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Barbosa, N. M. R., Pedrosa, E. M. R., and Chaves, A. 2014. Relationships between three Meloidogyne species on sugarcane. Journal of Nematology 46:137.BarbosaN. M. R.PedrosaE. M. R., and ChavesA.2014. Relationships between three Meloidogyne species on sugarcane. Journal of Nematology46:137.Search in Google Scholar
Birchfield, W. 1983. Wheat and grain-sorghum varietal reaction to Meloidogyne incognita and Rotylenchulus reniformis. Plant Disease 67:41–42.BirchfieldW.1983. Wheat and grain-sorghum varietal reaction to Meloidogyne incognita and Rotylenchulus reniformis. Plant Disease67:41–42.10.1094/PD-67-41Search in Google Scholar
Carneiro, R. G., Morits, M. A., Mônaco, A. P. A., Lima, A. C. C., and Santiago, D. C. 2006. Reaction of oat cultivars to race 1 and 3 of Meloidogyne incognita and to M. paranaensis. Nematologia Brasileira 30:281–285.CarneiroR. G.MoritsM. A.MônacoA. P. A.LimaA. C. C., and SantiagoD. C.2006. Reaction of oat cultivars to race 1 and 3 of Meloidogyne incognita and to M. paranaensis. Nematologia Brasileira30:281–285.Search in Google Scholar
Coolen, W. A., and D’Herde, C. J. 1972. A method for quantitative extraction of nematodes from plant tissue. Ghent: State Nematology and Entomology Research Station.CoolenW. A., and D’HerdeC. J.1972. A method for quantitative extraction of nematodes from plant tissue. Ghent: State Nematology and Entomology Research Station.Search in Google Scholar
Curto, G., Dallavalle, E., Nicola, G. R., and Lazzeri, L. 2012. Evaluation of the activity of dhurrin and sorghum towards Meloidogyne incognita. Nematology 14:759–769.CurtoG.DallavalleE.NicolaG. R., and LazzeriL.2012. Evaluation of the activity of dhurrin and sorghum towards Meloidogyne incognita. Nematology14:759–769.10.1163/156854112X627291Search in Google Scholar
Da Silva, B. M., Kumar, P., Nichols, R., Chee, P., and Davis, R. 2016. Meloidogyne incognita emigration from cotton roots may be induced by the resistance QTL qMI-C11. Journal of Nematology 48:302.Da SilvaB. M.KumarP.NicholsR.CheeP., and DavisR.2016. Meloidogyne incognita emigration from cotton roots may be induced by the resistance QTL qMI-C11. Journal of Nematology48:302.Search in Google Scholar
Davis, R. F., Chee, P. W., and Lubbers, E. L. 2016. Increased size of cotton root system does not impart tolerance to Meloidogyne incognita. Journal of Nematology 48:312.DavisR. F.CheeP. W., and LubbersE. L.2016. Increased size of cotton root system does not impart tolerance to Meloidogyne incognita. Journal of Nematology48:312.Search in Google Scholar
Daykin, M. E., and Hussey, R. S. 1985. Staining and histopathological techniques in nematology. Pp. 39–48 in K. R. Barker, C. C. Carter and J. N. Sasser, eds. An advanced treatise on Meloidogyne: Biology and control. Raleigh, NC: North Carolina State University Graphics.DaykinM. E., and HusseyR. S.1985. Staining and histopathological techniques in nematology. Pp. 39–48inK. R.BarkerC. C.Carter and J. N.Sasser, eds. An advanced treatise on Meloidogyne: Biology and control. Raleigh, NC: North Carolina State University Graphics.Search in Google Scholar
Everts, K. L., Sardanelli, S., Kratochvil, R. J., Armentrout, D. K., and Gallagher, L. E. 2006. Root-knot and root-lesion nematode suppression by cover crops, poultry litter, and poultry litter compost. Plant Disease 90:487–492.EvertsK. L.SardanelliS.KratochvilR. J.ArmentroutD. K., and GallagherL. E.2006. Root-knot and root-lesion nematode suppression by cover crops, poultry litter, and poultry litter compost. Plant Disease90:487–492.10.1094/PD-90-048730786599Search in Google Scholar
Food and Agriculture Organization of the United Nations [FAO]. 2004. Food and nutrition in numbers. 1st ed. Rome.Food and Agriculture Organization of the United Nations [FAO]. 2004. Food and nutrition in numbers. 1st ed. Rome.Search in Google Scholar
