This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Abdel-Momen, S.M., Starr, J.L. (1998): Meloidogyne javanica-Rhizoctonia solani disease complex of peanut. Fundam. Appl. Nematol. 21(5), 611 – 616Abdel-MomenS.M.StarrJ.L.1998Meloidogyne javanica-Rhizoctonia solani disease complex of peanut215611616Search in Google Scholar
Abad, P., Favery, B., Roso, M.N., Castagnone-Sereno, P. (2003): Root-knot nematode parasitism and host response: molecular basis of a sophisticated interaction. Mol Plant Pathol, 4(4): 217 – 224. DOI: 10.1046/j.1364-3703.2003.00170.xAbadP.FaveryB.RosoM.N.Castagnone-SerenoP.2003Root-knot nematode parasitism and host response: molecular basis of a sophisticated interaction44217224DOI10.1046/j.1364-3703.2003.00170.x20569382Open DOISearch in Google Scholar
Al-Saedy, H.A., Stephan, Z.A., Girgees, M.M. (1989): Effect of M. javanica on eggplant seedlings of different ages. Nematol Mediterr 17: 31 – 32Al-SaedyH.A.StephanZ.A.GirgeesM.M.1989Effect of M. javanica on eggplant seedlings of different ages173132Search in Google Scholar
Al-Sabie, R.F., Ami, S.N. (1990): Identification of races of root-knot nematodes Meloidogyne spp. in northern Iraq. Arab J. Plant Prot. 8(2): 83 – 87Al-SabieR.F.AmiS.N.1990Identification of races of root-knot nematodes Meloidogyne spp. in northern Iraq828387Search in Google Scholar
Ami, S. (2010): population density of root-knot nematode M. javanica on cucumber plant and some methods of control. Mesop. J. Agric., 38: 34 – 39. DOI: 10.33899/magrj.2010.36258.AmiS.2010population density of root-knot nematode M. javanica on cucumber plant and some methods of control383439DOI10.33899/magrj.2010.36258.Open DOISearch in Google Scholar
Ami, S., Shingaly, S. (2020): Efficacy of Different Methods Applied Separately and in Combination for Controlling Root-Knot Nematode M. javanica on Cucumber. JLBSR 1(2): 44 – 50. DOI: 10.38094/jlbsr1220AmiS.ShingalyS.2020Efficacy of Different Methods Applied Separately and in Combination for Controlling Root-Knot Nematode M. javanica on Cucumber124450DOI10.38094/jlbsr1220Open DOISearch in Google Scholar
Arrigoni, O., Zacheo, G., Arrigoni-Liso, R., Bleve-Zacheo, T., Lamberti, F. (1979): Relationship between ascorbic acid and resistance in tomato plants to Meloidogyne incognita. Phytopathology 69(6): 579 – 581ArrigoniO.ZacheoG.Arrigoni-LisoR.Bleve-ZacheoT.LambertiF.1979Relationship between ascorbic acid and resistance in tomato plants to Meloidogyne incognita69657958110.1094/Phyto-69-579Search in Google Scholar
Bakr, R.A., Hewedy, O.A. (2018): Monitoring of systemic resistance induction in tomato against Meloidogyne incognita. J Plant Pathol Microbiol 9(11). DOI: 10.4172/2157-7471.1000464 Carneiro, R.G., Mazafera, P., Ferraz, L.C.C., Muraoka, T., Trivelin, P.C.O. (2002): Uptake and translocation of nitrogen, phosphorus and calcium in soybean infected with M. incognita and M. javanica. Fitopatol Bras 27(2): 141 – 150. DOI: 10.1590/S0100-41582002000200004BakrR.A.HewedyO.A.2018Monitoring of systemic resistance induction in tomato against Meloidogyne incognita911DOI10.4172/2157-7471.1000464Open DOISearch in Google Scholar
Carneiro, R.G., Mazafera, P., Ferraz, L.C.C., Muraoka, T., Trivelin, P.C.O. (2002): Uptake and translocation of nitrogen, phosphorus and calcium in soybean infected with M. incognita and M. javanica. Fitopatol Bras, 27(2): 141 – 150 DOI: 10.1590/S0100-41582002000200004CarneiroR.G.MazaferaP.FerrazL.C.C.MuraokaT.TrivelinP.C.O.2002Uptake and translocation of nitrogen, phosphorus and calcium in soybean infected with M. incognita and M. javanica272141150DOI10.1590/S0100-41582002000200004Open DOISearch in Google Scholar
