Safety of the environments (land, air and water) including plants and animals inhabiting it is a concern for many ecologists nowadays and this is due to human ecosystems’ exploration. Thus, this study aimed at assessing the heavy metals’ levels, phytochemical profiles, mineral and proximate compositions of four commonly consumed vegetables in Lagos State. Leaves of Vernonia amygdalina, Telfairia occidentalis, Gnetum africanum and Parquetina nigrescens were obtained in some major markets in Lagos State; the leaves of the vegetables were subjected to laboratory analysis for the determination of phytochemical, mineral, proximate and heavy metals’ concentrations using standard procedures. Data obtained were subjected to analysis of variance (ANOVA). Proximate analysis revealed appreciable amount of protein, carbohydrate, fat, moisture and ash contents in the vegetables. The phytochemical profiling revealed the presence of some vital secondary metabolites viz: tannins, phenols, saponins, flavonoids, cardiac glycosides, steroid, phlobatanin, alkaloid and sugar except terpenoids within the four vegetables sampled. However, it was observed that T. occidentalis lack saponins; P. nigrescens contain no tannins and phenols while, G. africanum show no steroids and phlobatannins. Also, the analysis of metals revealed the range of minerals- K (27.51-68.09mg/100g), Mg (25.68-27.60mg/100g), Mn (0.31-1.06mg/100g), Zn (0.45-1.42mg/100g), Fe (2.20-6.65mg/100g), P (1.10-1.19mg/100g) and Na (1.36-2.15mg/100g) and heavy metals-Pb (0.10-0.28mg/100g), Ag (0.04-0.57mg/100g), Cd (.01-0.90mg/100g), Cu (2.95-3.35mg/100g), Cr (0.075-2.60mg/100g), Co (0.45-0.95mg/100g) and Ni (1.16-2.60mg/100g) and all these elements were within or below the World Health Organization’s permissible limits for toxicity. Hence, these four vegetables commonly consumed in Lagos are good and toxic free for consumption and continuous check on the consumed vegetables in Lagos to avoid toxicity since it’s a mega city with industrialization is recommended.
Published in | International Journal of Ecotoxicology and Ecobiology (Volume 7, Issue 1) |
DOI | 10.11648/j.ijee.20220701.12 |
Page(s) | 8-14 |
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 |
Vernonia amygdalina, Telfairia occidentalis, Gnetum africanum, Parquetina nigrescens, Heavy Metals, Proximate Composition, Minerals, Phytochemicals
[1] | Ijeh, I. I., Igwe, K. K., Ejike, C. E. C. C. (2011). Effect of leaf aqueous of Vernoniaamygdalina Del on contraction of Mammary gland and Uterus of guinea pigs dams. American Journal of Tropical medicine and Public Health, 1 (3): 107-116. |
[2] | Farombi, E. O. and Owoeye, O. (2011). Anti-oxidative and chemopreventive properties of Vernoniaamygdalina and Garciniabiflavonoid. International Journal of Environmental Research and Public Health, 8 (6): 2533-2555. |
[3] | Udousoro, I. and Ekanem, P. (2013). Assessment of proximate compositions of twelve edible vegetables in Nigeria. International Journal of Modern Chemistry, 4 (2): 79-89. |
[4] | Adu, A. A, Aderionola, O. J, Mekuleyi, G. O. and Nnadi CH. (2020a) Phytochemical and heavy metal contents in Gnetumafricanum (Welw. 1984) collected from three local markets in Lagos, Nigeria. International Journal of Herbal Medicine, 8 (4): 39-44. |
[5] | Oluwole, S. O., Fajana, O. O., Ogun, M. L., Ogbe, A. A. and Ademola, O. A. (2019). Proximate and Mineral Composition Analysis of the Leaves of Amaranthuscruentus and Ocimumgratissimum in some selected areas in Lagos State, Nigeria International Journal ofEcosystem, 9 (1): 6-11. DOI: 10.5923/j.ije.20190901.02. |
