Document Type : Original Article

Authors

1 PhD. Student Crop Physiology, Department of Crop Production, Faculty of Agricultural and Natural Resources, University of Gonbad Kavous, Golestan, Iran

2 Associate Professor, Department of Crop Production, Faculty of Agricultural and Natural Resources, University of Gonbad Kavous, Golestan, Iran

3 Assistant Professor, Department of Crop Production, Faculty of Agricultural and Natural Resources, University of Gonbad Kavous, Golestan, Iran

Abstract

Introduction
Drought stress is considered as one of the most important environmental problems in agriculture and the growth of plants. The persistent shortage of water causes early aging of the leaves of plants. During this process, the chloroplasts are destroyed and photosynthesis activity sharply reduced. The adaptation of plants to drought stress is the result of a change in many morphological and biochemical mechanisms which lead to changes in plant growth rate, stomatal conductivity, photosynthesis process speed, and enzyme activity. The ability of plants to compromise in environmental stresses depends on the type, intensity and duration of stress and plant species. Salicylic acid is a phenolic compound known as an important molecular signal in plant fluctuations in response to environmental. Also alters a number of metabolic pathways including synthesis, oxidation and some biological activities including respiration, photosynthesis and absorption. Polyamines (PA) are a group of phytohormone-like aliphatic amine natural compounds with aliphatic nitrogen structure which are present in whole living organisms including plants. They play a role in collecting active radicals and increasing the tolerance of plants to abiotic stresses including salinity, drought and senescence. Plantago ovata Forssk is an annual herbal plant belonging to the Plantaginaceae family. So, among 28 species from Plantago genus, this species aspect economical is commercial source of mucilage. In recent years, according to reorganization plan for cultivation of medicinal plants in country, this crop has been recommended aspect 10 priority species of medicinal plants. Therefore, the purpose of this study was to evaluate the effect of foliar application of salicylic acid and spermine on some quantitative and qualitative characteristics of isabgol in water deficit conditions.

Materials and methods
The study was conducted as a split plot factorial experiment based on a randomized complete block design with 18 treatments and three replications in research field of the Gonbad Kavous University, Golestan Province, Iran in 2016. In this experiment, the treatment of irrigation included (non-stress: control), irrigation cutoff at flowering stage and irrigation cutoff at seed filling stage was the main-plot and factorial of salicylic acid (zero, 0.4 and 0.8 mM), plus spermine spraying (zero and 0.02 mM) were as a sub-plot. Foliar application of salicylic acid and spermine at budding (inflorescence production), flowering and seed filling stages were applied.

Results and discussion
Analysis of variance of data showed that in most of the characteristics, the combined effects of irrigation cutoff, salicylic acid and spermine, were significant at 1 or 5 percentage confidence levels. According to the results of the maximum grain and biological yield were found in the combined treatments of 0.8 mM salicylic acid spraying at irrigation interruptions at grain filling stage about 540.8 kg/ha-1 and 2795 kg/ha-1 respectively. The maximum amount of grain mucilage (19.7%) and swelling rate per gram mucilage (105.7 mg.l-1) were obtained in the treatment of 0.4 mM salicylic acid and 0.02 mM spermine in the absence of tension. According to the results, the foliar application of salicylic acid and spermine in cutoff irrigation conditions at flowering and seed filling stages significantly loss prevented more studied characteristics. It is concluded that the effective role of salicylic acid and spermine in osmotic regulation, membrane stability and elimination of active cell radicals could increase the tolerance of isabgol herb in water stress conditions.

Conclusion
According to the findings of this experiment and the research done on other plants, it was concluded that the‌ leaf foliar application of medicinal plants with phenolic and polyamines compounds such as salicylic acid and spermine with suitable concentrations can be considered as an effective step to reduce the adverse effects of water stress and finally increase the qualitative and quantitative characteristics of plant.

