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Nutritional composition of tamarind (Tamarindusindica L.) from the Cerrado of Minas Gerais, Brazil

Published online by Cambridge University Press:  29 August 2013

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Abstract

Abstract – Introduction. The Cerrado is a Brazilian biome that has a largeplant heterogeneity. Among the fruit species of the Cerrado, the tamarind stands out dueto its economic potential and use in human feeding. Our study evaluated the physical andphysicochemical characteristics, and occurrence and content of vitamin C, carotenoids,vitamin E and folates in tamarind (Tamarindus indica L.) from the Cerradoof Minas Gerais, Brazil. Materials and methods. The length, diameter, massand fruit yield of tamarind were evaluated. Titratable acidity was determined byvolumetric neutralization, pH by potentiometry, soluble solids by refractometry, moistureusing an oven, ash using a muffle furnace, protein by the micro-Kjeldhal method, totaldietary fiber by the gravimetric non-enzymatic method, and lipids with a Soxhletextractor. Vitamin C and carotenoids were analyzed by HPLC-DAD, and vitamin E and folatesby HPLC with fluorescence detection. Results and discussion. Tamarind pulp iscomposed mainly of carbohydrates (50.07 g·100 g–1) and moisture (35.29 g·100 g–1); it canbe considered a good source of dietary fiber (4.13 g·100 g–1). The pH, titratable acidityand soluble solids are 2.95, 18.52 g tartaric acid·100 g–1 and 44.00 °Brix, respectively.Contents of vitamin C (4.79 mg·100 g–1) and folates (59.35 µg·100 g–1) in the tamarind arehigher than those observed in traditional fruits. However, the fruit presents low vitaminE content (108.78 µg·100 g–1). Conclusion. The tamarind stands out due to itsnutritional value, being a good source of vitamin C and dietary fiber, and an excellentsource of folates.

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Original article
Copyright
© 2013 Cirad/EDP Sciences

