Résumé
Le caroubier (Ceratonia siliqua L.) est un arbre appartenant à la famille des Fabacées. Originaire du Moyen-Orient, il se caractérise par une importance écologique, industrielle et ornementale. Cette fabacée est connue par ses vertus médicinales et thérapeutiques, très intéressantes vu les activités pharmacologiques des composés phytochimiques présents dans les extraits biologiques de la plante.
Abstract
Ceratonia siliqua L. is a tree belonging to the family of Fabaceae. From the Middle East, the carob is an important ecologically industrial and ornamental tree. This fabaceae is known for its medicinal and therapeutic virtues such as the pharmacological activities of the phytochemical compounds founded in the biological extracts of the plant.
Références
Batlle I, Tous J (1997) Carob tree Ceratonia siliqua L., Promoting the conservation and use of underutilized and neglected crops. 17, Gatersleben: Institute of Plant Genetics and Crop Plant Research, Rome: Int Plant Gen Res. Institute, pp. 92
Quezel P, Santa S (1963) Nouvelle flore de l’Algérie et des régions désertiques méridionales (tome1), Editions du centre national de la recherche scientifique, pp.557
Tucker SC (1992) The developmental basis for sexual expression in Ceratonia siliqua (Leguminosae: Ceasalpinoideae: Cassieae). Am J Bot 79:327–67
Zohary M (1973), Geobotanical Foundations of the Middle East, vol. 2, Stuttgart.
Hariri A, Ouis N, Sahnouni F, D. Bouhadi (2009), mise enoeuvre de la fermentation de certains ferments lactiques dans des milieux a base des extraits de caroube. Rev Microbiol Ind. Santé Environn 37–55
Sbay H, Abourouh M (2006) Apport des espèces à usages multiples pour le développement durable: cas du pin pignon et du caroubier, Centre de Recherche Forestière Haut-Commissariat aux Eaux et Forêts et à la Lutte Contre la Désertification, Rabat, pp.1–9
Mitrakos K (1981) Temperature germination responses in three Mediterranean evergreen sclerophylls, in Components of Productivity of Mediterranean-climate Regions-Basic and Applied Aspects (N.S. Margaris and H. A. Mooney, eds.). Dr W Junk Bublishers, The Hague/Boston/London, 277–9
Zohary M, Orshan P. (1959) The maquis of Ceratonia siliqua in Israel. Palest J Bot Jerusalem 8:385–97
Folch I, Guillen R (1981) La vegetacio dela Països Catalans, Ed. Ketres, Barcelona
Ait Chitt M., Belmir M., Lazrak A., (2007) Production des plantes sélectionnées et greffées du caroubier. Transfert de technologie en Agriculture 153, IAV Rabat, 1–4
Thomas V, Metha AR (1983) Effect of phloroglucinol on shoot growth and initiation of roots in carob tree cultures grown in vitro. In: Sen SK, Giles KL (eds.) Proc Int. Plant Cell Cult. Crop Improvement, Calcutta India. New York and London: Plenum Press, 451–7
Gharnit N, El Mtili N, Ennabili A, Sayah F (2006), Importance socioéconomique du caroubier (Ceratonia siliqua L.) dans la Province de Chefchaouen (nord-ouest du Maroc), Rev. Tela Botanica Base de Données Nomenclaturale de la Flore de France BDNFF, 4.02 n°33
Romano A, Barros S, Martins-Loução MA (2002), Micropropagation of the Mediterranean tree Ceratonia siliqua. Plant Cell, Tissue Organ Cult, 68:35–41
Aafi A. (1996), Note technique sur le caroubier (Ceratonia siliqua L.) Centre Nationale de la Recherche Forestière, Rabat (Maroc), pp. 10.
Ortiz PL, Arista M, Talavera S. (1996) Produccion de nectar y frecuencia de polinizadores en Ceratonia siliqua L. (Caesalpinaceae). Anales del Jardin Botanico de Madrid 54:540–6.
Rejeb MN (1995) Le caroubier en Tunisie: Situations et perspectives d’amélioration, in Quel avenir pour l’amélioration des plantes? Edit. AUPELF-UREF. John Libbey Eurotext, Paris, 79–85
Baum N (1989) Arbres et arbustes de l’Egypte ancienne, pp. 354
Zouhair O (1996) Le caroubier: situation actuelle et perspectives d’avenir, Document interne, Eaux et forêts, Maroc, pp 22
Lizardo R, Cañellas J, Mas FD, et al (2002) L’utilisation de la farine de caroube dans les aliments de sevrage et son influence sur les performances et la santé des porcelets. J Rech Porcine 34:97–101
Berrougui H (2007), Le caroubier (Ceratonia siliqua L.), une richesse nationale aux vertus médicinales. Maghreb Canada Express 5, n°9
Bonnier G. (1990), La grande flore en couleurs (tome 3), pp.309–310.