[6] | Oluwole, S. O., Makinde, S. C. O, Ogun, M. L., Nwachukwu, I. R. (2020a). Evaluation of heavy metal concentrations and proximate compositions of Amaranthusspinosus L. and Talinumtriangulare J. and Soils collected Dumpsites in some selected areas in Lagos State, Nigeria. World Environment, 10 (1): 16-26. DIO: 10.5923/j.env.20201001.03. |
[7] | Oluwole, S. O., Yusuf, K. A., Ogun, M. L. and Ayoade, K. O. (2021). Phytochemical Screening, Proximate Compositions and Heavy Metal Concentrations of Four Commonly Sold Vegetables in Some Lagos Markets, Nigeria. Asian Journal of Research in Botany, 5 (2): 42-52. |
[8] | Osinaike, T. S., Onyemeka, R. M., Ezewata, I. S., Ogun, M. L., Anyaegbu, C. F., and Akharia, B. E. (2019). Effects of Water stress on the Morphological growth of Vernoniaamygdalina seedlings. International Journal of Engineering, Applied Sciences and Technology. 4 (7): 222-228. |
[9] | Oboh, F. O. J., Enobhayisobo, E. I. and Oboh, G. (2009). Effects of aqueous extract of Vernoniaamygdalina leaves on plasma lipids of hyperlipidaemic adult male albino (New Zealand rabbits). African Scientist, 10 (4): 203-213. |
[10] | Danladi, J., Abayomi, K. B., Mairiga, A. A. and Dahiru, A. U. (2012). The hepato-protective effect of ethanolic extract of Telfairiaoccidentalis (Ugu) leaves and silymarin on paracetamol induced liver damage in Wistar rats. International Journal of Animal and Veterinary Advances, 4 (4): 235-239. |
[11] | Oluwole, S. O., Ogun, M. L. and Dajakpome, G. O. (2020b). Mineral Analysis and Morphological Responses on the Seedling Growth of Telfairiaoccidentalis (Ugwu) on Four Different Soil Types. International Journal of Modern Botany, 10 (1): 9-14. DIO: 10.5923/j.ijmb.20201001.02. |
[12] | Okokon, J. E., Farooq, A. D., Choudhary, M. I. and Bassey, S. A. (2012). Immuno-modulatory, anticancer and anti-inflammatory activities of Telfairiaoccidentalis seed extract and fractions. International Journal of Food, Nutrition and Safety, 2 (2): 72-85. |
[13] | Alegbejo, J. O. (2012). Production, marketing, nutritional value and uses of fluted pumpkin (Telfairiaoccidentalis Hook. F.) in Africa. Journal of Biological Science and Bioconservation, 4: 20-27. |
[14] | Orwa, C., Mutua, A., Kindt, R., Jannadass, R. and Anthony, S. (2009). Agroforestry Database: A tree reference and selection guide, version 4.0. World Agroforest Centre, Kenya. |
[15] | Burkill, H. M. (1985). The useful plants of West Tropical Africa. 2nd Ed. Royal Botanic gardens, Kew. |
[16] | Ekpo, F. E., Uffia, I. D., Udo, E. S. and Udofia O. (2012). Comparative study of nutrients and anti-nutrients content in domesticnand wild leaves of Gnetumafricanum (Afang, Okazi) consumed by South-South and South-East, Nigeria. International Journal of Biology, Pharmacy and allied Sciences, 1 (11): 1608-1617. |
[17] | Saba, A. B., Oyagbemi, A. A. and Azeez, O. I. (2010). Anti-diabetic and haematinic effects of Parquetinanigrescens on alloxan induced type-1 diabetes and normocytic normochronicanaemia in Wistar rats. African Health Sciences, 10 (3): 276-282. |
[18] | Odetola, A. A., Oluwole, F. S., Adeniyi, B. A., Olatiregun, A. M., Ikupolowo, O. R., Labode, O., Busari, K. O., Shorinola, J. A. (2006). Antimicrobial and gastrointestinal protective properties of Parquetinanigrescens (Afzel) Bullock. Journal of Biological Sciences, 6 (4): 701-705. |
[19] | Owoyele, B. V., Nafiu, A. B., Oyewole, I. A., Oyewole, L. A. and Soladoye, A. O. (2009). Studies on the analgesic, anti-inflammatory and anti-pyretic effects of Parquetinanigrescens leaf extract. Journal of Ethnopharmacology, 122: 86-90. |