Keywords

Afsharmanesh, B., Afsharmanesh, Gh., Vakili Shahr babaki, M.A., 2008. Effect of water deficit and livestock manure on quantitative and qualitative yield and some physiological characteristics of Plantago ovata Forssk. Journal of Agricultural New Findings. 2(4), 327-337. [In Persian with English summary].
Bruneton, J., 1999. Pharmacognosy and phytochemistry medicinal plants. Techniques and documentation, vol 81, 2nd ed. Lavoisier Publishers, Paris, pp 106–109.
Chakraborty, M.K., Patel, K.V., 1992. Chemical composition of Isabgol (Plantago ovata Forsk) seed. Journal of Food Science, 29, 389-90.
Delavari, P.M., Baghizadeh, A., Enteshari, S.H., Kalantari, Kh.M., Yazdanpanah, A., Mousavi, E.A., 2010. The Effects of salicylic acid on some of biochemical and morphological characteristic of Ocimum basilicucm under salinity stress. Australian Journal of Basic and Applied Sciences. 4, 4832-4845.
Ebrahimzadeh, H., Mirmasuomi, M., Fakhr Tabatabaei, M., 1996. Study of the aspects of mucilage production in several regions of Iran with cultivation isabagol, plantago and psilium. Research and Construction. 33, 46-51. [In Persian with English summary].
Darvizheh, H., Zahedi, M., Abaszadeh, B., Razmjoo, J., 2018. Effects of irrigation regime and foliar application of salicylic acid and spermine on the contents of essential oil and caffeic acid derivatives in Echinacea purpurea L. Journal of Plant Growth Regulation. 37, 1267–1285. https://doi.org/10.1007/s00344-018-9874-z.
Ghasemi Dehkordi, N., 2002. Iranian Herbal Pharmacopeia. Ministry of Health and Medical Education, Food and Drug Administration Publication. Tehran. 795p. [In Persian].
Hara, M., Furukawa, J., Sato, A., Mizoguchi, T., Miura, K., 2012. Abiotic stress and role of salicylic acid in plantsIn: Parvaiza, A., Prasad, M.N.V (eds.), Abiotic Stress Responses in Plants. New York, NY: Springer, Pp. 235-251.
Jamal Omidi, F., Mohajjel Shoja, H., Sariri, R., 2018. Effect of water-deficit stress on secondary metabolites of Melissa officinalis L.: role of exogenous salicylic acid. Caspian Journal of Environmental Science. 16(2), 121-134.
Kalyanasundaram, N.K., Sriram, S., patel, B.R., Patel, R.B., Patel, D.H., Dalal, K.C., Gupta, R., 1984. Psyllium: a monopoly of Gujarat. Indian Journal of Horticulture, 28, 35-37.
Kang, G., Li, G., Xu, W., Peng, X., Han, Q., Zhu, Y., et al. 2012. Proteomics reveals the effects of salicylic acid on growth and tolerance to subsequent drought stress in wheat. Journal of Proteome Research. 11, 6066–6079.
Kaur-Sawhney, R., Tiburcio, A.F., Galston, A.W., 2003. Polyamines in plants: An overview. Journal of Cell and Molecular Biology. 2, 1-12.
Liu, M., Chen, J., Guo, Z., Lu, SH., 2017. Differential responses of polyamines and antioxidants to drought in a Centipedegrass Mutant in comparison to its wild type plants. Frontiers in Plant Science. 8, 792.
Mardani Karani, F., 2013. The Effect of vermicompost on growth and mucilage content and coping with the death of plant in Isabagol. Master's Thesis. Shahrekord University. [In Persian].
Moosavinick, M., 2012. Effect of different levels of sulfur fertilizer on quantitative and qualitative performance of Plantago ovate L. in drought stress conditions in Balochistan region. Journal of Agroecology. 4(2), 170-182. [In Persian with English summary].
Mustafavi, S.H., Shekari, F., Nasiri, Y., Hatami-Maleki, H., 2015. Nutritional and biochemical response of water-stressed valerian plants to foliar application of spermidine. Biological Forum–An International Journal. 7(1), 1811-1815.
Omidbaigi, R., 2005. Production and Processing of Medicinal Plants. Astane Quds Publication. Tehran. 438p. [In Persian].
