RESPONSE OF ALMOND SEEDLING (PRUNUS AMYGDALUS) TO SPRAY OF AMINOPLASMAL, HUMIC ACID AND BORON.

Authors

  • Shaymaa M. A.
  • Z. R. Ibrahim
  • H. S. Nabi

DOI:

https://doi.org/10.36103/ijas.v53i2.1550

Keywords:

nutrition, stem length, branches, boric acid.

Abstract

The present study was conducted at the nursery of the College of Agricultural Engineering Sciences; University of Duhok, Kurdistan Region, Iraq, during growing season (2020) to evaluate the effects of foliar sprays of three concentrations of aminoplasmal (0, 50 and 100 ml.L-1), concentrations of humic acid (0, 100 and 200 ml.L-1) and boron (0, 50 and 100 mg.L-1) on vegetative growth and nutritional status of one year old almond seedling (Prunus amygdalus). The factorial experiment within randomized complete block design was used with three replicates. Foliar spraying applied at two times. First spray was carried out on 25th of April and the other on 27th of May. Results indicated that foliar spray of aminoplasmal at 100 ml.L-1 significantly increased all vegetative growth characteristics (stem length, stem diameter, number of branches/seedling, number of leaves / seedling, chlorophyll, leaf area, leaf fresh weight, leaf dry weight), and significantly increase leave nutritional status (N, P, K and B). Humic acid at conc. (200 ml.L-1) and boric acid at conc. (100 mg.L-1) cause significant increases in all studied traits. In combination, the triple interaction between 100 ml.L-1 aminoplasmal with 200 ml.L-1 humic acid and 100 mg.L-1 boron was the most affected one which surpassed significantly on the control treatment and other treatments. In general, in this study, it was discovered that treatments with aminoplasmal, humic acid and boron significantly increased vegetative growth and nutritional status of almond seedling.

References

Abd El-Aal, F.S., A.M. Shaheen, A.A. Ahmed and A.R. Mahmoud.2010. “Effect of foliar application of urea and amino plasmas mixtures as antioxidants on growth, yield and characteristics of squash”. Res. J.Agric. Biol. Sci., 6: 583–588

Abdollahi, M.; S. Eshghi, and E. Tafazoli, (2010). Interaction of paclobutrazol, boron and zinc on vegetative growth, yield and fruit quality of strawberry (Fragaria× ananassa Duch. cv. Selva). J. Biol. Environ. Sci. 4(11): 67-75

Abourayya, M.S., N.E. Kaseem, T.S.M. Mahmoud, A.M. Rakha, R.A. Eisa, and O.A. Amin, 2020. Impact of soil application with humic acid and foliar spray of milagro bio-stimulant on vegetative growth and mineral nutrient uptake of Nonpareil almond young trees under Nubaria conditions. Bulletin of the National Research Centre, 44(1), pp.1-8

Acar, I.; I. Doran; N. Aslan, and N. Kalkanci 2016. Boron affects the yield and quality of nonirrigated pistachio (Pistacia vera L.) trees. Turkish Journal of Agriculture and Forestry. 40(5): 664-670

Al-Azzawi, O.S. and I.M. Al-Ibadi, 2017. Effect organic nutrient humic and compound chemical fertilizer in leaves content from elements and total yield cucumber. The Iraqi Journal of Agricultural Science, 48(3), 720

Al-Dulaimi, N.H. and Al-Jumaili, M.A., 2017. Effect spraying some micronutrients and add humic acid in traits of roots and leaves content of nutrients in green beans. the iraqi journal of agricultural science, 48(3), 660

Alhasawi, A.; Z. Castonguay; N.D. Appanna; C. Auger and V.D. Appanna (2015). Glycine metabolism and anti-oxidative defence mechanisms in Pseudomonas fluorescens. Microbiological Research. 171(26-31

Al-Rawi, K. M. and A. Khalafalla. 2000. Analysis of Experimental Agriculture Disgen. Dar Al-Kutub for Printing and Publishing. Mosul Univ. (In Arabic

Anonymous 2010. Humic and fulvic acids: The black gold of agriculture. Retrieved from www.humintech.com/pdf/humicfulvic acids.pdf