Hussey, R. S., and Barker, K. R. 1973. A comparison of methods of collecting inocula of Meloidogyne sp., including a new technique. Plant Disease Report 57:1025–1028.HusseyR. S., and BarkerK. R.1973. A comparison of methods of collecting inocula of Meloidogyne sp., including a new technique. Plant Disease Report57:1025–1028.Search in Google Scholar
Inomoto, M. M., Antedomênico, S. R., Santos, V. P., Silva, R. A., and Almeida, G. C. 2008. Greenhouse evaluation of the potential of sorghum, pearl millet and crotalaria in the management of Meloidogyne javanica. Tropical Plant Pathology 33:125–129.InomotoM. M.AntedomênicoS. R.SantosV. P.SilvaR. A., and AlmeidaG. C.2008. Greenhouse evaluation of the potential of sorghum, pearl millet and crotalaria in the management of Meloidogyne javanica. Tropical Plant Pathology33:125–129.10.1590/S1982-56762008000200006Search in Google Scholar
Karajeh, M. R., Abdel-Ghani, A. H., and Al-Majali, N. 2011. Response of wheat, barley and oat cultivars and accessions to Meloidogyne javanica. Nematologia Mediterranea. 39:85–89.KarajehM. R.Abdel-GhaniA. H., and Al-MajaliN.2011. Response of wheat, barley and oat cultivars and accessions to Meloidogyne javanica. Nematologia Mediterranea.39:85–89.Search in Google Scholar
Machado, A. C. Z., Silva, S. A., Dorigo, O. F., Riede, C. R., and Garbuglio, D. D. 2015. Phenotypic variability and response of Brazilian oat genotypes to different species of root-knot and root-lesion nematodes. European Journal of Plant Pathology 141:111–117.MachadoA. C. Z.SilvaS. A.DorigoO. F.RiedeC. R., and GarbuglioD. D.2015. Phenotypic variability and response of Brazilian oat genotypes to different species of root-knot and root-lesion nematodes. European Journal of Plant Pathology141:111–117.10.1007/s10658-014-0529-zSearch in Google Scholar
Maleita, C., Curtisb, R., and Abrantes, I. 2012. Thermal requirements for the embryonic development and life cycle of Meloidogyne hispanica. Plant Pathology. 61:1002–1010.MaleitaC.CurtisbR., and AbrantesI.2012. Thermal requirements for the embryonic development and life cycle of Meloidogyne hispanica. Plant Pathology.61:1002–1010.10.1111/j.1365-3059.2011.02576.xSearch in Google Scholar
Marini, P. M., Garbuglio, D. D., Dorigo, O. F., and Machado, A. C. Z. 2016. Histological characterization of resistance to Meloidogyne incognita in Avena sativa. Tropical Plant Pathology 41:203–209.MariniP. M.GarbuglioD. D.DorigoO. F., and MachadoA. C. Z.2016. Histological characterization of resistance to Meloidogyne incognita in Avena sativa. Tropical Plant Pathology41:203–209.10.1007/s40858-016-0088-2Search in Google Scholar
Mienie, C. M. S., Fourie, H., Smit, M. A., Staden, J. V., and Botha, F. C. 2002. Identification of AFLP markers in soybean linked to resistance to Meloidogyne javanica and conversion to sequence characterized amplified regions (SCARs). Plant Growth Regulation 37:157–166.MienieC. M. S.FourieH.SmitM. A.StadenJ. V., and BothaF. C.2002. Identification of AFLP markers in soybean linked to resistance to Meloidogyne javanica and conversion to sequence characterized amplified regions (SCARs). Plant Growth Regulation37:157–166.10.1023/A:1020585023976Search in Google Scholar
Molinari, S. 2011. Natural genetic and induced plant resistance, as a control strategy to plant-parasitic nematodes alternative to pesticides. Plant Cell Reports 30:311–323.MolinariS.2011. Natural genetic and induced plant resistance, as a control strategy to plant-parasitic nematodes alternative to pesticides. Plant Cell Reports30:311–323.10.1007/s00299-010-0972-z21184231Search in Google Scholar
Oostenbrink, M. 1966. Major characteristics of the relation between nematodes and plants. Mededlingenvoor Landb Hoogeschool Wageningen 66:3–46.OostenbrinkM.1966. Major characteristics of the relation between nematodes and plants. Mededlingenvoor Landb Hoogeschool Wageningen66:3–46.Search in Google Scholar
Orth, R., Fontanelli, S. R., Fontaneli, R. S., and Saccardo, E. 2012. Produção de forragem de gramíneas anuais semeadas no verão. Ciência Rural 42:1534–1540.OrthR.FontanelliS. R.FontaneliR. S., and SaccardoE.2012. Produção de forragem de gramíneas anuais semeadas no verão. Ciência Rural42:1534–1540.10.1590/S0103-84782012005000069Search in Google Scholar
