Nous avons analysé six échantillons de spirulines commerciales. Les éléments majeurs ont été dosés par ICP-OES et les éléments traces par ICP-MS. Les concentrations en Fe, Mn, Mg, Ca, Na, K, P, Rb, Sr, Zn, éléments quantifiés dans tous les échantillons et en Si, Al, Ti, Ba, Cd, Ce, Co, Cr, Cu, Er, Hg, Ho, La, Lu, Mo, Nb, Nd, Ni, Pb, Pr, Sm, Sn, Ta, Th, U, V et Yb, quantifiés seulement dans certains échantillons, sont très variables. As, Ag, Be, Bi, Cs, Dy, Eu, Ga, Gd, Ge, Hf, In, Li, Sb, Tb, Tm, W, Y, Zr sont à des teneurs inférieures aux limites de détection. Une consommation usuelle de 5 g/j représente donc, selon l'élément et l'échantillon considéré, une proportion très variable de l'apport alimentaire moyen. Il n'y a cependant pas de risque de toxicité même avec une consommation de 10 g/j.

Manen, J.; Falquet, J. (2002). The cpcB-cpcA locus as a tool for the genetic characterization of the genus Arthrospira (Cyanobacteria): evidence for horizontal transfer. Int J. Syst. Evol. Microbiol., 52, (2002) 861-867.

Ciferri, O. Spirulina, the edible microorganism. Microbiol. Rev., 47, (1983) 551-578.

Falquet, J.; Urni, JP. Spiruline. Aspects nutritionnels. Ed. Antenna Technologies, Genève, Suisse, 2006, pp. 4-19.

Cruchot, H. La spiruline - Bilan et perspectives. Thèse doctorat Pharmacie, Univ. de Franche-Comté, Mai, 2008.

Boudène, C.; Collas, E.; Jenkins, C. Recherche et dosage de divers toxiques minéraux dans les algues spirulines de différentes origines, et évaluation de la toxicité à long terme chez le rat d'un lot d'algues spirulines de provenance mexicaine. Ann. Nutr. Aliment., 29, (1975) 577-587.

Campanella, L.; Crescentini, G.; Avino, P.; Moauro, A. Determination of macrominerals and trace elements in the alga Spirulina platensis. Analusis, 26, (1998) 210-214.

Campanella, L.; Crescentini, G.; Avino, P. Chemical composition and nutritional evaluation of somme natural and commercial food products based on Spirulina. Analusis, 27, (1999) 533-540.

Dillon, J.; Phuc, A.; Dubacq, J. Nutritional value of the alga Spirulina. World Rev. Nutr. Diet., 77, (1995) 32-46.

Johnson, PE.; Shubert, LE. Accumulation of mercury and other elements by Spirulina (Cyanophyceae). Nutr. Rep. Int., 34 (1986) 1063-1070.

Mannino, S.; Benelli, TG. (1980). Costituenti minerali di biomasse di Spirulina maxima. In : Prospettive della cultura di spirulina in Italia.; Materassi R. éd.; CNR:Rome, Italie, 1980; pp. 131-135.

Ortega-Calvo, JC.; Mazuelos, C.; Hermosim, B.; Saiz-Jimenez, CJ. Chemical composition of Spirulina and eukaryotic algae food products marketed in Spain. J. Appl. Phycol., 5 (1993) 425-435.

Shao, WJ. Determination of rare earth elements in laver and spirulina by ICP MS. The Beverage Industry, 04 (2009) 44-45.

Vicat, JP.; Doumnang Mbaigane, JC.; Bellion, Y. Teneurs en éléments majeurs et traces de spirulines (Arthrospira platensis) originaires de France, du Tchad, du Togo, du Niger, du Mali, du Burkina-Faso et de République centrafricaine. C. R. Biologies, 337 (2014) 44–52.

Vicat, JP.; Doumnang Mbaigane, JC.; Bellion, Y. Teneurs en Si, Al et Ti des spirulines (Arthrospira platensis) commerciales cultivées en France. Research.fr.,(2014),

URL: http://dx.doi.org/10.13070/rs.fr.1.1089.

Cogné, G.; Lehmann, B.; Dussap, CG.; Gros, JB. Uptake of Macrominerals and Trace Elements by the Cyanobacterium Spirulina platensis (Arthrospira platensis PCC 8005) under Photoautrophic Conditions. Culture Medium Optimization. Biothechnol. Bioeng., 81:5 (2008) 588-593.

Rangsayatorn, N.; Pokethitiyook, P.; Upatham, ES.; Lanza, GR. Cadmium biosorption by cells of Spirulina platensis TISTR 8217 immobilized in alginate and silica. Gel. Environ 301 (2004) 57-63.

Jagietto, M.; Mint, E.; Chojnacka, K.; Kafarski, P. Mode of Biosorption of Chromium III by Spirulina Species Cells from Aqueous Solutions. Water Environment Research, 78:7 (2006) 740-743.

