Effect of Compost, Mineral Fertilizers and Foliar Application of Micronutrients on Mineral Compositions and yield components of Bean (Phaseolus Vulgaris L.) under Alluvial Soil Condition

Authors

  • Hassin AL. Makhlof Dept. of Soil and Water, Faculty of Agriculture, Sirt University, Libya
  • Ibrahim H. Klwet General Dep., Faculty of Medical Technology, ALjufra University, Libya
  • Ayman M. El-Ghamry Dept. of Soil, Faculty of Agriculture, Mansoura University, Egypt
  • Karim F. Fouda Dept. of Soil, Faculty of Agriculture, Mansoura University, Egypt
  • Mohammed A. Salim Dept. of Soil and Water, Faculty of Agriculture, Tripoli University, Libya

Keywords:

Bean, foliar application, compost, NPK fertilizer, nutrient concentrations, yield components

Abstract

Bean (Phaseolus vulgaris L.) is considered one of the most important legume crops in Egypt. It is used for human consumption as a good source of vegetarian protein. Hence, a field experiment was done by used bean (Phaseolus vulgaris L.).CV Bohera during the season of 2015 at the Agricultural Experimental Station, Mansoura University, Egypt to study the effect of compost,mineral fertilizers and foliar application of some micronutrients on mineral composition of bean plant as well as grain components (total Carbohydrate% and Crude Protein content%). Complete block design with four replicates and nine treatments was used in this study. Treatments were Control, NPK100 %, NPK75 %, NPK100 %+ Compost, NPK75% +Compost, NPK100% Manni plex beans, NPK75 % + Manni plex beans, NPK100 %+ compost + Manni plex beans, NPK75%+ compost + Manni plex beans. The obtained results showed that over treatments under study superior and significant increase was recoded with the treatment of NPK 100% +compost + Manni plex beans compared with other treatments. Thus, foliar application of Fe, Zn, B and Mn with other amendments led to positive increases of macronutrients (N, P and K) and micronutrients (Fe, Zn and Mn) concentration in leaves, stem and root of bean, In addition to, all tested treatments significant improved seeds components.

References

Zeid, H. A., Wafaa, H. M., Abou El Seoud, I. I., & Alhadad, W. A. A. (2015). Effect of organic materials and inorganic fertilizers on the growth, mineral composition and soil fertility of radish plants (Raphine's sativus) grown in sandy soil. Middle East Journal of Agriculture Research, 4(01), 77-87.

FAO. (2010) Food and Agriculture Organization of the United Nations. Faostat: Statistical Database,

Ussiri, D. A. N. and R. Lal. 2005. Carbon Sequestration in Reclaimed Minesoils. Critical Reviews in Plant Sciences, 24, 151–165.

Abou-El-Hassan, S., Abd Elwanis, M., & El-Shinawy, M. Z. (2017). Application of compost and vermicompost as substitutes for mineral fertilizers to produce green beans. Egyptian Journal of Horticulture, 44(2), 155-163.‏

Gracia-Gil, J. C.; Cippe, C. P.; Polo, M. I and A. Sensi.(2004) long term effects of amedament with municipal solid waste compost on the elemental and acidic functional group composition and PH buffer capacity of soil humic acid . Geoderma, 121(1-2): p.135-142.

Melero, S.; Madejon, E.; Ruiz, J. C and Herencia, J. F. (2007). Chemical and biochemical properties of a clay soil and Alkaline Soils. USDA Handbook 60. US Govern-ment Printing Office, Washington D.C.

El-Habbasha, S. F., Hozayn, M., & Khalafallah, M. A. (2007). Integration effect between phosphorus levels and biofertilizers on quality and quantity yield of faba bean (Vicia faba L.) in newly cultivated sandy soils. Research Journal of agriculture and biological sciences, 3(6), 966-971.

Ahmed,H.;Nesiem,M.R.L.;Hewedy,A.M and Sallam,H.S. (2010) Effect of some simulative compound on rowth ,yield and chemical composition of snap bean growth under calcareous soil condition .J .Am.Sci . 6(10): 525-554.

Brown, G.,' Newman, A .C .D . Rayner, I. H and Weir, A. H. I978. The structures and chemistry of soil clay minerals. Pages 29-178 in D. Greenland and M.H.B. Hayes, eds. The chemistry of soil constituents. John Wiley and Sons, New York, New York.

Kalra, Y. P and D. G. Maynard. (1991). Methods manual for forest soil and plant analysis. For. Can., Northwest Reg, North. For. ‘Cent, Edmonton, Alberta. lnf. Rep. NOR-X-319.

Salem, A. K., El-Harty, E. H., Ammar, M. H., & Alghamdi, S. S. (2014). Evaluation of faba bean (Vicia faba L.) performance under various micronutrients foliar applications and plant spacing. Life Sci. J, 11(10), 1298-1304.‏ ‏

Hamouda H.A., T.G. Anany and M.S.S. El-Bassyouni (2018). Growth and Yield of Dry Bean (Phaseolus vulgaris L.) as Affected by Zn and B Foliar Application. Middle East Journal of Agriculture Research, 7(02), 639-649.

Jackson, M. L.(1967). Soil Chemical Analysis. Printic Hall Englewood Cliffs,New Jersy.

Hesse, P.R.(1971). A text book of soil chemical analysis. John Murray Publisher, London, Pages: 324.

