Pollution is a major environmental issue in the world due to its adverse effect on living organism. In the past few decades, uncontrolled urbanization has caused serious pollution problem due to the disposal of sewage, industrial and hospital effluents to water bodies. In this study, the Heavy Metals concentration of a hospital wastewater treatment plants in Zaria, Kaduna state was assessed for a whole season to develop a baseline data on the pollution status of the water and the potentials of water hyacinth in the phytoremediation of the water was evaluated for further removal of the contaminants to reduce the pollution to a minimal status. Some Heavy Metals in the wastewater were analyzed like Co, Cr, Cu, Mg, Mn, Ni, Pb, Zn and Cd using Digestion and Atomic Absorbance Spectrometry method with T-test statistically and concentrations of 0.03±0.02, 0.13±0.01, 0.057±0.01, 1.00±0.40, 0.25±0.03, 0.18±0.04, 0.04±0.03, 1.31±0.33 and 0.46±0.29 respectively in dry season. And in wet season; Co (0.10±0.07), Cr (0.21±0.03), Cu (0.02±0.00), Mg (2.25±0.56), Mn (0.23±0.03), Ni (0.13±0.04), Pb (0.14±0.06), Zn (2.18±0.47) and Cd (0.47±0.23) were obtained respectively with significant differences at p>0.05 in Cr and Pb concentrations between dry and wet season. Ni and Pb were found to be above acceptable threshold for WHO and NESREA guidelines and standards but within permissible limit for FAO while Cd, Co and Mn were above acceptable limit for the standard guidelines. Phytoremediation is an attractive alternative to the conventional cleanup technologies that employ plants and their associated microorganisms to remove, contain, or rendered harmless environmental contaminants. In this study, Young Plants of water hyacinth (Eichhornia crassipes), water lettuce (Pistia stratiotes) and Vetiver grass (Chrysopogon zizanoides) were used hydroponically for further remediation of the treated effluent, as based on above values of Ni, Pb, Cd, Co, and Mn, showing the effluent is unfit for human consumption or irrigation purposes.
| Published in | American Journal of Biological and Environmental Statistics (Volume 8, Issue 4) |
| DOI | 10.11648/j.ajbes.20220804.11 |
| Page(s) | 97-101 |
| Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
| Copyright |
Copyright © The Author(s), 2022. Published by Science Publishing Group |
Heavy Metals, Wastewater, Phytoremediation, Water Hyacinth, Hydroponically
| [1] | Taiwo, A. M; Adeogun, A. O; Olatunde, K. A and Adegbite, K. I (2011). Analysis of ground water quality of hand-dung wells in peri-urban areas of obantoko, Abeokuta, Nigeria for selected physico-chemical parameters. Pacific Journal of Science and Technology, 2 (1): 527-534. |
| [2] | Verla, A. W; Verla, E. N; Enyoh, C. E; Leizou, K and Peter, N. O (2019). Using physicochemical properties in assessment of river water for consumption and irrigation in Nigeria. Eurasian Journal of Analytical Chemistry. Accepted manuscript. |
| [3] | Oghenerobor, B. A; Gladys, O. O and Tomilola, D. O (2014). Heavy metal Pollutants in wastewater effluents: Sources, Effect and Remediation. Journal of advance in Bioscience and Bioengineering. 2 (4): 37-47. |
| [4] | Ogoyi, D. O; Mwita, C. J; Nguu, E. K and Shiundu, P. M (2011). Determination of Heavy Metal Content in water Sediment and microalgae from Lake Victoria, East Africa. The Open Environmental Engineering Journal, 4: 156-161. |
| [5] | Gola, D; Malik, A; Shaik, Z. A and Sreekrishnan, T. R (2016). Impact of Heavy metal containing waste-water. On Agricultural soil and produce: Relevance of Biological Treatment. Journal Environmental processes, 3, 1063-1080. |
| [6] | Isiuku, B. O and Enyoh, C. E (2019). Phytoremediation of polluted water bodies with aquatic plants. Recent progress on Heavy metal and organic pollutants: Journal of Analytical Methods in Environmental Chemistry, 1: 1-38. |
| [7] | Yabe, J; Mayuni, I and Takashi, U (2010). Current Levels of Heavy Metal Pollution in African Journal of Vetinary Medical Science, 72 (10): 1257–1263. |
| [8] | Andrew, W. V; Evelyn, N. V.; Chigbo, M. A; Kelechi, C. E; Ngozi, O. S; and Christian E. E (2019). Biomonitoring of heavy metals in Blood and Urine of African Children from Owerri metropolis, Eastern Nigeria. Journal of chemical Health Risks, 9 (1): 11-26. |
| [9] | Shafaqat, A; Zohaib, A; Muhammad, R; Ihsan, E. Z; Ilkay, Y; Aydin, U; Mohamed, M. A; May. B. J; Mirza, H; and Dimitris, K (2020). Application of floating aquatic plants in phytoremediation of Heavy metal Polluted water: A Review. Journal of Sustainability, 12 (5) 19-27. |
