Bio-Estimation of Selected Heavy Metals in Shellfish and Their Surrounding Environmental Media
Due to the determination of the pollution status of
fresh resources in the Egyptian territorial waters is very important for
public health; this study was carried out to reveal the levels of heavy
metals in the shellfish and their environment and its relation to the
highly developed industrial activities in those areas. A total of 100
shellfish samples from the Rosetta, Edku, El-Maadiya, Abo-Kir and
El-Max coasts [10 crustaceans (shrimp) and 10 mollusks (oysters)]
were randomly collected from each coast. Additionally, 10 samples
from both the water and the sediment were collected from each coast.
Each collected sample was analyzed for cadmium, chromium,
copper, lead and zinc residues using a Perkin Elmer atomic
absorption spectrophotometer (AAS). The results showed that the
levels of heavy metals were higher in the water and sediment from
Abo-Kir. The heavy metal levels decreased successively for the
Rosetta, Edku, El-Maadiya, and El-Max coasts, and the
concentrations of heavy metals, except copper and zinc, in shellfish
exhibited the same pattern. For the concentration of heavy metals in
shellfish tissue, the highest was zinc and the concentrations decreased
successively for copper, lead, chromium and cadmium for all coasts,
except the Abo-Kir coast, where the chromium level was highest and
the other metals decreased successively for zinc, copper, lead and
cadmium. In Rosetta, chromium was higher only in the mollusks,
while the level of this metal was lower in the crustaceans; this trend
was observed at the Edku, El-Maadiya and El-Max coasts as well.
Herein, we discuss the importance of such contamination for public
health and the sources of shellfish contamination with heavy metals.
We suggest measures to minimize and prevent these pollutants in the
aquatic environment and, furthermore, how to protect humans from
excessive intake.
[1] M.S. Reddy, B. Mehta, S. Dave, , M. Joshi L. Karthikeyan, V.K.S.
Sarma, S. Basha, G. Ramachandraiah, O Bhatt, Bioaccumulation of
heavy metals in somecommercial fishes and crabs of the Gulf of
Cambay, India. Current Science, vol. 92, pp. 1489-1491, 2007.
[2] L. R. Varalakshmi, A.N. Ganeshamurthy, Heavy metals contamination
of water bodies, soils and vegetables in peri urban areas of Bangalore
city of India. 19th. World Congress of Soil Science, Soil Solutions for a
Changing World. 1 – 6 August Brisbane, Australia, 2010.
[3] Y. Yamamoto, Y. Tanaka, S. Ueda, The chemical composition and
Nickel, Cobalt, Copper, Zinc and Lead contents of Nanoa bay sediment.
Journal Oceanography Social Japan, vol. 33, vol. 242-246, 1977.
[4] A.D. Saxena, S.F.D. Suoza, Heavy metal pollution abatement using rock
phosphate mineral.Founders day special Issue, pp. 90-99, 2005.
[5] P.A. West, , P.C. Wood M. Jacob, Control of the food poisoning risk
associated with shellfish. Journal Royal Society Health, vol. 105, pp. 15-
21, 1985.
[6] D.W. Cook, Microbiological of Bivalvae Molluscan shellfish. In: Ward,
D.R. and Hachney, C. (ed.) .Microbiological of Marine Food
Product_Van Nostrand Reinhold, NY New York, pp.19-39, 1991.
[7] M. De Gieter, M. Leer markers, R. VanRyssen, J. Noyen, L. Goeyens,
W. Baeyens, Total and toxic Arsenic in North Sea fish. Archive
Environmental Toxicology, vol. 43 (4), pp. 406-417, 2002.
[8] D. Jursa, M. Blanosa, Mercury, arsenic, lead, and cadmium in shellfish
from the Adriatic Sea. Food Additives Contamination, vol. 20 (3), pp.
241-246, 2003.
[9] H. Lenntech, Lenntech water treatment and Air Purification: Water
Treatment, Rotterdamseweg, Netherlands, pp. l0, 2004.
[10] O. Aboul Dahab, Y. Halimm, Chromium through Mex Bay in shore
waters. Rapp Comm Int. Mar Med, vol. 31(2), pp. 33-37, 1988.
[11] M. Bernhard, Manual of Methods in Aquatic Food Products Sampling
Analyses of Biological Material. Guidelines for FAO (GFCN) Pollution
in Mediterranean.FAO Fish Pap.No.158:124, FAO, Rome, Italy, 1976.
