Effects of Foliar Application Time of Nano-micronutrients on Quantity and Qualitative Traits in Rainfed durum Wheat Genotypes in Moghan

Document Type : Research Article

Authors

1 University of Torbat Heydarieh

2 Ardabil Agricultural and Natural Resources Research Center

Abstract

Introduction
Durum wheat (Triticum turgidum var.durum) because of the high protein content compared to other grain products plays a major role in providing the protein needed by humans. Different crop varieties have different performance potential even a figure from region to region does not have the same performance. Nano slow and controlled release fertilizers because of root elements in a good area, have high efficiency. In Iran, 300 to 400 tons of durum wheat annually produced which 60% is recoverable for production of pasta and other domestic needs is imported. Per capita consumption of pasta in the country is 5 kg per year (about one quarter of Europe) and with regard to nutrients such as gluten and beta-carotene in pasta and very low losses, it is necessary to increase the amount of its consumption. For this purpose, the government has taken incentive policies such as higher rates order of durum wheat (about 6%) compared to bread wheat and prizes export to exporters of this product, to increase its production and exports. This study aimed to evaluate the effect of foliar application time of Nano-chelate Super Plus on yield and its components and protein content in durum wheat varieties in Parsabad Moghan area was conducted.

Materials and Methods
The study was conducted as the form of randomly split-plot based on randomized complete block design with three replications. Treatments include the application of Nano-chelate fertilizer Super Plus (Biozar) with a concentration of two per thousand in four levels, (tilling, flowering, seed and control (no application)) as the main factor and cultivars of durum wheat lines operating in 18 level as were minor. Studied traits including plant height, number of tillers and fertile tillers, peduncle length, ear length, number of spikelets, number of seeds per plant, grain weight, straw weight, total seed weight per plant, total plant weight, number of days to heading, days to maturity, grain weight, protein content and seed yield. Each plot area of 2.7 square meters (6 lines with a length of 6 m and 20 cm spacing) and a total area of 6 square meters plot was harvested. The company proposed application of Biozar at the dose of 2 per thousand, according to the desired level, calculated and prepared and was sprayed every step of the treatments in question. At each plot also a sample of 1.5 kg of grain was sent to the laboratory to determine protein content of each sample. Finally, the obtained data collected using the SPSS and MSTAT-C statistical analysis soft wares for analysis of variance, and Interaction between treatments and figures and data clustering was performed and the results were presented.

Results and Discussion
Results showed that the highest grain yield obtained from spray at tilling stage in L16 (2948 kg ha-1) compared to the control group (771.70 kg ha-1) by 228.01%.Comparition of the interaction of means showed that the highest grain yield in the spray at tilling stage L16 (2948 kg ha-1) as compared to the control group (771.70 kg ha-1) 282.01% increase. Results of mean comparisons of the timing of application × figures also showed the highest protein content in line L5 and the spray at tilling stage (12.23 %) as compared to control 23.54% increase .The lowest percentage of protein in the DEHDASHT and spraying at the seed (9.10%) respectively compared to control (9.53%) 4.73% decreased. So, it seems that the use of Nano-chelate Super plus ZFM (zinc, iron, manganese) which contains micro elements, amino acids as nitrogen source and as a powerful antioxidant ascorbic acid can be very effective to increasing yield and its components and also the protein content of durum wheat in dry land.
Conclusions
Nano-chelated Super Plus foliar application increased grain yield and yield components of durum wheat. According to the results the most appropriate timing of application of Super Plus for Durum Wheat was at the time of tillering and among the highest protein content and yield showed in the tillering stage to arrange in lines L5 (12.23 %) and L16 (2948 kg) respectively. Repeating this study for few years of research as well as in other areas could also be useful in confirming the results.

