Internal efficiency of nitrogen by Amaranthus cruentus under the influence of urea and biochar on semi-arid Alfisols of Northern Nigeri
DOI:
https://doi.org/10.61308/XMVL5932Keywords:
integrated soil fertility management, nitrogen, semi-arid soil, Dutse, green vegetablesAbstract
The study evaluated the dry matter yield (DMY) and internal efficiency of nitrogen (IEN) in Amaranthus cruentus under the influence of urea and biochar amendments in the semi-arid Alfisols of Northern Nigeria. A screen-house factorial experiment was conducted using a completely randomized design, with treatments consisting of different combinations of urea (0 (U0), 32.5 (U1), 65 (U2) kg N ha⁻¹) and biochar (0 (B0), 15 (B1), 30 (B2) t.ha⁻¹).
Results showed that the combined application of biochar and urea significantly influenced plant growth and nitrogen use efficiency. The highest DMY (2.16 ± 0.020 g) and IEN (2.06 ± 0.169) were observed in the treatment with 30 t.ha⁻¹ biochar and 32.5 kg N ha⁻¹ urea (B2U1), while the highest nitrogen uptake (3.38 ± 0.773 mg.pot-1) was recorded under sole urea application (B0U2).
Biochar-enhanced treatments (B1, B2) generally improved DMY and IEN compared to the biochar-free treatment (B0), suggesting synergistic effects between biochar and moderate urea levels. Biochar application reduced nitrogen leaching losses, thereby increasing nitrogen availability for plant uptake.
These findings demonstrate that integrating urea with biochar can optimize nitrogen utilization in Amaranthus cruentus production in semi-arid Alfisols, promoting sustainable nutrient management and improved crop productivity.
References
Adekiya, A.O., Aremu, C., Olayanju, A., Ejue, W.S., Olayiwola, I.E., Ndupuechi, I.D., Suleiman, O.K. & Ajiboye, B. (2022). Response of quality, yield and growth of amaranth (Amaranthus hybridus) and soil chemical properties on application of organic and inorganic nutrients. Res. Crop, 23(1), 186-196. doi:10.31830/2348-7542.2022.026.
Agbenin, J.O. (1995). Laboratory Manual for Soil and Plant Analysis (Selected Method and Data Analysis).
Akinrinde, E.A., Obigbesan, G.O. & Sanginga, N. (2000).”Evaluation of the fertility status of selected soils for crop production in five ecological zones of Nigeria.” In Proceedings of the 26th Annual Conference of the Soil Science Society of Nigeria (SSSN) (pp. 61–68).
Alkali, B., Yusif, S.A., Umar, B., & Haruna, S. (2018). Influence of the application of biochar on the growth of groundnut (Arachis hypogaea L.) grown on Lead contaminated soil. Direct Research Journal of Agriculture and Food Science, 6(1), 33-39.
Brady, N.C. & Weil, R.R. (2014). The nature and properties of soils. Fourteenth Edition. Pearson Education Inc. New Delhi, India.
Chaudhury, B. (1967). Vegetables. National Book Trust: New Delhi. India.
Cheng, C.H., Lehmann, J., Thies, J.E. & Burton, S.D. (2008). Stability of black carbon in soils across a climatic gradient. Journal of Geophysical Research: Biogeosciences, 113(G2). doi: 10.1029/2007JG000642.
Chude, V.O., Malgwi, W.B., Amapu, I.Y. & Ano, A.O. (2011). Manual on Soil Fertility Assessment Abuja.Federal Fertilizer Department in collaboration with National Programme for Food Security.
Day, W. (2005). Engineering precision into biological systems . Annals of Applied Biology, 146(2), 155-162. https://doi.org/10.1111/j.1744-7348.2005.040064.x
Enwezor, W.O., Ohiri, A.C., Opowaribo, E.E., & Udo, E.J. (1990). A review of soil fertilizer use in crops in Southeastern zone of Nigeria (in five volumes). Federal Ministry of Agriculture and Natural Resources, Lagos, Nigeria
Esu, I.E. (1991). Detailed Soil Survey of NIHORT Farm at Bunkure, Kano State, Nigeria. Institute for Agricultural Research, Ahmadu Bello University, Zaria.
Frimpong, K. A., Owusu, S., Darko, R. O., Hanyabui, E., Abbey, A. N. A., & Tetteh, D. A. (2025). Effect of biochar application rates on soil properties and growth of Amaranthus caudatus. Discover Agriculture, 3(1), 21. https://doi.org/10.1007/s44279-025-00172-0.
Glass, A.D. (2003). Nitrogen use effi ciency of crop plants: Physiological constraints upon nitrogen absorption. Critical Reviews in Plant Sciences, 22(5), 453-470.
Haefele, S. M., Wopereis, M. C. S., Ndiaye, M. K., Barro, S. E., & Isselmou, M. O. (2003). Internal nutrient efficiencies, fertilizer recovery rates and indigenous nutrient supply of irrigated lowland rice in Sahelian West Africa. Field Crops Research, 80(1), 19-32.
Hirel, B., Le Gouis, J., Ney, B. & Gallais, A. (2007). The challenge of improving nitrogen use efficiency in crop plants: towards a more central role for genetic variability and quantitative genetics within integrated approaches. Journal of Experimental Botany, 58, 2369-2387. doi: 10.1093/jxb/erm097.
Hossain, S.I. (1996). A comparative study on yield and quality of some amaranth genotype. MS thesis, IPSA, Salna, gazipur.
Iren, B.O., Ijah, C.J., Asawalam, D.O. & Osodeke, V.E. (2016). Comparative effect of pig manure, urea fertilizer and their combinations on the performance of Amaranthus cruentus in a rainforest Ultisol, Nigeria. Journal of Agricultural Science and Practice, 1(3), 52-57.
