ASSESSMENT OF AZADIRACHTA INDICA (L.) IN THE REMOVAL OF HEAVY METAL FROM SOIL CONTAMINATED WITH LEAD POISONING IN ANKA, ZAMFARA STATE

  • Ibrahim Salau
  • N. M. Ibrahim
  • M. Aliyu
  • K. S. Jaafar
Keywords: Anka, Assessment, Concentration, Lead, Soil

References

Abujabhah, I. S., Doyle, R. B., Bound, S. A. and Bowman, J. P. (2018). Assessment of bacterial community composition, methanotrophic and nitrogen-cycling bacteria in three soils with different biochar application rates. Journal of Soils and Sediments, 18(1): 148 - 158.

American Public Health Association. (A.P.H.A.). (2000). Standard methods for the examination of water and wastewater, 22nd edition. Washington, D.C. pp. 1291.

Bako, S. P., Ezealor, A. U. and Tanimu, Y. (2014). Heavy Metal Deposition in Soils and Plants Impacted by Anthropogenic Modification of Two Sites in the Sudan Savanna of North Western Nigeria. pp. 57.

Bremner, J. M. (2007). Nitrogen-Total in Method of Soils Analysis, Part 3: Chemical Methods. Sparks, D. L. (Ed). Soil ScienceSociety of America, Madison, W. I., USA., pp: 1085 - 1121.

Chaoua, S., Boussaa, S., El Gharmali, A. and Boumezzough, A. (2019). Impact of irrigation with wastewater on accumulation of heavy metals in soil and crops in the region of Marrakech in Morocco. Journal of the Saudi Society of Agricultural Sciences, 18(4): 429 - 436.

Gerenfes, D. Giorgis, G. A. and Negasa, A. (2022). Comparison of Organic Matter Determination Methods in Soil by Loss on Ignition and Potassium Dichromate Method. International Journal of Horticulture and Food Science, 4(1), 49 - 53.

Gul, I., Manzoor, M., Hashim, N., Shah, G. M., Waani, S. P. T., Shahid, M., ... and Arshad, M. (2021). Challenges in microbially and chelate-assisted phytoextraction of cadmium and lead–A review. Environmental Pollution, 287: 117667.

Hayashi, R., Maie, N., Wagai, R., Hirano, Y., Matsuda, Y., Makita, N., ... and Tanikawa, T. (2022). An increase of fine-root biomass in nutrient-poor soils increases soil organic matter but not soil cation exchange capacity. Plant and Soil, 1 - 22.

Iyaka, Y. A. (2007). Concentration of Cu and Zn in some fruits and vegetables commonly available in North Central Zone of Nigeria. Electron. Journal of Environment, Agriculture and Food Chemistry, 6: 2150 - 2154.

Jaiswal, P. C. (2003). Soil, Plant and Water Analysis. Kalyami Publisher Ludhiana – New Delhi- Noid (UP), Indian, PP.98 - 103.

Kome, G. K., Enang, R. K., Tabi, F. O. and Yerima, B. P. K. (2019). Influence of clay minerals on some soil fertility attributes: a review. Open Journal of Soil Science, 9(9): 155 - 188.

Kumar, H., Sahoo, P. K. and Mittal, S. (2021). Sustainable remediation of heavy metals: A review of current status and its future prospects. New Trends in Removal of Heavy Metals from Industrial Wastewater, 571 - 610.

Lange, B., van der Ent, A., Baker, A. J. M., Echevarria, G., Mahy, G., Malaisse, F., ... and Faucon, M. P. (2017). Copper and cobalt accumulation in plants: a critical assessment of the current state of knowledge. New Phytologist, 213(2): 537 - 551.

Liu, W. H., Zhao, J. Z., Ouyang, Z. Y., Söderlund, L. and Liu, G. H. (2005). Impacts of Sewage irrigation on Heavy Metal distribution and contamination in Beijing, China. Environment International, 31(6): 805 – 812.

Lv, J., Christie, P. and Zhang, S. (2019). Uptake, translocation, and transformation of metal-based nanoparticles in plants: recent advances and methodological challenges. Environmental Science: Nano, 6(1): 41 - 59.

Lwin, C. S., Seo, B. H., Kim, H. U., Owens, G. and Kim, K. R. (2018). Application of soil amendments to contaminated soils for heavy metal immobilization and improved soil quality—A critical review. Soil science and plant nutrition, 64(2): 156 - 167.

Nafiu, A. (2010). Geochemical assessment, distribution and dynamics of Trace Elements in contaminated Urban Soil under long term Wastewater irrigation in Kano, Northern Nigeria. African Journal of Earth Science, 5: 4.

