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Physico-chemical and functional characteristics of date fruits from different Phoenix species (Arecaceae)

Published online by Cambridge University Press:  11 July 2014

Asunción Amorós*
Affiliation:
Dep. Appl. Biol., Esc. Politéc. Sup. Orihuela, (Miguel Hernández Univ. Elche), Ctra. Beniel Km 3.2, 03312Orihuela, Spain,. [email protected]
Diego Rivera
Affiliation:
Dep. Plant Biol., Fac. Biol., Murcia Univ., Campus Espinardo, 30100 Murcia, Spain
Encarnación Larrosa
Affiliation:
Dep. Appl. Biol., Esc. Politéc. Sup. Orihuela, (Miguel Hernández Univ. Elche), Ctra. Beniel Km 3.2, 03312Orihuela, Spain,. [email protected]
Concepción Obón
Affiliation:
Dep. Appl. Biol., Esc. Politéc. Sup. Orihuela, (Miguel Hernández Univ. Elche), Ctra. Beniel Km 3.2, 03312Orihuela, Spain,. [email protected]
*
* Correspondence and reprints
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Abstract

Introduction. The genus Phoenix has 13 species. Dates from P. dactylifera and P. theophrasti are the only ones that have been characterised so far. The aim of our study was to evaluate the physico-chemical and functional characteristics of date fruits in the Khalal and Rutab stages of P. loureiroi, P. canariensis, P. reclinata and P. roebelenii, and compare them with P. dactylifera. Materials and methods. Two samples of 15 date fruits in the Khalal stage and another 15 date fruits in the Rutab stage were chosen from each species for analyses and quality parameters. Results and discussion. Significant differences in the measured parameters were observed among the different species. Dates of P. dactylifera were larger than those of the other species and had the lowest [seed weight/fruit weight] proportion. In the Khalal stage, dates from P. canariensis and P. dactylifera were yellow, P. loureiroi and P. reclinata were dark yellow to orange, and those of P. roebelenii were brown purple. Dates of P. dactylifera (Rutab stage) showed higher sugar and lower organic acid contents than those of the other dates. Dates of P. reclinata, P. roebelenii and P. canariensis presented values of antioxidant activity and total phenols in the Khalal stage that were very high compared with those of P. dactylifera. These species are used as ornamental palms but their fruits are consumed locally as food. These dates presented high nutritional quality and can be used as novel foods for different purposes, such as snacks or food fortification, especially due to their high value in functional properties.