| [10] | Dixit, R; Wasiulah, H; Malaviya, D; Pandiyan, K; Singh, U. B; Sahu A…. and Paul D. (2015). Bioremediation of Heavy metals from soil and aquatic environment: An overview of principles and criteria of fundamental processes. Sustainability, 7 (2): 189-212. |
| [11] | Lopez-chuken, U. J (2012). Hydroponics- a standard methodology for plant biological researches. Intech press, Croatia, pp 181-198. Mochungong, P and Zhu, J. (2015). DDTs, PCBs and PBDEs contamination in Africa, Latin America and south-southeast Asia—A review. |
| [12] | Zhao, F; Yang, W; Zeng, Z; Li, H; Yang, X; He, Z and Peng, H., (2012). Nutrient removal efficiency and biomass production of different biornergy plants in hypereutrophic water. Journal of Biomass and Bioenergy, 42, 212-218. |
| [13] | Darajeh, N; Truong, P; Rezania, S; Alizadeh, H and Leung, D. W (2019). Effectiveness of Vetiver grass versus other plants for phytoremediation of contaminated water. Journal of environmental treatment technology, 7: 3, 485-500. |
| [14] | Enyoh, C. E; Verla, A. W and Verla, E. N (2019). Uptake of Micro plastic by plant: A reason to worry or to be Happy? World Scientific News, 131, 256-267. |
| [15] | APHA (2001). Standard methods for the examination of water and wastewater, 20th edition. APHA Washington D. C. |
| [16] | Eze C. T., Onwurah I. N. E. (2015). Environmental Health Risk Assessment of hospital wastewater in Enugu Urban, Nigeria. Proceedings of the 14th International Conference on Environmental Science and Technology, Rhodes, Greece (3-5 sept). |
| [17] | Somwang, D; Wichai, W; Susan, A and Duangporn, J (2005). Microbial and Heavy metal Contamination of treated hospital wastewater in Thailand. Journal of medical Association, Thailand. 88: 10. |
| [18] | Joshua, N. E; John, O. O; Elizabeth, O and Titus, A. M (2017). Evaluation of Temporary seasonal variation of Heavy Metals and their potential ecological risk in Nzhelele River, South Africa. Journal of open chemistry, 15 (1): 272-282. |
| [19] | Kouame, K. V.; Meite, L; Adijiri, O. A; Yapi, D. A. C and Tidou, A. S (2016). Bioaccumulation of Heavy metals from wastewater (Pb, Zn, Cd, Cu, and Cr) in waterhyacinth (E. crassipes) and water lettuce (P. stratiotes). International Journal of Chemical Technology Research, 9 (2): 189-195. |
| [20] | Ali, S. V; Abdollah, H and Shahram, S (2019). Study of the accumulation of contaminants by Cyperusalternifolius, Lemna minor, Eichhornia crassipes and Canna x generalis in some contaminated aquatic environments. Journal of Environmental Science and pollution Research, 26: 21340-21350. |
| [21] | Syed, T. H; Tariq, M and Salman, A. M (2010). Phytoremediation technologies for Ni++ by waterhyacinth. African Journal of Biotechnology, 9 (50): 8648-8660. |
APA Style
Abdullahi Ahmed Fatima, Abdullahi Shuaibu Akpai, Abolude David Sunday, Yahya Ocholi. (2022). Seasonal Assessment of Heavy Metal Contaminants of a Hospital Wastewater and Potentials of Water Hyacinth, Water Lettuce and Vetiver Grass in Its Phytoremediation. American Journal of Biological and Environmental Statistics, 8(4), 97-101. https://doi.org/10.11648/j.ajbes.20220804.11
ACS Style
Abdullahi Ahmed Fatima; Abdullahi Shuaibu Akpai; Abolude David Sunday; Yahya Ocholi. Seasonal Assessment of Heavy Metal Contaminants of a Hospital Wastewater and Potentials of Water Hyacinth, Water Lettuce and Vetiver Grass in Its Phytoremediation. Am. J. Biol. Environ. Stat. 2022, 8(4), 97-101. doi: 10.11648/j.ajbes.20220804.11
AMA Style
Abdullahi Ahmed Fatima, Abdullahi Shuaibu Akpai, Abolude David Sunday, Yahya Ocholi. Seasonal Assessment of Heavy Metal Contaminants of a Hospital Wastewater and Potentials of Water Hyacinth, Water Lettuce and Vetiver Grass in Its Phytoremediation. Am J Biol Environ Stat. 2022;8(4):97-101. doi: 10.11648/j.ajbes.20220804.11
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Download@article{10.11648/j.ajbes.20220804.11,
author = {Abdullahi Ahmed Fatima and Abdullahi Shuaibu Akpai and Abolude David Sunday and Yahya Ocholi},
title = {Seasonal Assessment of Heavy Metal Contaminants of a Hospital Wastewater and Potentials of Water Hyacinth, Water Lettuce and Vetiver Grass in Its Phytoremediation},
journal = {American Journal of Biological and Environmental Statistics},
volume = {8},
number = {4},
pages = {97-101},
doi = {10.11648/j.ajbes.20220804.11},
url = {https://doi.org/10.11648/j.ajbes.20220804.11},
eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajbes.20220804.11},
