The effect of some micro-macronutrients foliar application on morpho-physiological characteristics of maize in different growth stages
Subject Areas : Agroecology JournalAsiyeh Omid Haghi 1 , Ebrahim khalilvand Behrouzyar 2
1 - Master student
Agronomy and Plant Breeding Department
Tabriz Branch
Islamic Azad University
2 - Assistant professor
Agronomy and Plant Breeding Department
Tabriz Branch
Islamic Azad University
Keywords: o Fe, o macro nutrients, o micro nutrients, o Mg, o nitrogen, o sulfur WP,
Abstract :
77 23 ABSTRACT To investigate the effect of some micro-macronutrients as foliar application on some morphological and physiological characteristics of maize cv. SC704 in different growth stages an experiment was conducted in factorial based on randomized complete block design with three replications at the Research Station of Saatlo, Urmia, north-western Iran during growing seasons of 2013-2014. Treatments were five levels of foliar application include (N (Urea), Mg (MgSO4.H2O), Fe (FeSO4.H2O), Sulfur WP, and control) and three growth stages including of the 8-10 leaves stage, the tasseling stage and the seed-filling stage. Concentrations of foliar applications were determined in ratios of 5 to 1000 for Mg, Fe and S and 5 to 100 for N. A significant effect of different growth stages on ear height, number of row on ear, number of seed on row, 100-grain weight and total seed weight was found. Also, nutrients foliar application had a significant effect on ear height, number of seed on row, 100-grain weight and total seed weigh. In all of traits, treatment of 8-10 leaves stage had the highest and nitrogen foliar application in all treatments but seed on row number had the highest value. Application of treatments on 8-10 leaves stage was more than filling stage had 42.46% ear height, 5.98% number row per ear, 45% number of seed per row, 39.42% 100-grain weight and 2.84% total seed weight on ear. N-foliar application increased 45.71% ear height, 29.1 % 100- grain weight and 33.61 % total seed weight on ear compared to control. Besides, Fe foliar application had the highest number of seed on row comparing to control (43.39%). On the whole, 5% N foliar application and 5/1000 Fe foliar application improved the some of morpho-physiological characteristics of maize. This indicates that spraying while also providing balanced nutrition, is also economically affordable.
References
1. Amini N, Sohrabi zolmabadi H, Alavifazel M, Jahanbakhsk Z (2015) The effect of foliar application of nitrogen and manganese on yield and yield components of maize (Zea mays L.). LUDUS VITALIS. 11(1): 123-126.
2. Aref F (2011) Concentration of zinc and boron in corn leaf as affected by zinc sulphate and boric acid fertilizers in a deficient soil. Life Science Journal 8(1): 26-31.
3. Banks LW (2004) Effect of timing of foliar zinc fertilizer on yield component of soybeans. Australian Journal of Experimental Agriculture and Animal Husbandry 22(116): 226-231.
4. Biari A, Gholami A, Rahmani HA (2008) Growth promotion and enhanced nutrient uptake of maize by application of plant growth promoting rhizobacteria in arid region of Iran. Journal of Biological Sciences 8: 1015-1020.
5. Biswas B, Singh R, Mukhopadhyay ASN (2008) Use of nitrogen-fixing bacteria as biofertilizer for non-legumes: prospects and challenges. Applied Microbiology and Biotechnology 80: 199-209.
6. Botella MA, Cerda A, Martinez V, Lips SH (1994) Nitrate and ammonium uptake by wheat seeding as affected by salinity and light. Journal of Plant Nutrition 17(5): 839-850.
7. Chauhan, S, Apphun A, Singh VK, Dwivedi BS (2004) Foliar spray of concentrated urea at maturity of pigeon pea to induced foliation and increases its residual benefit to wheat. Field Crops Research 89: 17-25.
8. Farajzadeh Memari Tabrizi E, Yarnia M, Khorshidi MB, 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.
9. Hanway JJ (1992) How a corn plant develops. Iowa Coop, Extension Service. Special Report No. 48.
10. Imran S, Arif M, Khan A, Ali Khan M, Shah W, Latif A (2015) Effect of Nitrogen Levels and Plant Population on Yield and Yield Components of Maize. Advances in Crop Science and Technology 3: 2-7.
11. Kohnaward P, Jalilian J, Pirzad A (2012) Effect of foliar application of Micro-nutrients on yield and yield components of safflower under conventional and ecological cropping systems. International Research Journal of Applied and Basic Sciences 3(7): 1460-1469.
12. Merhaut DJ (2007) Magnesium. In: Barker AV, Pilbeam DJ (eds.). Handbook of Plant Nutrition Taylor and Francis Group. Boca Raton. FL 145-183.
13. Moosavi Y, Tajbakhsh M, Ghobadian B (2014) Study of Iranian castor yield with analysis of variance method. Plant Production Journal 36(4): 121-134. [in Persian].
14. Mosseddeq F, Smith DM (1994) Timing of nitrogen application to enhance spring wheat yield in Mediterranean climate. Agronomy Journal 86: 221-226.
15. Pinto A, Mota M Varennes A (2005) Influence of organic matter on the uptake of zinc, copper and iron by sorghum plants. Science Total Environment 326: 239-247
16. Rezvani Moghaddam P, Bromand Rezazadeh Z, Mohamad Abadi AA, Sharif A (2009) Effects of sowing dates and different fertilizers on yield, yield components, and oil percentage of castor bean (Ricinus communis L.). Journal of Agronomy 6(2): 303- 313. [in Persian].
17. Rose LA, Feltion WL, Banks LW (2002) Responses of four soybean variations to foliar zinc fertilizer. Australian Journal at Experimental Agriculture and Animal Husbandry 21: 236-240.
18. Sepehr A, Malakouti MJ (2004) Necessaries of optimized fertilizer using for increasing yield and improved quality of sunflower. Agricultural Educational Publication: Tehran [in Persian].
19. Shirvani Sarakhsi H, Yarnia M, Amirnia R (2010) Effect of nitrogen foliar application in different concentration and growth stage of corn (Hybrid 704). Advances in Environmental Biology 4(2): 291-298
20. Stevens B, Killen M, Bjornestad L (2002) Use of micronutrient fertilizers in sugar beet production powell research and extension center. Agronomy Journal 84: 22-25.
21. Veberic R, Vodnic D, Stampar F (2005) Influence of foliar application transpiration of “Golden Delicious” apple Leaves (Mauls Domesticate Bork.), Acts Agriculture Slovenia 85: 143-155.
22. Yarnia M, khalilvand Behrouzyar E, Khoii F R, Mogaddam M, Safarzadeh Vishkaii MN (2013) Effects of methanol and some micro-macronutrients foliar applications on maize (Zea mays L.) maternal plants on subsequent generation yield and reserved mineral nutrients of the seed. African Journal of Agricultural Research 8(7): 619-628.
_||_