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References

Melchior, S.J., Custodio, C.C., Marques, T.A.l., Machado Neto, N.B., Colheita e armazenamento de sementes de gabiroba ( Campomanesia adamantium Camb. – Myrtaceae) e implicações na germinação, Rev. Bras. Sementes 28 (2006) 141150.CrossRefGoogle Scholar
Proença C., Oliveira R.S., Silva A.P., Flores e frutos do Cerrado, Univ. Brasília, Brasília, Brazil, 2006.
Vieira R.F., Agostini-Costa T., Silva D.B., Ferreira F.R., Sano S.M., Frutas nativas da Região Centro-Oeste do Brasil, Embrapa Recur. Genét. Biotecnol., Brasília, Brazil, 2006.
Gurjão K.C.O., Desenvolvimento, armazenamento e secagem do Tamarindo (Tamarindus indica L.). Univ. Fed. Paraíba, Paraíba, Brazil, 2006, 143 p.
Khanzada, S.K., Shaikh, W., Sofia, S., Kazi, T.G., Usmanghani, K., Kabir, A., Sheerazi, T.H., Chemical constituents of Tamarindus indica L. medicinal plant in Sind, Pak. J. Bot. 40 (2008) 25532559.Google Scholar
El-Siddig K., Gunasena H.P.M., Prasad B.A., Pushpakumara D.K.N.G., Ramana K.V.R., Vijayanand P., Williams J.T., Tamarind: Tamarindus indica L., Int. Cent. Underutil. Crops, Univ. Southampton, U.K., 2006, 198 p.
De Caluwé E., Halamová K., Van Damme P., Tamarindus indica L. – A review of traditional uses, phytochemistry and pharmacology, in: Juliani H.R., Simon J.E., Ho C.T. (Eds.), African natural plant products: discoveries and challenges in quality control, Am. Chem. Soc. Symp. Ser. 1021, Am. Chem. Soc., Wash., D.C., U.S.A., 2009.
Grollier, C., Debien, C., Dornier, M., Reynes, M., Principales caractéristiques et voies de valorisation du tamarin, Fruits 53 (1998) 271280.Google Scholar
Soloviev, P., Niang, T.D., Gaye, A., Totte, A., Variabilité des caractères physicochimiques des fruits de trois espèces ligneuses de cueillette, récoltés au Sénégal : Adansonia digitata, Balanites aegyptiaca et Tamarindus indica, Fruits 59 (2004) 109119.CrossRefGoogle Scholar
Anon., Normas analíticas do Instituto Adolfo Lutz, IAL- Inst. Adolfo Lutz, São Paulo, Brazil, 2005.
Anon., Official methods of analysis of the Association of Official Analytical Chemists, AOAC – Assoc. Off. Anal. Chem., 16 ed.; Wash., D.C., U.S.A., 1998.
Rodriguez-Amaya, D.B., Latin American food sources of carotenoids, Arch. Latinoam. Nutr. 49 (1999) 7484.Google ScholarPubMed
Pinheiro-Sant'Ana, H.M., Stringheta, P.C., Brandão, S.C.C., Azeredo, R.M.C., Carotenoid retention and vitamin A value in carrot (Daucus carota L.) prepared by food service, Food Chem. 61 (1998) 145151.CrossRefGoogle Scholar
Campos, F.M., Ribeiro, S.M.R., Della Lucia, C.M., Pinheiro-Sant'Ana, H.M., Stringheta, P.C., Optimization of methodology to analyze ascorbic and dehydroascorbic acid in vegetables, Quím. Nova 32 (2009) 8791.CrossRefGoogle Scholar
Pinheiro-Sant'Ana, H.M., Guinazi, M., Oliveira, D.S., Della Lucia, C.M., Reis, B.L., Brandão, S.C.C., Method for simultaneous analysis of eight vitamin E isomers in various foods by high performance liquid chromatography and fluorescence detection, J. Chromatogr. A. 1218 (2011) 84968502.CrossRefGoogle ScholarPubMed
Della Lucia, C.M., Silva, E.R., Brandão, S.C.C., Ribeiro, S.M.R., Pinheiro-Sant'Ana H.M., Otimização de método para análise de folatos em hortaliças folhosas por cromatografia líquida de alta eficiência com detecção por fluorescência, Quím. Nova. 34 (2010) 335340.CrossRefGoogle Scholar
Lanças F.M., Validação de métodos cromatográficos de análise, 6 ed., Rima, São Carlos, Brazil, 2004.
Catharino, R.R., Godoy, H.T., Lima-Pallone, J.A., Metodologia analítica para determinação de folatos e ácido fólico em alimentos, Quím. Nova. 29 (2006) 972976.CrossRefGoogle Scholar
Philippi S.T., Pirâmide dos alimentos: fundamentos básicos da nutrição, Manole, Barueri, Brazil, 2008.
Sousa D.M.M., Estudos morfofisiológicos e conservação de frutos e sementes de Tamarindus indica L., UFPB, Paraíba, Brazil, 2008.
Kumar, C.S., Bhattacharya, S., Tamarind Seed: Properties, processing and utilization, Crit. Rev. Food Sci. Nutr. 48 (2008) 120.CrossRefGoogle ScholarPubMed
Shankaracharya, N.B., Tamarind – chemistry, technology and uses – a critical appraisal, J. Food Technol. 35 (1998) 193208.Google Scholar
