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Physicochemical study of Rubus fruticosus of the Mediterranean region of Morocco

Hafssa EL Cadi, Asmae El Cadi, Btissam Ramdan, Jamal Brigui

Abstract


Blackberry (Rubus fruticosus) belongs to the Rosaceae family. It is very rich in essential and beneficial elements. In Morocco, despite its nutritional quality, this fruit remains among the forest species that are ignored. The present study has been focused on the physicochemical characterization of this species. The fruits have been harvested from the Mediterranean region of Morocco (Tangier-Tetouan-Al Hoceima). The analysis was made directly after the harvest for the determination of pH value, acidity, Total soluble solid, refraction index, total and reducer sugar levels. Results showed that the fruit is acidic (pH 4.65±0.32), rich in water (70%) and total sugars (27.43±2.67 mg/l).  The variation of different physicochemical parameters in all fruit samples collected from different sites may be due to geographical distribution, climatic and edaphic parameters.

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References


- L. Wehrle, La ronce (Rubus fruticosus L. agg.) in forest, Revue Forestière Française, 1985, 288-304.

- S. Baret, S. Maurice, T. Le Bourgeois, D. Strasberg, Altitudinal variation in fertility and vegetative growth in the invasive plant Rubus alceifolius Poiret (Rosaceae), on Réunion island. Plant Ecology, 2004, 172, 265–273.

- A. C. H. Thanina, M. Bendahou, K. Arab. Antibacterial activity of two extracts from Rubus fruticosus L. against resistant pathogens and their antioxidant potential. African Journal of Microbiology Research, 2015, 9(18), 1255-1262.

- R. E. Smart, Canopy microclimate implications for nitrogen effects on yield and quality International Symposium on Nitrogen in Grapes and Wine, American Society for Enology and Viticulture, 1991, 90-101.

- K. L. Chadha Close, S. D. Shikhamany, The Grape Improvement, Production and Post-harvest Management Malhotra Publishing House, New Delhi, 1999.

- K. U. Yilmaz, Y. Zengin, S. Ercisli, S. Serce, K. Gunduz, M. Sengul, B. M. Asma, Some selected physic-chemical characteristics of wild and cultivated blackberry fruits (Rubus fruticosus L.) from Turkey, Biotechnol. Lett., 2009, 14(1), 4152–4163.

- Y. S. Agaoglu, S. P. Eyduran, E. Eyduran, Comparison of some pomological characteristics of blackberry cultivars growth in Ayas conditions, Journal of Agricultural Sciences, 2007, 13(1), 69-74.

- L. R. Clark, J. R. Howard, C. Brownmiller, Antioxidant capacity and phenolic content in blueberries as affected by genotype and growing season. Journal of the Science of Food and Agriculture, 2003, 83, 1238–1247.

- M. Minoggio, L. Bramati, P. Simonetti, C. Gardana, L. Lemoli, E. Santangelo, P. L. Mauri, P. Spigno, G. P. Soressi, P. G. Pietta, Polyphenol pattern and antioxidant activity of different tomato lines and cultivars, Ann Nutr Metab., 2002, 47, 64–69.

- G. O. Perez-Tello, B. A. Silva-Espinoza, I. Vargas-Arispuro, B. O. Briceno-Torres, M. A. Martinez- Tellez, Effect of temperature on enzymatic and physiological factors related to chilling injury in carambola fruit (Averrhoa carambola L.), Biochemical and Biophysical Research Communication, 2001, 287, 846–851.

- A. Kirakosyan, P. Kauffman, S. Warber, S. Zick, K. Aaronson, S. Bolling, S. C. Chanc, Applied environmental stresses to enhance the levels of polyphenolics in leaves of hawthorn plants, Physiol Plantarum., 2004, 121, 182–186.

- High Commission for Planning of Morocco; 2018,

http://rgphencartes.hcp.ma/.

- Google Earth; https://earth.google.com/.

- G. E. Latimer, W. Horwitz, Official methods of analysis. Association of Official Analytical Chemists (AOAC) International, (19 th ed.) Canada: AOAC, 2012.

- G. Marrubini, A. Papetti, E.Genorini, A. Ulrici, Determination of the Sugar Content in Commercial Plant Milks by Near-Infrared Spectroscopy and Luff-Schoorl Total Glucose Titration. Food Analytical Methods, 2017, 10(5), 1556‑1567.

- M. Zia-Ul-Haq, M. Riaz, V. DeFeo, H. Z. E. Jaafar, M. Marius, Rubus fruticosus L.: constituents, biological activities and health-related uses, Molecules, 2014, 19(8), 10998-11029.

