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All issues Volume 71 / No 4 (July-August 2016) Fruits, 71 4 (2016) 221-228 References
Free Access
Issue
Fruits
Volume 71, Number 4, July-August 2016
Page(s) 221 - 228
DOI https://doi.org/10.1051/fruits/2016012
Published online 24 June 2016
  1. Hannachi H., Msallem M., Ben Elhadj S., El Gazzah M., Influence du site biologique sur les potentialités agronomiques et technologiques de l’olivier (Olea europaea L.) en Tunisie, C.R. Biologies 330 (2007) 135–142. [CrossRef] [Google Scholar]
  2. FAOSTAT. Food and Agriculture Organisation of the United Nations. (http://faostat3.fao.org). [Google Scholar]
  3. Baccouri B., Ben Temime S., Taamalli W., Daoud D., Msallem M., Zarrouk M., Analytical characteristics of virgin olive oils from two new varieties obtained by controlled processing on Meski variety, Food Chem. 14 (2007) 19–34. [Google Scholar]
  4. Aparicio R., Luna G., Characterisation of monovarietal virgin olive oils, Eur. J. Lipid Sci. Technol. 104 (2002) 614–627. [Google Scholar]
  5. Kalua C.M., Allen M.S., Bedgood Jr D.R., Bishop A.G., Prenzler, P.D., Robards K., Olive oil volatile compounds, flavour development and quality: A critical review, Food Chem. 100 (2007) 273–286. [CrossRef] [Google Scholar]
  6. Nasini L., Gigliotti G., Balduccini M.A., Federici E., Cenci G., Proietti P., Effect of solid olive-mill waste amendment on soil fertility and olive (Olea europaea L.) tree activity, Agric. Ecosyst. Environ. 164 (2013) 292–297. [CrossRef] [Google Scholar]
  7. Gee G.W., Or D., Particle-size analysis, in: Dane, J.H., Topp, G.C. (Eds.), Methods of Soil analysis: Part 4, Physical Methods, SSSA, Madison, WI, 2002. [Google Scholar]
  8. Bedbabis S., Ben Rouina B., Boukhris M., Ferrara G., Effect of irrigation with treated wastewater on soil chemical properties and infiltration rate, J. Environ. Manage. 133 (2014) 45–50. [CrossRef] [PubMed] [Google Scholar]
  9. Pauwels J.M., Van Ranst E., Verloo M.G., Mvondo Z.A., Manuel de laboratoire de pédologie, Publications Agric. 28 (1992) 191–208. [Google Scholar]
  10. European Union Commission, Regulation EC 2568/91 on the characteristics of olive oil and olive pomace and their analytical methods, Off. J. Eur. Comm. L 248 (1991) 6–36. [Google Scholar]
  11. VazquezRoncero A., Janer del Valle C., Janer del Valle M.L, Determination de polifenoles totales del aceite de oliva, Grasas Aceites 24 (1973) 350–357. [Google Scholar]
  12. Singleton V.L., Rossi J.A., Colorimetry of total phenolics with phosphomolybdic-phosphotungstic acid reagents, Am. J. Enol. Viticult. 16 (1965) 144–158. [Google Scholar]
  13. Laubli M.W., Brutel P.A., Determination of the oxidative stability of fats and oils by the Rancimat method, J. Am. Oil Chem. Soc. 63 (1986) 792–795. [CrossRef] [Google Scholar]
  14. Cecchi G., Biasini S., Castano J., Méthanolyse rapide des huiles en solvant note de laboratoire, Rev. Française Corps Gr. 4 (1985) 163–164. [Google Scholar]
  15. Bouranis D.L., Zakynthinos G., Kapetanos C., Chorianopoulou S.N., Kitsaki C., Drossopoulos J.B., Dynamics of nitrogen and phosphorus partition in four olive tree cultivars during bud differentiation, J. Plant Nutr. 24 (2001) 1535–1550. [CrossRef] [Google Scholar]
  16. Mengel K., Kosegarten H., Kirkby E.A., Appel T., Principles of plant nutrition, Springer, 2001. [Google Scholar]
  17. Chesworth J.M., Stuchbury T., Scaife J.R., Agricultural Biochemistry, Chapman and Hall, New York, 1998. [Google Scholar]
  18. Bedbabis S., Ferrara G., Ben Rouina B., Boukhris M., Effects of irrigation with treated wastewater on olive tree growth, yield and leaf mineral elements at short term, Sci. Hortic. 126 (2010) 345–350. [CrossRef] [Google Scholar]
  19. Chartzoulakis K., Loupassaki M., Bertaki M., Androulakis I., Effects of NaCl salinity on growth, ion content and CO2 assimilation rate of six cultivars, Sci. Hortic. 96 (2002) 235–247. [CrossRef] [Google Scholar]
  20. Ferrara G., Mazzeo A., Matarrese A.M.S., Pacifico A., Fracchiolla M., Al Chami Z., Lasorella C., Montemurro P., Mondelli D., Soil management systems: effects on soil properties and weed flora, S. Afr. J. Enol. Vitic. 36 (1) (2015) 11–20. [Google Scholar]
  21. Segal E., Dag A., Ben-Gal A., Zipori I., Erel R., Suryano S., Yermiyahu U., Olive orchard irrigation with reclaimed wastewater, agronomic and environmental considerations, Agr. Ecosyst. Environ. 140 (2011) 454–461. [Google Scholar]
  22. Bustan A., Avni A., Yermiyahu U., Ben-Gal A., Riov J., Erel R., Zipori I., Dag A., Interactions between fruit load and macroelement concentrations in fertigated olive (Olea europaea L.) trees under arid saline conditions, Sci. Hortic. 152 (2013) 44–55. [CrossRef] [Google Scholar]