Chapman, H. D. and P. F. pratt (1961). "Methods of Analysis for Soils, Plants and Waters". DIV. of Agric. Sci., California Univ., Berkely, USA.

Ranganna, S. (2001). Handbook of analysis and quality control for fruit and vegetable products. Tata McGraw-Hill publishing Co. Ltd, New Delh.

A. O. A. C. (1990): Official Methods of Analysis Association of Official Analytical Chemists. 15th Ed. Inc. Wash. D.C.

Gomez, K. A. and A. A. Gomez (1984): Statistical Procedures for Agricultural Research 2nd Ed, John Wiley and Sons. Inc. New York. .

Amanullah, M.M.; Somasundaram, E.; Vaiyapuri, K and Sathyamoorthi, K. (2007) Poultry manure to crops -A Review. Agric. Rev., 28: 216‒222

Moghazy, A. M.; El. Saed, S. M and Awad E. S. M. (2014). The Influence of Boron Foliar Spraying with Compost and Mineral Fertilizers on Growth, Green pods and Seed Yield of Pea. Nature and science .,12(7):50-57.

Abdel-Mawgoud, A. M. R., El-Bassiouny, A. M., Ghoname, A., & Abou-Hussein, S. D. (2011). Foliar application of amino acids and micronutrients enhance performance of green bean crop under newly reclaimed land conditions. Aust. J. Basic Appl. Sci, 5(6), 51-55.‏

Sarkar, D.; Mandal, B and Kundu, M.C. (2007). Increasing] use efficiency of boron fertilizers by rescheduling the time and methods of application for crops in India., Plant Soil, 301:77-85.

Abou El-Yazied, A.; El-Gizawy,A.M.;Ragab, M.I and Hamed, E.S. (2012). Effect of seaweed Extract and compost treatment on growth yield and quality of nap bean., J.Am.Sci., 8(6):1-20.

Luqueno, F.F.; Varela, R.; Surez, C.M.; Menses,Y and Dendooven.R.C. (2010). Effect of different nitrogen sources on plant characteristics and yield of common bean (Phaseolus vulgaris L.). Bioresource Technology 101 : 396–403.

Atiyeh, R.M.; Dominguez, J.; Sobler, S and Edwards, C.A. (2002). Changes in biochemical properties of cow manure during processing by earthworms (Eisenia andrei) and the effects on seedling growth; Pedobiologia., 44: 709-724.

Erdal, U. (2004). Effect of Foliar Iron Applications at Different Growth Stages on Iron and Some Nutrient Concentrations in Strawberry Cultivars., Turk J Agric For. 28: 421-427.

Stoyanova, Z and Doncheva, S (2002). The effect of zinc supply and succinate treatment on plant growth and mineral uptake in pea plant. Braz. J. Plant Physiol.14 (2): 240-255.

Aslani, M., and Souri, M. K. (2018). Growth and quality of green bean (Phaseolus vulgaris L.) under foliar application of organic-chelate fertilizers. Open Agriculture, 3(1), 146-154.‏

Otieno,P.; muthomi,J,W.; .Chemining,G.N.; Nderitu.J.H .(2007). Effect of rhizobia inoculation, farmyard manure and nitrogen fertlizers on growth, nodulation and yield of selected food grain legumes. Afri.crop, scie. conf, procee .,8 -305-312.

Darwesh,D.A.;Maulood,P.M.;Amin.S.A. (2013). Effect of phosphorus fertilizers on growth and physiological phosphorus use efficiency of three soy bean cultivars. Journal of Agriculture and Veterinary Science.,3 (4): 32-36.

Zaghloul, R. A., Abou-Aly, H. E., El-Meihy, R. M., & El-Saadony, M. T. (2015). Improvement of growth and yield of pea plants using integrated fertilization management. Universal J. Agric. Res, 3(4), 135-143.‏

Hong, L. (2015) Co-limitation of Soil Iron in Root Nodulation and Chlorophyll-Bean Formation of Yard long Bean Plants in Tropical Humid Environment. International Journal of Bioscience, Biochemistry and Bioinformatics. 5(4): 232-240.

Yolcu,H. (2011). the effects of some organic and chemical fertilizer applications on yield, morphology, quality and mineral content of common vetch (vicia sativa l.). Turkish Journal of Field Crops., 16(2): 197-202.

Uyanoz, R. (2007) The Effects of Different Bio-organic, Chemical Fertilizers and their Combination on Yield,Macro and Micro Nutrition Content of Dry Bean (Phaseolus vulgaris L.).International Journal of Agricultural Research, 2: 115-125.

Poshtmasari, H. K and Bahmanyar, M.A (2008) Effect of Zn rates and application forms on protein and some micronutrients accumulation in common bean (Phaseolus vulgaris) . Pakistan Journal of Bioloical Science 11(7):1042-1046.

El-Tohamy, W.A and El-Greadly, N.H.M. (2007). Physiological Responses, Growth, Yield and Quality of Snap Beans in Response to Foliar Application of Yeast, Vitamin E and Zinc under Sandy Soil Conditions. Australian Journal of Basic and Applied Sciences., 1(3): 294-299.

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Published

2023-01-21

Issue

Vol. 12 No. 1 (2022): Sirte University Scientific Journal (SUSJ)

Section

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