Olive mill wastewater spreading effects on productivity and oil quality of adult chemlali olive (Olea europaea L.) in the South of Tunisia

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Research Paper 01/06/2015
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Olive mill wastewater spreading effects on productivity and oil quality of adult chemlali olive (Olea europaea L.) in the South of Tunisia

Salwa Magdich, Chedlia Ben Ahmed, Makki Boukhris, Béchir Ben Rouina, Emna Ammar
Int. J. Agron. Agri. Res.6( 6), 56-67, June 2015.
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Abstract

In the present work, olive-crop yields and olive oil physico-chemical quality were studied after three and six years of olive mill wastewater (OMW) spreading at three levels (50, 100 and 200 m3 ha-1 year-1). Olive yield showed improvements with OMW level. Insignificant difference in oil content and oil quality indices of the control and treatments amended by OMW was observed. Moreover, olive oil acidic composition showed invariability after all OMW rates application. However, the extracted oils from the three-treated olive plots presented the higher a-tocopherol values. OMW spreading at different rates influenced significantly the oil total phenol contents. While b-sitosterol, campesterol and stigmasterol contents showed increases after six successive spreading with a high percentage in the 100 OMW m3 ha-1 treatment, cholesterol and D-7-stigmastenol contents didn’t exhibit any significant difference between the experimented treatments. After OMW treatment, the olive oil quality was that of virgin extra category.

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Altieri R, Esposito A. 2008. Olive orchard amended with two experimental olive mill wastes mixtures: Effects on soil organic carbon, plant growth and yield. Bioresource Technology 99, 8390-8393.

Ammar E, Nasri M, Medhioub K. 2005. Isolation of Enterobacteria able to degrade simple aromatic compounds from the wastewater of olive oil extraction. World Journal of Microbiology and Biotechnology 21, 251-259.

Barbera AC, Maucieri C, Cavallaro V, Ioppolo A, Spagna G. 2013. Effects of spreading olive mill wastewater on soil properties and crops, a review. Agricultural Water Management 119, 43-53.

Bedbabis S, Ben Rouina B, Boukhris M. 2010. The effect of waste water irrigation on the extra virgin olive oil quality from the Tunisian cultivar Chemlali. Scientia Horticulturae 125, 556-561.

Ben Ahmed C, Ben Rouina B, Sensoy S, Boukhris M. 2009. Saline water irrigation effects on fruit development quality, and phenolic composition of virgin olive oils, Cv. Chemlali. Journal of Agricultural and Food Chemistry 57, 2803-2811.

Ben Ahmed C, Ben Rouina B, Boukhris M. 2011. Tunisia: Salinization and Sustainability of Agriculture. Encyclopedia of Environmental Health. Elsevier, 427-438.

Brunetti A, Senesi N, Plaza C. 2007. Effects of amendment with treated and untreated olive oil mill wastewaters on soil properties, soil humic substances and wheat yield. Geoderma 138, 144-152.

Cinquanta L, Esti M, Notie EL. 1997. Evolution of phenolic compounds in virgin olive oil during storage. Journal of the American Oil Chemists Society 74, 1259-1262.

Conseil Oléicole International. 2006. Norme commerciale applicable aux huiles d’olive et aux huiles de grignons d’olive. COI/T.15/NC n°3/Rev. 2 du 24 novembre.

Conseil Oléicole International. 2012. http:/www.internationaloliveoil.org/economics.asp.

Dag A, Kerem Z, Nir Y, Issac Z, Shimon L, Eric BD. 2011. Influence of time of harvest and maturity index on olive oil yield and quality. Scientia Horticulturae 127, 358-366.

European Union Commission. 1991. Regulation EEC 2568/91 on the characteristics of olive oils and their analytical methods. Official Journal of European Communities 295/57-17/12/1991.

Gharsallaoui M, Benincasa C, Ayadi M, Perri E, Khlif M, Gabsi S. 2011. Study on the impact of wastewater irrigation on the quality of oils obtained from olives harvested by hand and from the ground and extracted at different times after the harvesting. Scientia Horticulturae 128, 23-29.

Gimeno E, Castellote AI, Lamuela-Raventós RM, de la Torre MC, López-Sabater MC. 2000. Rapid determination of vitamin E in vegetable oils by reversed phase high-performance liquid chromatography. Journal of Chromatography A 881, 251-254.

Gómez-Rico  A,  Salvador MD,  Fregapane G. 2009.Virgin olive oil and olive fruit minor constituents as affected by irrigation management based on SWP and TDF as compared to ETc in medium-density young olive orchards (Olea europaea L. cv. Cornicabra and Morisca). Food Research International 42, 1067-1076.

Grati Kamoun N, Khlif M. 2001. Caractérisation technologique des variétés d’olivier cultivées en Tunisie. Revue Ezzitouna Numéro spécial, 69 p.

Hachicha S, Cegarra J, Sellami F, Hachicha R, Drira N, Medhioub K, Ammar E. 2009. Elimination of polyphenols toxicity from olive mill wastewater sludge by its co-composting with sesame bark. Journal of Hazardous Materials 161, 1131-1139.