Coyne, D.L., Nicol, J.M., Claudius-Cole, B. (2007): Practical plant nematology: a field and laboratory guide. International Institute of Tropical Agriculture. Cotonou (BEN): pp. 82CoyneD.L.NicolJ.M.Claudius-ColeB.2007International Institute of Tropical AgricultureCotonou (BEN)pp82Search in Google Scholar
Debona, D., Rodrigues, F.A., Datnof, L.E. (2017): Silicon’s role in abiotic and biotic plant stresses. Annu Rev Phytopathol 55: 85 – 107. DOI: 10.1146/annurev-phyto-080516-035312DebonaD.RodriguesF.A.DatnofL.E.2017Silicon’s role in abiotic and biotic plant stresses5585107DOI10.1146/annurev-phyto-080516-03531228504920Open DOISearch in Google Scholar
Ding, P., Ding, Y. (2020): Stories of salicylic acid: a plant defense hormone. Trends Plant Sci 25(6): 549 – 565. DOI: 10.1016/j. tplants.2020.01.004DingP.DingY.2020Stories of salicylic acid: a plant defense hormone256549565DOI10.1016/j.tplants.2020.01.00432407695Open DOISearch in Google Scholar
Duncan, D.B. (1951): A significant test for differences between ranked treatments in analysis of variance. Virginia J Sci 2: 171 – 189DuncanD.B.1951A significant test for differences between ranked treatments in analysis of variance2171189Search in Google Scholar
Farahat, A., Al-Sayed, A.S., Afify, A., Mahfoud, N. (2015): Inducing resistance in eggplant against M. incognita by organic and inorganic fertilizers, plant growth regulators and amino acids. Egypt J Agronematol 14(1): 91 – 115FarahatA.Al-SayedA.S.AfifyA.MahfoudN.2015Inducing resistance in eggplant against M. incognita by organic and inorganic fertilizers, plant growth regulators and amino acids1419111510.21608/ejaj.2015.60408Search in Google Scholar
Fortunato, A.A., Rodrigues, F.A., Datnoff, L.E. (2015): Silicon control of soil-borne and seed-borne diseases. In: Rodrigues, F., Datnoff, L. (Eds) Silicon and Plant Diseases. Springer, Cham: pp. 53 – 66. DOI: 10.1007/978-3-319-22930-0_3FortunatoA.A.RodriguesF.A.DatnoffL.E.2015Silicon control of soil-borne and seed-borne diseasesInRodriguesF.DatnoffL.(Eds)SpringerChampp5366DOI10.1007/978-3-319-22930-0_3Open DOISearch in Google Scholar
Feyisa, B. (2021): Review on Root Knot Nematodes (Rkns): Impact and Methods For Control. J Plant Pathol Microbiol 12(4): 547. DOI: 10.35248/2157-7471.21.12.547FeyisaB.2021Review on Root Knot Nematodes (Rkns): Impact and Methods For Control124547DOI10.35248/2157-7471.21.12.547Open DOISearch in Google Scholar
Hayat, Q., Hayat, S., Irfan, M., Ahmad, A. (2010): Effect of exogenous salicylic acid under changing environment: A review. Env Exp Bot 68: 14 – 25. DOI: 10.1016/j.envexpbot.2009.08.005HayatQ.HayatS.IrfanM.AhmadA.2010Effect of exogenous salicylic acid under changing environment: A review681425DOI10.1016/j.envexpbot.2009.08.005Open DOISearch in Google Scholar
Hallmann, J., Meressa, B.H. (2018): Nematode Parasites of Vegetables. In: Sikora, R.A., Coyne, D., Hallmann, J., Timper, P. (Eds) Plant parasitic nematodes in subtropical and tropical agriculture. CABI Books, CABI International: pp. 346 – 410. DOI: 10.1079/9781786391247.0346HallmannJ.MeressaB.H.2018Nematode Parasites of VegetablesInSikoraR.A.CoyneD.HallmannJ.TimperP.(Eds)CABI BooksCABI Internationalpp346410DOI10.1079/9781786391247.0346Open DOISearch in Google Scholar
Hamad, H., Aydinli, G., Mennan, S. (2022): Distribution and prevalence of root-knot nematode species in greenhouse vegetables in northern Iraq. Turk Entomol Derg 46(3): 359 – 369. DOI: 10.16970/entoted.1141029HamadH.AydinliG.MennanS.2022Distribution and prevalence of root-knot nematode species in greenhouse vegetables in northern Iraq463359369DOI10.16970/entoted.1141029Open DOISearch in Google Scholar