[20] | Aderibigbe, O. R., Odetola, A. A., Oluwole, F. S., Farombi, E. O., Onabanjo, O. O. and Jiboku, O. A. (2011). Anti-oxidant properties of methanolic extract of Parquetinanigrescens in ulcerated rats. International Journal of tropical Medicine, 6 (2): 25-29. |
[21] | Monica, S., Karthik, L., Mythili, S. and Sathiavelu, A. (2011). Formulation of effective microbial consortia and its application for sewage treatment. Journal of Microbial Biochemistry Technology, 3: 051-055. |
[22] | Yasser, H. I., Alia, A. S., Nasser, M. and Nadia, M. E. (2011). Assessment of Heavy metal levels in the Environment, Egypt. Journal of American Science, 7 (12): 148-153. |
[23] | Oluwole SO, Makinde OSC, Yusuf KA, Fajana OO, Odumosu AO. (2013) Determination of heavy metal contaminants in leafy vegetables cultivated by the Roadside. International Journal of Engineering Research and Development, 7 (3): 1-5. |
[24] | AOAC (2005): Official methods of Analysis of Association of Analytical Chemists. AOAC International, 18th ed; Horrowitz, W. (ed), AOAC International Maryland, USA. 1, 2: 774-784. |
[25] | Pearson D. (1976). Chemical analysis of food, 7th (ed.), Churchill, London, 218-336. |
[26] | AOAC (1990). Official methods of analysis. Association of official analytical chemists, 15th Ed. Washington. DC; 1990. |
[27] | Mohamed SA, Sanni S, Ismail AM, Kyari S, Addullahi S, Amina I. (2014). Preliminary phytochemical analysis of aqueous and fractionated pod extracts of Acacia nilotica (Thorn Mimosa). Veterinary Research Forum, 5 (2): 95-100. |
[28] | Ojewumi, A. W. and Dedeke, G. A. (2020). Evaluation of nutritional and phytochemical properties of Eucalyptus camaldulensis, Hibiscus sabdariffa and Morindalucida from Ogun State, Nigeria. Journal of Stress Physiology & Biochemistry, 16 (2): 45-56. |
[29] | W.H.O. (2007). Safety evaluation of certain food additives and contaminants. International Programme on Chemical Safety. WHO Food Additive Series. Pg. 52. |
[30] | Hussain, J., Khan, A. L., Rehmam, N., Zuinullah, Khan, F., Hussain, S. T. and Shinwari, Z. K. (2009). Proximate and Nutrient Investigations of Selected medicinal Plants Species of Pakistan. Pakistan Journal of Nutrition, 8 (5): 620-624. |
[31] | Odoh, R., Yebpella, G. G., Udegbunam, I. S. and Christopher, S. A. (2018). Nutritional evaluation and proximate analysis of varieties of some edible leafy vegetables in Northern Nigeria. Journal of Bioscience and Biotechnology Discovery, 2: 30-45. |
[32] | Chatepa, L. E. C. and Masamba, K. G. (2020). Proximate and Phytochemical composition of selected indigenous leafy vegetables consumed in Malawi. African Journal of Food Science, 14 (9): 265-273. |
[33] | Ali A. (2009). Proximate and mineral composition of the marchubeh (Asparagus officinalis). World Diary and Food Science, 4 (2): 142-149. |
[34] | Obinna-Echem, P. C., Emelike, N. T. J. and and Wachukwu-Chikaodi, H. I. (2021). Comparative Evaluation of Proximate Commpistion and Sensory Properties of Fruits and Vegetables from open Market and Shopping Mall in Port Harcourt City. European Journal of Agriculture and Food Sciences, 3 (1): 119-123. |
[35] | Khan, U., Qureshi, R. A., Saeed, S. and Bond, A. D.(2007). An orthorhombic polymorph of myoinositol. Acta Crystallographica Section E: Structure Reports Online, 63 (2), 530-532. |
[36] | Huzafa, M., Jamal, Z. and Ahmed, A. (2020). Qualitative Phytochemical Analysis of Incarvilleaemodi (Royle ex Lindl.) Chatterjee and Malvaneglecta (Wallr.). Ukrainian Journal of Ecology, 10 (3): 93-95, doi: 10.15421/2020_173. |