[12] EOSQC. Method of quantitative determination of mercury in the food
products. ES No. 180, 2007.
[13] T.K. Ghosh, D.G. Kshirsagar, Selected heavy metals in seven species of
fishes from Bombay offshore areas. Proc. Nat. Acad. Sci. India, vol.
63(B III), pp. 350-311, 1973.
[14] B.G. Maddock, D. Taylor, The acute toxicity and bioaccumulation of
some lead alkyl compounds in marine animals presented at the internet.
Expert’s discussion meeting on: Lead occurrence, fate and pollution in
the marine environment. Rovinz, Yugoslavia, pp. 18-22. 1977
[15] EOSQC. Egyptian Organization for Standardization and Quality Control
Maximum level for heavy metals contamination in food. ES No.2360,
1993.
[16] FAO/WHO. List of maximum levels recommended for contaminants by
the Joint FAO/WHO Codex Alimentarius Commission. Second Series
CAC/FAL, Rome, vol. 3, pp. 1-8, 1984.
[17] CIPAC. Chemical and industrial process associated with cancer in
humans. Lyon, International Agency for Research on Cancer,
1979(IARC) Monographs on the Evaluation of the Carcinogenic Risk of
Chemicals to Man, pp. 1-20, 1979,
[18] M.M. Storelli, GO. Marcotrigiano, Cadmium and total mercury in some
cephalopods from south Adriatic Sea (Italy).Food Additives
Contamination, vol.16(6), pp. 261-265, 1999.
[19] WHO. Inorganic Lead .Environmental Health Criteria.No.15, Geneva,
WHO, 1993.
[20] European Commission Food Science and Technology. Report on task
for scientific co-operation. Dietary exposure to cadmium .Eur.17527
(Luxembourg, Office for official Publication of the European
Communities), 1997.
[21] R.W. Dabaka, A.D. McKenzie, Survey of lead, cadmium, fluoride,
nickel, cobalt in food composites and estimation of dietary intakes of
these elements by Canadians in 1986-1988. Journal AOAC
International, vol. 78, pp. 897-909, 1995.
[22] F. Decloitre, La perts des different aliments dans L, exposition au plomb,
au cadmium et au mercure en France. Cahiers de Neutians et Dretetique.
Vol. 33, pp. 167-175, 1998.
[23] Z.A. Saleh, H. Brunn, R. Paetzold, L. Hussein, Nutrients and chemical
residues in an Egyptian total mixed diet. Food Chemistry, vol. 63, pp.
535-541, 1998.
[24] National Health and Medical Research Council C.F Anon.
Recommended standard for metal in Molluscs.Approved food standard
and additives. National Health and Medical Research Council Canberra,
1980.
[25] D.B. Kaufmann, W. Dinicola, S. Macintosh, Acute potassium chromate
poisoning .American Journal Disease Children, vol. 119, pp. 374-376,
1970.
[26] CAC. Codex Alimentarius Commission Contaminants Codex
Alimentarius Vol.XVII, 1st Ed, 1984.
[27] A.W. Hays, Principles and Methods of Toxicology.2nd ED., Raven Press,
New York, Chap, pp. 89-115 , 1989.
[28] J.J. Hostynek, R.S. Hinz, C.R. Lorence, M. Price, R.H. Guy, Metals and
the skin. Critical Review Toxicology, Vol. 23(2), pp. 171-235, 1993.
[29] F. Sorimachi, Activation of alkaline phosphatase with Mg+2 and Zn+2 in
rat hepatoma cells. Journal Biological Chemistry, vol. 262, pp. 1535-
1541, 1987.
[30] F.M. Fakhry, I.A.M. Essia, Lead and mercury level in the live shell fish
Lamelli branch molluscs Tapes decussates and water of Temasah Lake
in Esmailia. Journal Egypt Veterinary Medicine Association vol. 48(4),
pp. 547-552, 1984.
[31] WHO. Evaluation of Certain Food Additives and the Contamination
Mercury, Lead and Cadmium. Sixteenth Report of the Joint FAO/WHO
Expert Committee on food Additives (WHO Technical Report Series
No.505, Geneva), 1972.
[32] T.A. Gossel, J.D. Bricker, Principles of Clinical Toxicology.2nd ED.,
RavenPress, New York, Chap, pp. 153-192, 1990.
[33] M. Carl Heavy metals and other trace elements monograph on residues
and contaminants in milk and milk products. Chapter 6.Int.dairy
federation Belgium, 1991.
