Phosphorus fertilisation and biochar impacts on soil fertility and wheat (Triticum aestivum) productivity under semiarid conditions
E. K. Mahmoud A C , M. Ibrahim A and A. Khader BA Department of soil and water science, Faculty of Agriculture, Tanta University, Egypt.
B Water and Environment Research Institute, Agricultural Research Center, Giza, Egypt.
C Corresponding author. Email: esawy.rezk@agr.tanta.edu.eg
Crop and Pasture Science - https://doi.org/10.1071/CP21095
Submitted: 10 February 2021 Accepted: 27 May 2021 Published online: 15 July 2021
Abstract
The Egyptian soil contains low organic matter and high calcium carbonate with a pH of 7.5–8.2, which reduces the availability of phosphorus (P) improve the efficiency of applying P fertilisers in alkaline soils. Therefore, the aim of this study is to evaluate the effect of biochar (B) at 0 t ha–1 and 10 t ha–1 with different P fertiliser rates (i.e. 0% P, 50% P, 100% P and 150% P of the recommended dose) on wheat yield (Triticum aestivum L.) and soil fertility in clay texture soil during the 2015–2016 and 2016–2017 growing seasons. The results show a significant increase in all of the following: soil availability and plant uptake of NPK; flag leaf area (FLA); the number of fertile tillers (NFT); the number of grains in spike (NGS), and the grain yield of wheat plants treated with P fertiliser alone, or when P fertiliser combined with biochar addition. FLA increased by 81.82% and 72.27% in the plots treated with biochar during the 1st and 2nd seasons respectively. Wheat uptake of total nitrogen–P–potassium (NPK) increased as a result of increasing the concentration of inorganic P in the studied soil. It is noteworthy that adding biochar to P fertiliser supplements P-fertiliser such as in the treatment of 10 t ha–1 biochar at 50% P, where the highest grain yield was recorded compared with adding 100% P and 150% P of the recommended dose. The results indicated that integrating biochar and P fertiliser can be a practical approach to improve wheat production and soil fertility.
Keywords: biochar, phosphorus, semiarid regions, soil fertility, wheat productivity.
References
Alburquerque JA, Salazar P, Barrón V, Torrent J, del Campillo MC, Gallardo A, Villar R (2013) Enhanced wheat yield by biochar addition under different mineral fertilization levels. Agronomy for Sustainable Development 33, 475–484.| Enhanced wheat yield by biochar addition under different mineral fertilization levels.Crossref | GoogleScholarGoogle Scholar |
Asai H, Samson BK, Stephan HM, Songyikhangsuthor K, Homma K, Kiyono Y, Inoue Y, Shiraiwa T, Horie T (2009) Biochar amendment techniques for upland rice production in Northern Laos: 1. Soil physical properties, leaf SPAD and grain yield. Field Crops Research 111, 81–84.
| Biochar amendment techniques for upland rice production in Northern Laos: 1. Soil physical properties, leaf SPAD and grain yield.Crossref | GoogleScholarGoogle Scholar |
Barnes RT, Gallagher ME, Masiello CA, Liu Z, Dugan B (2014) Biochar-induced changes in soil hydraulic conductivity and dissolved nutrient fluxes constrained by laboratory experiments. PLoS One 9, e108340
| Biochar-induced changes in soil hydraulic conductivity and dissolved nutrient fluxes constrained by laboratory experiments.Crossref | GoogleScholarGoogle Scholar | 25251677PubMed |
Blackwell P, Krull E, Butler G, Herbert A, Solaiman Z (2010) Effect of banded biochar on dryland wheat production and fertiliser use in south-western Australia: an agronomic and economic perspective. Australian Journal of Soil Research 48, 531–545.
| Effect of banded biochar on dryland wheat production and fertiliser use in south-western Australia: an agronomic and economic perspective.Crossref | GoogleScholarGoogle Scholar |
Brennan RF, Bolland MA (2009) Comparing the nitrogen and phosphorus requirements of canola and wheat for grain yield and quality. Crop & Pasture Science 60, 566–577.
| Comparing the nitrogen and phosphorus requirements of canola and wheat for grain yield and quality.Crossref | GoogleScholarGoogle Scholar |
Chan KY, Van Zwieten L, Meszaros I, Downie A, Joseph S (2007) Agronomic values of greenwaste biochar as a soil amendment. Australian Journal of Soil Research 45, 629–634.
