Environmental Stresses in Crop Sciences

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The effect of salicylic acid on alleviating the frost and drought stress on yield and related traits of maize hybrid SC400 (Zea mays L.)

Document Type : Original Article

Authors

1 PhD student, Department of Agronomy and Plant Breeding, Faculty of Agriculture, Ferdowsi University of Mashhad.

2 Department of Agronomy and Plant Breeding, Faculty of Agriculture, Ferdowsi University of Mashhad.

3 Agricultural Biotechnology Research Institute of Iran, Karaj, Iran.

Abstract

Introduction
Plants are affected by many unfavorable environmental factors and therefore crop growth and development is retarded. Cold and water stress impose a considerable damage to the economy and country’s agricultural production every year. Salicylic acid is of phenolic compounds which is found in many plants, and considered as quasi hormonal substance that plays an important role in the growth and development of plants. Salicylic acid plays an important role in resistance to environmental stresses. The aim of this study was to investigate the effects salicylic acid spraying on alleviating the chilling and drought stresses on yield and agronomic traits of maize single cross 400.

Materials and methods
This experiment was performed as a split-split plot in a randomized complete block design with three replications during 1394 in the greenhouse and the Research Farm of Faculty of Agricultural Ferdowsi University of Mashhad. The main plot of cold stress at two levels (non-stress and cold stress at 5ºC for 12 hours at 4th leaf stage), sub factors were three levels of irrigation (100, 75 and 50% of water requirement) and sub-sub plot was spraying with salicylic acid (non- (control) , 200 and 400 µM spraying
After cold stress, seedlings of Single cross 400 were planted in the field. The plots were prapared with four meters length and three meters widths and row spacing of 75 cm with 75000 plants per hectare. At the end of the growing season to determine yield components, five plants were randomly taken from each plot from one square meter and biomass and kernel yield was recorded. MSTATC software implemented for statistical analysis and the means were compared using LSD test.

Results and discussion
The effect of drought stress and salicylic acid on the seed number per plant was significant. So that 100% irrigation %cause to improve 34.2% %in seed number per plant compared to 50% %of water requirement. Spraying plants with 200 and 400 µM improved the trait at a rate of 13.6 % compared to non-spraying (control). Effects of drought stress, salicylic acid and interaction of salicylic acid with drought on seed yield were significant. The treatment of 100% water requirement with 400 µM spraying with an increase of 54.3% showed the highest seed yield compared to 50% water requirements with spraying. In another study also corn foliar spaying with salicylic acid in flowering stage increased seed yield (Bayat et al., 2010). Effects of drought stress and salicylic acid and their interaction on biological yield were significant. The highest biological yield was obtained in 100% water treatment with 400 µM salicylic acid spraying with 55.2% higher biomass compared to 50% water treatment with similar salicylic acid spraying.
Harvest Index in treatment of 400 µM salicylic acid spraying in irrigation conditions of 100% water requirement was 11.1% more than in irrigation conditions of 50% water requirement with the same salicylic acid spraying. Setter et al (Setter et al., 2001) similarly reported that corn grain yield reduced under drought stress.

Conclusions
The results of this study showed that cold stress did not have negative impact on SC400 corn hybrid on tested traits. But the drought stress reduced corn yield components (such as the number of seeds and rows in corn), seed weight, biological yield, seed yield, and harvest index. 400 µM salicylic acid applications can be significantly increased biological yield and seed yield SC400 corn.