Parvin, S., Lee, O.R., Sathiyaraj, G., Khorolragchaa, A., Kim, Y.J., Yang, D.C., 2014. Spermidine alleviates the growth of saline-stressed ginseng seedlings through antioxidative defense system. Elsevier B.V. 537(1), 70-80.
Pirjalili, F., Omidi, H., 2017. Effects of drought stress on grain yield and qualitative characteristics of three populations of Lallemantia royleana Benth. Iranian Journal of Medicinal and Aromatic Plants. 33(1), 25-38. [In Persian with English summary].
Pouryousf, M., 2007. The effect of soil fertilizing systems (organic and inorganic) on nutrients content, yield, yield components and mucilage of isabgol (Plantago ovata) under different irrigation regimes. PhD. Thesis in Agronomy. Faculty of Agriculture, University of Tehran, Iran. [In Persian].
Rahimi, A., Madah Hoseini, S., Sajjadinia, A.R., Roosta, H.R., Fateh, E., 2011. Water use and water-use efficiency of isabgol (Plantago ovata) and French psyllium (Plantago psyllium) in different irrigation regimes. Australian Journal of Crop Science. 5(1), 71-77.
Ramroudi, M., Galavi, M., Siahsar, B.A., Allahdo, M., 2011. Effect of micronutrient and irrigation deficit on yield and yield components of isabgol (Plantago ovata Forsk) using multivariate analysis. Journal of Food, Agriculture and Environment. 9(1), 247-251.
Razavizadeh, R., Shafeghat, M., Najafi, Sh., 2017. Effect of water deficit on morphological and physiological parameters of Carum copticum. Iranian Journal of Plant Biology. 6(22), 25-38. [In Persian with English summary].
Rezaichianah, A., Pirzad, A.S., 2014. Effect of salicylic acid on yield, yield components and essential oil of Nigella sativa L. under drought stress conditions. Iranian Journal of Field Crops Research. 12(3), 427-437. [In Persian with English summary].
Senaratna, T., Touchell, D., Bunn, E., Dixon, K., 2000. Acetyl salicylic acid (aspirin) and salicylic acid induce multiple stress tolerance in bean and tomato plants. Plant Growth Regulation. 30, 157–161.
Serrano, M., Martines-Romero, D., Castillo, S., Guillen, F., Velero, D., 2004. Role of calcium and heat treatmens in alleviating physiological changes induced mechanical damage in plum. Postharvest Biology and Technology. 34, 155-167.
Shaoyun, L., Su, W., Li, H., Guo, H., 2009. Abscisic acid improves drought tolerance of triploid bermudagrass and involves H2O2 and NO-induced antioxidant enzyme activities. Plant Physiology and Biochemistry. 47, 132-138.
Shi, H., Tiantian, Y., Zhulong, C., 2014. Comparative proteomic responses of two bermudagrass (Cynodon dactylon L). Pers. varieties contrasting in drought stress resistance. Plant Physiology and Biochemistry. 82, 218-228.
Takahashi, T., Kakehi, J.I., 2010. Polyamine: Ubiquitous polycations with unique roles in growth and stress responses. Annals of botany. 105, 1-6.
Thakur, A., Upadhyaya, S.D., Upadhyay, A., Preeti, S.N., 2012. Responses of moisture stress on growth, yield and quality of Isabgol (Plantago ovata Forsk). Journal of Agricultural Technology. 8(2), 563-570.
Thanki, R.J., Talati, J.G., 1983. Review of work done on quality evaluation on isabgol seed at Anand. Presented at V All India Workshop on Medicinal and Aromatic Plants held at Solan, Himachal Pradesh.
Yazdanpanah, S., Baghizadeh, A., Abbassi, F., 2011. The interaction between drought stress and salicylic and ascorbic acids on some biochemical characteristics of Satureja hortensis. African Journal of Agricultural Research. 6, 798-807.
Yordanov, V., Tsoev, T., 2000. Plant responses to drought, acclimation and stress tolerance. Photosynthica. 38, 171-186.