| Agronomic values of greenwaste biochar as a soil amendment.Crossref | GoogleScholarGoogle Scholar |
Chan KY, van Zwieten L, Meszaros I, Downie A, Joseph S (2008) Using poultry litter biochars as soil amendments. Soil Research 46, 437–444.
| Using poultry litter biochars as soil amendments.Crossref | GoogleScholarGoogle Scholar |
Cheng CH, Lehmann J (2009) Ageing of black carbon along a temperature gradient. Chemosphere 75, 1021–1027.
| Ageing of black carbon along a temperature gradient.Crossref | GoogleScholarGoogle Scholar | 19223059PubMed |
Chintala R, Schumacher TE, McDonald LM, Clay DE, Malo D, Papiernik SK, Clay SA, Julson JL (2014) Phosphorus sorption and availability from biochars and soil/biochar mixtures. Clean 42, 626–634.
| Phosphorus sorption and availability from biochars and soil/biochar mixtures.Crossref | GoogleScholarGoogle Scholar |
Cordell D, Rosemarin A, Schröder J, Smit AL (2011) Towards global phosphorus security: a systems framework for phosphorus recovery and reuse options. Chemosphere 84, 747–758.
| Towards global phosphorus security: a systems framework for phosphorus recovery and reuse options.Crossref | GoogleScholarGoogle Scholar | 21414650PubMed |
Deluca TH, Mackenzie D, Gundale M (2009) Biochar effects on soil nutrient transformations. In ‘Biochar for environmental management: science and technology’. (Eds J Lehmann, S Joseph) pp. 251–270. (Earthscan: London, UK)
Ding Z, Kheir AS, Ali MG, Marwa G, Ali M, Osama AM, Aly A, Abdelaal IN, Lin X, Zhou Z, Wang B, Liu B, He Z (2020) The integrated effect of salinity, organic amendments, phosphorus fertilizers, and deficit irrigation on soil properties, phosphorus fractionation and wheat productivity. Scientific Reports 10, 2736
| The integrated effect of salinity, organic amendments, phosphorus fertilizers, and deficit irrigation on soil properties, phosphorus fractionation and wheat productivity.Crossref | GoogleScholarGoogle Scholar | 32066858PubMed |
El-Etr WT, Laila KM, Ali EI, El-khatib E (2004) Comparative effects of bio-compost and compost on growth, yield and nutrients content of pea and wheat plants grown on sandy soils. Egypt Journal Agriculture Research 82, 73–94.
El Khamisy R (2018) Effect of different soil amendments with nitrogen fertilizer applications on some soil properties and maize growth in clay soils. PhD thesis, Tanta University, Department of Soil Science, Faculty of Agriculture, Egypt.
Fahad S, Hussain S, Saud S, Hassan S, Tanveer M, Ihsan MZ, Huang J (2016) A combined application of biochar and phosphorus alleviates heat-induced adversities on physiological, agronomical and quality attributes of rice. Plant Physiology and Biochemistry 103, 191–198.
| A combined application of biochar and phosphorus alleviates heat-induced adversities on physiological, agronomical and quality attributes of rice.Crossref | GoogleScholarGoogle Scholar | 26995314PubMed |
FAO (2012) FAOSTAT database. Food and Agriculture Organization, Rome, Italy. Available at: http://faostat.fao.org/site/339/default.aspx.
Farrell M, Kuhn TK, Macdonald LM, Maddern TM, Murphy DV, Hall PA, Singh BP, Baumann K, Krull ES, Baldock JA (2013) Microbial utilisation of biochar-derived carbon. The Science of the Total Environment 465, 288–297.
| Microbial utilisation of biochar-derived carbon.Crossref | GoogleScholarGoogle Scholar | 23623696PubMed |
Galal S (2020) Wheat production in Egypt 2010–2020. Available at: https://www.statista.com/statistics/972549/egypt-wheat-production/
Gunes A, Inal A, Taskin M, Sahin O, Kaya EC, Atakol A, Goss M (2014) Effect of phosphorus-enriched biochar and poultry manure on growth and mineral composition of lettuce (Lactuca sativa L. cv.) grown in alkaline soil. Soil Use and Management 30, 182–188.
Haileselassie B, Habte D, Haileselassie M, Gebremeskel G (2014) Effects of mineral nitrogen and phosphorus fertilizers on yield and nutrient utilization of bread wheat (Tritcum aestivum) on the sandy soils of Hawzen District, northern Ethiopia. Agriculture Forestry and Fisheries 3, 189–198.
