This work is licensed under the Creative Commons Attribution 4.0 International License.
Anwar, S. A. and McKenry, M. V. 2010. Incidence and reproduction of Meloidogyne incognita on vegetable crop genotypes. Pakistan Journal of Zoology 42:135–141.AnwarS. A. and McKenryM. V.2010.Incidence and reproduction of Meloidogyne incognita on vegetable crop genotypes.Pakistan Journal of Zoology42:135–141.Search in Google Scholar
Bao, Y., Chen, S., Vetsch, J. and Randall, G. 2013. Soybean yield and Heterodera glycines responses to liquid swine manure in nematode suppressive soil and conducive soil. Journal of Nematology 45:21–29.BaoY.ChenS.VetschJ. and RandallG.2013.Soybean yield and Heterodera glycines responses to liquid swine manure in nematode suppressive soil and conducive soil.Journal of Nematology45:21–29.Search in Google Scholar
Barker, K. R., Townshend, J. L., Bird, G. W., Thomason, I. J. and Dickson, D. W. 1986. “Determining nematode population responses to control agents”, In Hickey, K. D. (Ed.), Methods for evaluating pesticides for control of plant pathogens APS Press, St. Paul, MN, pp. 283–296.BarkerK. R.TownshendJ. L.BirdG. W.ThomasonI. J. and DicksonD. W.1986. “Determining nematode population responses to control agents”, InHickeyK. D.(Ed.),Methods for evaluating pesticides for control of plant pathogensAPS Press,St. Paul, MN, pp.283–296.Search in Google Scholar
Becker, J. O., Ploeg, A. and Nunez, J. J. 2019. Multi-year field evaluation of fluorinated nematicides against Meloidogyne incognita in carrots. Plant Disease 103:2392–2396.BeckerJ. O.PloegA. and NunezJ. J.2019.Multi-year field evaluation of fluorinated nematicides against Meloidogyne incognita in carrots.Plant Disease103:2392–2396.10.1094/PDIS-03-19-0489-RESearch in Google Scholar
Carrascosa, M., Sanchez-Moreno, S. and Luis Alonso-Prados, J. 2015. Effects of organic and conventional pesticides on plant biomass, nematode diversity and the structure of the soil food web. Nematology 17:11–26.CarrascosaM.Sanchez-MorenoS. and Luis Alonso-PradosJ.2015.Effects of organic and conventional pesticides on plant biomass, nematode diversity and the structure of the soil food web.Nematology17:11–26.10.1163/15685411-00002849Search in Google Scholar
Cook, R. D. and Weisburg, S. 1999. Applied regression including computing and graphics Wiley-Interscience, New York City, NY, pp. 316–333.CookR. D. and WeisburgS.1999.Applied regression including computing and graphicsWiley-Interscience,New York City, NY, pp.316–333.Search in Google Scholar
Cordova, L. G., Amiri, A. and Peres, N. A. 2017. Effectiveness of fungicide treatments following the strawberry advisory system for control of Botrytis fruit rot in Florida. Crop Protection 100:163–167.CordovaL. G.AmiriA. and PeresN. A.2017.Effectiveness of fungicide treatments following the strawberry advisory system for control of Botrytis fruit rot in Florida.Crop Protection100:163–167.10.1016/j.cropro.2017.07.002Search in Google Scholar
Dahlin, P., Eder, R., Consoli, E., Krauss, J. and Kiewnick, S. 2019. Integrated control of Meloidogyne incognita in tomatoes using fluopyram and Purpureocillium lilacinum strain 251. Crop Protection 124:104874.DahlinP.EderR.ConsoliE.KraussJ. and KiewnickS.2019.Integrated control of Meloidogyne incognita in tomatoes using fluopyram and Purpureocillium lilacinum strain 251.Crop Protection124:104874.10.1016/j.cropro.2019.104874Search in Google Scholar
Desaeger, J., Csinos, A., Timper, P., Hammes, G. and Seebold, K. 2004. Soil fumigation and oxamyl drip applications for nematode and insect control in vegetable plasticulture. Annals of Applied Biology 145:59–70.DesaegerJ.CsinosA.TimperP.HammesG. and SeeboldK.2004.Soil fumigation and oxamyl drip applications for nematode and insect control in vegetable plasticulture.Annals of Applied Biology145:59–70.10.1111/j.1744-7348.2004.tb00359.xSearch in Google Scholar
