Element fingerprinting of Catla catla raised in the sewage fed aquaculture systems at Nalban, East Kolkata Wetlands, India
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Authors
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R. R. Anupama
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S. K. Rout
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S. Ganguly
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T. Mitra
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A. Mahanty
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L. R. Mahaver
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B. K. Das
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Bimal Prasanna Mohanty
Abstract
Fish is a health food and owing to the health benefits of eating fish, its demand is increasing. Kolkata is one of the largest cities in South-Eastern Asia and much of demand for fish is contributed by sewage fed aquaculture systems of the East Kolkata Wetlands (EKW). These sewage effluents tainted with different elements can influence the elemental composition of the fishes raised from this system. The present study aims
to determine the element profile of sewage fed fish and compared with fish from culture pond to determine the suitability of the fish for consumption. The levels of trace elements (Mn, I, Cu, Fe, Zn), ultra-trace, toxic elements (As, Cd, Cr, Co, Hg, Ni, Pb and Se) and also
macro elements (P, K, Ca, Na, Mg) in muscle tissues of Catla catla have been determined by ICP-AES, AAS and iodometric methods. Element distribution showed that, the P, K, Ca, Na, Mg and I were significantly higher (P<0.05) in the muscle tissue of Catla collected from
culture pond than sewage fed fish. There was no significant difference in trace elements like Mn, Fe, Cu, and Zn. Other elements like As, Cd, Cr, Co, Hg, Ni, Pb and Se were recorded below detectable level from both
the samples. This analysis showed that, the toxic elements were recorded within the safe limits as per International standards in sewage fed fish samples.
Keywords Trace elements, Sewage fed systems, Catla catla, Heavy metals
References
Sawaikar NK, (2016) Fish Production, Department of Animal
husbandry, Dairying and Fisheries, Annexure to the Lok Sabha, 3rd May, 2016 Nandeesha M C, (2002) Sewage Fed Aquaculture Systems of Kolkata A Century-old Innovation of Farmers.
Aquaculture Asia 7(2): 28-32
Chattopadhyay B, Chatterjee A, Mukhopadhyay SK (2002) Bioaccumulation of metals in the East Calcutta Wetland
Ecosystem. Aquatic Ecosystem Health and Management 5 (2): 191-203
Chatterjee S, Buddhadeb Chattopadhyay, Mukhopadhyay SK (2006) Trace metal distribution in tissues of cichlids (Oreochromis niloticus and O. mossambicus) collected from wastewater-fed fishponds in east calcutta wetlands, a ramsar site. Acta Ichthyologica Et Piscatoria 36 (2):119-125
Giordano R, Arata P, Ciaralli L, Rinaldi S, Giani M, Cicero AM (1991) Heavy metals in mussels and fish from Italian coastal waters. Mar Pollut Bull 22(1):10-14
Cindric IJ, Krizman I, Zeiner M, Kampic S, Medunic G, Stingeder G (2012) ICP-AES determination of minor and major elements in apples after microwave assisted digestion. Food Chem 135:2675-2680
Gokoglu N, Yerlikaya P, Cengiz E (2004) Effect of cooking methods on the proximate composition and mineral content of rainbow trout (Oncorhynchus mykiss). Food Chem 84:19-22
Fiske CH, Subbarow Y(1925) The colorimetric determination of phosphorous. J Biol Chem 66:375-400
Sullivan KM, Houston E, Gorestein J, Cervinskas J (1995) Titration methods for salt iodine analysis. Monitoring universal salt iodization programme. UNICEF/ICCIDD/ PAMM/WHO: 11. Eruvbetine D(2003) Canine Nutrition and Health. A paper presented at the seminar organized by Kensington Pharmaceuticals Nig. Ltd., Lagos on August 21, 2003
Nordin BEC (1997) Calcium in health and disease. FNA/ANA 20: 13-24