Haq MU, Mallarino AP (2005) Response of soybean grain oil and protein concentrations to foliar and soil fertilization. Agronomy Journal 97, 910–918.
| Response of soybean grain oil and protein concentrations to foliar and soil fertilization.Crossref | GoogleScholarGoogle Scholar |
Hellal F, El-Sayed S, Zewainy R, Ahmad Am A (2019) Importance of phosphate pock application for sustaining agricultural production in Egypt. Bulletin of the National Research Center 43, 11
| Importance of phosphate pock application for sustaining agricultural production in Egypt.Crossref | GoogleScholarGoogle Scholar |
Hiama PD, Ewusi-Mensah N, Logah V (2019) Nutrient uptake and biological nitrogen fixation in cowpea under biochar–phosphorus interaction. Journal of Animal and Plant Sciences 29, 1654–1663.
Jing Z, Chen R, Wei S, Lin X (2017) Biochar functions as phosphorous fertilizers in an alkaline alluvial soil. Communications in Soil Science and Plant Analysis 48, 2455–2463.
| Biochar functions as phosphorous fertilizers in an alkaline alluvial soil.Crossref | GoogleScholarGoogle Scholar |
Khalil AA (2013) Significance of some soil amendments and phosphate dissolving bacteria to enhance the availability of phosphate in calcareous soil. International Scholarly Research Notices 2013, 1–7.
Khan MB, Lone MI, Ullah R, Kaleem S, Ahmed M (2010) Effect of different phosphatic fertilizers on growth attributes of wheat (Trticum aestivum L.). The Journal of American Science 6, 1256–1262.
Kumari KG, Moldrup P, Paradelo M, de Jonge LW (2014) Phenanthrene sorption on biochar-amended soils: application rate, aging, and physicochemical properties of soil. Water, Air, and Soil Pollution 225, 2105
| Phenanthrene sorption on biochar-amended soils: application rate, aging, and physicochemical properties of soil.Crossref | GoogleScholarGoogle Scholar |
Lehmann J, da Silva JP, Steiner C, Nehls T, Zech W, Glaser B (2003) Nutrient availability and leaching in an archaeological anthrosol and a ferralsol of the Central Amazon basin: fertilizer, manure and charcoal amendments. Plant and Soil 249, 343–357.
| Nutrient availability and leaching in an archaeological anthrosol and a ferralsol of the Central Amazon basin: fertilizer, manure and charcoal amendments.Crossref | GoogleScholarGoogle Scholar |
Madiba OF, Solaiman ZM, Carson JK, Murphy DV (2016) Biochar increases availability and uptake of phosphorus to wheat under leaching conditions. Biology and Fertility of Soils 52, 439–446.
| Biochar increases availability and uptake of phosphorus to wheat under leaching conditions.Crossref | GoogleScholarGoogle Scholar |
Mahmoud E, El-Beshbeshy T, El-Kader N, El Shal R, Khalafallah N (2017) Bio-char impacts on physical properties and wheat yield of salt affected soils. International Journal of Research and Science Publication 2, 1–10.
Mahmoud E, El Baroudy A, Abd El-Kader N, Othman S, El Khamisy R (2018) Effects of phosphogypsum and biochar addition on soil physical properties and nutrients uptake by maize yield in Vertic torrifluvents. International Journal of Scientific and Engineering Research 8, 1–23.
Mahmoud E, Ibrahim M, Abd El-Rahman L, Khader A (2019) Effects of biochar and phosphorus fertilizers on phosphorus fractions, wheat yield and microbial biomass carbon in Vertic torrifluvents. Communications in Soil Science and Plant Analysis 50, 362–372.
| Effects of biochar and phosphorus fertilizers on phosphorus fractions, wheat yield and microbial biomass carbon in Vertic torrifluvents.Crossref | GoogleScholarGoogle Scholar |
Majeed M, Rashid A, Muhammad T, Asif T, Muhammad A (2014) Effect of phosphorus fertilizer sources and rates on growth and yield of wheat (Triticum aestivum L.). Asian Journal of Agriculture and Biology 2, 14–20.