[34] WHO. Evaluation of Certain Food Additives and the Contaminants
.Thirty-third Report of the Joint FAO/WHO Expert Committee on food
Additives (WHO Technical Report Series No 776,Geneva); &WHO
Food Additives Series No .24. Toxicological Evaluation of Certain Food
Additives and the Contaminants, 1989.
[35] A.M. Shiller, E.A. Boyl, Eos Trans Am. Geophys.Union, vol. 64, pp.
715-722, 1983.
[36] E. Emelyanov, A. Moussa, A. Mitrossky, Mineralogical and chemical
composition of the Nille allu vial deposite. Lithol.Miner Resource, 1978.
[37] UNEP. United Nation of Environmental Pollution Pollutants from land
based sources in the Mediterranean. UNEP Regional Seas Reports and
Studies No. 32, 1984.
[38] U. Forstner, F. Prosi, Heavy metal pollution in freshwater ecosystem.
Commission of the European Communities, Pergamon Press Biological
Aspect of Freshwater Pollution, pp.129-161, 1979.
[39] FDA. Food and Drug Administration. Guidelines for cadmium, lead,
chromium and mercury in Seafoods, CF, 1976.
[40] D.C. Salisbuary, W. Chan, P.W. Sachenbercker, Multielement
concentration in liver and kidney tissue from five species of Canadian
slaughter animals. Journal AOAC, vol. 74(4), pp. 587-591, 1991.
[41] S. Chatt, H.S. Dang, B.B. Fong, Determination of trace elements in food
by neutron activation analysis. J. Radioanal. Nuclear Chemistry, Vol.
124, 65-77, 1988.
[42] H.A. Schroeder, A.P. Nason, I.H. Tipton, J.J. Balassa, Essential trace
metals in man: zinc in relation to environmental cadmium. Journal
Chronic Disease, vol. 5, pp. 179-210, 1967.
[43] G. Casarett, S. Doull, Toxicology, the Basic Science of Poisons. 5thEd.
MacGraw_Hill Companies, Inc., USA, 1996.
[1] M.S. Reddy, B. Mehta, S. Dave, , M. Joshi L. Karthikeyan, V.K.S.
Sarma, S. Basha, G. Ramachandraiah, O Bhatt, Bioaccumulation of
heavy metals in somecommercial fishes and crabs of the Gulf of
Cambay, India. Current Science, vol. 92, pp. 1489-1491, 2007.
[2] L. R. Varalakshmi, A.N. Ganeshamurthy, Heavy metals contamination
of water bodies, soils and vegetables in peri urban areas of Bangalore
city of India. 19th. World Congress of Soil Science, Soil Solutions for a
Changing World. 1 – 6 August Brisbane, Australia, 2010.
[3] Y. Yamamoto, Y. Tanaka, S. Ueda, The chemical composition and
Nickel, Cobalt, Copper, Zinc and Lead contents of Nanoa bay sediment.
Journal Oceanography Social Japan, vol. 33, vol. 242-246, 1977.
[4] A.D. Saxena, S.F.D. Suoza, Heavy metal pollution abatement using rock
phosphate mineral.Founders day special Issue, pp. 90-99, 2005.
[5] P.A. West, , P.C. Wood M. Jacob, Control of the food poisoning risk
associated with shellfish. Journal Royal Society Health, vol. 105, pp. 15-
21, 1985.
[6] D.W. Cook, Microbiological of Bivalvae Molluscan shellfish. In: Ward,
D.R. and Hachney, C. (ed.) .Microbiological of Marine Food
Product_Van Nostrand Reinhold, NY New York, pp.19-39, 1991.
[7] M. De Gieter, M. Leer markers, R. VanRyssen, J. Noyen, L. Goeyens,
W. Baeyens, Total and toxic Arsenic in North Sea fish. Archive
Environmental Toxicology, vol. 43 (4), pp. 406-417, 2002.
[8] D. Jursa, M. Blanosa, Mercury, arsenic, lead, and cadmium in shellfish
from the Adriatic Sea. Food Additives Contamination, vol. 20 (3), pp.
241-246, 2003.
[9] H. Lenntech, Lenntech water treatment and Air Purification: Water
Treatment, Rotterdamseweg, Netherlands, pp. l0, 2004.
[10] O. Aboul Dahab, Y. Halimm, Chromium through Mex Bay in shore
waters. Rapp Comm Int. Mar Med, vol. 31(2), pp. 33-37, 1988.