Katooli, N., Moghadam, E.M., Taheri, A., Nasrollahnejad, S. (2010): Management of root-knot nematode Meloidogyne incognita on cucumber with the extract and oil of nematicidal plants. Int. J. Agric. Res. 5(8): 582 – 586. DOI: 10.3923/ijar.2010.582.586KatooliN.MoghadamE.M.TaheriA.NasrollahnejadS.2010Management of root-knot nematode Meloidogyne incognita on cucumber with the extract and oil of nematicidal plants58582586DOI10.3923/ijar.2010.582.586Open DOISearch in Google Scholar
Kaushik, P., Saini, D.K. (2019): Silicon as a vegetable crops modulator—A review. Plants 8(6): 148. DOI: 10.3390/plants8060148 Kirkpatrick, T.L., Oosterhuis, D.M., Wullschleger, S.D. (1991): Interaction of Meloidogyne incognita and water stress in two cotton cultivars. J Nematol 23(4): 462 – 467KaushikP.SainiD.K.2019Silicon as a vegetable crops modulator—A review86148DOI10.3390/plants8060148663141631159270Open DOISearch in Google Scholar
Kirkpatrick, T.L., Oosterhuis, D.M., Wullschleger, S.D. (1991): Interaction of Meloidogyne incognita and water stress in two cotton cultivars. J Nematol, 23(4): 462 – 467KirkpatrickT.L.OosterhuisD.M.WullschlegerS.D.1991Interaction of Meloidogyne incognita and water stress in two cotton cultivars234462467Search in Google Scholar
Kumar, D., Singh, S., Singh, N. (2010): Free radical scavenging and analgesic activities of cucumbers sativa. Fruit extract. J Young Pharm 2(4):365 – 386. DOI: 10.4103/0975-1483.71627KumarD.SinghS.SinghN.2010Free radical scavenging and analgesic activities of cucumbers sativa24365386DOI10.4103/0975-1483.71627301937421264095Open DOISearch in Google Scholar
López-Gómez, M., Flor-Peregrín, E., Talavera, M., Sorribas, F.J., Verdejo-Lucas, S. (2015): Population dynamics of M. javanica and its relationship with the leaf chlorophyll content in zucchini. Crop Prot 70: 8 – 14. DOI: 10.1016/j.cropro.2014.12.015López-GómezM.Flor-PeregrínE.TalaveraM.SorribasF.J.Verdejo-LucasS.2015Population dynamics of M. javanica and its relationship with the leaf chlorophyll content in zucchini70814DOI10.1016/j.cropro.2014.12.015Open DOISearch in Google Scholar
Melakeberhan, H., Webster, J. M., Brooke, R. C., D’Auria, J. M., Cackette, M. (1987): Effect of Meloidogyne incognita on plant nutrient concentration and its influence on the physiology of beans. J Nematol 19(3): 324 – 330MelakeberhanH.WebsterJ. M.BrookeR. C.D’AuriaJ. M.CacketteM.1987Effect of Meloidogyne incognita on plant nutrient concentration and its influence on the physiology of beans193324330Search in Google Scholar
Moslemi, F., Fatemy, S., Bernard, F. (2016): Inhibitory effects of salicylic acid on M. javanica reproduction in tomato plants. Span J Agric Res 14(1): 1 – 7. DOI: 10.5424/sjar/2016141-8706MoslemiF.FatemyS.BernardF.2016Inhibitory effects of salicylic acid on M. javanica reproduction in tomato plants14117DOI10.5424/sjar/2016141-8706Open DOISearch in Google Scholar
Mostafa nezhad, H., Sahebani, N., Nourinejhad Zarghani, S. (2014): Induction of resistance in tomato against root-knot nematode M. javanica with salicylic acid. J Crop Prot 3(4): 499 – 508. DOI: 20. 1001.1.22519041.2014.3.4.14.5Mostafa nezhadH.SahebaniN.Nourinejhad ZarghaniS.2014Induction of resistance in tomato against root-knot nematode M. javanica with salicylic acid34499508DOI20.1001.1.22519041.2014.3.4.14.5Open DOISearch in Google Scholar
Mukhtar, T., Kayani, M.Z. (2020): Comparison of the damaging effects of Meloidogyne incognita on a resistant and susceptible cultivar of cucumber. Bragantia 79: 83 – 93. DOI: 10.1590/16784499.20190359MukhtarT.KayaniM.Z.2020Comparison of the damaging effects of Meloidogyne incognita on a resistant and susceptible cultivar of cucumber798393DOI10.1590/16784499.20190359Open DOISearch in Google Scholar
