PCBS, Palestinian Central Bureau of Statistics. Ramallah, Palestine, http://www.pcbs.gov.ps (2012).
2.
ObanorF.O.WalterM.JonesE.E.JaspersM.V., “Sources of variation in a field evaluation of the incidence and severity of olive leaf spot,”NZ Plant Prot. Soc.58, 273–277 (2005).
3.
AzeriT., “Research on olive leaf spot, olive knot and Verticillium wilt of olive in Turkey”, Bull. OEPP/EPPO Bull. 23, 437–440 (1993). doi: 10.1111/j.1365-2338.1993.tb01349.x
4.
SistaniF.RamezanpourS.S.NasrollanejadS., “Field evaluation of different fungicides application to control olive leaf spot”, Aus. J. Basic and Appl. Sci.3(4), 3341–3345 (2009).
5.
ObanorF.O.JaspersM.V.JonesE.E.WalterM., “Greenhouse and field evaluation of fungicides for control of olive leaf spot in New Zealand”, Crop Prot. 27, 1335–1342 (2008). Doi: 10.1016/j.cropro.2008.04.007
6.
VannesteJ.L.VoyleM.D.ZydenbosS.M., “Genetic basis of copper resistance in New Zealand strains of Pseudomonas syringae”, New Zealand Plant Protection56, 109–112 (2003).
7.
SalmanM.HawamdaA.AmarniA.A.RahilM.HajjehH.NatshehB.AbuamshaR., “Evaluation of the incidence and severity of olive leaf spot caused by Spilocaea oleagina on olive trees in Palestine”, Am. J. Plant Sci. 3, 457–460 (2011). doi: 10.4236/ajps.2011.23053
8.
RumpfT.MahleinA.K.SteinerU.OerkeE.C.DehneH.W.PlumerL., “Early detection and classification of plant diseases with Support Vector Machines based on hyperspectral reflectance”, Comput. Electron. Agric.74(1), 91–99 (2010). doi: 10.1016/j.compag.2011.09.011
