References

  1. C. Gimenez, E. Fereres, C. Ruz, F. Orgaz, Water relations and gas exchange of olive trees: diurnal and seasonal patterns of leaf water potential, photosynthesis and stomatal conductance, Acta Hortic., 449 (1997) 411–416.
  2. G.C. Koubouris, N. Tzortzakis, N. Kourgialas, M. Darioti, I.T. Metzidakis, Growth, photosynthesis and pollen performance in saline water treated olive (Olea europaea L.) plants under high temperature, Int. J. Plant Biol., 6 (2015) 28–32.
  3. G.C. Koubouris, N. Kavroulakis, I.T. Metzidakis, M.D. Vasilakakis, A. Sofo, Ultraviolet-B radiation or heat cause changes in photosynthesis, antioxidant enzyme activities and pollen performance in olive tree, Photosynthetica, 53 (2015) 279–287.
  4. A. Diaz-Espejo, A.S. Walcroft, J.E. Fernandez, B. Hafidi, M.J. Palomo, I.F. Giron, Modeling photosynthesis in olive leaves under drought conditions, Tree Physiol., 26 (2006) 1445–1456.
  5. G.C. Koubouris, I.T. Metzidakis, M.D. Vasilakakis, Impact of temperature on olive (Olea europaea L.) pollen performance in relation to relative humidity and genotype, Environ. Exp. Bot., 67 (2009) 209–214.
  6. J.A. Gómez, T.A. Sobrinho, J.V. Giráldez, E. Fereres, Soil management effects on runoff, erosion and soil properties in an olive grove of Southern Spain, Soil Tillage Res., 102 (2009) 5–13.
  7. N.N. Kourgialas, G.C. Koubouris, G.P. Karatzas, I. Metzidakis, Assessing water erosion in Mediterranean tree crops using GIS techniques and field measurements: the effect of climate change, Nat. Hazard., 83 (2016) 65–81.
  8. F. Viola, D. Caracciolo, D. Pumo, L.V. Noto, G.L. Loggia, Future climate forcings and olive yield in a Mediterranean orchard, Water, 6 (2014) 1562–1580.
  9. J.C. Melgar, Y. Mohamed, C. Navarro, M.A. Parra, M. Benlloch, R. Fernandez-Escobar, Long-term growth and yield responses of olive trees to different irrigation regimes, Agric. Water Manage., 95 (2008) 968–972.
  10. G. Martínez, K. Vanderlinden, J.V. Giráldez. A.J. Espejo, J.L. Muriel, Field-scale soil moisture pattern mapping using electromagnetic induction, Vadose Zone J., 9 (2010) 871–881.
  11. Ν.Ν. Kourgialas, G.P. Karatzas, G. Morianou, Water management plan for olive orchards in a semi-mountainous area of Crete, Greece, Global Nest J., 17 (2014) 72–81.
  12. A.J. Espejo-Pérez, L. Brocca, T. Moramarco, J.V. Giráldez, J. Triantafilis, K. Vanderlinden, Analysis of soil moisture dynamics beneath olive trees, Hydrol. Process., 30 (2016) 4339–4352.
  13. M. Patumi, R. d’Andria, G. Fontanazza, G. Morelli, P. Giorio, G. Sorrentino, Yield and oil quality of intensively trained trees of three cultivars of olive (Olea europaea L.) under different irrigation regimes, J. Hortic. Sci. Biotechnol., 74 (1999) 729–737.
  14. F. Viola, L. Valerio Noto, M. Cannarozzo, G.L. Loggia, A. Porporato, Olive yield as a function of soil moisture dynamics, Ecohydrology, 5 (2012) 99–107.
  15. M. Ozores-Hampton, P.A. Stansly, T.P. Salame, Soil chemical, physical, and biological properties of a sandy soil subjected to long-term organic amendments, J. Sustain. Agric., 35 (2011) 243–269.
