Heavy metals concentrations in bee products collected from contaminated and non-contaminated areas from Upper Egypt Governorates
Twenty fresh clover honey, ten beeswax and ten bee bread samples represented contaminated and non-contaminated areas were collected directly from the apiaries during 2015 .The aim of this study was to evaluate the presence of toxic metals ( Lead (Pb), Cadmium (Cd), Iron (Fe), Copper (Cu) and Zinc (Zn)) in honey, beeswax and bee bread stored inside honey bee colonies. The highest lead contents (0.5488 mg/kg) was estimated in honey samples collected from industrialized area The lowest Pb content were estimated in honey samples collected from rural area (0.5096 mg/kg).
The lowest Cd concentration (0.0961 mg/kg). However, the highest content of Cd (0.1042 mg/kg) was recorded in honey samples collected from urbanized areas. High concentration of (Cu) was estimated in honey samples collected from apiaries located in industrialized area (0.0757 mg/kg) while the lowest were recorded in rural area (0.0432 mg/kg) . Zn occurred in low concentration in honey samples The highest value was recorded in honey samples from rural area (0.241) mg/kg and the lowest in honey samples from apiaries located in Reclaimed soils (0.185) mg/kg. Heavy metal
concentrations of Pb, Cd, Fe, Cu and Zn in beeswax samples collected from contaminated and non-contaminated areas were 1.388, 0.194, 16.696, 0.619 and 4.606 mg/kg. While the averages of heavy metal concentrations in non contaminated area decreased to 1.175; 0.160; 15.466; 0.391 and 2.520 mg/kg, respectively. Contamination in bee bread samples showed that lead concentration (1.094 mg/kg to 1.338 mg/kg) was detected in bee bread samples collected from honey bee colonies located in non-contaminated areas and samples collected from( industrialized and urban areas).
Achudume, A.C. and b.N. (2008). The ecological assessment of metals in local brands of honey in Southwest Nigeria. Afr. J. Agric. Res., 5 (8): 2008-2010.
AOAC (1995). Official methods of analysis (16th ed, Vol. II Washington, DC USA Association of Official Analytical Chemists.
Al-Waili, N.; K. Salom; A. Al-Ghamdi; M.J. Ansari (2012). Antibiotic, pesticide and microbial contaminants of honey: human health hazards. Scientific World J. Article ID 930849, p. 9.
Batista, B.L.; L.R.S. dasilva; B.A. Rocha; J.L. Rodriguez; A.A. Baretta-Silva; T.O. Bonates, et al. (2012). Multi-element determination in Brazilian honey samples by inductively coupled plasma mass spectrometry and estimation of geographic origin with data mining techniques. Food Research International, 49: 209-215.
Bogdanov, S. (2006). Contaminants of bee products. Apidologie, 37: 1-18.
Bogdanov, S.; M. Haldimann; W. Luginbuhl and P. Gallmann (2007). Minerals in honey environmental, geographical and botanical aspects. J. Apic. Res. 46: 269-275. Available from: http://www.bee-hexagon.net; Accessed 2015.
Chandrama, S.; R. Shubharani and V. Sivaram (2014). Assessment of heavy metals in honey by atomic absorption spectrometer. WJPPS, 3(8): 509-515.
Erbilir, F. and O. Erdogrul (2005). Determination of heavy metals in honey in Kahramanmara City, Turkey. Environ. Monit. Assess., 109: 181-187. http://dx.doi.org/10.1007/s10661-005-5848-2.
Fodor, P. and E. Molnar (1993). Honey as an environmental indicator; effect of sample preparation on trace element determination by ICP-AES. Microchim. Acta 112, 113.
Formicki, G.; A. Gren; A. Stawarz; B. Zysk and A. Gal (2013). Metal content in honey, propolis, wax and bee pollen and implications for metal pollution monitoring. Pol. J. Environ. Stud., 22 (1): 99-106.
