References
- Amaral, C., Lucas, M.S., Coutinho, J., Crespí, A.L., do Rosário Anjos, M., Pais, C., 2008. Microbiological and physicochemical characterization of olive mill wastewaters from a continuous olive mill in Northeastern Portugal. Bioresour. Technol., 99, 7215–7223.
- Barbera, A.C., Maucieri, C., Cavallaro, V., Ioppolo, A., Spagna, G., 2013. Effects of spreading olive mill wastewater on soil properties and crops: a review. Agric. Water Manage., 119, 43–53.
- Ben Sassi, A., Boularbah, A., Jaouad, A., Walker, G., Boussaid, A., 2006. A comparison of Olive oil Mill Wastewaters (OMW) from three different processes in Morocco. Process Biochem., 41, 1, 74–78.
- Bhat, T.K., Makkar, H.P.S., Singh, B., 1996. Isolation of a tannin protein complex-degrading fungus from faeces of hill cattle. Lett. Appl. Microbiol., 22, 4, 257–258.
- Bisdom, E.B.A., Dekker, L.W., Schoute, J.F.T., 1993. Water repellency of sieve fractions from sandy soils and relationships with organic material on soil structure. Geoderma, 56, 1–4, 105–118.
- Boukhoubza, F., Ait, B.A., Yacoubi-Khebiza, M., Jail, A., Hassani, L., Loukili, I.L., Nejmeddine, A., 2008. Impact of olive oil wastewater on the physicochemical and biological quality of groundwater in the Haouz plain, south of Marrakesh (Morocco). Environ. Technol., 29, 9, 959–974.
- Box, J.D., 1983. Investigation of the folin-ciocalteau phenol reagent for the determination of polyphenolic substances in natural waters. Water Resources, 17, 5, 511–525.
- Buchmann, C., Felten, A., Peikert, B., Muñoz, K., Bandow, N., Dag, A., Schaumann, G.E., 2015. Development of phytotoxicity and composition of a soil treated with olive mill wastewater (OMW): An incubation study. Plant Soil, 386, 1, 99–112.
- Chaari, L., Elloumi, N., Gargouri, K., Bourouina, B., Michichi, T., Kallel, M., 2014. Evolution of several soil properties following amendment with olive mill wastewater. Desalination and Water Treatment, 52, 10–12, 2180–2186.
- Chartzoulakis, K., Psarras, G., Moutsopoulou, M., Stefanoudaki, E., 2010. Application of olive mill wastewater to a Cretan olive orchard: Effects on soil properties, plant performance and the environment. Agric., Ecosyst. Environ., 138, 3–4, 293–298.
- Dan, J., Koyumdjisky, H., 1963. The soils of Israel and their distribution. J. Soil Sci., 14, 1, 12–20.
- De Marco, E., Savarese, M., Paduano, A., Sacchi, R., 2007. Characterization and fractionation of phenolic compounds extracted from olive oil mill wastewaters. Food Chem., 104, 2, 858–867.
- Di Bene, C., Pellegrino, E., Debolini, M., Silvestri, N., Bonari, E., 2013. Short- and long-term effects of olive mill wastewater land spreading on soil chemical and biological properties. Soil Biol. Biochem., 56, 21–30.
- Di Serio, M.G., Lanza, B., Mucciarella, M.R., Russi, F., Iannucci, E., Marfisi, P., Madeo, A., 2008. Effects of olive mill wastewater spreading on the physico-chemical and microbiological characteristics of soil. Int. Biodeterior. Biodegrad., 62, 4, 403–407.
- Diamantis, V., Pagorogon, L., Gazani, E., Doerr, S.H., Pliakas, F., Ritsema, C.J., 2013. Use of olive mill wastewater (OMW) to decrease hydrophobicity in sandy soil. Ecol. Eng., 58, 393–398.
- Diehl, D., Schaumann, G.E., 2007. The nature of wetting on urban soil samples: wetting kinetics and evaporation assessed from sessile drop shape. Hydrological Processes, 21, 17, 2255–2265.
- Doerr, S.H., Shakesby, S.H., Walsh, R.P.D., 2000. Soil water repellency: its causes, characteristics and hydro-geomorphological significance. Earth-Sci. Rev., 51, 1–4, 33–65.
