Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its Farms
Background: Fish is a source of high-quality protein, supplying respectively ≈6% and ≈16.4% of the world’s and total animal protein requirements. Mullet production is mainly farm-based. Heavy metal accumulation in aquatic organisms is a serious sequel of aquatic system pollution. Objectives: to a...
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Alexandria University
2012-06-01
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| Series: | Journal of High Institute of Public Health |
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doaj-ad0b3006654e4eaa8dc7baaa02c389c92021-02-01T09:59:19ZengAlexandria UniversityJournal of High Institute of Public Health2357-06012357-061X2012-06-01421638110.21608/JHIPH.2012.20125Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its FarmsNeveen F. Agamy0Ahmed S. Gomaa1Food Analysis, Nutrition Department, High Institute of Public Health, Alexandria, EgyptGeneral observation of cooperatives and development northern El Beheira, Ministry of Agriculture, Egypt.Background: Fish is a source of high-quality protein, supplying respectively ≈6% and ≈16.4% of the world’s and total animal protein requirements. Mullet production is mainly farm-based. Heavy metal accumulation in aquatic organisms is a serious sequel of aquatic system pollution. Objectives: to assess some heavy metal concentration and physiochemical composition of farm fish and water Methods: 60 mullet fish and 18 surface water samples were collected from three fish farms for determination of fish and water Cd, Zn, Cr, Cu and Pb concentrations as well as analysis of fish proximate chemical composition and water physiochemical parameters. Results: Only Pb and Zn exceeded the maximum permissible limit (MPL) in fish samples while Pb and Cd exceeded the MPL in water samples. Pb levels exceeded the MPL of fish (1.5 mg/kg) in 5% of fish samples while its concentration exceeded the MPL of water (0.01mg/l) in 50% and 33.3% of water samples during winter and summer respectively. Zn concentration exceeded the MPL (5 mg/kg) in about 6.5% of fish samples during winter season only. All water samples exceeded the MPL of Cd (0.003 mg/l) during winter only. Chemical analysis of fish revealed that there was no significant difference in protein content of mullet among different farms and between the two seasons. Conclusion: Pb and Zn accumulate in fish edible tissue inconsiderably high concentrations. Pb and Cd pollution should be monitored in fish farming water. heavy metalschemical compositionwater qualityfish farms |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Neveen F. Agamy Ahmed S. Gomaa |
| spellingShingle |
Neveen F. Agamy Ahmed S. Gomaa Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its Farms Journal of High Institute of Public Health heavy metals chemical composition water quality fish farms |
| author_facet |
Neveen F. Agamy Ahmed S. Gomaa |
| author_sort |
Neveen F. Agamy |
| title |
Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its Farms |
| title_short |
Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its Farms |
| title_full |
Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its Farms |
| title_fullStr |
Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its Farms |
| title_full_unstemmed |
Heavy Metals and Chemical Composition of Mullet Fish and Water Quality of Its Farms |
| title_sort |
heavy metals and chemical composition of mullet fish and water quality of its farms |
| publisher |
Alexandria University |
| series |
Journal of High Institute of Public Health |
| issn |
2357-0601 2357-061X |
| publishDate |
2012-06-01 |
| description |
Background: Fish is a source of high-quality protein, supplying respectively ≈6% and ≈16.4% of the
world’s and total animal protein requirements. Mullet production is mainly farm-based. Heavy metal
accumulation in aquatic organisms is a serious sequel of aquatic system pollution. Objectives: to
assess some heavy metal concentration and physiochemical composition of farm fish and water
Methods: 60 mullet fish and 18 surface water samples were collected from three fish farms for
determination of fish and water Cd, Zn, Cr, Cu and Pb concentrations as well as analysis of fish
proximate chemical composition and water physiochemical parameters. Results: Only Pb and Zn
exceeded the maximum permissible limit (MPL) in fish samples while Pb and Cd exceeded the MPL
in water samples. Pb levels exceeded the MPL of fish (1.5 mg/kg) in 5% of fish samples while its
concentration exceeded the MPL of water (0.01mg/l) in 50% and 33.3% of water samples during
winter and summer respectively. Zn concentration exceeded the MPL (5 mg/kg) in about 6.5% of fish
samples during winter season only. All water samples exceeded the MPL of Cd (0.003 mg/l) during
winter only. Chemical analysis of fish revealed that there was no significant difference in protein
content of mullet among different farms and between the two seasons. Conclusion: Pb and Zn
accumulate in fish edible tissue inconsiderably high concentrations. Pb and Cd pollution should be
monitored in fish farming water. |
| topic |
heavy metals chemical composition water quality fish farms |
| work_keys_str_mv |
AT neveenfagamy heavymetalsandchemicalcompositionofmulletfishandwaterqualityofitsfarms AT ahmedsgomaa heavymetalsandchemicalcompositionofmulletfishandwaterqualityofitsfarms |
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