Bioaccumulation of Cadmium and Lead in the Muscle Tissue of Mullus barbatus in Skikda and Jijel Bays Eastern Algeria

[1] J.V. Rao et al., Environnemental contamination using accumulation of metals in marine spongers, Sigmadocia fibulata inhabiting the coastal waters of gulf of Mannar, India, Toxicological and Environnmental Chemestry. 89(3) (2007) 487-498.

DOI: 10.1080/02772240601150588

Google Scholar

[2] G. Bonanno, M. Orlando-Bonacab, Chemical elements in Mediterranean macroalgae. A review, Ecotoxicology and Environmental Safety. 148 (2018) 44-71.

DOI: 10.1016/j.ecoenv.2017.10.013

Google Scholar

[3] C.N. Bianchi, C. Morri, Marine biodiversity of the Mediterranean Sea: situation, problems and prospects for future research, Mar. Pollut. Bull. 40(5) (2000) 367-376.

DOI: 10.1016/s0025-326x(00)00027-8

Google Scholar

[4] M. Bergmann, L. Gutow, M. Klages, Marine Anthropogenic Litter, Springer, 2015.

Google Scholar

[5] M.T. Olgunera et al., Distribution and composition of benthic marine litter on the shelf of Antalya in the eastern Mediterranean, Marine Pollution Bulletin 136 (2018) 171-176.

DOI: 10.1016/j.marpolbul.2018.09.020

Google Scholar

[6] D.J.H. Phillips, D.A. Segar, Use of bio-indicators in monitoring conservative contaminants: Programme design imperatives, Marine Pollution Bulletin 17(1) (1986) 10-17.

DOI: 10.1016/0025-326x(86)90797-6

Google Scholar

[7] R. Mohamed Ben Ali, Evaluation de la pollution des eaux issue de la zone industrielle de Skikda. Thesis of Magister, Mentouri Constantine University, Algeria, 2014, 145 pp.

Google Scholar

[8] Information on http://www.denv-jijel.dz. Accessed: 8/05/2016.

Google Scholar

[9] FAO/UNEP, Report of the FAO/UNEP/IAEA Training Workshop on the Design of Monitoring Programmes and Management of Data Concerning Chemical Contaminants in Marine Organisms. Athens, 22-26 June 1993, 247 pp.

Google Scholar

[10] I. Bentata-Keddar, Evaluation de la contamination métallique par trois métaux traces (Cd, Ni et Zn) du rouget de vase Mullus barbatus (L., 1758) pêché au niveau da la cote occidentale algérienne [Evaluation of the metallic contamination by three trace metals (Cd, Ni and Zn) of red mullet Mullus barbatus (L., 1758) caught in the western Algerian coast]. Thesis of Magister, University of Oran, Algeria, 2015, 122 pp.

DOI: 10.4000/physio-geo.3258

Google Scholar

[11] M.P.R.H. Schéma National de Développement des Activités de la Pêche et de L'aquaculture [National Development Plan for Fisheries and Aquaculture Activities], Ministry of Fishing Resources, 2003, 77 pp.

Google Scholar

[12] C. Romond, «Lyophilisation», Encyclopædia Universalis (2015) [en ligne]. Accessed: 08/05/2016. Available: http://www.universalis.fr/encyclopedie/lyophilisation/.

Google Scholar

[13] J.C. Charlou, M. Joanny, Dosage du mercure et d/autres métaux dans les sédiments marins par absorption atomique. Manuel des analyses chimiques en milieu marin. Aminot et Chaussepied - CNEXO ed. (1983) 285-295.

Google Scholar

[14] A.I.E.A, Training workshop on the analysis of trace metals in biological and sediment samples. Laboratory Procedure Book, 2001, 45 pp.

Google Scholar

[15] L. Laurence, Biological matrices preparation for determination of metals, Ann Toxicol Anal. 22(2) (2010) 81-88.

Google Scholar

[16] K.F. Nakhlé, Le mercure, le cadmium et le plomb dans les eaux littorales libanaises: apport et suivi au moyen de bioindicateurs quantitatifs (éponges, bivalves et gastéropodes). Ph.D. thesis: Paris, France, Denis Diderot University, 2003, 246 pp.