Major J, Rondon M, Molina D, Riha SJ, Lehmann J (2010) Maize yield and nutrition during 4 years after biochar application to a Colombian savanna oxisol. Plant and Soil 333, 117–128.
| Maize yield and nutrition during 4 years after biochar application to a Colombian savanna oxisol.Crossref | GoogleScholarGoogle Scholar |
Manna C, Swarup A, Wanjari H, Ravankar N, Mishra B, Saha N, Singh V, Sahi K, Sarap A (2005) Long-term effect of fertilizer and manure application on soil organic carbon storage, soil quality and yield sustainability under sub-humid and semi-arid tropical India. Field Crops Research 93, 264–280.
| Long-term effect of fertilizer and manure application on soil organic carbon storage, soil quality and yield sustainability under sub-humid and semi-arid tropical India.Crossref | GoogleScholarGoogle Scholar |
Maschner H (1995) ‘Mineral nutrition of higher plants.’ 2nd edn. (Academic Press: London, UK)
Mitchell PJ, Simpson AJ, Soong R, Simpson MJ (2016) Biochar amendment altered the molecular-level composition of native soil organic matter in a temperate forest soil. Environmental Chemistry 13, 854–866.
| Biochar amendment altered the molecular-level composition of native soil organic matter in a temperate forest soil.Crossref | GoogleScholarGoogle Scholar |
Mohsen AM, Abdel-Fattah MK (2015) Effect of different levels of nitrogen and phosphorus fertilizer in combination with botanical compost on growth and yield of okra (Abelmoschus esculentus L.) under sandy soil conditions in Egypt. Asian Journal of Agricultural Research 9, 249–258.
| Effect of different levels of nitrogen and phosphorus fertilizer in combination with botanical compost on growth and yield of okra (Abelmoschus esculentus L.) under sandy soil conditions in Egypt.Crossref | GoogleScholarGoogle Scholar |
Morshedi A (2011) An investigation into the effects of sowing time, N and P fertilizers on seed yield, oil and protein production in canola. Archives of Agronomy and Soil Science 57, 533–547.
| An investigation into the effects of sowing time, N and P fertilizers on seed yield, oil and protein production in canola.Crossref | GoogleScholarGoogle Scholar |
Nigussie A, Kissi E, Misganaw M, Ambaw G (2012) Effect of biochar application on soil properties and nutrient uptake of lettuces (Lactuca sativa) grown in chromium polluted soils. American-Eurasian Journal of Agricultural & Environmental Sciences 12, 369–376.
Page MA (1982) ‘Methods of soil analysis. Part 2.’ (Academic Press: New York, USA)
Petruccelli R, Bonetti A, Traversi ML, Faraloni C, Valagussa M, Pozzi A (2015) Influence of biochar application on nutritional quality of tomato (Lycopersicon esculentum). Crop & Pasture Science 66, 747–755.
| Influence of biochar application on nutritional quality of tomato (Lycopersicon esculentum).Crossref | GoogleScholarGoogle Scholar |
Phares CA, Atiah K, Frimpong KA, Danquah A, Asare AT, Aggor-Woananu S (2020) Application of biochar and inorganic phosphorus fertilizer influenced rhizosphere soil characteristics, nodule formation and phytoconstituents of cowpea grown on tropical soil. Heliyon 6, e05255
Prystupa P, Savin R, Slafer GA (2004) Grain number and its relationship with dry matter, N and P in the spikes at heading in response to N×P fertilization in barley. Field Crops Research 90, 245–254.
| Grain number and its relationship with dry matter, N and P in the spikes at heading in response to N×P fertilization in barley.Crossref | GoogleScholarGoogle Scholar |
Saarnio S, Heimonen K, Kettunen R (2013) Biochar addition indirectly affects N2O emissions via soil moisture and plant N uptake. Soil Biology & Biochemistry 58, 99–106.
| Biochar addition indirectly affects N2O emissions via soil moisture and plant N uptake.Crossref | GoogleScholarGoogle Scholar |
Saleh ME, Mahmoud AH, Rashad M (2012) Peanut biochar as a stable adsorbent for removing NH4-N from wastewater: a preliminary study. Advances in Environmental Biology 6, 2170–2177.