Keywords

References
Abd El-Wahed, M., Amin, A., M.El-Sh, A., 2006. Physiological effect of some bioregulators on vegetative growth, yield and chemical constituents of yellow mays plants. World Journal of Agricultur Science. 2, 149-155.
Afzon, H., 2014. The effect of foliar application of salicylic acid on the growth of corn under irrigation and irrigation.MSc dissertation, Faculty of Agriculture, University of Ilam, Iran. [In Persian with English Summary].
Allen, R.G., Pereira, L.S., Raes, D., Smith, M., 1998. Crop evapotranspiration Guidelines for Computing Crop Water Requirements. FAO Irrigation and Drainage Paper 56. FAO, Rome.
Al-Omran, A., Sheta, M., Falatan, A.S., Al–Harb, A.R., 2000. Effect of drip irrigation on squash (Cucrbita pepo) yield and water use efficiency in sandy calcareous soils amended with clay deposits. Agricultural Water Management, 37, 111-112.
Aminizade, A., 2015. The effect of salicylic acid and different irrigation regimes on the growth, yield and yield components of maize single cross 704. MSc dissertation, Faculty of Agriculture, University of Shahid bahonar Kerman, Iran. [In Persian with English Summary].
Azizinia, Sh., Ghanadha, M.R., Zali, A.A., Yazdi Samadi, B., Ahmadi, A.,2005. Evaluation and assess of quantitative traits related to drought tolerance inwheat. Iranian Journal of Agricultural Sciences. 36, 281-292. [In Persian with English Summary].
Bayat, S., Sepehri, A., Zare abyaneh, H., Abdollahi, M.R., 2010. Effect of salicylic acidandpaclobutrazol on growth indexes and yield of maize under water stress. Journal ofCrop Ecophysiology, 2(1), 34-40. [In Persian with English Summary].
Bezrukova, M., Sakhabutdinova, R., Fatkhutdinova, R.A., Kyldiarova. I., Shakirova, F., Sakhabutdinova, A.R., 2001. The role of hormonal changes inprotective action of salicylic acid on growth of wheat seedlings under water deficit. Agrochemiya. 2, 51–54.
Calir, R., 2004. Effect of water stress at differentdevelopment stages on vegetative andreproductive growth of corn. Field CropsResearch. 89(1), 1-16.
El-Tayeb, M.A., 2005. Response of barley grain to the interactive effect of salinity and salicylic acid. Plant Growth Regulation. 45, 215-225.
Fahad, S., Bano, A., 2012. Effect of salicylic acid on physiological and biochemical characterization of maize grown in saline area. Pakistan Journal Botany. 44(4), 1433-1438.
Farre, I., Faci, J.M., 2006. Comparative response of maize (Zea mays L.) and sorghum(Sorghum bicolor L.) to deficit irrigation in a Mediterranean environment. AgriculturalWater Management. 83, 135- 143.
Ghahramani, A., 2009. Foliar application of amino acids and silicic acid on growth and yield ofsunflower under drought stress. M.Sc. Thesis. Agronomy and Crop Development Department. College of Agriculture. Islamic Azad University, Branch Arak. 116 pages. [In Persian].
Gholinejad, E., Aeenehband, A., Hasanzade Ghorttappe, A., Barnoosi, I., Rezaei, H., 2009.Evaluation of effective drought stress on yield, yield components and harvest index ofsunflowerhybrid Iroflor at different levels of nitrogen and plant population in Urmieh climate conditions. Journal ofPlant Production.16(3), 1-27. [In Persian].
Johnston, A.M., Fowler, D.B., 1992. Response of no-till winter wheat to nitrogen fertilization and droughtstress. Candian Journal of Plant Science. 72, 1075-1089.
Karimi, M., Esfahani, M., Biglouei, M.H., Rabiei, B., Kafi-Ghasemi, A., 2009. Effect of deficit irrigation treatments on morphological traits and growth indices of forage corn in the Rasht climate. Electronic Journal of Crop Production. 2, 91-110. [In Persian].
Kang, G., 2003. Salicylic acid changes activities of H2O2 metabolizing enzymes andincreases the chilling tolerance of banana seedlings. Environmental and Experimental Botany.50, 9-15.
Kumar, P., 1999. Effect of Salicylic acid on growth, development and some biochemical aspects of soybean Glycine max L. Indian Journal of Plant Physiology. 4, 327-330.
Lyle, W.M., Bordvosky, J.P., 1995. Leap corn irrigation with limited water supplies. Transaction of the ASAE. 38,455-462.
Mehrabian Moghadam, N., Arvin, G., Khajoee Nejad, R., Maghsod, K., 2011. Effect of salicylic acid on the growth and yield of corn in drought conditions on the farm. Journal of Crop Seed. 41-55(1), 27-2. [In Persian].
Nesmith, D.S., Ritchie, J.T., 1992. Short- and long- term responses of corn to a pre- anthesis soil water deficit. Agronmy Journal. 84, 107-113.
Raskin, I., 1992. Role of Salicylic Acid in Plants. Annual Review of Plant Physiology andPlant Molecular Biology. 43, 439-463.
Sakhabutidnova, A., Fatkhutdinova, D., Bezrukova, M., Shakirova, F., 2003. Salicylic acid prevents the damage action ofstress factors on wheat plants. Plant Physiology.Special Issue. (5), 314-319.
Seppanen, M., 2000. Characterization of freezing tolerance in Solanum commersoniiwith special reference to therelationship between freezing and oxidativestress. University of Helsinki Department ofPlant Production Section of CropHusbandry.
Sepehri, A., Baiat, S., 2013. Effects of Salicylic Acid and Paclobutrazol on the yield of maize under different irrigation intervals. Plant Production. 35(4), 55-68. [In Persian].
Senaratna, T., Touchell, D., Bunn, E., Dixon, K., 2000. Acetyl salicylic acid (Aspirin) and salicylic acid induce multiple stress tolerance in bean and tomato plant. PlantGrowth Regulation. 30(2), 157-161.
Setter, T. L., Brian, A., Lannigan, F., Melkonian, J., 2001. Loss of kernel set due to water deficit and shade in maize: carbohydrate supplies, abscissic acid and cytokinins. Crop Science. 41, 1530-1540.
Shakirova, F., Sakhabutdinova, A., Bezrukova,M., Fatkhutdinova, R., Fatkhutdinova, R., 2003. Changes in the hormonal status of wheatseedlings induced by salicylic acid and salinity. Plant Science. 164, 317-322.
Singh, B., Usha, K., 2003. Salicylic acid induced physiological and biochemical changes in wheat seedlings under water stress. Plant Growth Regulation. 39, 137- 141.
Villalobos, F.J., Mateos, L., Orgaz, F., Fereres, E., 2002. Fitotecnia. Bases y tecnologı´as de la produccio´n agrı´cola. Ed. Mundi-Prensa, Madrid, p. 496.
Yousefvand, P., 2011. The Effect of Zeolite and selenium in drought stress on the agricultural andbiochemical characteristics of the oily sunflower. M.Sc. Thesis. Agronomy and crop developmentdepartment. College of agriculture. Islamic Azad University, Branch, Arak. 128 pages. [In Persian].
Environmental Stresses in Crop Sciences
Volume 10, Issue 4
Open Access Policy
January 2017
Pages 615-625
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History
  • Receive Date: 29 March 2016
  • Revise Date: 29 May 2016
  • Accept Date: 31 May 2016
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