- Gonzalez-Vila, F.J., Verdejo, T., Delrio, J.C., Martin, F., 1995. Accumulation of hydrophobic compounds in the soil lipidic and humic fractions as result of a long-term land treatment with olive oil mill effluents (Alpechin). Chemosphere, 31, 7, 3681–3686.
- Graber, E.R., Tagger, S., Wallach, R., 2009. Role of divalent fatty acid salts in soil water repellency. Soil Sci. Soc. Am. J., 73, 2, 541–549.
- Hanafi, F., Belaoufi, A., Mountadar, M., Assobhei, O., 2011. Augmentation of biodegradability of olive mill wastewater by electrochemical pre-treatment: Effect on phytotoxicity and operating cost. J. Hazard. Mater., 190, 1–3, 94–99.
- Hanafi, F., Mountadar, M., Etahiri, S., Fekhaoui, M., Assobhei, O., 2013. Biodegradation of toxic compounds in olive mill wastewater by a newly isolated potent strain: Aspergillus Niger van Tieghem. Journal of Water Resource and Protection, 5, 768–774.
- Hanifi, S., El Hadrami, I., 2008. Phytotoxicity and fertilising potential of olive mill wastewaters for maize cultivation. Agronomy for Sustainable Development, 28, 2, 313–319.
- Hanifi, S., El Hadrami, I., 2009. Olive mill wastewaters: diversity of the fatal product in olive oil industry and its valorisation as agronomical amendment of poor soils: a review. Journal of Agronomy, 8, 1, 1–13.
- Hillel, D., 2003. Introduction to Environmental Soil Physics. Academic Press, San Diego, CA, USA.
- Jaeger, F., Bowe, S., Schaumann, G.E., 2009. Evaluation of 1H NMR relaxometry for the assessment of pore size distribution in soil samples. Eur. J. Soil Sci., 60, 6, 1052–1064.
- Kachouri, S., Halaouli, S., Lomascolo, A., Asther, M., Hamdi, M., 2005. Decolourization of black oxidized olive-mill wastewater by a new tannase-producing Aspergillus flavus strain isolated from soil. World J. Microbiol. Biotechnol., 21, 8–9, 1465–1470.
- Kavvadias, V., Doula, M.K., Komnitsas, K., Liakopoulou, N., 2010. Disposal of olive oil mill wastes in evaporation ponds: Effects on soil properties. J. Hazard. Mater., 182, 1–3, 144–155.
- Kurtz, M., Peikert, B., Brühl, C., Dag, A., Zipori, I., Shoqeir, J., 2015. Effects of olive mill wastewater on soil microarthropods and soil chemistry in two different cultivation scenarios in Israel and Palestinian Territories. Journal of Agriculture, 5, 857–878.
- Lebron, I., Robinson, D.A., Oatham, M., Wuddivira, M.N., 2012. Soil water repellency and pH soil change under tropical pine plantations compared with native tropical forest. Journal of Hydrology, 414, 194–200.
- 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, 9, 1896–1903.
- Mahmoud, M., Janssen, M., Haboub, N., Nassour, A., Lennartz, B., 2010. The impact of olive mill wastewater application on flow and transport properties in soils. Soil and Tillage Research, 107, 1, 36–41.
- Meiboom, S., Gill, D., 1958. Modified spin-echo method for measuring nuclear relaxation times. Review of Scientific Instruments, 29, 688–691.
- Mekki, A., Dhouib, A., Sayadi, S., 2006. Changes in microbial and soil properties following amendment with treated and untreated olive mill wastewater. Microbiol. Res., 161, 2, 93–101.
- Mekki, A., Dhouib, A., Sayadi, S., 2007. Polyphenols dynamics and phytotoxicity in a soil amended by olive mill wastewaters. J. Environ. Manage., 84, 2, 134–140.
- Mekki, A., Dhouib, A., Sayadi, S., 2009. Evolution of several soil properties following amendment with olive mill wastewater. Progress in Natural Science, 19, 11, 1515–1521.
- Meyer, M., 2015. Determination of quantitative pore size distributions of soils with 1H-NMR relaxometry Development and validation of a universal calibration curve. Diploma Thesis, Universität Koblenz-Landau.
- Moraetis, D., Stamati, F.E., Nikolaidis, N.P., Kalogerakis, N., 2011. Olive mill wastewater irrigation of maize: Impacts on soil and groundwater. Agric. Water Manage., 98, 7, 1125–1132.