  16. M.T. Barral, R. Paradelo, Trace elements in compost regulation: the case of Spain, Waste Manage., 31 (2011) 407–410.
  17. G. Giannakis, N.N. Kourgialas, N.V. Paranychianakis, N.P. Nikolaidis, N. Kalogerakis, Effects of municipal solid waste compost on soil properties and vegetables growth, Compost Sci. Util., 22 (2014) 1–16.
  18. A. Yaakoubi, A. Chahlaoui, M. Rahmani, M. Elyachioui, I. Nejdi, Effect of olive mill wastewater spreading on the physicochemical characteristics of soil, Desal. Wat. Treat., 16 (2010) 194–200.
  19. M.S. Mkhabela, P.R. Warman, The influence of municipal solid waste compost on yield, soil phosphorus availability and uptake by two vegetable crops grown in a Pugwash Sandy Loam Soil in Nova Scotia, Agric., Ecosyst. Environ. 106 (2005) 57–67.
  20. M. Irshad, T. Honna, S. Yamamoto, A.E. Eneji, N. Yamasaki, Nitrogen mineralization under saline conditions, Commun. Soil Sci. Plant Anal., 36 (2005) 1681–1689.
  21. I. Walter, F. Martinez, G. Cuevas, Plant and soil responses to the application of composted MSW in a degraded, semiarid shrubland in Central Spain, Compost Sci. Util., 14 (2006) 147–154.
  22. A. Fernández-Hernández, A. Roig, N. Serramiá, C.G.-O. Civantos, M.A. Sánchez-Monedero, Application of compost of two-phase olive mill waste on olive grove: effects on soil, olive fruit and olive oil quality, Waste Manage., 34 (2014) 1139–1147.
  23. K.S. Chartzoulakis, Salinity and olive: growth, salt tolerance, photosynthesis and yield, Agric. Water Manage., 78 (2005) 108–121.
  24. L. Nasini, G. Gigliotti, M.A. Balduccini, E. Federici, G. Cenci, P. Proietti, Effect of solid olive-mill waste amendment on soil fertility and olive (Olea europaea L.) tree activity, Agric. Ecosyst. Environ., 164 (2013) 292–297,
  25. R.D. Koster, Z. Guo, P.A. Dirmeyer, R. Yang, K. Mitchell, M.J. Puma, On the nature of soil moisture in land surface models, J. Climate, 22 (2009) 4322–4335.
  26. R. Fernández-Escobar, G. Beltrán, M.A. Sánchez-Zamora, J. Garciá-Novelo, M.P. Aguilera, M. Uceda, Olive oil quality decreases with nitrogen over-fertilization, HortScience, 41 (2006) 215–219.
  27. N. Nadezhdina, M.I. Ferreira, N. Conceiçao, C.A. Pacheco, M. Häusler, T.S. David, Water uptake and hydraulic redistribution under a seasonal climate: long-term study in a rainfed olive orchard, Ecohydrology, 8 (2014) 387–397.
  28. M.A. Palecki, J.E. Bell, U.S. climate reference network soil moisture observations with triple redundancy: measurement variability, Vadose Zone J., 12 (2013) DOI:10.2136/vzj2012.0158.
  29. S.R. Evett, R.C. Schwartz, J.J. Casanova, L.K. Heng, Review: soil water sensing for water balance ET and WUE, Agric. Water Manage., 104 (2012) 1–9.
  30. Ν.Ν. Kourgialas, G. Doupis, A. Papafilippaki, G. Psarras, G.C. Koubouris, Seasonal variation of soil moisture in irrigated olive trees, Procedia Eng., 162 (2016) 471–475.
  31. A.L. Page, R.H. Miller, D.R. Keeney, Methods of Soil Analysis, Part 2: Chemical and Microbiological Properties, 2nd ed., ASA and SSSA, Madison, Wisconsin, 1982.