Solisio, C.; Lodi, A.; Torre, P.; Converti, A.; Del Borghi, M. Copper removal by dry and re-hydrated biomass of Spirulina platensis. Bioresour Technol., 97:14 (2006) 1756- 1760

Vannela, R.; Verma, SK. Co2+, Cu2+, and Zn2+ Accumulation by cyanobacterium Spirulina platensis. Biotechnol Prog., 22:5 (2006) 1282-1293.

Frontasyeva, MV.; Pavlov, SS.; Mosulishvili, L.; Kirkesali, E.; Ginturi, E.; Kuchava N. Accumulation of trace elements by biological matrice of Spirulina platensis. Ecological Chemistry and Engineering S., 16:3 (2009) 277-285.

Al-Dhabi, NA. Heavy metal analysis in commercial Spirulina products for human consumption. Saudi J. of Biological Sci., 20 (2013) 383-388.

Zinicovscaia, I.; Duca, G.; Rudic, V.; Cepoi, L.; Chiriac, T.; Frontasyeva, MV.; Pavlov, SS.; Gundorina, SF. Spirulina platensis as biosorbent of zinc in water. Environmental Engineering and Management J., 12:5 (2013) 1079-1084.

Al-Homaidan, AA.; Al-Houri, HJ.; Al-Hazzani, AA.; Elgaaly, G.; Moubayed, NMS. Biosorption of copper ions from aqueous solutions by Spirulina platensis biomass. Arabian J. of Chemistry, 7:1 (2014) 57–62.

Zinicovscaia, I.; Cepoi, L.; Chiriac, T.; Culicov, OA.; Frontasyeva, MV.; Pavlov, SS.; Kirkesali, E.; Akshintsev, A.; Rodlovskaya E. (2015). Spirulina platensis as biosorbent of chromium and nickel from industrial effluents. Desalination and Water Treatmen., 05 (2015) 1-8.

ANSES. Étude de l’alimentation totale française 2 (EAT 2), Tome 1, Contaminants inorganiques, minéraux, polluants organiques persistants, mycotoxines, phyto- estrogènes. Avis de l’ANSES. Rapport d’expertise, juin 2011; pp.70-71.

WHO. Reducing salt intake in populations. Report of a WHO Forum and Technical meeting, Paris, France, 5-7 octobre 2006; pp. 46.

JOUE. Règlement (UE) No 1169/2011 du Parlement européen et du Conseil du 25 octobre 2011. Journal officiel de l’Union européenne, I. 304, 2011; pp. 61.

Coudray C, Hercberg S. Fer. In : Apports nutritionnels conseillés pour la population français, 3e éd.; Lavoisier, Ed.; Tec&Doc, Paris, France, 2001; pp. 150-155.

WHO. Environmental Health Criteria Monographs. Titanium. Geneva, Suisse, WHO Report No 24, 1982; § 4.4.

Murphy, M.; Dryburgh, F.; Shepherd, J. Regional and supraregional biochemistry services in Scotland: a survey of hospital laboratory users. J. Clin. Pathol., 47 (1994) 395-398.

JECFA. Evaluation of certain food additives and contaminants. Seventy-fourth report of the Joint FAO/WHO Expert Committee on Food Additives. WHO Technical Report Series No 966, 2011; pp. 97.

JECFA. Evaluation of certain food additives and contaminants. Thirty-third report of the Joint FAO/WHO Expert Committee on Food Additives. WHO Technical Report Series, No. 776, 1989; pp. 51-53.

EFSA. Tolerable Upper Intake Levels for Vitamins and Minerals. Scientific Committee on Food. Scientific Panel on Dietetic Products, Nutrition and Allergies, European Food Safety Authority, 2006; pp. 201-206.

WHO. Nickel in Drinking-water. Background document for development of WHO Guidelines for Drinking-water Quality, 2005; pp.15-16.

IOM. (2001). Dietary reference intakes for vitamin A, vitamin K, arsenic, boron, chromium, copper, iodine, iron, manganese, molybdenum, nickel, silicon, vanadium and zinc. Institute of Medicine (USA), Panel on Micronutrients. Washington (DC): National Academies Press (USA), Publisher and Distributor.

Fieve, RR.; Meltzer, HL.; Taylor, RM. Rubidium chloride ingestion by volunteer subjects:Initial experience. Psychopharmacologia, 20:4 (1971) 307–314.

USEPA. Strontium (CASRN 7440-24-6). US Environmental Protection Agency, Integrated Risk Information System, Washington, DC, USA, 1996; pp.1-2.

USEPA. Toxicological review of Barium and compounds (CASRN 7440-39-3). US Environmental Protection Agency, Integrated Risk Information System, Washington, DC, USA, 2005; pp. 149-151.

Please cite this Article as:

Jean-Paul Vicat, Jean-Claude Doumnang Mbaigane, Nadjilem Dingamtar Ndjadode, Roland Guideal, Yves Bellion Teneurs en éléments majeurs et traces de spirulines (Arthrospira platensis) originaires de France, Madagascar, Inde, Costa Rica et Equateur, Algerian J. Nat. Products, 4:2 (2016) 292-298.

www.univ-bejaia.dz/ajnp

Online ISSN: 2353-0391

Editor in chief: Prof. Kamel BELHAMEL