Authors: N. O. Omaka, I. F. Offor, R.C. Ehiri

Abstract:

The health and environmental risk of eating mushrooms grown in Abakaliki were evaluated in terms of heavy metals accumulation. Mushroom samples were collected from four different farms located at Izzi, Amajim, Amana and Amudo and analyzed for (iron, lead, manganese and cadmium) using Bulk Scientific Atomic Absorption Spectrophotometer 205. Results indicates mean range of concentrations of the trace metals in the mushrooms were Fe (0.22-152. 03), Mn (0.74-9.76), Pb (0.01.0.80), Cd (0.61-0.82) mg/L respectively. Accumulation of Cd on the four locations under investigation was higher than the UK Government Food Science Surveillance and World Health Organization maximum recommended levels in mushroom for human consumption. The Fe and Mn contaminants of Amudo were significant and show the impact of anthropogenic/atmospheric pollution. The potential sources of the heavy metals in the mushrooms were from urban waste, dust from mining and quarrying activities, natural geochemistry of the area, and use of inorganic fertilizers

Keywords: Agaricus campestris, edible, health implication heavy metal, mushroom.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1091294

Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2518

References:

[1] R. Goyer, "Nutrition and Metal Toxicity”, Am. J of Nutr., 1995”, vol. 61, pp. 6465-6505.
[2] D.A. Philips, "Metals and Metabolism” in Oxford Chemistry Series. Oxford: Claredon Press, 1976
[3] P. Attewell, "Ground Pollution” 1st ed., London: E & FN Spon, 1993, pp. 14.
[4] D. Vousta, A. Grimanins and C. Samara, "Trace elements in Vegetables grown in industrial areas in relation to soil and air particulate matter”, Environ. Pollut. Series, 1996, vol. 94, no.3, pp. 325-335.
[5] E.H. Abott, "Environmental hazards from the genetic toxicity of transition metal ions”, in: Kurt J.I Kurt and E.M. Arthur eds. Environmental Inorganic Chemistry, Florida: VCH Publishers, Florida, 1985, pp. 541-546.
[6] World Health Organization, "WHO Guidelines for drinking water quality”, Geneva: WHO, 1984, vol. 1, no. 7, pp. 52-73.
[7] D.A. Spears, "Information on groundwater composition obtained from a Laboratory study of sediment-water interaction”, Q. J. Eng. Geol., 1976, vol. 9, pp. 25-36.
[8] A.M. Moir and I. Thornton, "Lead and Cadmium in urban allotment garden soils and vegetables in the United Kingdom”, Environ. Geochem. Health, 1989, vol. 11, pp. 113-110.
[9] B.A. Brown, A.A. Brown and G.C. Lalor, "Heavy metal pollution in Jamaica: Survey of cadmium, lead and zinc concentrations in the Kintyre and Hope Flat Districts”, Environ. Geochem. Health, 1995, vol. 17, no. 2, pp. 51-56.
[10] O. Adriana and B. Hudson, "Lead and Public Health: Review of recent findings, re-evaluation of clinical risks”, J. of Environ. Monit., 2004, vol. 6, pp. 36-42.
[11] N. Evert, G.G. Fisher and Y. Thomassen, "Relevance of reactivity determinants to exposure assessment and biological monitoring of the elements”, J. of Environ. Monit., 1999, vol. 1, pp. 1-14.
[12] J.E. Ferguson, "The Heavy Elements, Chemistry, Environmental Impact and Health Effects”, London: Pergamon Press, 1990, p. 614.
[13] N.W. Solomon, "Dietary Sources of Zinc and Factors Affecting Bioavailability”, Food Nutr. Bull., 2001, vol. 22, pp.138-9.
[14] V.H. Kate, "Manganese and land-use in Upland Catchments in Scotland”, Sci. Total Environ., 2001, vol. 265, pp. 169-179.
[15] World Health Organization, "WHO Guidelines for Drinking Water Quality”, 3rd ed., Geneva: WHO, 2004, pp. 301-397.
[16] N.I. Ward, "Trace Elements” in: F.W. Fifield and Haines P.J., eds. Environmental Analytical Chemistry, 1st ed., London: Blackie Academic and Professional, London, 1996, pp. 320-351.
[17] H. Lieth and B.A. Markert, eds., "Element concentration cadasters in ecosystems: methods of assessment and evaluation”, New York: VCH Publishers, 1990, pp. 267-280.
[18] J.S. Peter, P.H. Denis and K.N. Jeremy, "The environmental chemistry of metals with examples from studies of the speciation of cadmium, in: J.I. Kurt and E.M. Arthur eds. Environmental Inorganic Chemistry, Weinheim: VCH Publishers, 1985, pp. 249-271.
[19] M.W. Pasquini, "The use of town refuse ash in urban agriculture around Jos, Nigeria: health and environmental risk”, Sci.Total Environ., 2006, vol. 354, pp. 43-59.
[20] J.A. Risser and D.E. Baker, "Testing soils for toxic metal”, in: Waterman RL, eds. Soil testing and plant analysis. SSSA Book Series 3, USA: Madison WI, 1990, pp. 25-71.
[21] J.R. Landon ed., in: Booker Tropical Soil Manual, "A Handbook for soil survey and agricultural evaluation in the tropics and subtropics”, Harlow, UK: Boker Agricultural International, Longman, 1984, p. 450.
[22] M.U. Awoke and C. Okorji, "Determination and analysis of constraints in resource use efficiency in multiple cropping systems by small-holders farmers in Ebonyi State, Nigeria”, Africa Development, 2004, vol. 3, no. 29, pp. 58-69.
[23] E.H. Lilian and H.L. Alan, "Micro-organisms, function, form and environment”, 2nd ed. London: Edward and Arnold, London, 1979, pp. 190-283.
[24] A. Kabata-Pendias and S. Dudka, "Evaluating baseline data for cadmium in soils and plants in Poland”, in: Leith H and Markert BA eds. Element concentration cadasters in ecosystems, Weinheim, Germany: VCH Publishers, 1990, pp. 265-280.
[25] M.A. Yates, "The design and analysis of factorial experiments”. Technical communication vol. 35. Imperial Bureau of soil Science, UK: Harpenden, 1973, p. 96.
[26] W. Peijnenburg, R. Bacrselman, A. de Groot, T. Jager, D. Leenders, L. Posthuma and R. Van Veen, "Quantification of metal bio-availability for lettuce (Lactuca Sativa L) in field soils”, Arch. Environ. Contam. Toxicol., vol. 39, 2000, pp. 420-430.
[27] T. Binns and K. Lynch, "Feeding Africa’s growing cities into the 21`st century: the potential of urban agriculture”, J. Int. Dev., vol. 10, 1998, 777-793.
[28] L. Sweet, "Room to live: Healthy cities for the urban century”, IDRC Briefing. Ottawa, Canada, 1999.
[29] N. Kundu, "Urban solid waste recycling through vegetable cultivation and rag picking: A study in Calcuta”, in: Barrage A, Edelmann X. eds. Congress proceedings, Recovery Recycling, Reintegration 4, Geneva: EMPA, 1995, pp. 233-238.
[30] J. Hoffman, D. Gerling, U.B. Kyiogwom and A. Mane-bielfied, "Farmers management strategies to maintain soil fertility in a remote area in northern Nigeria”, Agric. Ecosyst. Environ. vol.86, 2001, pp. 263-275.
[31] N.F.D. Gueye and M. Sy, "The use of waste water for urban agriculture: the case of Dakar, Nouakchott and Ouagadougou”, Urban Agric Mag. 3, 2001, pp.30-32.