Mukherjee, A., Babu, S.P.S., Mandal, F.B. (2012): Potential of salicylic acid activity derived from stress-induced (water) Tomato against Meloidogyne incognita. Arch. Phytopathol. Plant Prot. 45: 1909 – 1916. DOI: 10.1080/03235408.2012.718220MukherjeeA.BabuS.P.S.MandalF.B.2012Potential of salicylic acid activity derived from stress-induced (water) Tomato against Meloidogyne incognita4519091916DOI10.1080/03235408.2012.718220Open DOISearch in Google Scholar
Nayak, D.K. (2015): Effects of nematode infection on contents of phenolic substances as influenced by root-knot nematode, Meloidogyne incognita in susceptible and resistant brinjal cultivars. Agric. Sci. Digest (Karnal) 35(2): 163 – 164NayakD.K.2015Effects of nematode infection on contents of phenolic substances as influenced by root-knot nematode, Meloidogyne incognita in susceptible and resistant brinjal cultivars35216316410.5958/0976-0547.2015.00032.4Search in Google Scholar
Nikoo, F.S., Sahebani, N., Aminian, H., Mokhtarnejad, L., Ghaderi, R. (2014): Induction of systemic resistance and defense-related enzymes in tomato plants using Pseudomonas fluorescens CHAO and salicylic acid against root-knot nematode M. javanica. J Plant Prot Res 54.4: 383 – 389. DOI: 10.2478/jppr-2014-0057 Ohri, P., Pannu, S.K., (2010): Effect of phenolic compounds on nematodes-A review. J Appl Nat Sci 2(2): pp.344 – 350. DOI: 10.31018/jans.v2i2.144NikooF.S.SahebaniN.AminianH.MokhtarnejadL.GhaderiR.2014Induction of systemic resistance and defense-related enzymes in tomato plants using Pseudomonas fluorescens CHAO and salicylic acid against root-knot nematode M. javanica544383389DOI10.2478/jppr-2014-0057Open DOISearch in Google Scholar
Ohri, P., Pannu, S.K., (2010): Effect of phenolic compounds on nematodes-A review. J Appl Nat Sci, 2(2): pp.344 – 350. DOI: 10.31018/jans.v2i2.144OhriP.PannuS.K.2010Effect of phenolic compounds on nematodes-A review22pp344350DOI10.31018/jans.v2i2.144Open DOISearch in Google Scholar
Osman, G.Y. (1993): Effect of amino acids and ascorbic acid on Meloidogyne javanica Chitw. (Tylenchidae, Nematoda). Anz. Schädlingskd. Pfl. Umwelt, 66(7), 140 – 142. DOI 10.1007/ BF01906844OsmanG.Y.1993Effect of amino acids and ascorbic acid on Meloidogyne javanica Chitw. (Tylenchidae, Nematoda)667140142DOI10.1007/BF01906844Open DOISearch in Google Scholar
Roldi, M., Dias-Arieira, C.R., Silva, S.A., Dorigo, O.F., Machado, A.C.Z. (2017): Control of Meloidogyne paranaensis in coffee plants mediated by silicon. Nematology 19: 245 – 250. DOI: 10.1590/1678-992X-2019-0039RoldiM.Dias-ArieiraC.R.SilvaS.A.DorigoO.F.MachadoA.C.Z.2017Control of Meloidogyne paranaensis in coffee plants mediated by silicon19245250DOI10.1590/1678-992X-2019-0039Open DOISearch in Google Scholar
Sahebani, N., Hadavi, N.S., Zade, F.O. (2011): The effects of β-amino-butyric acid on resistance of cucumber against root-knot nematode, M. javanica. Acta Physiol Plant 33(2): 443 – 450. DOI: 10.1094/MPMI-09-14-0260-RSahebaniN.HadaviN.S.ZadeF.O.2011The effects of β-amino-butyric acid on resistance of cucumber against root-knot nematode, M. javanica332443450DOI10.1094/MPMI-09-14-0260-R25608179Open DOISearch in Google Scholar
Sharma, I.P., Sharma, A.K. (2017): Physiological and biochemical changes in tomato cultivar PT-3 with dual inoculation of mycorrhiza and PGPR against root-knot nematode. Symbiosis 71.3: 175 – 183 DOI : 10.1007/s13199-016-0423-xSharmaI.P.SharmaA.K.2017Physiological and biochemical changes in tomato cultivar PT-3 with dual inoculation of mycorrhiza and PGPR against root-knot nematode713175183DOI 10.1007/s13199-016-0423-xOpen DOISearch in Google Scholar