Biner B, Gubbuk H, Karhan M, et al (2007) Sugar profiles of the pods of cultivated and wild types of carob bean (Ceratonia siliqua L.) in Turkey. Food Chemistr 100:1453–5
Avallone R, Plessi M, Baraldi M, Monzani A (1997) Determination of Chemical Composition of Carob (Ceratonia siliqua): Protein, Fat, Carbohydrates, and Tannins, J Food Compos Anal 10:166–72
Ndir B, Lognay G, Wathelet B, et al (2000) Composition chimique du nététu, condiment alimentaire produit par fermentation des graines du caroubier africain Parkia biglobosa (Jacq.) Benth, (4, 5) Biotechnol Agron Soc Environ 4:101–5
Coit JE (1967) Carob varieties for the semi-arid southwest, Fruit Varieties. Hort Digest 21:5–9
Calixto FS, Canellas J (1982) Components of nutritional interest in carob pods Ceratonia siliqua. J Sci Food Agric 33:1319–23
Priolo A, Waghorn GC, Lanza M, et al (2000) Polyethylene glycol as a means for reducing the impact of condensed tannins in carob pulp: Effects on lamb growth performance and meat quality. J Anim Sci 78:810–6
Baytop T (1984) Therapy with medicinal plant in Turkey (Past and Present), Publication of the Istanbul University, 3255, Istanbul
Kivçak B, Mert T (2002) Antimicrobial and cytotoxic activities of Ceratonia siliqua L. extracts. Turk J.Biol 26:197–200
Orphanos PI, Papaconstantinou J (1969) The carob varieties of Cyprus. Tech. Bull.5. Cyprus Agricultural Research Institute. Ministery of Agriculture and Natural Resource, Nicosia
Vardar Y, Seçurenand Ö, Ahmed M (1972) Preliminary results on the chemical composition of the Turkish carob beans. Qual Plant Mater Veg 21:318–27
Albanell E, Caja G, Plaixats J (1991). Characterization of Spanish carob pod and nutritive value of carob kibbles. Options Mediterranéennes 16:135–6
Leroy A (1929) Elevage rationnel des animaux domestiques. Hachette ed., 448 p
Puhan Z. and Wielinga M. W. (1996) Products derived from carob pods with particular emphasis on carob bean gum (CBG). Report Technical Committee of INEC (unpublished).
Charalamabous J, Papaconstantinou J (1966) Current result on the chemical composition of the carob bean. In the composition uses of carob bean (J. Charalambous, ed). Cyprus Agricultural Research Institute Ministry of Agriculture and Natural Resources Nicosia, Cyprus
Neukom H (1988) Carob bean gum: properties and application. p. 551–555 in Proceedings of the II International Carob Symposium (P. Fito and A. Mulet, eds.). Valencia, Spain
Batista MT, Amaral MT, Proença Da Cunha A (1996) Carob fruits as source of natural antioxidant. In Proceeding of the III International Carob Symposium. Cabanas-Tavira, Portugal
Marakis S, Kalaitzakis J, Mitrakos K (1988) Criteria for recognizing carob tree varieties. Pp. 558–566 in Proceedings of the II International Carob Symposium (P. Fito and Mulet, eds.) Valencia, Spain
García-Ochao F, Casas JA (1992) Viscosity of locust bean (Ceratonia siliqua) gum solutions. J Sci Food Agri 59:97–100
Ben Hsouna A, Trigui M, Ben Mansour R, et al (2011). Chemical composition, cytotoxicity effect and antimicrobial activity of Ceratonia siliqua essential oil with preservative effects against Listeria inoculated in minced beef meat. Int J Food Microbio 148:66–72
Serairi-Beji R, Mekki-Zouiten L, Tekaya-Manoubi L, et al (2000) Can carob powder be used with oral rehydration solution for the treatment of acute diarrhea. Med Top 60:125
Ruiz-Roso B, Quintela JC, de la Fuente E, et al (2010).Insoluble carob fiber rich in polyphenols lowers total and LDL cholesterol in hypercholesterolemic sujects. Plant Foods Hum Nutr 1:50–6
Gruendel S, Garcia AL, Otto B, et al (2006) Carob pulp preparation rich in insoluble dietary fiber and polyphenols enhances lipid oxidation and lowers postprandial acylated ghrelin in humans.1. J Nutr 136:1533–8
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Kaderi, M., Ben Hamouda, G., Zaeir, H. et al. Notes ethnobotanique et phytopharmacologique sur Ceratonia siliqua (L.). Phytothérapie 13, 144–147 (2015). https://doi.org/10.1007/s10298-014-0904-4
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DOI: https://doi.org/10.1007/s10298-014-0904-4