Nahar, N. and Shahadat Hossen, M. (2021). Influence of sewage sludge application on soil properties, carrot growth and heavy metal uptake. Communications in Soil Science and Plant Analysis, 52(1): 1 - 10.

Obasi, N. A., Akubugwo, E. I., Ugbogu, O. C. and Otuchristian, G. (2012). Assessment of Physico-chemical Properties and Heavy Metals bioavailability in Dumpsites along Enugu/Port-Harcourt Expressways, South-east, Nigeria. Asian Journal of Applied Sciences, 5(6): 342 – 356.

Parker, J. L., Fernandez. I. V., Rustad, E. L. and Norton, A. S. (2002). Soil Organic Matter Fractions in Experimental ForestedWatersheds. Water, Air, and Soil Pollut. 138: 101 – 121.

Patel, H. (2020). Batch and continuous fixed bed adsorption of heavy metals removal using activated charcoal from neem (Azadirachtaindica) leaf powder. Scientific Reports, 10(1): 1 - 12.

Rehman, A. U., Nazir, S., Irshad, R., Tahir, K., ur Rehman, K., Islam, R. U. and Wahab, Z. (2021). Toxicity of heavy metals in plants and animals and their uptake by magnetic iron oxide nanoparticles. Journal of Molecular Liquids, 321: 114455.

Rocha, C. S., Rocha, D. C., Kochi, L. Y., Carneiro, D. N. M., Dos Reis, M. V. and Gomes, M. P. (2021). Phytoremediation by ornamental plants: a beautiful and ecological alternative. Environmental Science and Pollution Research, 1 - 19.

Rudakiya, D. M. and Patel, Y. (2021). Bioremediation of metals, metalloids, and nonmetals. In Microbial Rejuvenation of Polluted Environment (pp. 33 - 49). Springer, Singapore.

Sharmin, S., Lipka, U., Polle, A. and Eckert, C. (2021). The influence of transpiration on foliar accumulation of salt and nutrients under salinity in poplar (Populus× canescens). PloS one, 16(6): e0253228.

Singh, A., Agrawal, M. and Marshall, F. M. (2010). The role of organic vs. inorganic fertilizers in reducing phytoavailability of heavy metals in a wastewater-irrigated area. Ecological Engineering, 36(12): 1733 - 1740.

Uwah, E. I., Ndahi, N. P. and Ogugbuaja, V. O. (2009). Study of the Levels of some Agricultural Pollutants in Soils, and Water Leaf (Talinum triangulare) obtained in Maiduguri, Nigeria. Journal of Applied Science and Environment, Sanita, 4(2): 71 – 78.

Van der Ent, A., Baker, A. J., Reeves, R. D., Pollard, A. J. and Schat, H. (2013). Hyperaccumulators of metal and metalloid trace elements: facts and fiction. Plant and soil, 362(1): 319 - 334.

Zakari, A. and Audu, A. A. (2021). Bioaccumulation and Translocation of Potentially Toxic Elements (PTEs) by Khaya Senegalensis at Challawa Industrial Estate, Kano, Nigeria. Journal of Material and Environmental Science, 12(5): 684 - 692.

Zitta, W. S., Sarah, J. and Jack, K. K. (2022). Physio-Chemical Properties of Soil in Ganawuri, Plateau State, Nigeria.

Infrastructure Project in Indian Construction Industry. The International Journal of Business & Management, 171-175.

Vivian W. Y. Tam and Liyin Y. Shen (2012). Risk Management for Contractors in Marine Projects, ‘An International Journal in Engineering and Technology, pp. 403-410, DOI: 10.5592/OTMCJ.2012.1.5.

Yang Zou, Arto Kiviniemi and Stephen W. Jones (2015). A Review of Risk management through BIMand BIM-related Technologies, Journal of Safety Science, accepted by Elsvier

Zou, P. X., Wang, G. Z., & Jia-Yuan, P. (2005). Identifying Key Risks in Construction Projects: Life Cycle and Stakeholder Perspectives. 1-14

Published
2023-01-01
How to Cite
SalauI., IbrahimN. M., AliyuM., & JaafarK. S. (2023). ASSESSMENT OF AZADIRACHTA INDICA (L.) IN THE REMOVAL OF HEAVY METAL FROM SOIL CONTAMINATED WITH LEAD POISONING IN ANKA, ZAMFARA STATE. FUDMA JOURNAL OF SCIENCES, 6(6), 138 - 145. https://doi.org/10.33003/fjs-2022-0606-1138