Improvement in phosphorus nutrition of wheat plants grown in a calcareous sandy soil by incorporating chemical phosphorus fertilizer with some selected organic substances


  • Adil MIHOUB Scientific and Technical Research Center for Arid Areas, Algeria.
  • Abu El-Eyuoon Abu Zied AMIN Assiut University, Faculty of Agriculture, Soils and Water Department, Assiut, Egypt
  • Naeem ASIF Nuclear Institute for Agriculture and Biology, Faisalabad, Pakistan
  • Mustapha DADDI BOUHOUN University of Kasdi Merbah, Department of Agronomic Sciences, Ouargla, Algeria



organic supplements, durum wheat, phosphorus uptake, phosphorus use efficiency, calcareous soil


Established fertilizer recommendations for wheat is urgently required to enhance the application efficiency of commercial phosphorus (P) fertilizers. This study evaluated the effect of inorganic P combined with some organic supplements i.e., citric acid (CA) or pigeon manure juice (PMJ), on alkaline-calcareous soil as well as plant measurements and phosphorus efficiency parameters of wheat (Triticum durum ’Boussalem’). Different concentrations of P in solution i.e., 0.05, 0.10, 0.15, 0.20, and 0.40 mg l−1, were worked out theoretically using the Freundlich model. A greenhouse study was conducted on a permanent layout with three replicates. As a result, phosphorus in the control was 0.493 mg P pot−1. However, in amended pots with organic substances, the averages of P uptake were 0.701 and 0.785 mg P pot−1, respectively for PMJ and CA treatments. A lower P requirement of 0.195 and 0.245 mg P l−1 may be required in CA and PMJ treatments, compared to the control treatments (0.345 mg P l−1). In addition, the phosphorus absorption efficiency (PAE) was higher in the CA and PMJ treatments. So, it is recommended to apply P fertilizers with poultry manure juice as an alternative solution in order to improve the efficiency of inorganic P fertilizers and consequently reduce their application rates in alkaline calcareous soils.


Acuña, H., & Inostroza. L. (2012). Phosphorus efficiency of naturalized Chilean white clover in a grazed field trial. Grass and Forage Science, 68, 125-137.

Agbenin, J. O., & Igbokwe, S. O. (2006). Effect of soil–dung manure incubation on the solubility and retention of applied phosphate by a weathered tropical semi-arid soil. Geoderma, 133, 191-203.

Alamgir, M., McNeill, A., Tang, C., & Marschner, P. (2012). Changes in soil P pools during legume residue decomposition. Soil Biology and Biochemistry, 49, 70-77.

Amin, A. A. (2018). Availability and transformations of phosphorus in calcareous sandy soil as affected by farmyard manure and elemental sulfur applications. Alexandria Science Exchange Journal, 39, 98-111.

Brady, N. C., & Weil, R. R. (1999). The Nature and Properties of Soils. 12th Ed. Pearson Prentice Hal Inc. Upper Saddle River, New Jersey. USA.

Brady, N. C., & Weil, R. R. (2008). The Nature and Properties of Soils. Revised 14th Ed. Pearson Prentice Hal Inc. Upper Saddle River, New Jersey. USA.

Bulgari, R., Cocetta, G., Trivellini, A., Vernieri, P., & Ferrante, A. (2014). Biostimulants and crop responses: a review. Biological Agriculture and Horticulture, 31, 1-17.

Deng, Y., Chen, K., Teng, W., Zhan, A., & Tong, Y. (2014). Is the Inherent Potential of Maize Roots Efficient for Soil Phosphorus Acquisition? PLoS ONE. 9. e90287.

Duffera, M., & Robarge, W. P. (1999). Soil characteristics and management effects on phosphorus sorption by highland plateau soils of Ethiopia. Soil Science Society of America Journal, 63, 1455-1462.

Fox, R. L., & Kamprath, E. J. (1970). Phosphate sorption isotherm for evaluating the phosphate requirements of soils. Soil Science Society of America. Proceedings, 34, 902-907.