  32. D.W. Nelson, L.E. Sommers, Total Carbon, Organic Carbon and Organic Matter, A.L. Page, R.H. Miller, D.R. Keeney, Eds., Methods of Soil Analysis, Part 2 Chemical and Microbiological Properties, American Society of Agronomy, Soil Science Society of America, 1982, pp. 539–579.
  33. J.H. Horton, D.W. Newsom, A rapid gas evolution method for calcium carbonate equivalent in liming materials, Soil Sci. Soc. Am. Proc., 17 (1953) 414–415.
  34. S.R. Olsen, C.V. Cole, F.S. Watanabe, L.A. Dean, Estimation of Available Phosphorus in Soils by Extraction with Sodium Bicarbonate. (U.S. Department of Agriculture Circular 939) U.S. Government Printing Office, Washington D.C., 1954.
  35. Delta-T, Delta-T Devices – Soil Moisture Sensors, 2005. Available at: http://www.delta-t.co.uk.
  36. J. Albaladejo, R. Ortiz, N. Garcia-Franco, A.R. Navarro, M. Almagro, J.G. Pintado, M. Martinez-Mena, Land use and climate change impacts on soil organic carbon stocks in semiarid Spain, J. Soils Sediments, 13 (2013) 265–277.
  37. P. Merante, C. Dibari, R. Ferrise, B. Sánchez, A. Iglesias, J.P. Lesschen, P. Kuikman, J. Yeluripati, P. Smith, M. Bindi, Adopting soil organic carbon management practices in soils of varying quality: implications and perspectives in Europe, Soil Tillage Res., 165 (2017) 95–106.
  38. P.S. Searles, D.A. Saravia, M.C. Rousseaux, Root length density and soil water distribution in drip-irrigated olive orchards in Argentina under arid conditions, Crop Pasture Sci., 60 (2009) 280–288.
  39. S. Besharat, A.H. Nazemi, A.A. Sadraddini, Parametric modeling of root length density and root water uptake in unsaturated soil, Turk. J. Agric. For., 34 (2010) 439–449.
  40. A. Diaz-Espejo, T.N. Buckley, J.S. Sperry, M.V. Cuevas, A. de Cires, S. Elsayed-Farag, M.J. Martin-Palomo, J.L. Muriel, A. Perez-Martin, C.M. Rodriguez-Dominguez, A.E. Rubio-Casal, J.M. Torres-Ruiz, J.E. Fernández, Steps toward an improvement in process-based models of water use by fruit trees: a case study in olive, Agric. Water Manage., 114 (2012) 37–49.
  41. P. Proietti, R. Calisti, G. Gigliotti, L. Nasini, L. Regni, A. Marchini, Composting optimization: integrating cost analysis with the physical-chemical properties of materials to be composted, J. Cleaner Prod., 137 (2016) 1086–1099.
  42. I.N. Daliakopoulos, I.K. Tsanis, A. Koutroulis, N.N. Kourgialas, A.E. Varouchakis, G.P. Karatzas, C.J. Ritsema, The threat of soil salinity: a European scale review, Sci. Total Environ., 573 (2016) 727–739.
  43. L.A. Richards, Diagnosis and improvement of saline and alkali soils, Soil Sci., 78 (1954) 154.
  44. S. Ayoub, S. Al-Shdiefat, H. Rawashdeh, I. Bashabsheh, Utilization of reclaimed wastewater for olive irrigation: effect on soil properties, tree growth, yield and oil content, Agric. Water Manage., 176 (2016) 163–169.
  45. M.K. Doula, A. Sarris, A. Hliaoutakis, A. Kydonakis, N.S. Papadopoulos, L. Argyriou, Building a strategy for soil protection at local and regional scale—the case of agricultural wastes land spreading, Environ. Monit. Assess., 188 (2016) 141,
  46. G. Egea, A. Diaz-Espejo, J.E. Fernández, Soil moisture dynamics in a hedgerow olive orchard under well-watered and deficit irrigation regimes: assessment, prediction and scenario analysis, Agric. Water Manage., 164 (2016) 197–211.