  23. Proietti P., Gas exchange in senescing leaves of Olea europaea L.. Photosynthetica 35 (1998) 579–587. [CrossRef] [Google Scholar]
  24. Ferreira Llamas J., Basis of fertilization in olive cultivation and the olive tree’s vegetative cycle and nutritional needs, in: International Course on the Fertilization and Intensive Cultivation of the Olive, UNDP/FAO/Spanish National Institute for Agricultural Research, Cordoba, Spain, 1984 [Google Scholar]
  25. Fernandez E., Moreno R., Garcia-Creus M., Seasonal changes of mineral nutrients in olive leaves during the alternate- bearing cycle, Sci. Hortic. 82 (1999) 25–45. [CrossRef] [Google Scholar]
  26. Fernández-Escobar R., Moreno R., Sánchez-Zamora M.A., Nitrogen dynamics in the olive bearing shoot, Hort. Sci. 39 (2004) 1406–1411. [Google Scholar]
  27. Mazzeo A., Palasciano M., Gallotta A., Camposeo S., Pacifico A., Ferrara G., Amount and quality of pollen grains in four olive (Olea europaea L.) cultivars as affected by ‘on’ and ‘off’ years, Sci. Hortic. 170 (2014) 89–93. [CrossRef] [Google Scholar]
  28. Erel R., Dag A., Ben-Gal A., Yermiyahu U., Schwartz A., The roles of nitrogen, phosphorus and potassium on olive tree productivity, Acta Hortic. 888 (2011) 259–267. [CrossRef] [Google Scholar]
  29. Jordao P.V., Lietao F., The olive’s mineral composition and some parameters of quality in fifty olive cultivars grown in Portugal, Acta Hortic. 286 (1990) 461–464. [CrossRef] [Google Scholar]
  30. Fernández-Escobar R., García-Novelo J.M., Restrepo-Díaz H., Mobilization of nitrogen in the olive bearing shoots after foliar application of urea, Sci. Hortic. 127 (2011) 52–454. [CrossRef] [Google Scholar]
  31. Proietti P., Tombesi A., Effects of gibberellic acid, asparagine and glutamine on flower bud induction in olive, J. Hortic. Sci. Biotech. 71 (3) (1996) 383–388. [Google Scholar]
  32. Lavee S., Biologie et physiologie de l’olivier, in Plaza S., Janes A. (Eds.), Encyclopédie mondiale de l’olivier, Servers Editorials Estudi Balm, Barcelona, Spain, 1997. [Google Scholar]
  33. Connor D.J., Fereres E., The physiology of adaptation and yield expression in olives, Hort. Rev. 31 (2005) 155–229. [Google Scholar]
  34. Gharsallaoui M., Ben Amar F., Khabou W., Ayadi M., Valorisation des ressources en eau non conventionnelles au Sud Tunisien par la culture de l’olivier (Olea europaea L.). In: Meeting International : Gestion des Ressources et Application Biotechnologiques en Aridoculture et Culture Sahariennes : Perspectives pour la valorisation des potentialités du Sahara, Djerba, Tunisia, 2006, p. 7. [Google Scholar]
  35. Bedbabis S., Clodoveo M.L., Rouina B.B., Boukhris M., Influence of irrigation with moderate saline water on ‘Chemlali’ extra virgin olive oil composition and quality, J. Food Quality 33 (2010) 228–247. [CrossRef] [Google Scholar]
  36. Dhifi W., Hamrouni I., Ayachi S., Chahed T., Saidani M., Marzouk B., Biochemical characterization of some Tunisian olive oils, J. Food Lipids 11 (2004) 287–296. [CrossRef] [Google Scholar]
  37. Martinelli F., Basile B., Morelli G., d’Andria R., Tonutti P., Effects of irrigation on fruit ripening behavior and metabolic changes in olive, Sci. Hortic. 144 (2012) 201–207. [CrossRef] [Google Scholar]
  38. Chartzoulakis K.S., Psarras G., Vemmos S., Loupassaki M., Effects of salinity and potassium supplement on photosynthesis, water relations and Na, Cl, K and carbohydrate concentration of two olive cultivars, Agric. Res. 27 (2004) 75–84. [Google Scholar]
  39. Gomez-Alonso S., Salvador M.D., Fregapane G., Phenolic compounds profile of ‘Cornicabra’ virgin olive oil, J. Agr. Food Chem. 50 (2002) 6812–6817. [CrossRef] [Google Scholar]
  40. Andrews P., Busch J.L., De Joode T., Groenewegen P., Alexandre H., Sensory properties of virgin olive oil, polyphenols: identification of deacetoxy-ligstroside aglycon as a key contributor to pungency, J. Agr. Food Chem. 51 (2003) 1415–1420. [Google Scholar]
  41. Amirante P., Clodoveo M.L., Dugo G., Leone A., Tamborrino A., Advance technology in virgin olive oil production from traditional and de-stoned pastes: Influence of the introduction of a heat exchanger on oil quality, Food Chem. 98 (2006) 797–805. [CrossRef] [Google Scholar]
  42. Caponio F., Summo C., Clodoveo M.L., Pasqualone A., Evaluation of the nutritional quality of the lipid fraction of gluten-free biscuits, Eur. Food Res. Technol. 227 (2008) 135–139. [CrossRef] [Google Scholar]
  43. Sanchez J., Harwood J.L., Biosynthesis of triacylglycerols and volatiles in olives, Eur. J. Lipid Sci. Tech. 104 (2002) 564–573. [CrossRef] [Google Scholar]