Frias, J.; C. Rubio; T. Gonzalez-Iglesias; A.J. Gutierrez; D. Gonzalez-Weller and Hardisson A. (2008). Metals in fresh honeys from Tenerife Island, Spain. Bull. Environ. Contam. Toxicol., 80 (1): 30-33.
Garrett, E.S.; M.L. Jahncke and E.A. Cole (1998). Effects of Codex and GATT. Food Control, 9 (2): 177-182.
Gonzâlez Paramâs, A.M.; J.A. Gomez Barez; R.J. Garcia-Villanova; T.R. Pala; R.A. Albajar and J.S. Sanchez (2000). Geographical discrimination of honeys by using mineral composition and common chemical quality parameters. Journal of the Science of Food and Agriculture, 80: 157-165.
Khan, M.N.; M. Qaiser; S.M. Raza and M. Rehman (2006). Physiochemical properties and pollen spectrum of imported and local samples of blossom honey from the Pakistani market. Int. J. Food Sci. Technol., 41: 775-781.
Lambert, O.; M. Piroux; S. Puyo; C. Thorin; M. Larhantec; F. Delbac and H. Pouliquen (2012). Bees honey and pollen as sentinels for lead. Environ. Pollut. 170: 254-9. http://dx.doi.org/10.1016/j. envpol.2012.07.012.
Mann, I.V.M., et al., complex (1994). Iron and Ferritin in Pakistan's disease substantia Nigera, Ann. of Neurology, 36 (6): 876-881.
Omar, M.O.M. (1994). Level of some heavy metals in honey samples collected from Upper Egypt. The Second Saudi Symposium on Food and Nutrition (7-10 November, 1994).
Omran, N. S. ; I.S. Mohamed and M. S. O.Mabrouk. (2017). The bee honey as an indicator to environmental pollutions by heavy metals in Sohag, South Egypt, Egypt. Participate in the 32nd annual meeting of the Saudi Biological Society in Makkah Al-Mukarramah , Saudi Arabia on April 18-20
Przybylowski, P. and A. Wilczynska (2001). Honey as an environmental marker. Food Chem. 74: 289-291
Pieter, R.; S. Fortaner and E. Sabbioni (1993). Use of chelex 100 resin in preconcentration and radiochemical separation neutron activation analysis applied to environmental toxicology and biomedical research. J. Trace Micro. Tech. 11, 235.
RDA, Recommended Dietary Allowances (1980). Recommended Dietary Allowances 9. Ed. National Academy of Science, Washington, D.C. pp. 43.
Ruschioni, S.; P. Riolo; R.L. Minuz; M. Stefano; M. Cannella; C. Porrini and N. Isidoro (2013). Biomonitoring with honeybees of heavy metals and pesticides in nature reserves of the Marche Region (Italy). Biol. Trace Elm. Res., 154 (2): 226-33. hhtp://dx.doi.org/10. 1007/s12011-9013-9732-6.
Steel, R.G.D. and J.H. Torrie (1980). Principles and Procedures of Statistic. Ms-Graw-Hill, New York, p. 173.
Tisipi, D.; M. Trianlafyllon and A. Hiskia (1999). Determination of organochlorin pesticides residues in honey applying solid phase extraction with RP-C18 material. Analyst 124: 473-475. http://dx.doi org/10.1039/a 809724K.
Tiwari, P.; P. Naithani and J.K. Tiwary (2016). Determination of heavy metals in honey samples from sub-montane and montane zones of Garhwal Himalaya (India). World J. of Pharmacy and Pharmecutical Sci., 5 (7): 812-819.
Tuzen, M. and M. Soylak (2005). Trace heavy metal levels in microwave digested honey samples from Middle Anatolia, Turkey. Journal of Food and Drug Analysis, 1: 343-347.
Vanhanen, L.P.; A. Emmertz and G.P. Savage (2011). Mineral analysis of mono-floral. New Zealand honey. Food Chem., 128: 236-40.
WHO (1982). Evaluation of certain food additives and contaminants. Twenty-sixth report of the joint FAO/WHO Expert Committee on Food Additives. Technical Report Series 683. Geneva.
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