Evaluation Effect of Growth-stimulating Bacteria and Salicylic Acid on Growth Physiological Indices and Grain Yield of Corn (Zea mays L.) under Non-irrigation Conditions at Different Growth Stages
محورهای موضوعی : Journal of Crop Nutrition ScienceGholam Esmaeilvandi 1 , Kamran Mohsenifar 2
1 - MSc. Graduated, Department of Agronomy, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran.
2 - Department of Soil Science, Ahvaz Branch, Islamic Azad University, Ahvaz, Iran
کلید واژه: Maize, Seed yield, Biofertilizer, Nitroxin, growth curve,
چکیده مقاله :
BACKGROUND: Under water deficit conditions, use of growth-promoting bacteria and salicylic acid as a plant growth stimulant is very useful. OBJECTIVES: This research was conducted to assess effects of biological fertilizers and salicylic acid under non-irrigation conditions at different growth stages on growth indices and crop production of corn during 2016 cropping season. METHODS: The study was done via split-plot experiment, based on Randomized Complete Block Design with three replications. The treatments included full irrigation (control), non-irrigation from flowering stage to the end of growth period, non-irrigation from the beginning of the grain filling stage to the end of the growth period, belonged to main plots and biological fertilizers and salicylic acid treatment were placed in sub-plots [control treatment, 1 mM salicylic acid, nitroxin + biophosphorus bacteria grain rub, nitroxin + biophosphorus bacteria grain rub along with salicylic acid spraying]. RESULT: The results showed that the full irrigation treatment significantly improved the growth physiological indices such as the leaf area index. The combination of nitroxin, biophosphorus and salicylic acid had a positive and significant effect on the examined indicators. The effects of non-irrigation treatments, biological fertilizers, salicylic acid and their interaction effect on grain yield were significant. Non-irrigation from flowering stage reduced the grain yield by 58.3% compared to the control. The combined application of biological fertilizers + salicylic acid in treatments of non-irrigation and full irrigation significantly increased the grain yield. In the treatment of non-irrigation from flowering and early grain filling, the nitroxin + biophosphorus + salicylic acid bacteria treatment increased the grain yield by 22.7% and 19.3%, respectively, compared to the control. The maximum grain yield (6552 kg.ha-1) belonged to the full irrigation treatment and nitroxin + biophosphorus + salicylic acid foliar application. CONCLUSION: In case of non-irrigation during grain filling stage, by use Nitroxin + biophosphorus bacteria grain rub treatment along with salicylic acid foliar application, also to provide suitable conditions for corn growth, a significant amount of drought stress effect can be reduced and obtained yield under normal conditions.
Abraham C. P., V. Viswagith, S. Prabha, K. Sundhar. and P. Malliga. 2007. Effect of coir pith based cyanobacterial basal and foliar biofertilizer on Baseella rubra L. Acta Agriculturae Slovenica. pp: 59-63. Academy of Sci. 91: 11-17.
AL-Aghabary, K., Z. Zhujun. and S. Qinhua. 2004. Influence of Silicon Supply on Chlorophyll Content, Chlorophyll Fluorescence, and Anti oxidative Enzyme Activities in Tomato Plants Under Salt Stress. Plant Nutrition. 27: 2101-2115.
Alizadeh, A. 2014. Investigating the effect of different amounts of nitrogen fertilizer and drought stress at different stages of growth on physiological characteristics, yield and yield components, and the rate of absorption of nutrients, as well as the study of mycorrhizal symbiosis in corn. Thesis of a specialized doctorate in the physiology of agricultural plants. Islamic Azad University, Ahvaz Science and Research Unit. 246 p.
Atteya, A. M. 2003. Characterization of growth and water relations in barely during water stress and after re-watering. Aust. J. Agri. Res. 29: 285-296.
Cakir, R. 2004. Effect of water stress at different development stages on vegetative and reproductive growth of corn. Field Crops Res. 89: 1-16.
Earl, H. J. and R. F. Davis. 2003. Effect of drought stress on leaf and whole canopy radiation use efficiency and yield of maize. Agronomy J. 95: 688-696.
Ehteshami, S. M. R., I. Janzamani, M. Ramezani, K. Khavazi. and B. Zand. 2013. Effect on integrated management of phosphprus fertilizer on quantitative and qualitative yield of two forage corn cultivars in Varamin. Crop Improvement. 15(1): 95-110.
Erickson, I. J., D. L. Ketring. and J. F. Stone. 2009. Response of internal-tissue water balance of peanut to soil water. Agronomy J. 72: 73-80.
Fazeli Rostampur, M., M. J. Seghataleslami. and S. Gh. R. Moosavi. 2010. The effect of water stress and polymer superabsorbent A200 on yield and water use efficiency maize (Zea mays L.) in zone birjand. J. Environ. Stresess Crop Sci. 4(1): 11-19.
Gardner, F. P., R. B. Pearce. and R. L. Mitchell. 1984. Physiology of Crop Plants. Iowa State Pr; First Edition. USA. 328p.
Garsia, R., and J. J. Hanowy. 2006. Foliar fertilization of Soybean during the grain filling period. Agronomy Journal. 68: 653-657.
Han, H. S. and K. D. Lee. 2005. Plant growth promoting rhizobacteria effect on antioxidant status, photosynthesis, mineral uptake and growth of Lettuce under soil salinity. Res. J. Agri. Biol. Sci. 1(3): 210-215.