[37] | Adu, A. A., Aderinola, O. J., Mekuleyi, G. O. and Uyi, O. J. (2020b). Assessment of Heavy Metals and Phytochemical Composition of Piper Guineense (Thonning, 1827) Leaves collected from three Markets in Lagos, Nigeria. International Journal of Advanced Academic Research (Sciences, Technology and Engineering, 6 (8): 48-59. DOI: 10.46654/ij.24889849.e6813. |
[38] | Ogundele, F. O., Iwara, A. I and Jeremiah, C. J. (2019). Heavy Metal Contents in the Soil and Leaves of Different Vegetables in Lagos State, Nigeria. Asian Journal of Applied Sciences, 12 (2): 108-113. DOI: 10.3923/ajaps.2019.108.113. |
[39] | Tasrina RC, Rowshon A, Mustafizur AMR, Rafiqul I, Ali MP. (2015). Heavy metals contamination in vegetables and its growing soil. Journal of Environmental Analytical Chemistry, 2 (3): 1-6, 142. DOI: 10.41722380-2391.1000142. |
APA Style
Oluwole Surukite Opeolu, Ogun Mautin Lawrence, Adamson Toluwaloju Olamide. (2022). Assessment of the Heavy Metals’ Levels, Phytochemical Profiles, Mineral and Proximate Compositions of Four Commonly Consumed Vegetables in Lagos State, Nigeria. International Journal of Ecotoxicology and Ecobiology, 7(1), 8-14. https://doi.org/10.11648/j.ijee.20220701.12
ACS Style
Oluwole Surukite Opeolu; Ogun Mautin Lawrence; Adamson Toluwaloju Olamide. Assessment of the Heavy Metals’ Levels, Phytochemical Profiles, Mineral and Proximate Compositions of Four Commonly Consumed Vegetables in Lagos State, Nigeria. Int. J. Ecotoxicol. Ecobiol. 2022, 7(1), 8-14. doi: 10.11648/j.ijee.20220701.12
AMA Style
Oluwole Surukite Opeolu, Ogun Mautin Lawrence, Adamson Toluwaloju Olamide. Assessment of the Heavy Metals’ Levels, Phytochemical Profiles, Mineral and Proximate Compositions of Four Commonly Consumed Vegetables in Lagos State, Nigeria. Int J Ecotoxicol Ecobiol. 2022;7(1):8-14. doi: 10.11648/j.ijee.20220701.12
@article{10.11648/j.ijee.20220701.12, author = {Oluwole Surukite Opeolu and Ogun Mautin Lawrence and Adamson Toluwaloju Olamide}, title = {Assessment of the Heavy Metals’ Levels, Phytochemical Profiles, Mineral and Proximate Compositions of Four Commonly Consumed Vegetables in Lagos State, Nigeria}, journal = {International Journal of Ecotoxicology and Ecobiology}, volume = {7}, number = {1}, pages = {8-14}, doi = {10.11648/j.ijee.20220701.12}, url = {https://doi.org/10.11648/j.ijee.20220701.12}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ijee.20220701.12}, abstract = {Safety of the environments (land, air and water) including plants and animals inhabiting it is a concern for many ecologists nowadays and this is due to human ecosystems’ exploration. Thus, this study aimed at assessing the heavy metals’ levels, phytochemical profiles, mineral and proximate compositions of four commonly consumed vegetables in Lagos State. Leaves of Vernonia amygdalina, Telfairia occidentalis, Gnetum africanum and Parquetina nigrescens were obtained in some major markets in Lagos State; the leaves of the vegetables were subjected to laboratory analysis for the determination of phytochemical, mineral, proximate and heavy metals’ concentrations using standard procedures. Data obtained were subjected to analysis of variance (ANOVA). Proximate analysis revealed appreciable amount of protein, carbohydrate, fat, moisture and ash contents in the vegetables. The phytochemical profiling revealed the presence of some vital secondary metabolites viz: tannins, phenols, saponins, flavonoids, cardiac glycosides, steroid, phlobatanin, alkaloid and sugar except terpenoids within the four vegetables sampled. However, it was observed that T. occidentalis lack