Jiménez A, Guillén R, Sánchez C, Fernández-Bolãnos J, Heredia A. 1995. Changes in texture and cell wall polysaccharides of olive fruit during “Spanish green olive” processing. Journal of Agricultural and Food Chemistry 43, 2240–2246.

Journal Officiel de la République Tunisienne, 8 mars 2013. Décret n° 2013-1308 du 26 février 2013, fixant les conditions et les modalités de gestion des margines provenant des huileries en vue de leur utilisation dans le domaine agricole. 924-927 P.

Killi D, Kavdir Y. 2013. Effects of olive solid waste and olive solid waste compost application on soil properties and growth of Solanum lycopersicum. International Biodeterioration and Biodegradation 82, 157-165.

López-Piñeiro A, Murillo S, Barreto C, Muñoz A, Rato MJ, Albarrán A, García A. 2007. Changes in organic matter and residual effect of amendment with two-phase olive-mill waste on degraded agricultural soils. Science of the Total Environment 378, 84-89.

Lozano-García B, Parras-Alcántara L, del Toro Carrillo de Albornoz M. 2011. Effects of oil mill wastes on surface soil properties, runoff and soil losses in traditional olive groves in southern Spain. Catena 85, 187-193.

Machado M, Felizardo C, Fernandes-Silva A, Nunes FM, Barros A. 2013. Polyphenolic compounds, antioxidant activity and L-phenylalanine ammonia-lyase activity during ripening of olive cv. “Cobrançosa” under different irrigation regimes. Food Research International 51, 412-421.

Magdich S, Jarboui R, Ben Rouina B, Boukhris M, Ammar E. 2012. A yearly spraying of olive mill wastewater on agricultural soil over six successive years: Impact of different application rates on olive production, phenolic compounds, phytotoxicity and microbial counts. Science of the Total Environment 430, 209-216.

Magdich S, Ben Ahmed C, Jarboui R, Ben Rouina B, Boukhris M, Ammar E. 2013. Dose and frequency dependent effects of olive mill wastewater treatment on the chemical and microbial properties of soil. Chemosphere 93, 1896-1903.

Manai-Djebali H, Krichène D, Ouni Y, Gallardo L, Sánchez J, Osorio E, Daoud D, Guido F, Zarrouk M. 2012. Chemical profiles of five minor olive oil varieties grown in central Tunisia. Journal of Food Composition and Analysis 27, 109-119.

Mechri B, Issaoui M, Echbili A, Chehab H, Mariem FB, Braham M, Hammami M. 2009. Olive orchard amended with olive mill wastewater: Effects on olive fruit and olive oil quality. Journal of Hazardous Materials 172, 1544-1550.

Minguez-Mosquera MI, Gandul B, Garrido J. 1990. Pigments presents in virgin olive oil. Journal of the American Oil Chemists Society 67, 192-196.

Motilva MJ, Tovar MJ, Romero MP, Alegre S, Girona J. 2000. Influence of regulated deficit irrigation strategies applied to olive trees (Arbequina cultivar) on oil yield and oil composition during the fruit ripening period. Journal of Science and Food Agricultural 80, 2037-2043.

Nasini L, Gigliotti G, Balduccini MA, Federici E, Cenci G, Proietti P. 2013. Effect of solid olive-mill waste amendment on soil fertility and olive (Olea europaea L.) tree activity. Agriculture, Ecosystems and Environment 164, 292-297.

Oueslati I, Anniva C, Daoud D, Tsimidou MZ, Zarrouk M. 2009. Virgin olive oil (VOO) production in Tunisia: The commercial potential of the major olive varieties from the arid Tataouine zone. Food Chemistry 112, 733-741.

Piotrowska A, Antonietta M, Scotti R, Gianfreda L. 2011. Changes in soil chemical and biochemical properties following amendment with crude and dephenolized olive mill waste water (OMW). Geoderma 161, 8-17.

Salvador MD, Aranda F, Fregapane G. 2001. Influence of fruit ripening on Cornicabra virgin olive oil. A study for four crop seasons. Food Chemistry 73, 45-53.

Sanchez J, Harwood JL. 2002. Biosynthesis of triacylglycerols and volatiles in olives. European Journal of Lipid Science and Technology 104, 564-573.

Sierra J, Marti E, Garau MA, Cruaňas R. 2007. Effects of the agronomic use of olive oil mill wastewater: field experiment. Science of the Total Environnement 378, 90-94.

Singleton VL, Rossi JA. 1965. Colorimetry of total phenolics with phosphomolybdic-phosphotungstic acid reagents. American Journal of Enology And Viticulture 16, 144-158.

Vazquez Roncero A, Janer del Valle C, Janer del Valle ML. 1973. Determination de polifenoles totales del aceite de oliva. Grasas Aceites 24, 350-357.

Visoli F, Galli C. 1998. Olive oil phenols and their potential effects on human health. Journal of Agricultural and Food Chemistry 46, 4292-4296.

Weisman Z, Itzhak D, Ben Dom N. 2004. Optimisation of saline water level for sustainable Barnea olive and oil production in desert conditions. Scientia Horticulturae 100, 257-266.