Jeffery, S., Verheijen, F. G., van der Velde, M., & Bastos, A. C. (2011). A quantitative review of the effects of biochar application to soils on crop productivity using meta-analysis. Agriculture, ecosystems & environment, 144(1), 175-187. https://doi.org/10.1016/j.agee.2011.08.015.
Johnson, J. M., Vandamme, E., Senthilkumar, K., Sila, A., Shepherd, K. D., & Saito, K. (2019). Near-infrared, mid-infrared or combined diffuse reflectance spectroscopy for assessing soil fertility in rice fields in sub-Saharan Africa. Geoderma, 354, 113840. https://doi.org/10.1016/j.geoderma.2019.06.043.
Kingston-Smith, A.H., Bollard, A.L. & Minchin, F.R. (2006). The effect of nitrogen status on the regulation of plant-mediated proteolysis in ingested forage; an assessment using non-nodulating white clover. Annals of Applied Biology, 149(1), 35-42. https://doi.org/10.1111/j.1744-7348.2006.00069.x.
Lal, R. (2004). Soil carbon sequestration impacts on global climate change and food security. Science, 304(5677), 1623-1627. doi: 10.1126/science.1097396.
Lehmann, J. & Joseph, S. (2009). Biochar for environmental management: An introduction. In: Biochar for Environmental Management, Science and Technology; Lehmann, J., Joseph, S., Eds.; Earth scan: London, UK. pp. 1-12.
Lehmann, J. & Joseph, S. (2015). Biochar for Environmental Management: Science, Technology and Implementation (2nd ed.). Lehmann, J., Joseph, S. (Eds.); Routledge, pp. 12-13.
Lombin, L.G., Adepetu, J.A. & Ayolade, K.A. (1992). Complementary use of organic manure and inorganic fertiliser in arable crop production. In: Fed. Min of Sci. & Tech. Ed. Organic fertiliser in the Nigeria agriculture: Present and future. Proceeding of National Organic Fertiliser Seminar. Zaria pp. 146-162.
Lopez-Martinez, J.M. & Ahmad, I. (2024). Amaranth seeds: A promising functional ingredient for gastronomy–A review. Sarhad Journal of Agriculture, 40(1), 39-53.
Mengel, K., Hütsch, B. & Kane, Y. (2006). Nitrogen fertilizer application rates on cereal crops according to available mineral and organic soil nitrogen. European Journal of Agronomy, 24(4), 343-348. https://doi.org/10.1016/j.eja.2005.12.001.
Meyer, S., Glaser, B., & Quicker, P. (2011). “Technical, economical, and climate-related aspects of bio char production technologies: A literature review”. Environmental Science and Technology, 45(22), 9473-9483.
Mullen, R., Lentz, E. & Watson, M. (2016). Soil acidity and liming for agronomic production. Ohio State University Extension.
Nelson, D.W. & Sommers, L.E. (1982). Total Carbon, organic carbon and organic matter. In SD (ed), In Methods of soil analysis, part 2 (pp. 961-1010). Madison: America Society of Agronomy.
Olofin, E.A. (1987). The dynamics of gully head recession in a savanna environment. Erosion, Transport and Deposition Processes. Proceedings of the Jerusalem Workshop.
Onokebhagbe, O.V., Abdu, N. & Santuraki, H.A. (2018). Residual effects of bio char yield of grain amaranths (Amaranthus cruentus L.) grown on Alfisols of Nigerian Northern Guinea and Sudan savanna agro-ecologies. Dutse Journal of Agriculture and Food Security, 5(1), 97-108.
Onokebhagbe, O.V. (2020). Effects of selected properties of woodchar and bonechar on Pb and Cd adsorption. Journal of Research in Forestry, Wildlife and Environment, 12(1), 70-78.
Parry, M.A.J., Flexas, J., & Medrano, H. (2005). Prospects for crop production under drought: Research priorities and future directions. Annals of Applied Biology, 147, 211-226.
Raun, W.R., & Johnson, G.V. (1999). Improving nitrogen use efficiency for cereal production. Agron. J., 91(3), 357-363.
Shehu, B.M., Jibrin, J.M. & Samndi, A.M. (2015). Fertility status of selected soils in the Sudan Savanna biome of Northern Nigeria. International Journal of Soil Science, 10(2), 74-83. doi: 10.3923/ijss.2015.74.83.
Smith, P., Soussana, J. F., Angers, D., Schipper, L., Chenu, C., Rasse, D. P., ... & Klumpp, K. (2020). How to measure, report and verify soil carbon change to realize the potential of soil carbon sequestration for atmospheric greenhouse gas removal. Global Change Biology, 26(1), 219-241. https://doi.org/10.1111/gcb.14815.
Teutonico, R.A. & Knorr, D. (1985). Amaranth composition, properties and application of a reddish covered food crop. Food technology, 39, 49-61.
Umeri, C., Nwajei, S. & Akporherhe, H. (2022). Effect of urea fertilizer on the growth and yield of African spinach (Amaranthus hybridus L.) in derived- savanna zone of Delta State, Nigeria. Journal of Current Opinion in Crop Science, 3(1), 28-33. https://doi.org/10.62773/jcocs.v3i1.152.
Vitousek, P.M., Mooney, H.A., Lubchenco, J. & Melillo, J.M. (1997). Human domination of Earth’s ecosystems. Science, 277, 494-499.
Xu, G., Fan, X. & Miller, A.J. (2012). Plant nitrogen assimilation and use efficiency. Annual Review of Plant Biology, 63, 153-182. doi: 10.1146/annurev-arplant-042811-105532.
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