saponins; P. nigrescens contain no tannins and phenols while, G. africanum show no steroids and phlobatannins. Also, the analysis of metals revealed the range of minerals- K (27.51-68.09mg/100g), Mg (25.68-27.60mg/100g), Mn (0.31-1.06mg/100g), Zn (0.45-1.42mg/100g), Fe (2.20-6.65mg/100g), P (1.10-1.19mg/100g) and Na (1.36-2.15mg/100g) and heavy metals-Pb (0.10-0.28mg/100g), Ag (0.04-0.57mg/100g), Cd (.01-0.90mg/100g), Cu (2.95-3.35mg/100g), Cr (0.075-2.60mg/100g), Co (0.45-0.95mg/100g) and Ni (1.16-2.60mg/100g) and all these elements were within or below the World Health Organization’s permissible limits for toxicity. Hence, these four vegetables commonly consumed in Lagos are good and toxic free for consumption and continuous check on the consumed vegetables in Lagos to avoid toxicity since it’s a mega city with industrialization is recommended.}, year = {2022} }
TY - JOUR T1 - Assessment of the Heavy Metals’ Levels, Phytochemical Profiles, Mineral and Proximate Compositions of Four Commonly Consumed Vegetables in Lagos State, Nigeria AU - Oluwole Surukite Opeolu AU - Ogun Mautin Lawrence AU - Adamson Toluwaloju Olamide Y1 - 2022/01/24 PY - 2022 N1 - https://doi.org/10.11648/j.ijee.20220701.12 DO - 10.11648/j.ijee.20220701.12 T2 - International Journal of Ecotoxicology and Ecobiology JF - International Journal of Ecotoxicology and Ecobiology JO - International Journal of Ecotoxicology and Ecobiology SP - 8 EP - 14 PB - Science Publishing Group SN - 2575-1735 UR - https://doi.org/10.11648/j.ijee.20220701.12 AB - Safety of the environments (land, air and water) including plants and animals inhabiting it is a concern for many ecologists nowadays and this is due to human ecosystems’ exploration. Thus, this study aimed at assessing the heavy metals’ levels, phytochemical profiles, mineral and proximate compositions of four commonly consumed vegetables in Lagos State. Leaves of Vernonia amygdalina, Telfairia occidentalis, Gnetum africanum and Parquetina nigrescens were obtained in some major markets in Lagos State; the leaves of the vegetables were subjected to laboratory analysis for the determination of phytochemical, mineral, proximate and heavy metals’ concentrations using standard procedures. Data obtained were subjected to analysis of variance (ANOVA). Proximate analysis revealed appreciable amount of protein, carbohydrate, fat, moisture and ash contents in the vegetables. The phytochemical profiling revealed the presence of some vital secondary metabolites viz: tannins, phenols, saponins, flavonoids, cardiac glycosides, steroid, phlobatanin, alkaloid and sugar except terpenoids within the four vegetables sampled. However, it was observed that T. occidentalis lack saponins; P. nigrescens contain no tannins and phenols while, G. africanum show no steroids and phlobatannins. Also, the analysis of metals revealed the range of minerals- K (27.51-68.09mg/100g), Mg (25.68-27.60mg/100g), Mn (0.31-1.06mg/100g), Zn (0.45-1.42mg/100g), Fe (2.20-6.65mg/100g), P (1.10-1.19mg/100g) and Na (1.36-2.15mg/100g) and heavy metals-Pb (0.10-0.28mg/100g), Ag (0.04-0.57mg/100g), Cd (.01-0.90mg/100g), Cu (2.95-3.35mg/100g), Cr (0.075-2.60mg/100g), Co (0.45-0.95mg/100g) and Ni (1.16-2.60mg/100g) and all these elements were within or below the World Health Organization’s permissible limits for toxicity. Hence, these four vegetables commonly consumed in Lagos are good and toxic free for consumption and continuous check on the consumed vegetables in Lagos to avoid toxicity since it’s a mega city with industrialization is recommended. VL - 7 IS - 1 ER -