Bybordi, A. and M. Malakouti (2009). Effects of N, Zn and B foliar application in increasing fruit set and yield of pistachio in East Azerbaijan. 5th International Symposium on Pistachio and Almond, Turkey. 48(16): 1-4

Chen, Y. and T. Aviad 1990. Effect of Humic Substances on Plant Growth. In: Maccarthy, P., Ed., Humic Substances in Soil and Crop Sciences: Selected Readings. American Society of Agronomy and Soil Sciences, Madison, PP:161-186

Dutta, P. 2004. Effect of foliar boron application on panicle growth, fruit retention and physico-chemical characters of mango cv. Himsagar. Indian Journal of Horticulture. 61(3): 265-266

Eisa R.A, Sh. M. Thanaa, E. K. Nabila, and M.S. Abou Rayya 2016. Foliar application of low-biuret urea and humic acid influences on the growth and leaf mineral composition of Nonpareil almond young trees under South Sinai conditions. Journal of Innovations in Pharmaceuticals and Biological Sciences. JIPBS, Vol 3(1): 143 -153

El-Shabasi, M.; S. Mohamed and S. Mahfouz 2005. Effect of foliar spray with amino acids on growth, yield and chemical composition of garlic plants. The 6th Arabian Conf. for Hort. Ismailia, Egypt

Fatma K M Sh, M M .Morsey and Sh M M. Thanaa 2015: Influence of spraying yeast extract and humic acid on fruit maturity stage and storability of “Canino” apricot fruits. International Journal of ChemTech Research; 8 (6): 530 – 543

Hassan, H.; S. Sarrwy, and E. Mostafa,.2010 Effect of foliar spraying with liquid organic fertilizer, some micronutrients, and gibberellins on leaf mineral content, fruit set, yield, and fruit quality of “Hollywood” plum trees. Agriculture and Biology Journal of North America. 1(4): 638-643

Hussien AM, TA. El-Maghraby, HM. Sherif and SA. El-Shal 2005. Effect of liquid organic fertilization techniques on yield and chemical composition of pear and apricot trees grown in sandy soils at South Tahrir province. Fayoum Journal of Agricultural Research and Development; 19(2): 224 – 238

Jasrotia, A.; P. Bakshi; V. Wali; B.Bhushan and D.J. Bhat 2014. Influence of girdling and zinc and boron application on growth, quality and leaf nutrient status of olive cv. Frontoio. African Journal of Agricultural Research. 9(18): 1354-1361

Keshavarz, K.; K.Vahdati; M. Samar; B. Azadegan, and P.H. Brown (2011). Foliar application of zinc and boron improves walnut vegetative and reproductive growth. HortTechnology. 21(2): 181-186

Khayyat, M., E. Tafazoli, S. Eshghi, and S. Rajaee. 2007. Effect of nitrogen, boron, potassium and zinc sprays on yield and fruit quality of date palm. American-Eurasian J. Agr. Environ. Sci. 2:289–296.

Kowalczyk, K.; T. Zielony, and M. Gajewski, 2008. Effect of Aminoplant and Asahi on yield and quality of lettuce grown on rockwool. Biostimulators in Modern Agriculture. Vegetable Crops. 6(2): 35-43

Ladizinsky G 1999. On the origin of almond. Genetic Resources and Crop Evolution 46:143–147

Marschner, H. 1995. Mineral nutrition of higher plants Academic Press New York. Second Edition. New York. Academic Press. pp.841.

Marschner, P. 2012. Marschner’s Mineral Nutrition of Higher Plants. 3rd ed. Academic Press, London, UK

Mazher, A.; S. Zaghloul, and A. Yassen, 2006. Impact of boron fertilizer on growth and chemical constituents of Taxodium distichum grown under water regime. World journal of agricultural Sciences. 2(4): 412-420

Menninger, E.A. 1977. Edible Nuts of the World, Horticultural Books: Stuart, FL.

