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Heavy metal concentrations in duck eggs and potential human health risk via consumption

Tanhan, Phanwimol Apipongrattanasuk, Nannaphat Poapolathep, Amnart Poapolathep, Saranya Kruatrachue, Maleeya Imsilp, Kanjana 北海道大学

2020.02

概要

Heavy metals commonly found in environmental matrices are from natural or anthropogenic activities. Their contamination effects especially on human health from non-degradable properties are of major concern. The aims of this study, thus, were to determine Cd, Cu, Fe, Mn, Ni, Pb and Zn residues in duck eggshells, yolk and albumin, and to investigate the correlations of these metal residues with the surrounding environmental media (soil, water, and feed). Target hazard quotient (THQ) of individual heavy metal was used to evaluate potential human health risk via egg consumption. Thirty duck egg samples were randomly collected from each free range laying duck farm (total of 8 farms). The samples collected were analyzed for heavy metal concentrations using the flame atomic absorption spectrometry (FAAS). Results showed that average concentrations of Fe (71.96±1.33 µg/g dw) in yolk and Pb (6.76±0.21 µg/g dw) in albumin were significantly highest when compared to other investigated metals, whereas Cu concentration was mostly found in egg shells. In addition, the predominantly found metal in soil samples was Fe, whereas in water and feed samples were Ni and Pb, respectively. Principle component analysis (PCA) revealed that the concentrations of heavy metals found in eggshells and egg contents are highly correlated with their concentrations in the surrounding water and soil matrices as well as feed. The THQs for Pb, which were greater than 1, indicated that there could be potential for human health risks upon consumption of contaminated duck eggs.

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参考文献

1) AL-Ashmawy MAM. Trace elements residues in the table eggs rolling in the Mansoura City markets Egypt. Int Food Res J 20, 1783-1787, 2013.

2) APHA, AWWA, WEF. Standard Methods for Examination of Water and Wastewater. APHA, AWWA, WEF, Washington DC. 2011.

3) Ayaş Z. Trace element residues in eggshells of grey heron (Ardea cinerea) and black- crowned night heron (Nycticorax nycticorax) from Nallihan Bird Paradise, Ankara-Turkey. Ecotoxicology 16, 347-352, 2007.

4) Baht RV, Moy G. Monitoring and assessment of dietary exposure to chemical contaminants. World Health Stat Q 50, 132-149, 1997.

5) Bureau of Nutrition. How to eat egg with usefulness. Bureau of Nutrition, Department of Health, Ministry of Public Health, Thailand, 2016.

6) Burger J, Eichhorst B. Heavy metals and selenium in grebe eggs from Agassiz national wildlife refuge in Northern Minnesota. Environ Monit Assess 107, 285-295, 2005.

7) Cid FD, Fernández NC, Pérez-Chaca MV, Pardo R, Caviedes-Vidal E, Chediack JG. House sparrow biomarkers as lead pollution bioindicators. Evaluation of dose and exposition length on hematological and oxidative stress parameters. Ecotox Environ Saf 154, 154-161, 2018.

8) CODEX, FAO/WHO. List of Maximum Levels for Contaminants and Toxins in Foods, Part 1. In: Working document for information and use in discussions related to contaminants and toxins in the GSCTFF. Joint Food Standards Programme, Codex Committe on Contaminants in Foods, CF/5 INF/1. 2011.

9) Correia PRM, Oliveira E, Oliveira PV. Simultaneous determination of Cd and Pb in foodstuffs by electrothermal atomic absorption spectrometry. Anal Chim Acta 405, 205-211, 2000.

10) Dauwe T, Lieven B, Ellen J, Rianne P, Ronny B, Marcel E. Great and blue tit feathers as biomonitors for heavy metal pollution. Ecol Indic 1, 227-234, 2002.

11) EC. Commission Regulation (EC) No 1881/2006 of 19 December 2006 setting maximum levels for certain contaminants in foodstuff. Official journal of The European Union, 2006, 2006.

12) Eeva T, Lehikoinen E. Egg shell quality, clutch size and hatching success of the great tit (Parus major) and the pied flycatcher (Ficedula hypoleuca) in an air pollution gradient. Oecologia 102, 312-323, 1995.

13) Furness RW. Birds as biomonitors of pollutants. In: Birds as Biomonitors of Environmental Changes. Furness RW Greenwood JJD. eds. Chapman Hall, London. pp. 86-143, 1993.

14) Goutner V, Papagiannis I, Kalfakakou V. Lead and cadmium in eggs of colonially nesting waterbirds of different position in the food chain of Greek wetlands of international importance. Sci Total Environ 267, 169-176, 2001.

15) Hashmi MZ, Malik RN, Shahbaz M. Heavy metals in eggshells of cattle egret (Bubulcus ibis) and little egret (Egretta garzetta) from the Punjab province, Pakistan. Ecotox Environ Saf 89, 158-165, 2013.