[11] M. Bernhard, Manual of Methods in Aquatic Food Products Sampling
Analyses of Biological Material. Guidelines for FAO (GFCN) Pollution
in Mediterranean.FAO Fish Pap.No.158:124, FAO, Rome, Italy, 1976.
[12] EOSQC. Method of quantitative determination of mercury in the food
products. ES No. 180, 2007.
[13] T.K. Ghosh, D.G. Kshirsagar, Selected heavy metals in seven species of
fishes from Bombay offshore areas. Proc. Nat. Acad. Sci. India, vol.
63(B III), pp. 350-311, 1973.
[14] B.G. Maddock, D. Taylor, The acute toxicity and bioaccumulation of
some lead alkyl compounds in marine animals presented at the internet.
Expert’s discussion meeting on: Lead occurrence, fate and pollution in
the marine environment. Rovinz, Yugoslavia, pp. 18-22. 1977
[15] EOSQC. Egyptian Organization for Standardization and Quality Control
Maximum level for heavy metals contamination in food. ES No.2360,
1993.
[16] FAO/WHO. List of maximum levels recommended for contaminants by
the Joint FAO/WHO Codex Alimentarius Commission. Second Series
CAC/FAL, Rome, vol. 3, pp. 1-8, 1984.
[17] CIPAC. Chemical and industrial process associated with cancer in
humans. Lyon, International Agency for Research on Cancer,
1979(IARC) Monographs on the Evaluation of the Carcinogenic Risk of
Chemicals to Man, pp. 1-20, 1979,
[18] M.M. Storelli, GO. Marcotrigiano, Cadmium and total mercury in some
cephalopods from south Adriatic Sea (Italy).Food Additives
Contamination, vol.16(6), pp. 261-265, 1999.
[19] WHO. Inorganic Lead .Environmental Health Criteria.No.15, Geneva,
WHO, 1993.
[20] European Commission Food Science and Technology. Report on task
for scientific co-operation. Dietary exposure to cadmium .Eur.17527
(Luxembourg, Office for official Publication of the European
Communities), 1997.
[21] R.W. Dabaka, A.D. McKenzie, Survey of lead, cadmium, fluoride,
nickel, cobalt in food composites and estimation of dietary intakes of
these elements by Canadians in 1986-1988. Journal AOAC
International, vol. 78, pp. 897-909, 1995.
[22] F. Decloitre, La perts des different aliments dans L, exposition au plomb,
au cadmium et au mercure en France. Cahiers de Neutians et Dretetique.
Vol. 33, pp. 167-175, 1998.
[23] Z.A. Saleh, H. Brunn, R. Paetzold, L. Hussein, Nutrients and chemical
residues in an Egyptian total mixed diet. Food Chemistry, vol. 63, pp.
535-541, 1998.
[24] National Health and Medical Research Council C.F Anon.
Recommended standard for metal in Molluscs.Approved food standard
and additives. National Health and Medical Research Council Canberra,
1980.
[25] D.B. Kaufmann, W. Dinicola, S. Macintosh, Acute potassium chromate
poisoning .American Journal Disease Children, vol. 119, pp. 374-376,
1970.
[26] CAC. Codex Alimentarius Commission Contaminants Codex
Alimentarius Vol.XVII, 1st Ed, 1984.
[27] A.W. Hays, Principles and Methods of Toxicology.2nd ED., Raven Press,
New York, Chap, pp. 89-115 , 1989.
[28] J.J. Hostynek, R.S. Hinz, C.R. Lorence, M. Price, R.H. Guy, Metals and
the skin. Critical Review Toxicology, Vol. 23(2), pp. 171-235, 1993.
[29] F. Sorimachi, Activation of alkaline phosphatase with Mg+2 and Zn+2 in
rat hepatoma cells. Journal Biological Chemistry, vol. 262, pp. 1535-
1541, 1987.
[30] F.M. Fakhry, I.A.M. Essia, Lead and mercury level in the live shell fish
Lamelli branch molluscs Tapes decussates and water of Temasah Lake
in Esmailia. Journal Egypt Veterinary Medicine Association vol. 48(4),
pp. 547-552, 1984.
[31] WHO. Evaluation of Certain Food Additives and the Contamination
Mercury, Lead and Cadmium. Sixteenth Report of the Joint FAO/WHO
Expert Committee on food Additives (WHO Technical Report Series
No.505, Geneva), 1972.