Keywords

References

1. Alavi Matin, S. M., Rahnama, A., and Meskarbashi, M. 2015. Effect of Type and rate of potassium fertilizer on agronomic characteristics of two cultivars durum wheat under saline stress. Research in Agricultural Science 2 (1): 177-188. (in Persian with English abstract).
2. Bauder, J., 2003. Wheat production. Montana State University. Water Quality and Irrigation Management web site.
3. Dimkpa, C. O., and Bindraban, P. S. 2016. Fortification of micronutrients for efficient agronomic production: a review. Agronomy for Sustainable Development 36 (1): 1-26.
4. El-Magid, A. A. A., Knany, R. E., and El-Fotoh, H. G. A. 2000. Effect of foliar application of some micronutrients on wheat yield and quality. Annals of Agricultural Science Cairo 1: 301-313.
5. Emam, Y. 2011. Cereal Production, Shiraz University Press. Fourth edition. 190 pp.
6. Farajzadeh Memari Tabrizi, E., Yarnia, M., Khorshidi, M. B., and Ahmadzadeh, V. 2009. Effect of micronutrients and their application method on yield, crop growth rate and net assimilation rate of corn cv. Jeta. Journal of Food, Agriculture and Environment 7 (2): 611-615.
7. Fathi, G., Mojedam, M., Siadat, S. A., and Mohammadi, G. N. 2002. Effect of Different Levels of Nitrogen and Cutting Time on Grain and Forage Yield of Karoon Cultiver of Barley. JWSS-Isfahan University of Technology, 5 (4): 97-106.‏
8. Feizi Asl, V., and Valizadeh, Gh. R. 2004. Effects of phosphorus and zinc fertilizer applications on nutrient concentrations in plant and grain yield in cv. Sardari (Triticum aestivum L.) under dryland conditions. Iranian Journal of Crop Sciences 6 (3): 223-238.
9. Gharachorloo, M. 2011. Management system designed to monitor the quality of wheat. Grain Research Center, (in Persian).
10. Hemantaranjan, A., and O. K. Garg. 1988. Iron and zinc fertilization with reference to the grain quality of Triticum aestivum L. J. Plant Nutr. 11: 1439-1450.
11. Hamidi Asil, S., Mostashari, M., and Moez Ardalan, M. 2014. A review of the effects of the sition of some of the micro elements and the determination of the critical level on wheat in the city of Qazvin. Iranian Journal of Agronomy and Plant Breeding 9 (4): 39-46.
12. Hussain, N., Khan, M. A., and Javad, M. A., 2005. Effect of foliar application of plant micronutrient mixture on growth and yield of wheat (Triticum aestivum L.). Pakistan Journal of Biological Sciences 8 (8): 1096- 1099.
13. Kassab, O. M., Zeing, H. A. E., and Ibrahim, M. M. 2004. Effect of water deficit and micronutrients foliar application on the productivity of wheat plants. Minufiya J. Agric. Res., 29:925-932.
14. Leilah, A. A., Badawi, M. A., EL-Moursy, S. A., and Attia, A. N. 1988. Response of soybean plants to foliar application of zinc and different levels of nitrogen. J. Agric. Sci. (Mansoura Univ., Egypt). 13: 556-563.
15. Li, M., Wang, S., Tian, X., Zhao, J., Li, H., Guo, C., Chen, Y., and Zhao, A. 2015. Zn distribution and bioavailability in whole grain and grain fractions of winter wheat as affected by applications of soil N and foliar Zn combined with N or P. Journal of Cereal Science 61: 26-32.
16. Malakooti, M. J., Malakooti, A., Majidi, A., Baybourdi, A., Salari, A., and Falahi, A. 2009. Comparative efficiency of enriched wheat flouring richens plant in the field of health promotion. J. of Food Sci. 6 (3): 118 Pp. (in Persian).
17. Maralian, H. 2012. Effect of supplementary nutrition with Fe, Zn chelates and urea on wheat quality and quantity. African Journal of Biotechnology 11 (11): 2661-2665.
18. Mozaffari, A., Saydat, S. A., Hashemi Dezfooli, S. A. 2006. Effect of Plant Density on Morphological and Physiological Characteristics of Four Cultivars of Durum Wheat (Triticum turgidum var.durum) under Dryland of Sarableh Region, Ilam. Research in Agricultural Science 2 (1): 47-56. (in Persian).
19. Pahlavan‐Rad, M. R., and Pessarakli, M. 2009. Response of wheat plants to zinc, iron, and manganese applications and uptake and concentration of zinc, iron, and manganese in wheat grains. Communications in soil science and plant analysis 40 (7-8): 1322-1332.‏
20. Rangel, Z., and Graham, R. D. 1995. II. Importance of seed Zn content for growth on zinc-deficient soil. Plant Soil, 173: 267-274.
21. Seadh, S. E., El-Abady, M. I., El-Ghamry, A. M., and Farouk, S. 2009. Influence of micronutrients foliar application and nitrogen fertilization on wheat yield and quality of grain and seed. Journal of Biological Sciences 9 (8): 851-858.
22. Seilsepour, M. 2007. The study of Fe and Zn effects on quantitative and qualitative parameters of winter wheat and determination of critical levels of these elements in Varamin plain soils. Pajouhesh and Sazandegi In: Agronomy and Horticulture 20 (3): 123-133.
23. Siosemardeh, A., Ahmadi, A., Poustini, K., and Mohammadi, V. 2006. Evaluation of drought resistance indices under various environmental conditions. Field Crops Research 98: 222-229.
24. Tatari, M., 2004. The effects of various levels of salinity and irrigation times on growth and yield of cumin in Mashhad conditions. MSc thesis. Faculty of Agriculture, Ferdowsi University of Mashhad, Iran. 87p. (in Persian with English abstract).
25. Torun, A., Gültekin, I., Kalayci, M., Yilmaz, A., Eker, S., and Cakmak, I. 2001. Effects of zinc fertilization on grain yield and shoot concentrations of zinc, boron, and phosphorus of 25 wheat cultivars grown on a zinc-deficient and boron-toxic soil. Journal of Plant Nutrition 24: 1817-1829.
26. Varga, B., Svecnjak, I., and Pospisil, A. 2001. Winter wheat cultivar performance as affected by production systems in Croatia. Agronomy Journal 93: 961- 966.
27. Velu, G., Ortiz-Monasterio, I., Cakmak, I., Hao, Y., and Singh, R. P. 2014. Biofortification strategies to increase grain zinc and iron concentrations in wheat. Journal of Cereal Science 59: 365-372.
28. Yagdi, K. 2009. Path coefficient analysis of some yield components in durum wheat (Triticum durum Desf.). Pakistan Journal of Botany 41: 745-751.
29. Ziaeian, A. H., Malakouti, M. J. 2001. Effects of Fe, Mn, Zn and Cu fertilization on the yield and grain quality of wheat in the calcareous soils of Iran. In: Plant Nutrition: Springer, pp. 840-841.
30. Ziaeyian, A. 2006. Effects of potassium and zinc application on silage corn cultivation. Journal of Soil and Water Sciences 20 (1): 36-37.
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History

  • Receive Date: 23 September 2016
  • Revise Date: 04 September 2017
  • Accept Date: 23 October 2017
  • First Publish Date: 21 March 2018

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