16) Hui C A . C oncent ra t ions of chrom ium , manganese, and lead in air and in avian eggs. Environ Pollut 120, 201-206, 2002.

17) Jävinen O. How should a Finnish monitoring system of bird populations be implemented? Ornis Fennica 60, 126-128, 1983.

18) Khan S, Cao Q, Zheng YM, Huang YZ, Zhu YG. Health risks of heavy metals in contaminated soils and food crops irrigated with wastewater in Beijing, China. Environ Pollut 152, 686-692, 2008.

19) Lebedeva NV. Accumulation of heavy metals by birds in the southwest of Russia. Russ J Ecol 28, 41-46, 1997.

20) Mills CF. The physiological basis of trace element deficiency disease. Trace Elements. Animal Product Veterinary practices 7, 1-9, 1983.

21) Nisianakis P, Giannenas I, Gavriil A, Kontopidis G, Kyriazakis I. Variation in Trace Element Contents Among Chicken, Turkey, Duck, Goose, and Pigeon Eggs Analyzed by Inductively Coupled Plasma Mass Spectrometry (ICP-MS). Biol Trace Elem Res 128, 62-71, 2009.

22) NRC. Mineral tolerance of animals: 2nd revised ed. The National Academies Press, National Research Council of the National Academic. 2005.

23) Oning V, Shettapong M, Charumas M. Heavy metals contamination in water and aquatic plants in the Tha Chin river, Thailand. Kasetsart Journal: Natural Science 046, 931-943, 2012.

24) PCD. Water Quality Management Programs and Plans of Action in the Central Basin, Ministry of Science and Technology, Thailand, 1997.

25) PCD. Thailand state of pollution report. 2014. http://www.pcd.go.th/.

26) Richards MP, Steele NC. Trace element metabolism in the developing avain embryo: a review. J Exp Zool, Supplement 1, 39-52, 1987.

27) Rutkowska M, Płotka-Wasylka J, Lubinska-Szczygeł M, Różańska A, Możejko-Ciesielska J, Namieśnik J. Birds' feathers – Suitable samples for determination of environmental pollutants. TrAC Trends in Analytical Chemistry 109, 97- 115, 2018.

28) Shrivastava A, Gupta V. Methods for the determination of limit of detection and limit of quantitation of the analytical methods. Chronicles of Young Scientists 2, 21-25, 2011.

29) Sidhu P, Garg ML, Morgenstern P, Vogt J, Butz T, Dhawan DK. Role of zinc in regulating the levels of hepatic elements following nickel toxicity in rats. Biol Trace Elem Res 102, 161- 172, 2004.

30) Squadrone S, Brizio P, Stella C, Favaro L, Da Rugna C, Florio D, Gridelli S, Abete MC. Feathers of Humboldt penguin are suitable bioindicators of Rare Earth Elements. Sci Total Environ 678, 627-631, 2019.

31) Storelli MM. Potential human health risks from metals (Hg, Cd, and Pb) and polychlorinated biphenyls (PCBs) via seafood consumption: Estimation of target hazard quotients (THQs) and toxic equivalents (TEQs). Food Chem Toxicol 46, 2782-2788, 2008.

32) Tapiero H, Tew KD. Trace elements in human physiology and pathology: zinc and metallothioneins. Biomed Pharmacother, 57, 399-411, 2003.

33) Techakriengkrai T, Klangjareoncha i T, Pak pean k itw attan a V, S r i tar a P, Roongpisuthipong C. The effect of ingestion of egg and low density lipoprotein (LDL) oxidation on serum lipid profiles in hypercholesterolemic women. Songklanakarin Journal of Science and Technology 34, 2012.

34) Trampel DW, Imerman PM, Carson TL, Kinker JA, Ensley SM. Lead contamination of chicken eggs and tissues from a small farm flock. J Vet Diagn Invest 15, 418-422, 2003.

35) USDA. National Nutrient Database for Standard Reference. 2018. https://ndb.nal.usda. gov.

36) USEPA. Exposure Factors Handbook Office of Research and Development, National Center for Environmental Assessment, Cincinnati, Ohio. 1997.

37) USEPA. Risk-based Concentration Table. Philadelphia PA, United States Environmental Protection Agency, Washington DC. 2000.

38) Zhang WW, Ma Jz. Waterbirds as bioindicators of wetland heavy metal pollution. Procedia Environ Sci 10, 2769-2774, 2011.

39) Zhang WW, Ma JZ. Waterbirds as bioindicators of wetland heavy metal pollution. Procedia Environ Sci 10, Part C, 2769-2774, 2011.

40) Zhou S, Shao Y, Gao N, Deng Y, Qiao J, Ou H, Deng J. Effects of different algaecides on the photosynthetic capacity, cell integrity and microcystin-LR release of Microcystis aeruginosa. Sci Total Environ 463-464, 111-119, 2013.

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