SAS Institute (1996) ‘SAS/Stat user’s guide.’ Version 6. 4th edn. (SAS Institute Inc.: Cary, NC, USA)
Shand C (2007) ‘Plant nutrition for food security. A guide for integrated nutrient management.’ (Eds RN Roy, A Finck, GJ Blair, HLS Tandon) (Food and Agriculture Organization of the United Nations: Rome, Italy)
Shen Q, Hedley M, Camps Arbestain M, Kirschbaum MUF (2016) Can biochar increase the bioavailability of phosphorus? Journal of Soil Science and Plant Nutrition 16, 268–286.
| Can biochar increase the bioavailability of phosphorus?Crossref | GoogleScholarGoogle Scholar |
Solaiman Z, Blackwell M, Lackwell P, Abbott K, Storer P (2010) Direct and residual effect of biochar application mycorrhizal root colonization, growth and nutrition of wheat. Soil Research 48, 546–554.
| Direct and residual effect of biochar application mycorrhizal root colonization, growth and nutrition of wheat.Crossref | GoogleScholarGoogle Scholar |
Spokas KA, Novak JM, Venterea RT (2012) Biochar’s role as an alternative N-fertilizer: ammonia capture. Plant and Soil 350, 35–42.
| Biochar’s role as an alternative N-fertilizer: ammonia capture.Crossref | GoogleScholarGoogle Scholar |
Steiner C, Teixeira WG, Lehmann J, Nehls T, de Macedo JLV, Blum WEH, Zech W (2007) Long-term effects of manure, charcoal and mineral fertilization on crop production and fertility on a highly weathered central Amazonian upland soil. Plant and Soil 291, 275–290.
| Long-term effects of manure, charcoal and mineral fertilization on crop production and fertility on a highly weathered central Amazonian upland soil.Crossref | GoogleScholarGoogle Scholar |
Tammeorg P, Simojoki A, Makela P, Stoddard FL, Alakukku L, Helenius J (2014) Biochar application to a fertile sandy clay loam in boreal conditions: effects on soil properties and yield formation of wheat, turnip rape and faba bean. Plant and Soil 374, 89–107.
| Biochar application to a fertile sandy clay loam in boreal conditions: effects on soil properties and yield formation of wheat, turnip rape and faba bean.Crossref | GoogleScholarGoogle Scholar |
Vaccari FP, Baronti S, Lugato E, Genesio L, Castaldi S, Fornasier F, Miglietta F (2011) Biochar as a strategy to sequester carbon and increase yield in durum wheat. European Journal of Agronomy 34, 231–238.
| Biochar as a strategy to sequester carbon and increase yield in durum wheat.Crossref | GoogleScholarGoogle Scholar |
Van Zwieten L, Kimber S, Morris S, Chan KY, Downie A, Rust J, Joseph S, Cowie A (2010) Effects of biochar from slow pyrolysis of paper mill waste on agronomic performance and soil fertility. Plant and Soil 327, 235–246.
| Effects of biochar from slow pyrolysis of paper mill waste on agronomic performance and soil fertility.Crossref | GoogleScholarGoogle Scholar |
Varela Milla O, Rivera EB, Huang WJ, Chien C, Wang YM (2013) Agronomic properties and characterization of rice husk and wood biochars and their effect on the growth of water spinach in a field test. Journal of Soil Science and Plant Nutrition 13, 251–266.
| Agronomic properties and characterization of rice husk and wood biochars and their effect on the growth of water spinach in a field test.Crossref | GoogleScholarGoogle Scholar |
Verma B, Reddy M (2020) Biochar augmentation improves ectomycorrhizal colonisation, plant growth and soil fertility. Soil Research 58, 673–682.
| Biochar augmentation improves ectomycorrhizal colonisation, plant growth and soil fertility.Crossref | GoogleScholarGoogle Scholar |
Volding HD, Simpson GM (1967) Leaf area as indicator of potential grain yield in wheat. Canadian Journal of Plant Science 47, 359–365.
Xiao Q, Zhu L, Zhang H, Li X, Shen Y, Li S (2016) Soil amendment with biochar increases maize yields in a semi-arid region by improving soil quality and root growth. Crop & Pasture Science 67, 495–507.
| Soil amendment with biochar increases maize yields in a semi-arid region by improving soil quality and root growth.Crossref | GoogleScholarGoogle Scholar |
Yamato M, Yasuyuki O, Irhas F, Saifuddin A, Makoto O (2006) Effects of the application of charred bark of Acacia mangium on the yield of maize, cowpea and peanut, and soil chemical properties in South Sumatra, Indonesia. Soil Science and Plant Nutrition 52, 489–495.
| Effects of the application of charred bark of Acacia mangium on the yield of maize, cowpea and peanut, and soil chemical properties in South Sumatra, Indonesia.Crossref | GoogleScholarGoogle Scholar |