Mitra, S.K., D.S. Rathore and T.K. Bose, 1991.Temperate Fruits, Allid Publishers, India

Molaie, H.; B. Panahi, and A. Tajabadipour 2013. The effect of foliar application of some amino acid compounds on photosynthesis and yield of two commercial cultivars in pistachio orchards of Kerman province in Iran. International Journal of Agriculture and Crop Sciences. 5(23): 2827

Mora, V.; E. A. Bacaicoa; G. Zamarreno; Elena; M. Fuentes and J. Maria 2010. Action of humic acid on promotion of cucumber shoot growth involves nitrate-related changes associated with the root-to-shoot distribution of cytokinins, polyamines and mineral nutrients. J. of Plant Phys. 167: 633-642

Mustafa NS and SM El-Shazly 2013. Impact of some biostimulant substances on growth parameters of Washington Navel orange trees. Middle East J of Appl Sci. 3:156 –160

Nabi, H.S.; N.I.H. Barwary, and A.A.T. , Hussein Moho 2018. Response Of Almond Seedlings Growth To Foliar Spraying Of Amino Plasma, Zinc, Boron And Their Interactions. Chemistry, Sulaimani. University of Sulaimani, 445-452

Peryea, F. J. 1994. Boron nutrition in deciduous tree fruit. P. 95 -99. In : A.B. Peterson and R.G. Stevens (eds) Tree fruit nutrition. Good Fruit GrowerYakima, Wash

Rahdari, P. and B. Panahi 2001. The evaluation of application amino acids on some quantitative and qualitative of pistachio. 4(131-142

Rai, V. 2002. Role of amino acids in plant responses to stresses. Biologia plantarum. 45(4): 481-487.

Rieger, M.W. 2001. Online Course: Mark’s Fruit Crops site: Almond-Prunus dulcis (Mill.), D.A. Webb, Gorgia University, 87-88 and 174-175

Saini, H., V. Sourabh, and P. Saini. 2019. Differential responses of Fe, Zn, B, Cu and Mg on growth and quality attributes of fruit crops. J. Pharm. Phytochem. 8(5):1–5.

Sas, S. 2001. STAT User’s Guide for Personal Computers, Release 6.12. SAS Institute Inc. Cary, NC, USA

Srivastava, P.C. and U.C. Gupta. 1996. Essential trace elements in crop production, p. 73–173. In:P.C. Srivastava and U.C. Gupta (eds.). Trace elements in crop production. Oxford & IBH Publishing Cop. Pvt. Ltd., New Delhi, India

Tahira A, S. Ahmed, M. Ashrsaf, MA. Shadhid, M. Yasin, RM. Balal, MA. Pervez and S. Abbas 2013 .Effect of humic application at different growth stages of Kinnow mandarin (Citrus recticulatablanco) on The basis of physio biochemical and reproductive responses. Academia Journal of Biotechnology; 1(1): 14-20

Teixeira, W.F.; E.B. Fagan,; L.H. Soares,; R.C. Umburanas,; K. Reichardt, and D.D. Neto, 2017. Foliar and seed application of amino acids affects the antioxidant metabolism of the soybean crop. Frontiers in plant science. 8(2): 327-329

Yadav, V.; P. Singh, and P. Yadav 2013. Effect of foliar fertilization of boron, zinc and iron on fruit growth and yield of low-chill peach cv. Sharbati. International Journal of Scientific and Research Publications. 8(3): 1-6

Yildirim, E. 2007. Foliar and soil fertilization of humic acid affect productivity and quality of tomato. Acta Agric. Scand. Sect. B-Soil Plant Sci. 57: 182-186

Yua, S.K. and J. Ryan. 2008. Boron toxicity tolerance in crops: A viable alternative to soil amelioration. Crop Sci. 48:854–865.

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Published

2022-04-29

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How to Cite

M. A., S. ., Ibrahim, Z. R. ., & Nabi, H. S. . (2022). RESPONSE OF ALMOND SEEDLING (PRUNUS AMYGDALUS) TO SPRAY OF AMINOPLASMAL, HUMIC ACID AND BORON. IRAQI JOURNAL OF AGRICULTURAL SCIENCES, 53(2), 415-428. https://doi.org/10.36103/ijas.v53i2.1550

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