DOI: 10.4000/books.efr.7882

Google Scholar

[17] S. Gagneux-Moreaux, Les métaux (Cd, Cu, Pb et Zn) dans la production des micro- algues sur différents milieux de culture : Biodisponibilité- Bioaccumulation et impact physiologique. Thèse de Doctorat en biologie marine, Université de Nantes, 2006, 257 pp.

DOI: 10.4000/culturemusees.1157

Google Scholar

[18] R. Dixit et al., Bioremediation of heavy metals from soil and aquatic environment: an overview of principles and criteria of fundamental processes, Sustainability. 7 (2015) 2189-2212.

DOI: 10.3390/su7022189

Google Scholar

[19] L. Bensahla Talet, Contamination du rouget de vase (Mullus barbatus L., 1758) par quatre métaux lourds (Cd, Pb, Cu et Zn) pêché dans la baie d'Arzew [Contamination of mullet (Mullus barbatus L., 1758) by four heavy metals (Cd, Pb, Cu and Zn) caught in Arzew Bay]. Magister thesis, University of Oran, 2001, 105 pp.

DOI: 10.1051/ata:2007006

Google Scholar

[20] S. Borsali-Mrabet, Contamination du rouget de roche (Mullus surmuletus L. 1758) dans les organes (foie, muscle et gonades), par trois métaux lourds pêché dans la baie d'Oran. [Contamination of red mullet (Mullus surmuletus L. 1758) in organs (liver, muscle and gonads) by three heavy metals caught in Oran Bay]. Magister thesis, University of Oran, 2007, 197 pp.

DOI: 10.15560/11.1.1504

Google Scholar

[21] Z. Boutiba, Les mammifères marins d'Algérie: Statut, répartition, biologie et écologie [Marine mammals of Algeria: Status, distribution, biology and ecology]. Ph.D thesis, University of Oran, 1992, 575 pp.

Google Scholar

[22] W. Benguedda-Rahal, Contribution à l'étude de la bioaccumulation métallique dans les sédiments et différents maillons de la chaine trophique du littoral extrême ouest Algérien [Contribution to the study of metallic bioaccumulation in sediments and different links in the tropic chain of the extreme west coast of Algeria], PhD Thesis, Tlemcen, University of Tlemcen, 2012, 117 pp.

DOI: 10.22453/lsj-020.1.071-088

Google Scholar

[23] S. Bouhadiba, Evaluation de la concentration des quatre métaux lourds (Pb, Cd, Cu et Zn) chez le rouget (Mugil cephalus L. 1758) pêché dans les baies d'Oran et de Beni Saf. [Evaluation of the concentration of four heavy metals (Pb, Cd, Cu and Zn) in red mullet (Mugil cephalus L. 1758) caught in the bays of Oran and Beni Saf]. Magister thesis, University of Oran, 2011, 125 pp.

DOI: 10.1051/ata:2007006

Google Scholar

[24] H.Y. Coğun et al., Metal concentrations in fish species from the northeast Mediterranean Sea, Environmental Monitoring and Assessment. 121 (2006) 431-438.

DOI: 10.1007/s10661-005-9142-0

Google Scholar

[25] M. Yabanlı et al., Determination of heavy metal content in commercial marine fish hunted From Southeast Aegean Sea (Turkey) and their potential risk for public health, Caspian J. Environ. Sci. 14(1) (2016) 1-13.

Google Scholar

[26] Ö. Kahvecioğlu et al., Metallerin Çevresel Etkileri-I, İTÜ Metalürji ve Malzeme Mühendisliği Bölümü. [Environmental Effects of Metals, ITU Metallurgy and Materials Engineering Department], 2003.

Google Scholar

[27] C. Galimberti et al., Evaluation of mercury, cadmium and lead levels in fish and fishery products imported by air in North Italy from extra-European Union Countries, Food Control. 60 (2016) 329-337.

DOI: 10.1016/j.foodcont.2015.08.009

Google Scholar

[28] M.M. Storelli et al., Toxic metals (Hg, Pb, and Cd) in commercially important demersal fish from Mediterranean Sea: contamination levels and dietary exposure assessment, J. Food Sci. 78 (2013) 362-366.

DOI: 10.1111/j.1750-3841.2012.02976.x

Google Scholar

[29] G. Barone et al., Assessment of mercury and cadmium via seafood consumption in Italy: estimated dietary intake (EWI) and target hazard quotient (THQ), Food Addit. Contam. A. 32 (2015) 1277-1286.

DOI: 10.1080/19440049.2015.1055594

Google Scholar