- M. Teixeiraa, T. Altmayera, F. Bruxela, C. R. Orlandia, N. F. de Mourab, C. N. Afonsoc, E. M. Ethura, D. L. Hoehnea, E. M. de Freitas, Rubus sellowii Cham. & Schlitdl. (Rosaceae) fruit nutritional potential characterization, Brazilian Journal of Biology, 2019, 79(3), 510-515.

- G. E. Hirsch, E. M. P. Facco, D. B. Rodrigues, M. Vizzotto, T. Emanuelli, Physicochemical characterization of blackberry from the Southern Region of Brazil, Ciência Rural, 2012, 42(5), 942-947.

-L. M. Boudechiche, M. Cherif, L. Boudechiche, F. Sammar, Teneurs en composés primaires et secondaires des feuilles d’arbustes fourragers de la région humide d’Algérie, Revue Méd. Vét, 2014, 165(11-12), 344-352.

- T. K. Lim, Edible Medicinal and Non-Medicinal Plants, Dordrecht, Netherlands: Springer, 2012, 555 69.

- L. R. Howard, J. R. Clark, C. Brownmiller, Antioxidant capacity and phenolic content in blueberries as affected by genotype and growing season, Journal of the Science of Food and Agriculture, 2003, 83, 1238-1247.

- B. M. Ruiz-Rodríguez, P. Morales, V. Fernández-Ruiz, M. C. Sánchez-Mata, M. Cámara, C. Díez-Marqués, M. Pardo-de-Santayana, M. Molina, J. Tardío, Valorization of wild strawberry-tree fruits (Arbutus unedo L.) through nutritional assessment and natural production data, Food Research International, 2011, 44, 1244–1253.

- M. Jridi, N. Souissi, M. Ben Salem, M.A. Ayadi, M. Nasri, S. Azabou, Tunisian Date (Phoenix Dactylifera L.) by-Products: Characterization and Potential Effects on Sensory, Textural and Antioxidant Properties of Dairy Desserts, Food Chemistry, 2015, 188, 8 15.

- K. Doukani, N. Gacem, H. Benlarbi, Physicochemical and phytochemical characterization of some Algerian honey types, International Journal of Applied, Physical and Bio-Chemistry Research, 2014, 4(6), 1-16.

-M. Dorais, A. P. Papadopoulos, A. Gosselin, Influence of electric conductivity management on greenhouse tomato yield and fruit quality, Agronomy, 2001, 21, 367-383.

- T. Chao, C. Cheng, R. R. Krueger, The Date Palm (Phoenix dactylifera L.): Overview of Biology, Uses, and Cultivation, HortScience, 2007, 42 (5), 1077 1082.

- W. N. Sawaya, J. K. Khalil, W. M. Safi, A. Al-Shalat, Physical and chemical characterization of three Saudi date cultivars at various stages of development, Can. Ins. Food Sci. Technol. J., 1983, 16, 87-93.

- L. G. Hêdiblè, E. S. Adjou, F. P. Tchobo, P. Agbangnan, B. Ahohuendo, M. M. Soumanou, Caractérisation physico-chimique et morphologique de trois morphotypes de pommes d’anacarde (Anacardium Occidental L.) pour leur utilisation dans la production d’alcool alimentaire et de boissons spiritueuses. Journal of Applied Biosciences, 2017, 116, 11546-11556.

- L. G. Hêdiblè, E. S. Adjou, F. P. Tchobo, P. Agbangnan, B. Ahohuendo, M. M. Soumanou, Caractérisation physico-chimique et morphologique de trois morphotypes de pommes d’anacarde (Anacardium Occidental L.) pour leur utilisation dans la production d’alcool alimentaire et de boissons spiritueuses. Journal of Applied Biosciences, 2017, 116, 11546-11556.

- M. Saadoudi, L. Hamebaba, M. Abdeddaim, Study of The Glucidic Fraction of Celtis Australis L. Crataegus Azarolus L., Crataegus Monogyna Jacq., Elaeagnus Angustifolia L. And Zizyphus Lotus L. Fruits, International Journal of Nutrition and Food Engineering, 2012, 6(11), 1003-1006.

- F. Sakamura, T. Sugar, Changes in chemicals component of ripening Oleaster fruits, Phytochemistry, 1987, 26(9), 2481-2484.

- F. A. Ayaz, A. Kadioglu, A. Dogru, Soluble sugar composition of Elaegnus angustifolia L. var. orientalis (L.) Kuntze (Russian olive) Fruit, Turk. J of Botany, 1999, 23, 349-354.




DOI: http://dx.doi.org/10.13171/mjc10102001311086hec

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