Siahpoush, S., Sahebani, N., Aminian, H., (2011): Change of some defense compounds of cucumber treated with Bacillus cereus and salicylic acid against M. javanica. Afr J Plant Sci, 5(14): 829 – 834 Schleker, A.S.S., Rist, M., Matera, C., Damijonaitis, A., Collienne, U., Matsuoka, K., Grundler, F.M. (2022): Mode of action of fluopyram in plant-parasitic nematodes. Sci Rep 12(1): 1 – 14. DOI: 10.1038/s41598-022-15782-7SiahpoushS.SahebaniN.AminianH.201151482983410.1038/s41598-022-15782-7927937835831379Search in Google Scholar
Schleker, A.S.S., Rist, M., Matera, C., Damijonaitis, A., Collienne, U., Matsuoka, K., Grundler, F.M. (2022): Mode of action of fluopyram in plant-parasitic nematodes. Sci Rep, 12(1): 1 – 14. DOI: 10.1038/s41598-022-15782-7SchlekerA.S.S.RistM.MateraC.DamijonaitisA.CollienneU.MatsuokaK.GrundlerF.M.2022Mode of action of fluopyram in plant-parasitic nematodes121114DOI10.1038/s41598-022-15782-7927937835831379Open DOISearch in Google Scholar
Taylor, A.L., Sasser, J.N. (1978): Biology, identification, and control of root-knot nematodes. North Carolina State University Graphics, 111pp.TaylorA.L.SasserJ.N.1978North Carolina State University Graphics111ppSearch in Google Scholar
Taher, I.E. (2019): Influence of some plant extract, chemical and biological agents on Root-knot nematode M. javanica. Kufa J Agric Sci, 11(1). Retrieved from https://journal.uokufa.edu.iq/index.php/kjas/article/view/91TaherI.E.2019Influence of some plant extract, chemical and biological agents on Root-knot nematode M. javanica111Retrieved fromhttps://journal.uokufa.edu.iq/index.php/kjas/article/view/91Search in Google Scholar
Thies, J.A., Merrill, S.B., Corley, E.L. (2002): Red food coloring stain: New, safer procedures for staining nematodes in roots and egg masses on root surfaces. J Nematol 34(2): 179ThiesJ.A.MerrillS.B.CorleyE.L.2002Red food coloring stain: New, safer procedures for staining nematodes in roots and egg masses on root surfaces342179Search in Google Scholar
Walters, D.R., Ratsep, J., Havis, N.D. (2013): Controlling crop diseases using induced resistance: Challenges for the future. J Exp Bot 64: 1263 – 1280. DOI: 10.1093/jxb/ert026WaltersD.R.RatsepJ.HavisN.D.2013Controlling crop diseases using induced resistance: Challenges for the future6412631280DOI10.1093/jxb/ert02623386685Open DOISearch in Google Scholar
Zhan, L.P., Peng, D.L., Wang, X.L., Kong, L.A., Peng, H., Liu, S.M., Liu, Y., and Huang, W.K., (2018): Priming effect of root-applied silicon on the enhancement of induced resistance to the root-knot nematode Meloidogyne graminicola in rice. BMC Plant Biol, 18: 50. DOI: 10.1186/s12870-018-1266-9ZhanL.P.PengD.L.WangX.L.KongL.A.PengH.LiuS.M.LiuY.andHuangW.K.2018Priming effect of root-applied silicon on the enhancement of induced resistance to the root-knot nematode Meloidogyne graminicola in rice1850DOI10.1186/s12870-018-1266-9587008429580214Open DOISearch in Google Scholar
Ziadi, S., Barbedette, S., Godard, J.F., Monot, C., Le Corre, D., Silue, D. (2001): Production of pathogenesis-related proteins in the cauliflower Brassica oleracea var. botrytis)–downy mildew Peronospora parasitica pathosystem treated with acibenzolar-S-methyl. Plant Pathol 50(5): 579 – 586. DOI: 10.1046/j.1365-3059.2001.00609.xZiadiS.BarbedetteS.GodardJ.F.MonotC.Le CorreD.SilueD.2001Production of pathogenesis-related proteins in the cauliflower Brassica oleracea var. botrytis)–downy mildew Peronospora parasitica pathosystem treated with acibenzolar-S-methyl505579586DOI10.1046/j.1365-3059.2001.00609.xOpen DOISearch in Google Scholar