Gichangi, E. M., & Mnkeni, P. N. S. (2009). Effects of goat manure and lime addition on phosphate sorption by two soils from the Transkei Region. South Africa. Communications in Soil Science and Plant Analysis, 40, 3335-3347.

Grant, C. S., Bittman, M., Montreal, C., Plenchette., & Morel, C. (2004). Soil and fertilizer phosphorus: Effects on plant P supply and mycorrhizal development. Canadian Journal of Plant Science, 85, 3-14.

Guppy, C. N., Menzies, N. W., Moody, P. W., &Blamey, F. P. C. (2005). Competitive sorption reactions between phosphorus organic matter in soil: A review. Australian Journal of Soil Research, 43, 189-202.

Heidi, M. W., He. Z., & Erich, M. S. (2011). Effects of poultry manure amendment on phosphorus uptake by rye grass. soil phosphorus fraction and phosphatase activity. Biology and Fertility of Soils, 47, 407-418.

Ingham, E. R. (2002). The Compost tea brewing manual. 3rd Edition. Oregon. USA: Soil Food web Inc.

Iyamuremye, F., & Dick, R. P. (1996). Organic amendments and phosphorus sorption by soils. Advances in Agronomy, 56, 139-185.

Javid, S., & Rowell, D. L. (2002). A laboratory study of the effect of time and temperature on the decline in Olsen P following phosphate addition to calcareous soils. Soil Use and Management, 18, 127-134.

Kelly, J. M., Parker, G. R., & Mcfee, W. W. (1979). Heavy metal accumulation and growth of seedling of five species as influenced by soil cadmium level. Journal of Environmental Quality, 8, 361-364.

Kizilgoz, I., & Sakin, E. (2010). The effects of increased phosphorus application on shoot dry matter, shoot P and Zn concentrations in wheat (Triticum durum L.) and maize (Zea mays L.) grown in a calcareous soil. African Journal of Biotechnology, 9, 5893-5896.

Li, W., Li, L., Sun, J., Zhang, F., & Christie, P. (2003). Effects of nitrogen and phosphorus fertilizers and intercropping on uptake of nitrogen and phosphorus by wheat, maize, and faba bean. Journal of Plant Nutrition, 26, 629-642.

Loeppert, R. H., & Dohnal, V. (1996). Methods of Soil Analysis, Part 3. Chemical Methods. SSSA Book series No. 5. Madison, WI.

Loneragan, J. F., & Asher, C. J. (1967). Response of plants to phosphate concentration in solution culture. II. Rate of phosphate absorption and its relation to growth. Soil Science, 103, 311-318.

Ma, B. G., Yang, T. X., Guo, F. T., & Han, J. J. (2005). Balance of phosphorus in a rotation system with winter-wheat and rice. Journal of Agro-Environment Science, 2, 371-374.

Ma, L., & Xu, R. (2010). Effects of regulation of pH and application of organic material on adsorption and desorption of phosphorus in three types of acid soils. Journal of Ecology and Rural Environment, 26, 596-599.

Mehdi, S. M., Abid, M., Sarfraz, M., Hafeez, M., & Hafeez, F. (2007). Wheat response to applied phosphorus in Light Textured Soil. Journal of Biological Sciences, 7, 1535-1538.

Mihoub, A., Daddi Bouhoun, M., & Naeem, A. (2018). Short-term effects of phosphate fertilizer enriched with low molecular weight organic acids on phosphorus release kinetic and availability under calcareous conditions in arid region. Journal of Scientific Agriculture, 2, 66-70.

Mihoub, A., Daddi Bouhoun, M., & Saker, M. L. (2016). Phosphorus adsorption isotherm: A key aspect for effective use and environmentally friendly management of phosphorus fertilizers in calcareous soils. Communications in Soil Science and Plant Analysis, 47, 1920-1929.