abstract = {Pollution is a major environmental issue in the world due to its adverse effect on living organism. In the past few decades, uncontrolled urbanization has caused serious pollution problem due to the disposal of sewage, industrial and hospital effluents to water bodies. In this study, the Heavy Metals concentration of a hospital wastewater treatment plants in Zaria, Kaduna state was assessed for a whole season to develop a baseline data on the pollution status of the water and the potentials of water hyacinth in the phytoremediation of the water was evaluated for further removal of the contaminants to reduce the pollution to a minimal status. Some Heavy Metals in the wastewater were analyzed like Co, Cr, Cu, Mg, Mn, Ni, Pb, Zn and Cd using Digestion and Atomic Absorbance Spectrometry method with T-test statistically and concentrations of 0.03±0.02, 0.13±0.01, 0.057±0.01, 1.00±0.40, 0.25±0.03, 0.18±0.04, 0.04±0.03, 1.31±0.33 and 0.46±0.29 respectively in dry season. And in wet season; Co (0.10±0.07), Cr (0.21±0.03), Cu (0.02±0.00), Mg (2.25±0.56), Mn (0.23±0.03), Ni (0.13±0.04), Pb (0.14±0.06), Zn (2.18±0.47) and Cd (0.47±0.23) were obtained respectively with significant differences at p>0.05 in Cr and Pb concentrations between dry and wet season. Ni and Pb were found to be above acceptable threshold for WHO and NESREA guidelines and standards but within permissible limit for FAO while Cd, Co and Mn were above acceptable limit for the standard guidelines. Phytoremediation is an attractive alternative to the conventional cleanup technologies that employ plants and their associated microorganisms to remove, contain, or rendered harmless environmental contaminants. In this study, Young Plants of water hyacinth (Eichhornia crassipes), water lettuce (Pistia stratiotes) and Vetiver grass (Chrysopogon zizanoides) were used hydroponically for further remediation of the treated effluent, as based on above values of Ni, Pb, Cd, Co, and Mn, showing the effluent is unfit for human consumption or irrigation purposes.},
year = {2022}
}
TY - JOUR T1 - Seasonal Assessment of Heavy Metal Contaminants of a Hospital Wastewater and Potentials of Water Hyacinth, Water Lettuce and Vetiver Grass in Its Phytoremediation AU - Abdullahi Ahmed Fatima AU - Abdullahi Shuaibu Akpai AU - Abolude David Sunday AU - Yahya Ocholi Y1 - 2022/10/29 PY - 2022 N1 - https://doi.org/10.11648/j.ajbes.20220804.11 DO - 10.11648/j.ajbes.20220804.11 T2 - American Journal of Biological and Environmental Statistics JF - American Journal of Biological and Environmental Statistics JO - American Journal of Biological and Environmental Statistics SP - 97 EP - 101 PB - Science Publishing Group SN - 2471-979X UR - https://doi.org/10.11648/j.ajbes.20220804.11 AB - Pollution is a major environmental issue in the world due to its adverse effect on living organism. In the past few decades, uncontrolled urbanization has caused serious pollution problem due to the disposal of sewage, industrial and hospital effluents to water bodies. In this study, the Heavy Metals concentration of a hospital wastewater treatment plants in Zaria, Kaduna state was assessed for a whole season to develop a baseline data on the pollution status of the water and the potentials of water hyacinth in the phytoremediation of the water was evaluated for further removal of the contaminants to reduce the pollution to a minimal status. Some Heavy Metals in the wastewater were analyzed like Co, Cr, Cu, Mg, Mn, Ni, Pb, Zn and Cd using Digestion and Atomic Absorbance Spectrometry method with T-test statistically and concentrations of 0.03±0.02, 0.13±0.01, 0.057±0.01, 1.00±0.40, 0.25±0.03, 0.18±0.04, 0.04±0.03, 1.31±0.33 and 0.46±0.29 respectively in dry season. And in wet season; Co (0.10±0.07), Cr (0.21±0.03), Cu (0.02±0.00), Mg (2.25±0.56), Mn (0.23±0.03), Ni (0.13±0.04), Pb (0.14±0.06), Zn (2.18±0.47) and Cd (0.47±0.23) were obtained respectively with significant differences at p>0.05 in Cr and Pb concentrations between dry and wet season. Ni and Pb were found to be above acceptable threshold for WHO and NESREA guidelines and standards but within permissible limit for FAO while Cd, Co and Mn were above acceptable limit for the standard guidelines. Phytoremediation is an attractive alternative to the conventional cleanup technologies that employ plants and their associated microorganisms to remove, contain, or rendered harmless environmental contaminants. In this study, Young Plants of water hyacinth (Eichhornia crassipes), water lettuce (Pistia stratiotes) and Vetiver grass (Chrysopogon zizanoides) were used hydroponically for further remediation of the treated effluent, as based on above values of Ni, Pb, Cd, Co, and Mn, showing the effluent is unfit for human consumption or irrigation purposes. VL - 8 IS - 4 ER -
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