- AktasE.S., ImreS. ErsoymL. (2001). Characterization and lime treatment of olive mill wastewater. Water Research, Vol. 35, pp. 2336–2340.
- BernalM.P., RoigA, GarciaD. (1993). Nutrient balances in calcareous soils after application of different rates of pig slurry. Soil Use Management, Vol. 9, pp. 9–14.
- BernalM.P., ParedesC., Sánchez-MonederoM.A., CegarraJ. (1998). Maturity and stability parameters of compost prepared with a wide range of organic wastes. Bioresour. Technol., Vol. 63, pp. 91–99.
- CabreraF, LópezR., MartínP., MurilloJ.M. (1997). Aprovechamiento agronómico de composts de alpechín. Frutic Prof., Vol. 88, pp. 94–105.
- CasaR., D'AnnibaleA., PieruccettiF., StaziS.R., Giovannozzi SermanniG., Lo CascioB. (2003). Reduction of the phenolic components in olive-mill wastewater by an enzymatic treatment and its impact on durum wheat (Triticum durum Desf) germinability. Chemosphere, Vol. 50, pp. 959–66.
- CeretiCF, RossiniF, FedericiF, QuaratinoD, VassilevN., FeniceM. (2004). Reuse of microbially treated olive mill wastewater as fertiliser for wheat (Triticum durum Desf). Bioresour. Technol., Vol. 91:135–40.
- Fiestas Ros de UrsinosJ. A. (1986). Vegetation water used as a fertilizer. In International Symposium on Olive By products Valorization. ed. FAO. Madrid, Spain, pp. 321–330.
- FilideiS., MasciandaroG., CeccantiB. (2003). Anaerobic digestion of olive oil mill effluents: evaluation of wastewater organic load and phytotoxicity reduction. Water, Air and Soil Pollution, Vol. 145, pp. 79–94.
- Gallardo-LaraF., NogalesR. (1987). Effect of the application of town refuse compost on the soil-plant system: a review. Biol Wastes, Vol. 19, pp. 35–61.
- International olive oil market (2008). History of Olive Oil Market. Available from http://www.Oliveoillife.com.
- MathieuC. and PieltainF. (2003). Analyse chimique des sols Méthodes choisies, éd. tec et doc. ISBN 274300620 ×.
- MillerG.L., 1959. Use of dinitrosalicyclic acid reagent for determination of reducing sugar. Anal. Chem., Vol. 31, pp. 426–428.
- MustinM. (1987). Le compost: gestion de la matière organique. Ed. François Dubusc. Paris, 973 p.
- MorenoE., PerezJ., Ramos-CormenzanaA., MartínezJ. (1987). Antimicrobial effect of wastewater from olive oil extraction plants selecting soil bacteria after incubation with diluted waste. Microbios, Vol. 51, pp. 169–174.
- PansuM, GautheyrouJ. (2003). L'analyse du sol minéralogique, organique et minérale. Ed. Springer. 993 p.
- ParedesC., CegarraJ., RoigA., Sa'nchez-MonederoM.A., BernalM.P. (1999). Characterization of olive-mill wastewater (alpechin) and its sludge for agricultural purposes. Bioresource Technology, Vol. 67, pp.111–115.
- ParedesC, RoigA, BernalMP, Sánchez-MonederoMA, CegarraJ. (2000). Evolution of organic matter and nitrogen during co-composting of olive mill wastewater with solid organic wastes. Biol. Fertil. Soils, Vol. 32, pp. 222–227.
- ParedesC, CegarraJ, BernalMP, RoigA. (2005). Influence of olive mill wastewater in composting and impact of the compost on a swiss chard crop and soil properties. Environment international. Vol. 31, pp. 305–312.
- PiperidouC.I., ChaidouC.I., StalikasD., SoultiK., PilidisG. A., BalisC. (2000). Bioremediation of olive mill wastewater: chemical alterations induced by Azotobacter vinelandii. Journal of Agricultural and Food Chemistry, Vol. 48, pp. 1941–1948.
- RichardsL.A. (1954). Diagnosis and Improvement of Saline and Alkaline Soils, 60. U.S. Dept. Agric. Handbook, pp. 110–118.
- RoigA, CayuelaM.L., Sánchez-MonederoM.A. (2006). An overview on olive mill wastes and their valorisation methods. Waste Management, Vol. 26, pp. 960–969.
- SaviozziA., Levi-MinziR., RiffaldiR., LupettiA. (1991). Effetti dello spandimento di acque di vegetazione sul terreno agrario. Agrochimica, Vol. 35, pp. 135–148.
- SierraJ., MartiE., MontserratG., CruanasR. GarauM.A. (2001). Characterisation and evolution of a soil affected by olive oil mill wastewater disposal. Sci. Total Environ., Vol. 279, pp. 207–214.
- TomatiV. GalliE. (1992). The fertilizing value of waste waters from the olive processing industry. In Humus et Plunta Proceedings. ed. Elsevier Science, B.V. Amsterdam, The Netherlands, pp.107–126.
- TomatiU, GalliE, PasettiL., VolterraE. (1995) Bioremediation of olive-mill wastewaters by composting. Waste Management Res., Vol. 13, pp. 509–518.
- TomatiU., GalliE., FiorelliF., PasettiL. (1996). Fertilizers from composting of olive-mill wastewaters. International Biodeterioration and Biodegradation, Vol. 44, pp. 155–162.
- VlyssidesAG, BouranisDL, LoizidouM. KarvouniG. (1996). Study of a demonstration plant for the co-composting of olive-oil-processing wastewater and solid residue. Bioresour Technol., Vol. 56, pp. 187–193.
- VlyssidesA.G., LoizidesM., KarlisP.K. (2004). Integrated strategic approach for reusing olive oil extraction byproducts. Journal of Cleaner Production, Vol. 12, 603–611.
Cocomposting of Olive Mill Wastewater with Manure and Agro-industrial Wastes
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