Mihoub, A., Daddi Bouhoun, M., Naeem, A., & Saker, M. L. (2017). Low-molecular weight organic acids improve plant availability of phosphorus in different textured calcareous soils. Archives of Agronomy and Soil Science, 63, 1023-1034.

Mohanty, S., Paikaray, N. K., & Ranjan, A. R. (2006). Availability and uptake of phosphorus from organic manures in groundnut (Arachis hypogea L.)-corn (Zea mays L.) sequence using radio tracer technique. Geoderma, 133, 225-230.

Moradi, N., Sadaghiani, M. R., Sepehr. E., & Mandoulakani, B. A. (2012). Effects of low-molecular-weight organic acids on phosphorus sorption characteristics in some calcareous soils. Turkish Journal of Agriculture and Forestry, 36, 459-468.

Nziguheba, G., Palm, C. A., Buresh, R. J., & Smithson, P. A. (1998). Soil phosphorus fractions and adsorption as affected by organic and inorganic sources. Plant and Soil, 198, 159-168.

Pellerin, S., Mollier, A., Plénet, D. (2000). Phosphorus deficiency affects the rate of emergence and number of maize adventitious nodal roots. Agronomy Journal, 92, 690-697.

Pinerio, A. L., Cabera, D., & Pena, D. (2009). Phosphorus Adsorption and fractionation in a two-phase olive mill waste amended soil. Soil Science Society of America Journal, 73, 1539-1544.

Royo, C., Soriano, J. M., & Alvaro, F. (2017). Wheat: A Crop in the Bottom of the Mediterranean Diet Pyramid. In Mediterranean Identities-Environment, Society, Culture. IntechOpen.

Sarfraz, M., Mehdi. S. M., Abid, M., & Akram, M. (2008). External and internal phosphorus requirement of wheat in Bhalike soil series of Pakistan. Pakistan journal of Botany, 40, 2031-2040.

Ström, L., Owen, A., Godbold, D., & Jones, D. (2001). Organic acid behavior in a calcareous soil: sorption reactions and biodegradation rates. Soil Biology & Biochemistry, 33, 2125-2133.

Uburger, E., Jones, D. L., & Wenzel, W. W. (2011). Phosphorus saturation and pH differentially regulate the efficiency of organic acid anion- mediated P solubilization mechanisms in soil. Plant and Soil, 341, 363-382.

Ur-Rehman, O., Mehdi, S. M., Ranjha, A. M., Sarfraz, M., Zulfiqar, A. M., Asim, M., & Quintero, G. C. E. (2002). Use of boundary line technique in the analysis of biology data. Journal of Biological Sciences, 7, 60-63.

Veneklaas, E. J., Lambers, H., Bragg, J., Finnegan, P. M., Lovelock, C. E., Plaxton, W. C., & Raven, J. A. (2012). Opportunities for improving phosphorus-use efficiency in crop plants. New Phytologist, 195, 306-320.

Von Wandruszka, R. (2006). Phosphorus retention in calcareous soils and the effect of organic matter on its mobility. Geochemical Transactions, 7, 1-18.

Waraich, E. A., Ahmad, Z., Ahmad, R., Saifullah., & Ashraf, M. Y. (2015). Foliar applied phosphorous enhanced growth. chlorophyll contents. gas exchange attributes and PUE in wheat (Triticum aestivum L.). Journal of plant nutrition, 38, 1929-1943.

Watanabe, F. S., & Olsen, S. R. (1965). Test of an ascorbic acid method for determining phosphorus in water and NaHCO3 extracts from soil 1. Soil Science Society of America Journal, 29, 677-678.



29. 07. 2019



Agronomy section

How to Cite

MIHOUB, A., AMIN, A. E.-E. A. Z., ASIF, N., & DADDI BOUHOUN, M. (2019). Improvement in phosphorus nutrition of wheat plants grown in a calcareous sandy soil by incorporating chemical phosphorus fertilizer with some selected organic substances. Acta Agriculturae Slovenica, 113(2), 263–272.

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