Pretorius, M., Steenkamp, S., Fourie, H., and Donald, A. H. M. 2014. Host status of commercial wheat and sunflower cultivars to Meloidogyne spp. Journal of Nematology 46:223.PretoriusM.SteenkampS.FourieH., and DonaldA. H. M.2014. Host status of commercial wheat and sunflower cultivars to Meloidogyne spp. Journal of Nematology46:223.Search in Google Scholar
Stapleton, J. J., Summers, C. G., Mitchell, J. P., and Prather, T. S. 2010. Deleterious activity of cultivated grasses (Poaceae) and residues on soilborne fungal, nematode and weed pests. Phytoparasitica 38:61–69.StapletonJ. J.SummersC. G.MitchellJ. P., and PratherT. S.2010. Deleterious activity of cultivated grasses (Poaceae) and residues on soilborne fungal, nematode and weed pests. Phytoparasitica38:61–69.10.1007/s12600-009-0070-3Search in Google Scholar
Strajnar, P., Sirca, S., Knapic, M., and Urek, G. 2011. Effect of Slovenian climatic conditions on the development and survival of the root-knot nematode Meloidogyne ethiopica. European Journal of Plant Pathology. 129:81–88.StrajnarP.SircaS.KnapicM., and UrekG.2011. Effect of Slovenian climatic conditions on the development and survival of the root-knot nematode Meloidogyne ethiopica. European Journal of Plant Pathology.129:81–88.10.1007/s10658-010-9694-xSearch in Google Scholar
Tateishi, Y., Katsura, M., Iwahori, H., and Uesugi, K. 2011. Changes in the population density of root-knot nematodes in fall cropping of oat with different planting dates. Nematological Research 41:19–22.TateishiY.KatsuraM.IwahoriH., and UesugiK.2011. Changes in the population density of root-knot nematodes in fall cropping of oat with different planting dates. Nematological Research41:19–22.10.3725/jjn.41.19Search in Google Scholar
Taylor, A. L., and Sasser, J. N. 1978. Biology, identification and control of root-knot nematodes (Meloidogyne species). 1st ed. Raleigh, NC: North Carolina State University and United States Agency for International Development.TaylorA. L., and SasserJ. N.1978. Biology, identification and control of root-knot nematodes (Meloidogyne species). 1st ed. Raleigh, NC: North Carolina State University and United States Agency for International Development.Search in Google Scholar
Till, S., and Lawrence, K. S. 2016. An integrated approach to improving corn plant health in Meloidogyne incognita infested fields with nematicides, plant growth regulators, and starter fertilzers. Journal of Nematology 48:377.TillS., and LawrenceK. S.2016. An integrated approach to improving corn plant health in Meloidogyne incognita infested fields with nematicides, plant growth regulators, and starter fertilzers. Journal of Nematology48:377.Search in Google Scholar
U.S. Department of Agriculture [USDA]. 2016. Brazil wheat. Available from: http://www.usda.gov/oce/weather/pubs/Other/MWCACP/Graphs/Brazil/BrzWheatProd_0509.pdfU.S. Department of Agriculture [USDA]. 2016. Brazil wheat. Available from: http://www.usda.gov/oce/weather/pubs/Other/MWCACP/Graphs/Brazil/BrzWheatProd_0509.pdfSearch in Google Scholar
Wang, K. H., McSorley, R., and Gallaher, R. N. 2004. Effect of winter cover crops on nematode population levels in North Florida. Journal of Nematology 36:517–523.WangK. H.McSorleyR., and GallaherR. N.2004. Effect of winter cover crops on nematode population levels in North Florida. Journal of Nematology36:517–523.Search in Google Scholar
Williamson, V. M., Thomas, V., Ferris, H., and Dubcovsky, J. 2013. An Aegilops ventricosa translocation confers resistance against rootknot nematodes to common wheat. Crop Science 53:1412–1418.WilliamsonV. M.ThomasV.FerrisH., and DubcovskyJ.2013. An Aegilops ventricosa translocation confers resistance against rootknot nematodes to common wheat. Crop Science53:1412–1418.10.2135/cropsci2012.12.0681486486027182071Search in Google Scholar