- Mulinacci, N., Romani, A., Galardi, C., Pinelli, P., Giaccherini, C., Vincieri, F.F., 2001. Polyphenolic content in olive oil waste waters and related olive samples. J. Agric. Food Chem., 49, 8, 3509–3514.
- Niaounakis, M., Halvadakis, C.P., 2006. Olive Processing Waste Management Literature Review and Patent Survey. Waste Management Series, 5, 2nd ed., Elsevier Science.
- Ochsner, T.E., Stephens, B.M., Koskinen, W.C., Kookana, R.S., 2006. Sorption of a hydrophilic pesticide: Effects of soil water content. Soil Sci. Soc. Am. J., 70, 6, 1991–1997.
- Palestinian Central Bureau of Statistics, 2013. Statistical Yearbook of Palestine 2013, Ramallah, Palestine.
- Peikert, B., 2015. Effect of olive mill wastwater on soils. PhD thesis. Universität Koblenz-Landau, Institut of Environmental Sciences.
- Peikert, B., Schaumann, G.E., Keren, Y., Bukhanovsky, N., Borisover, M., Abo Garfha, M., Hassan, J., Dag, A., 2015. Characterization of topsoils subjected to poorly controlled olive oil mill wastewater pollution in West Bank and Israel. Agriculture, Ecosystems and Environment, 199, 1, 176–189.
- Piotrowska, A., Iamarino, G., Rao, M.A., Gianfreda, L., 2006. Short-term effects of olive mill waste water (OMW) on chemical and biochemical properties of a semiarid Mediterranean soil. Soil Biology & Biochemistry; 38, 600–610.
- PMD, 2013. Climate Bulletin, Ministry of transport, Ramallah.
- R Core Team, R, 2014. A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria.
- Roig, A., Cayuela, M.L., Sanchez-Monedero, M.A., 2006. An overview on olive mill wastes and their valorisation methods. Waste Manage., 26, 9, 960–969.
- Saadi, I., Laor, Y., Raviv, M., Medina, S., 2007a. Effect of the olive oil wastewater application on microbial activity and phytotoxicity in soil. Alon Hanotea, 61, 453–455.
- Saadi, I., Laor, Y., Raviv, M., Medina, S., 2007b. Land spreading of olive mill wastewater: Effects on soil microbial activity and potential phytotoxicity. Chemosphere, 66, 1, 75–83.
- Saviozzi, A., Levi-Minzi, R., Riffaldi, R., Lupetti, A., 1991. Effetti dello spandimento di acque di vegetazione sul terreno agrario. Agrochimica, 35, 135–148.
- Sierra, J., Marti, E., Montserrat, G., Cruanas, R., Garau, M.A., 2001. Characterisation and evolution of a soil affected by olive oil mill wastewater disposal. Sci. Total Environ., 279, 1–3, 207–214.
- Sierra, J., Marti, E., Garau, M.A., Cruanas, R., 2007. Effects of the agronomic use of olive oil mill wastewater: Field experiment. Sci. Total Environ., 378, 1–2, 90–94.
- Sobhi, B., Isam, S., Ahmad, Y., Jacob, H., 2008. Reducing the environmental impact of olive mill wastewater in Jordan, Palestine and Israel. In: Shuval, H., Dweik, H. (Eds.): Water Resources in the Middle East, Springer, pp. 409–415.
- Spandre, R., Dellomonaco, G., 1996. Polyphenols pollution by olive mill waste waters. Journal of Environmental Hydrology, 4, 1–13.
- Steinmetz, Z., Kurtz, M.P., Dag, A., Zipori, I., Schaumann, G.E., 2015. The seasonal influence of olive mill wastewater applications on an orchard soil under semi-arid conditions. J. Plant Nutr. Soil Sci., 178, 641–648.
- Täumer, K., Stoffregen, H., Wessolek, G., 2005. Determination of repellency distribution using soil organic matter and water content. Geoderma, 125, 1–2, 107–115.
- Tsiknia, M., Tzanakakis, V.A., Oikonomidis, D., Paranychianakis, N.V., Nikolaidis, N.P., 2014. Effects of olive mill wastewater on soil carbon and nitrogen cycling. Appl. Microbiol. Biotechnol., 98, 6, 2739–2749.
- Zenjari, B., Nejmeddine, A., 2001. Impact of spreading olive mill wastewater on soil characteristics: laboratory experiments. Agronomie, 21, 749–755.