Vietnam Journal of Catalysis and Adsorption

Lead (Pb) accumulation in food is being seriously concerned due to its harmful effects on the health in of consumers. In this study, the accumulation and speciation of Pb analysis were carried out on climbing perch (Anabas testudineus). The A. testudineus was raised in waterborne Pb at concentration of 20, 30, 40 mg/L for Pb in 7 and 28 days. Pb is present in different chemical forms in the food chain, but organic Pb is more toxic than inorganic Pb.  In the present study, organic Pb in liver and muscle of A. testudineus was extracted with methanol and was measured by inductively coupled plasma-optical emission spectrometry. After 28 days of exposure, total Pb concentration in A. testudineus was from 124.23 ± 5.09 to 174.45 ± 5.55 mg/kg dry weight for the liver and from 67.83 ± 5.79 to 153.60 ± 5.78 mg/kg dry weight for the muscle. Organic Pb found in A. testudineus was from 8.1 to 9.9 % for the liver and from 5.9 to 12.5 % for the muscle. The accumulation of Pb in A. testudineus was quite high however, the conversion from inorganic Pb to organic Pb in A. testudineus was relatively low.

Anabas testudineus; Lead; Accumulation; Speciation.

El-Moselhy Kh.M., Othman A.I., El-Azem H.Abd, El-Metwally M.E.A, Egypt. Egyptian J. Basic & Applied Sciences 1 (2014) 97-105.

Kris-Etherton P., Harris W., Appel L, Circulation 106 (2002) 2747–2757.

Ali H, Khan E, Environmental Chemistry Letters 16 (2018) 903–917.

Has-Schön, E., I. Bogut, V. Rajković, S. Bogut, M. Čačić, J. Horvatić, Archives of Environmental Contamination and Toxicology 54 (2008) 75-83.

Linbo, T. L., D. H. Baldwin, J. K. McIntyre, N. L. Scholz, Environmental Toxicology and Chemistry 28 (2009) 1455-1461.

Olojo EAA., Olurin KB., Mbaka G., Oluwemimo AD. African Journal Biotechnology 4 (2005) 117-122.

Poperechna N. & Heumann K, Analytical Chemistry 77 (2005) 511-516.

Hughes, G. M.; B. N. Singh, Journal of Experimental Biology 53 (1970) 265–280.

J. Munoz, J. R. Baena, M. Gallego and M. Valcárcel, Journal of Analytical Atomic Spectrometry 17 (2002) 716-720.

Thang NQ, Huy BT, Van Tan L, Phuong NTK, Bulletin Environmental Contamination Toxicology 99 (2017) 187-193.

Shuhaimi-Othman M, Yakub N, Ramle NA, Abas A., Toxicology and Industrial Health 31 (2015) 773-82.

Altındağ A, Yiğit S., Chemosphere 60 (2005) 552– 556.

Karadede-Akin H, Ünlü E., Environmental Monitoring and Assessment 131 (2007) 323–337.

Wong CK, Wong PPK, Chu LM., Archives of environmental contamination and toxicology 40 (2001) 60–69.

Claiborne JB, Edwards SL, Morrison-Shetlar AI, The Journal of Experimental Zoology 293 (2002) 302–319.

Jovičić, K., D. M. Nikolić, Ž. Višnjić-Jeftić, V. Đikanović, S. Skorić, S. M. Stefanović, M. Lenhardt,

A. Hegediš, J. Krpo-Ćetković, I. Jarić., Environmental Science and Pollution Research 22 (2015) 3820-3827.

Canli, M. and G. Atli., Environmental Pollution 21 (2003) 129-136.

Agah H., Leermakers M., Elskens M., Fatemi S.M.R., Baeyens W, Environmental Monitoring and Assessment 157 (2009) 499-514.