Salunke, D.K., Desai, B.B., Postharvest biotechnology of fruits, Flórida 2 (1984) 8185. Google Scholar
Silva, P.S.L., , W.R., Mariguele, K.H., Barbosa, A.P.R., Oliveira, O.F., Distribuição do teor de sólidos solúveis totais em frutos de algumas espécies de clima temperado, Caatinga 15 (2002) 1923. Google Scholar
Alves R.E., Menezes J.B., Holland N., Chitarra A.B., Chitarra M.I.F., Tamarindo (Tamarindus indica L.); Caracterização pós-colheita do fruto proveniente de clima semi-árido do Nordeste, Rev. Bras. Frutic. 15 (1993) 199–204.
Canuto, G.A.P., Xavier, A.A.O., Neves, L.C., Benassi, M.T., Caracterização físico-química de polpa de frutos da Amazônia e sua correlação com sua atividade anti-radical livre, Rev. Bras. Frutic. 32 (2010) 11961205.CrossRefGoogle Scholar
Chitarra M.I.F., Chitarra A.B., Pós-colheita de frutos e hortaliças: Fisiologia da maturação pós-colheita de pêras da cultivar shinsseiki, Pesqui. Agropecu. Manuseio, ESAL/FAEPE, Lavras, Brazil, 2005.
Couto, M.A.L., Canniatti-Brazaca, S.G., Quantificação de vitamina C e capacidade antioxidante de variedades cítricas, Ciênc. Tecnol. Aliment. 30 (2010) 1519.CrossRefGoogle Scholar
Anon., TACO Tabela Brasileira de Composição de Alimentos, 2. ed., Núcleo De Estudos e Pesquisa em Alimentação, Campinas, São Paulo, Brasil, 2011.
Anon., USDA National Nutrient Database for Standard Reference, 24 ed., U.S. Dep. Agric., A.R.S., Wash., D.C., U.S.A., 2011.
Amoo, I.A., Atasie, V.N., Nutritional and functional properties of Tamarindus indica pulp and Zizyphus spina-christi fruit and seed, J. Food, Agric. Environ. 10 (2012) 1619.Google Scholar
Murugan, K., Kishor Mohan, T.C., Satheesh, S.L., Rajan, S.S., Nutritive and antinutritive characteristics of selectethnic wild plants from south India, J. Phytol. Res. 19 (2006) 227231.Google Scholar
Anon. Dietary Reference Intakes (DRIs): Energy, carbohydrate, fiber, fat, fatty acids, cholesterol, protein, and amino acids, U. S Inst. Med., Natl. Acad. Press, Wash., D.C., U.S.A., 2005.
Cardoso, L.M., Bedetti, S.F., Ribeiro, S.M.R., Esteves, E.A., Pinheiro-Sant'Ana H., M.P., Jatobá of the Cerrado (Hymenaea stigonocarpa): chemical composition, carotenoids and vitamins in an exotic fruit from the Brazilian Savannah, Fruits 68 (2) (2013) 95107.CrossRefGoogle Scholar
Cardoso, L.M., Oliveira, D.S., Bedetti, S.F., Ribeiro, S.M.R., Pinheiro-Sant’Ana, H.M., Araticum (Annona crassiflora Mart.) from the Brazilian Cerrado: chemical composition and bioactive compounds, Fruits 68 (2) (2013) 121134.CrossRefGoogle Scholar
Chun, J., Lee, J., Ye, L., Exler, J., Eitenmiller, R.R., Tocopherol and tocotrienol contents of raw and processed fruits and vegetables in the United States diet, J. Food Compos. Anal. 19 (2009) 196204.CrossRefGoogle Scholar
Cardoso L.M., Araticum, cagaita, jatobá, mangaba e pequi do Cerrado de Minas Gerais: ocorrência e conteúdo de carotenóides e vitaminas, Univ. Fed. Viçosa, Viçosa, Brasil, 2011, 61 p.
Cardoso, L.M., Reis, B.D.L., Hamacek, F.R., Pinheiro-Sant’Ana, H.M., Chemical characteristics and bioactive compounds of of cooked pequi fruits (Caryocar brasiliense Camb.) from the Brazilian Cerrado, Fruits 68 (1) (2013) 314.CrossRefGoogle Scholar
Jastrebova, J., Witthöft, C., Grahn, A.Suensson, U., Jägerstad, M., HPLC determination of folates in raw and processed beetroots, Food Chem. 80 (2003) 579588.CrossRefGoogle Scholar
Cardoso, L.M., Martino, H.S.D., Moreira, A.V.B., Ribeiro, S.M.R., Pinheiro-Sant'Ana, H.M., Cagaita (Eugenia dysenterica DC.) of the Cerrado of Minas Gerais, Brazil: Physical and chemical characterization, carotenoids and vitamins, Food Res. Int. 44 (2011) 21512154.CrossRefGoogle Scholar
Anon., Dietary Reference Intakes for thiamin, riboflavin, niacin, vitamin B6, folate, vitamin B12, pantothenic acid, biotin, and choline, U. S. Inst. Med., Natl. Acad. Press, Wash., D.C., U.S.A., 1998.
Anon., Dietary Reference Intakes for vitamin C, vitamin E, selenium, and carotenoids. U. S. Inst. Med., Natl. Acad. Press, Wash., D.C., U.S.A., 2000.
Anon., Dietary Reference Intakes for vitamin A, vitamin K, arsenic, boron, cromium, copper, iodine, iron, manganese, molybdenium, nickel, silicon, vanadium and zinc, U. S. Inst. Med., Natl. Acad. Press, Wash., D.C., U.S.A., 2001.