Hopkins, W. and N. Huner. 2008. Introduction to Plant Physiology. The University of Western Ontario. John Wiley Sons. Inc. Canada.
Islam M. R., Y. Hu, C. Fei, X. Qian, A. E. Eneji. and X. Xue. 2011. Application of superabsorbent polymer: A new approach for corn (Zea mays L.) in drought-affected areas of northern china. J. Food, Agriculture and Environment. 9: 304-309.
Jalilian, J. and O. Mohsennia. 2013. Effects of superabsorbent and irrigation regime on seedling growth characteristics of Barley (Hordeum Vulgare L.). Cercetari Agronomice in Moldova. 46(3): 11–19.
Jensen, C. R., V. O. Morgensen, G. Mortensen, J. K. Fieldsend, G. F. J. Milford, M. N. Anderson. and J. H. Thage. 1996. Seed glucosinolate, oil and protein contents of field grown maize (Zea mays L.) affected by soil drying and evaporative demand. Field Crops Res. 47(2-3): 93-105.
Kuiper, D., J. Schuit. and P. J. C. Kuiper. 1990. Actual cytokinin concentrations in plant tissue as an indicator for salt resistance in cereals. Plant Soil. 123: 243-250.
Lak, Sh., A. Naderi, S. A. Siadat, A. Ayenehband. and Gh. Noor Mohammadi. 2015. The effect of different levels of nitrogen and plant density at different humidity conditions on yield. Components of yield and water consumption efficiency of Single Cross 704 Corn. Iranian J. Agri. Sci. 8(2): 153-170.
Li, X., J. Z. He, J. M. Hughes, Y. R. Liu. and Y. M. Zheng. 2014. Effects of super-absorbent polymers on a soil- corn system in the field. Appl. Soil Ecol. 73: 58-63.
Liu, H. H., B. J. Yu, W. H. Zhang. and Y. L. Liu. 2005. Effect of osmotic stress on the activity of Ht ATPase and the levels of covalent and non-covalenty conjugat polyamines in plasma membrane preparation from wheat seedling roots. Plant Sci. 168: 1599-1607.
Mao, S., M. R. Islam, X. Xue, X. Yang, X. Zhao. and Y. Hu. 2011. Evaluation of a watersaving superabsorbent polymer for corn (Zea mays L.) production in arid regions of Northern China. Afri. J. Agri. Res. 6(17): 4108-4115.
McCaig, T. N. and I. Romugosa. 2009. Measurement and use of excised-Leaf water status in wheat. Crop Sci. 29: 1140-1145.
Mckersie, B. D. and Y. Y. Leshem. 2004. Stress and stress coping in cultivated plants. Kluwer Academic Publishers, Dordrecht, The Netherlands.
Memar, M. R. and M. Mojadam. 2015. The effect of irrigation intervals and different amounts of super absorption yield and yield components of sesame in Hamidiyeh weather conditions. Indian J. Fundamental and Appl. Life Sci. 5(1): 179-186.
Nazarli, H., M. R. Zardashti, R. Darvishzadeh. and S. Najafi. 2010. The effect of water stress and polymer on water use efficiency, yield and several morphological traits of sunflower. Notulae Scientia Biologicae. 2(4): 53-58.
Nesmith, D. S. and J. T. Ritchie. 1992. Short and long-term responses of corn to a pre- anthesis soil water deficit. Agronomy J. 84: 107-113.
Poneleit, C. G., D. B. Egli, P. L. Cornelius. and D. A. Reicosky. 2008. Variation and associations of kernel growth characteristics in maize population. Crop Sci. 20: 766-770.
Rashidi, Sh. 2005. Investigating the effect of drought stress in different stages of growth and different levels of nitrogen fertilizer on the yield and yield components of corn in the climate of Khuzestan. Msc. Thesis. Khuzestan Univ. Agri. Natural Resources. 151p.
Sharma, A. K. 2003. Biofertilizers for Sustainable Agriculture. Updesh Purohit for Agrobios. Jodhpur. India. 41-46.
Shoae Hoseini, S. M., M. Farsi. and S. Khavari Khorasani. 2008. Investigation of water deficit stress effects on yield and yield components using path analysis in some corn hybrids. J. Agricultural Knowledge. 18(1): 71-85.
Smith, H. 2008. Signal perception, differential expression within multigene families and the molecular basis of phenotypic plasticity. Plant Cell and Environment. 13: 585-594.
Sobhani, A. 2000. Guide for determination of leaf surface index of agricultural plants. Promotional magazine. Agricultural Education and Promotion Research Organization. Ministry of Agriculture.
Stegma, E. C. and G. W. Lemert. 1981. Sunflower yield versus water deficit in major periods. Am. Society Agri. Biol. Engineers.
Tohidi Moghadam, H. R. 2016. Application of super absorbent polymer and ascorbic acid to mitigate deleterious effects of cadmium in wheat. Pesquisa Agropecuária Tropical. 46(1): 9-18.
Valad Abadi, S. A. R., H. Aliabadi Farahani. and P. Moaveni. 2009. Investigate effect of nitrogen application on essential oil content and seed yield in different cumin (Cuminum cyminum L.) populations at Qazvin zone. Iranian J. Medicinal and Aromatic Plants Res. 26 (3): 348-357.