Tayfun, karata?(2014) Determination of macro and micro element levels in muscle tissue s of cultured and wild rainbow trout, Oncorhynchus mykiss. Journal of Entomology and Zoology Studies 2(5):365-369
Edith U Ebeledike, Godwin IC Nwokedi, Okechukwu O Ndu, Festus BC Okeyo, Izuchukwu S Ochiogu, (2010) Calcium and phosphorus contents of body parts of some domestic animals used as meat source in Nigeria. Asian Pacific Journal of Tropical Medicine 395-398
Paul BN, Chanda S, Sridhar N, Saha GS, Giri SS(2016) Proximate, Mineral and Vitamin Contents of Indian Major Carp. Indian J Anim Nutr 33 (1): 102-107
Sukumaran Krishna, AsimKumar Pal, Narottam Prasad Sahu, Dipesh Debnath, Biswamitra Patro (2009) Phosphorus requirement of Catla (Catla catla Hamilton) fingerlings based on growth, whole-body phosphorus concentration and non-faecal phosphorus excretion. Aquaculture Research, 40: 139-147
Roy PK, Lall SP(2003) Dietary phosphorus requirement of juvenile haddock (Melanogrammus aegle?nus L.) Aquaculture 221: 451- 468
Yang SD, Lin TS, Liu FG, Liou CH(2006) Influence of dietary phosphorus levels on growth, metabolic response and body composition of juvenile silver perch (Bidyanus bidyanus) Aquaculture 253: 592-601
Zhang C, Mai K, Ai Q, Zhang W, Duan Q, Tan B, Ma H, Xu W, Liufu Z, Wang X, (2005) Dietary phosphorus requirement of juvenile Japanese sea bass Lateolabrax japonicus. Aquaculture 255: 201-209
Mohanty BP, TV Sankar, Satabdi Ganguly, Arabinda Mahanty, R Anandan, Kajal Chakraborty, BN Paul, Debajit Sarma, J Syama Dayal, Suseela Mathew, K K Asha, Tandrima Mitra, D Karunakaran, Soumen Chanda, Neetu Shahi, Puspita Das, Partha Das, Md Shahbaz Akhtar, P Vijayagopal, N Sridhar(2016) Micronutrient
composition of 35 food fishes from India and their significance in human nutrition. Biol Trace Elem Res 174:448-458
Paul BN, S Chanda, N Sridhar, GS Saha, SS Giri(2016) Proximate, Mineral and Vitamin Contents of Indian Major Carp. Indian J Anim Nutr 33 (1): 102-107
Rout Gautam, S Adhikari, P Mohanty(2010) Effect of calcium and magnesium on copper, cadmium, and some essential elements of Indian major carps Labeo rohita (Hamilton) and Catla catla (Hamilton) treated with copper and cadmium. Toxicological & Environmental Chemistry 92(7): 1319-1330
Gregory LA, Eales JG(1975) Factors contributing to high levels of plasma iodide in brook trout, Saluelinus fontinalis (Mitchill). Can J Zool 53: 267-277
Demirezen D, Uruc K(2006) Comparative study of trace elements in certain fish, meat and meat products. Meat Sci 74(2): 255-260
Debnath Chandan, Lopamudra Sahoo, Abhijit Singha, Gulab Singh Yadav, M. Datta, SV Ngachan (2014) Protein and Mineral compositions of some local fishes of Tripura, India. Indian Journal of Hill Farming 27(1):120-123
Kumar Bhupander, Kurunthachalam Senthil Kumar, Mahalakshmi Priya, Debapriyo Mukhopadhyay, Rita Shah(2010) Distribution, partitioning, bioaccumulation of trace elements in water, sediment
and fish from sewage fed fish ponds in eastern Kolkata, India. Toxicological & Environmental Chemistry 92(2): 243-260
Food and drug administration, center for food safety and applied nutrition (FAD/CFSAN), (2001) Fish and fisheries products hazards and controls guidance: Third edition, Chapter 9 Abdullahi SA(2001) Investigation of nutritional status of Chrysichthys nigrodigitatus, Bayrus filamentous and Auchenoglanis occidentals' family Barigdae. Journal of Aid zone fisheries 1: 39-50
Effiong BN, Mohammed I(2008) Effect of seasonal variation on the nutrient composition in selected fish species in Lake Kainji Nigeria. Nature & Science, 6(2): 1-5
USFDA, (1993) Guidance document for arsenic, chromium, nickel in shellfish. Center for Food Safety and Applied Nutrition. United States Food and Drug Administration. Washington, DC
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