence in ‘Yellow Island’ cut rose flowers. Journal of Fruit and Ornamental Plant Research 19(1): 183-193.
Hadi H, Najafabadi A, Amirnia R. 2014. Comparison of different treatment methods of salicylic acid on some physiological traits of white bean under salinity stress. Cercetari Agronomics in Moldova 47(3): 97- 105.
Hashempour A, Ghasemzhad M, Fotouhi G, Sohani M.M. 2014. The physiological and biochemical response to freezing stress olive plants treated with salicylic acid. Russian Journal of Plant Physiology 61(4): 443-450
Joseph B, Jini D. 2005. Salinity induced programmed cell death in plants: challenges and opportunities for salt-tolerant plants. Journal of Plant Sciences 5(4): 376-390.
Khan M.I, Fatma M, Per T.S, Anjum N.A, Khan N.A. 2015. Salicylic acid-induced abiotic stress tolerance and underlying mechanisms in plants. Journal of Plant Sciences 6:462.
Khan N.A, Syeed S, Masood A, Nazar R, Iqbal N. 2010. Application of salicylic acid increases contents of nutrients and antioxidative metabolism in mungbean and alleviates adverse effects of salinity stress. International Journal of Plant Biology 1: 1-8.
Kozlowski T. 1997. Responses of woody plants to flooding and salinity-Tree physiology monograph 13-15.
Lee S, Kim S.G, Park C.M. 2010. Salicylic acid promotes seed germination under high salinity by modulating antioxidant activity in Arabidopsis. New Phytologist Journal 188: 626-637.
Mahajan S, Tuteja N. 2005. Cold, salinity and drought stresses: an overview. Archives of Biochemistry and Biophysics 444: 139-158.
Marchi G, Viti C, Giovannetti L, Surico G. 2005. Spread of levan -positive population of Pseudomonas savastanoi pv. savastanoi, the causal agent of olive knot, in central Italy. European Journal of Plant Pathology 112(2): 101-112.
Mittler R, Vanderauwera S, Gollery M, Van Breusegem F. 2004. The reactive oxygen gene network in plants. Trends Plant Science 9: 490-498.
Miura K, Tada Y. 2014. Regulation of water, salinity, and cold stress responses by salicylic acid. Plant Science Journal 5:410.
Moradinezhad F, Khayyat M. 2014. Effects of intermittent warming and prestorage treatments (hot water, salicylic acid, calcium chloride) on postharvest life of pomegranate fruit cv. ‘shishe-kab’ during long-term cold storage. International Journal of Horticultural Science and Technology 1(1): 43-51.
Parihar P, Singh S, Singh R, Singh V.P, Prasad S.M. 2015. Effect of salinity stress on plants and its tolerance strategies: a review. Environmental Science and Pollution Research 22(6): 4056-4075.
Poor P, Gémes K, Horváth F, Szepesi A, Simon M.L, Tari I. 2011. Salicylic acid treatment via the rooting medium interferes with stomatal response, CO2 fixation rate and carbohydrate metabolism in tomato, and decreases harmful effects of subsequent salt stress. Plant Biology. 13(1): 105-114.
Rajasekaran L.R. Stiles A, Caldwell C. 2002. Stand establishment in processing carrots: Effects of various temperature regimes on germination and the role of salicylates in promoting germination at low temperature.  Journal of plant Science 82: 443-450.
Rajeshwari V, Bhuvaneshwari V. 2017. Salicylic acid induced salt stress tolerance in plants. International Journal of Plant Biology and Research 5(3): 1067-1073.
Rao M.K.V, Raghavendra A.S, Janardhan P.K. 2006. Physiology and molecular biology of stress tolerance in plants. Published by Springer, Dordrecht, Netherlands.
Salachna P, Piechocki R. 2016. Effects of sodium chloride on growth and mineral nutrition of purpletop vervain. Journal of Ecological Engineering 17(2): 148-152.
Shannon M, Grieve C, Francois L. 1994. In plant environment interactions. Ed. R.E. Wilkinson. Marcel Dekker. New York. 199-244.
Sharma P, Dubey R.S. 2005. Drought induces oxidative stress and enhances the activities of antioxidant enzymes in growing rice seedlings. Plant Growth Regulation 46: 209- 221.
Taghavi M, Hasani S. 2012. Occurrence of Psedomonas savastanoi the causal agent of winter jasmin gall in Iran. Iran Agricultural Research31(1): 39-48.
Tissa S, Darren D, Eric B, Kinsley D. 2000. Acetyl salicylic acid (aspirin) and salicylic acid induce multiple stress tolerance in bean and tomato plants. Plant Growth Regulation 30: 157-161.
Waskiewicz A, Gładysz O, Szentner K, Golinski P. 2014. Role of glutathione in a biotic stress tolerance. In: Oxidative damage to plants antioxidant networks and signaling 149-181.
Wrochna M, Małecka-Przybysz M, Gawrońska H. 2010. Effect of road deicing salts with anti-corrosion agents on selected plant species. Acta Scientiarum Polonorum, Hortorum Cultus 9(4): 171-182.
Xu L, Han L, Huang B. 2011. Antioxidant Enzyme Activities and Gene Expression Patterns in Leaves of Kentucky bluegrass in Response to Drought and Post-drought Recovery. Journal of the American Society for Horticultural Science 136(4): 247-256.
Yavas I, Unay A. 2016. Effects of zinc and salicylic acid on wheat under drought stress. Journal of Animal and Plant Sciences 26(4):1012-101.
Zapryanova N, Atanassova B. 2014. Effects of salt stress on growth and flowering of ornamental annual species. Biotechnology and Biotechnological Equipment 23(1): 177-179.
Zhang J, Jiang H, Song X, Jin J, Zhang X. 2018. The responses of plant leaf CO2/H2O exchange and water use efficiency to drought: A Meta-Analysis. Sustainability 10(2): 551-564.
Zheng M.Y, Wei Y.S. 2003. Studied on the content of flavonoids in Jasminum nudiflorum Lindl, Natural Product Research and Development 15: 494-497.