[32] T.A. Gossel, J.D. Bricker, Principles of Clinical Toxicology.2nd ED.,
RavenPress, New York, Chap, pp. 153-192, 1990.
[33] M. Carl Heavy metals and other trace elements monograph on residues
and contaminants in milk and milk products. Chapter 6.Int.dairy
federation Belgium, 1991.
[34] WHO. Evaluation of Certain Food Additives and the Contaminants
.Thirty-third Report of the Joint FAO/WHO Expert Committee on food
Additives (WHO Technical Report Series No 776,Geneva); &WHO
Food Additives Series No .24. Toxicological Evaluation of Certain Food
Additives and the Contaminants, 1989.
[35] A.M. Shiller, E.A. Boyl, Eos Trans Am. Geophys.Union, vol. 64, pp.
715-722, 1983.
[36] E. Emelyanov, A. Moussa, A. Mitrossky, Mineralogical and chemical
composition of the Nille allu vial deposite. Lithol.Miner Resource, 1978.
[37] UNEP. United Nation of Environmental Pollution Pollutants from land
based sources in the Mediterranean. UNEP Regional Seas Reports and
Studies No. 32, 1984.
[38] U. Forstner, F. Prosi, Heavy metal pollution in freshwater ecosystem.
Commission of the European Communities, Pergamon Press Biological
Aspect of Freshwater Pollution, pp.129-161, 1979.
[39] FDA. Food and Drug Administration. Guidelines for cadmium, lead,
chromium and mercury in Seafoods, CF, 1976.
[40] D.C. Salisbuary, W. Chan, P.W. Sachenbercker, Multielement
concentration in liver and kidney tissue from five species of Canadian
slaughter animals. Journal AOAC, vol. 74(4), pp. 587-591, 1991.
[41] S. Chatt, H.S. Dang, B.B. Fong, Determination of trace elements in food
by neutron activation analysis. J. Radioanal. Nuclear Chemistry, Vol.
124, 65-77, 1988.
[42] H.A. Schroeder, A.P. Nason, I.H. Tipton, J.J. Balassa, Essential trace
metals in man: zinc in relation to environmental cadmium. Journal
Chronic Disease, vol. 5, pp. 179-210, 1967.
[43] G. Casarett, S. Doull, Toxicology, the Basic Science of Poisons. 5thEd.
MacGraw_Hill Companies, Inc., USA, 1996.
@article{"International Journal of Biological, Life and Agricultural Sciences:68583", author = "Ebeed A. Saleh and Kadry M. Sadek and Safaa H. Ghorbal", title = "Bio-Estimation of Selected Heavy Metals in Shellfish and Their Surrounding Environmental Media", abstract = "Due to the determination of the pollution status of
fresh resources in the Egyptian territorial waters is very important for
public health; this study was carried out to reveal the levels of heavy
metals in the shellfish and their environment and its relation to the
highly developed industrial activities in those areas. A total of 100
shellfish samples from the Rosetta, Edku, El-Maadiya, Abo-Kir and
El-Max coasts [10 crustaceans (shrimp) and 10 mollusks (oysters)]
were randomly collected from each coast. Additionally, 10 samples
from both the water and the sediment were collected from each coast.
Each collected sample was analyzed for cadmium, chromium,
copper, lead and zinc residues using a Perkin Elmer atomic
absorption spectrophotometer (AAS). The results showed that the
levels of heavy metals were higher in the water and sediment from
Abo-Kir. The heavy metal levels decreased successively for the
Rosetta, Edku, El-Maadiya, and El-Max coasts, and the
concentrations of heavy metals, except copper and zinc, in shellfish
exhibited the same pattern. For the concentration of heavy metals in
shellfish tissue, the highest was zinc and the concentrations decreased
successively for copper, lead, chromium and cadmium for all coasts,
except the Abo-Kir coast, where the chromium level was highest and
the other metals decreased successively for zinc, copper, lead and
cadmium. In Rosetta, chromium was higher only in the mollusks,
while the level of this metal was lower in the crustaceans; this trend
was observed at the Edku, El-Maadiya and El-Max coasts as well.
Herein, we discuss the importance of such contamination for public
health and the sources of shellfish contamination with heavy metals.
We suggest measures to minimize and prevent these pollutants in the
aquatic environment and, furthermore, how to protect humans from
excessive intake.
", keywords = "Atomic absorption, heavy metals, sediment,
shellfish, water.", volume = "8", number = "11", pages = "1239-5", }