Type
Original article
Copyright
© 2014 Cirad/EDP Sciences

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References

Barrow, S., A revision of Phoenix. Monograph of Phoenix L. (Palmae), Kew Bull. 53 (1998) 513575.CrossRefGoogle Scholar
Serrano, M., Pretel, M.T., Botella, M.A., Amorós, A., Physicochemical changes during date ripening related to ethylene production, Food Technol. 40 (2001) 7080.Google Scholar
Biglari, F., Alkarkhi, A.F.M., Easa, A.M., Antioxidant activity and phenolic content of various date palm (Phoenix dactylifera) fruits from Iran, Food Chem. 107 (2008) 16361641.CrossRefGoogle Scholar
Elleuch, M., Besbes, S., Roiseux, O., Blecker, C., Deroanne, C., Drira, N.E., Attia, H., Date flesh: Chemical composition and characteristics of the dietary fibre, Food Chem. 111 (2008) 676682.CrossRefGoogle Scholar
Amorós, A., Pretel, M.T., Almansa, M.S., Botella, M.A., Zapata, P.J., Serrano, M., Antioxidant and nutritional properties of date fruit from Elche grove as affected by maturation and phenotypic variability of date palm, Food Sci. Technol. Int. 15 (2009) 6572.CrossRefGoogle Scholar
Amira, E.A., Flamini, G., Saafi, E.B., Issaoui, M., Zayene, N., Ferchichi, A., Hammami, M., Helal, A.N., Achour, L., Chemical and aroma volatile compositions of date palm (Phoenix dactylifera L.) fruits at three maturation stages, Food Chem. 127 (2011) 17441754.CrossRefGoogle Scholar
Liolios, C.C., Sotiroudis, G.T., Chinou, I., Fatty acids, sterols, phenols and antioxidant activity of Phoenix theophrasti fruits growing in Crete, Greece, Plant Foods Hum. Nutr. 64 (2009) 5261.CrossRefGoogle ScholarPubMed
Khare C., Indian medicinal plants. An illustrated dictionary, Springer, Heidelberg, Germany, 2007.
Lin, Y., Chen, T., Tseng, H., Lee, M., Chen, S., Neural cell protective compounds isolated from Phoenix hanceana var. formosana, Phytochem. 70 (2009) 11731181.CrossRefGoogle Scholar
Rivera D., Matilla G., Obón C., Alcaraz F., Plants and humans in the Near East and the Caucasus, 2. Plants. Angiosperms, Editum, Murcia, Spain, 2012.
Sundriyal, M., Sundriyal, R., Sharma, E., Purohit, A., Wild edibles and other useful plants from the Sikkim Himalaya, India, Oecol. Mont. 7 (1998) 4354.Google Scholar
Webb P., Berthelot S., Histoire naturelle des îles Canaries, Vol. 3, Minist. Instr. Publique, Paris, France, 1836.
Hu S., Food plants of China, Chinese Univ. Press, Hong Kong, China, 2005.
Pavani, M., Rao, M., Nath, M., Rao, C., Ethnobotanical explorations on anti-diabetic plants used by tribal inhabitants of Seshachalam forest of Andra Pradesh, India, Indian J. Fund. Appl. Life Sci. 2 (2012) 100105.Google Scholar
Van Wyk B., Gericke N., People’s plants. A guide to useful plants of southern Africa, Briza Publ., Pretoria, South Africa, 2000.
Abbasi, A., Khan, M., Khan, N., Shah, M., Ethnobotanical survey of medicinally important wild edible fruit species used by tribal communities of Lesser Himalayas, Pakistan, J. Ethnopharmacol. 148 (2013) 528536.CrossRefGoogle Scholar
Baliga, M., Baliga, B., Kandathil, S., Bhat, H., Vayalil, P., A review of the chemistry and pharmacology of the date fruits (Phoenix dactylifera L.), Food Res. Int. 44 (2011) 18121822.CrossRefGoogle Scholar
Kinnaird, M.F., Competition for a forest palm: Use of Phoenix reclinata by human and no human Primates, Conserv. Biol. 6 (1) (1992) 101107.CrossRefGoogle Scholar
Bossard E., Quelques notes sur l’alimentation et les apports nutritionnels occultes en Angola, in : Garcia de Orta, Sér. Bot., Vol. 13 (1), Lisboa, Portugal, 1996, pp. 7–41.
Cano, A., Hernández-Ruíz, J., García-Canovas, F., Acosta, M., Arnao, M.B., An end-point method for estimation of the total antioxidant activity in plant material, Phytochem. Anal. 9 (1998) 196202.3.0.CO;2-W>CrossRefGoogle Scholar
Wood, J.E., Senthilmohan, S.T., Peskin, A.V., Antioxidant activity of procyanidin-containing plant extracts at different pHs, Food Chem. 77 (2002) 155161.CrossRefGoogle Scholar
Ahmad, M., Bashir, M.A., Chaudhry, N.A., Shakir, M.A., Khan, M., Performance of date varieties under Bahawalpur conditions, Sarhad J. Agric. 20 (2004) 3942.Google Scholar
Sakr, M.M., Abu Zeid, I.M., Hassan, A.E., Baz, A.-GIO, Hassan, W.M., Identification of some date palm (Phoenix dactylifera) cultivars by fruit characters, Indian J. Sci. Technol. 3 (2010) 338343.Google Scholar
Iossi, E., Vitti, F., Sader, R., Vittimoro, F., Barbosa, J., Maturacáo fisiológica de sementes de Phoenix roebelenii O´Brien, Rev. Bras. Sementes 28 (2007) 121128.CrossRefGoogle Scholar
Boudries, H., Kefalas, P., Hornero-Méndez, D., Carotenoid composition of Algerian date varieties (Phoenix dactylifera) at different edible maturation stages, Food Chem. 101 (2007) 13721377.CrossRefGoogle Scholar
Al-Farsi, M., Lee, C.Y., Nutritional and functional properties of dates: a review, Crit. Rev. Food Sci. 48 (2008) 877887.CrossRefGoogle Scholar
Valadon, L.R.G., Mummery, R.S., Kates, M., Effects of 2-(4-chlorophenylthio)-triethylamine hydrochloride on the pigments of the palm Phoenix reclinata, Plant Sci. Lett. 34 (1984) 253259.CrossRefGoogle Scholar
Al-Farsi, M., Alasalvar, C., Morris, A., Baron, M., Shahidi, F., Comparison of antioxidant activity, anthocyanins, carotenoids, and phenolics of three native fresh and sun-dried date (Phoenix dactylifera L.) varieties growth in Oman, J. Agr. Food Chem. 53 (2005) 75927599.CrossRefGoogle Scholar
Allaith, A.A.A., Antioxidant activity of Baharaini date palm (Phoenix dactylifera L.) fruit of various cultivars, Int. J. Food Sci. Technol. 43 (2008) 10331040.CrossRefGoogle Scholar
Al-Farsi, M., Morris, A., Baron, M., Functional properties of Omani dates (Phoenix dactylifera L.), Acta Hortic. 736 (2007) 479487.CrossRefGoogle Scholar
Fu, L., Xu, B.T., Xu, X.R., Gan, R.Y., Zhang, Y., Xia, E.Q., Li, H.B., Antioxidant capacities and total phenolic contents of 62 fruits, Food Chem. 129 (2011) 345350.CrossRefGoogle Scholar
Mansouri, A., Embarek, G., Kokkalou, E., Kefalas, P., Phenolic profile and antioxidant activity of the Algerian ripe date palm fruit (Phoenix dactylifera), Food Chem. 89 (2005) 411420.CrossRefGoogle Scholar
Mohamed, D.A., Al-Okbi, S.Y., In vitro evaluation of antioxidant activity of different extracts of Phoenix dactylifera L. fruits as functional foods, Dtsch. Lebensm-Rundsch. 7 (2005) 305308.Google Scholar