Desaeger, J. A. and Csinos, A. S. 2006. Root-knot nematode management in double-cropped plasticulture vegetables. Journal of Nematology 38:59–67.DesaegerJ. A. and CsinosA. S.2006.Root-knot nematode management in double-cropped plasticulture vegetables.Journal of Nematology38:59–67.Search in Google Scholar
Desaeger, J. A. and Watson, T. T. 2019. Evaluation of new chemical and biological nematicides for managing Meloidogyne javanica in tomato production and associated double-crops in Florida. Pest Management Science 75:3363–3370.DesaegerJ. A. and WatsonT. T.2019.Evaluation of new chemical and biological nematicides for managing Meloidogyne javanica in tomato production and associated double-crops in Florida.Pest Management Science75:3363–3370.10.1002/ps.5481Search in Google Scholar
Desaeger, J., Dickson, D. W. and Locascio, S. J. 2017. Methyl bromide alternatives for control of root-knot nematode (Meloidogyne spp.) in tomato production in Florida. Journal of Nematology 49:140–149.DesaegerJ.DicksonD. W. and LocascioS. J.2017.Methyl bromide alternatives for control of root-knot nematode (Meloidogyne spp.) in tomato production in Florida.Journal of Nematology49:140–149.10.21307/jofnem-2017-058Search in Google Scholar
ESFA 2013. Conclusion on the peer review of the pesticide risk assessment of the active substance fluopyram. European Food Safety Authority Journal 11:3052–127.ESFA2013.Conclusion on the peer review of the pesticide risk assessment of the active substance fluopyram.European Food Safety Authority Journal11:3052–127.10.2903/j.efsa.2013.3052Search in Google Scholar
Faske, T. R. and Brown, K. 2019. Movement of seed- and soil-applied fluopyram in soil columns. Journal of Nematology 51:e2019–45.FaskeT. R. and BrownK.2019.Movement of seed- and soil-applied fluopyram in soil columns.Journal of Nematology51:e2019–45.10.21307/jofnem-2019-045Search in Google Scholar
Faske, T. R. and Hurd, K. 2015. Sensitivity of Meloidogyne incognita and Rotylenchulus reniformis to fluopyram. Journal of Nematology 47:316–321.FaskeT. R. and HurdK.2015.Sensitivity of Meloidogyne incognita and Rotylenchulus reniformis to fluopyram.Journal of Nematology47:316–321.Search in Google Scholar
Ferris, H., Bongers, T. and de Goede, R. 2001. A framework for soil food web diagnostics: Extension of the nematode faunal analysis concept. Applied Soil Ecology 18:13–29.FerrisH.BongersT. and de GoedeR.2001.A framework for soil food web diagnostics: Extension of the nematode faunal analysis concept.Applied Soil Ecology18:13–29.10.1016/S0929-1393(01)00152-4Search in Google Scholar
Ferris, H., Sanchez-Moreno, S. and Brennan, E. B. 2012. Structure, functions and interguild relationships of the soil nematode assemblage in organic vegetable production. Applied Soil Ecology 61:16–25.FerrisH.Sanchez-MorenoS. and BrennanE. B.2012.Structure, functions and interguild relationships of the soil nematode assemblage in organic vegetable production.Applied Soil Ecology61:16–25.10.1016/j.apsoil.2012.04.006Search in Google Scholar
Grabau, Z. J. and Chen, S. 2016. Influence of long-term corn-soybean crop sequences on soil ecology as indicated by the nematode community. Applied Soil Ecology 100:172–185.GrabauZ. J. and ChenS.2016.Influence of long-term corn-soybean crop sequences on soil ecology as indicated by the nematode community.Applied Soil Ecology100:172–185.10.1016/j.apsoil.2015.12.016Search in Google Scholar
Grabau, Z. J., Liu, C. and Schumacher, L. A. 2021. In-furrow fluopyram nematicide efficacy for Rotylenchulus reniformis management in cotton production. Crop Protection 140:105423.GrabauZ. J.LiuC. and SchumacherL. A.2021.In-furrow fluopyram nematicide efficacy for Rotylenchulus reniformis management in cotton production.Crop Protection140:105423.10.1016/j.cropro.2020.105423Search in Google Scholar
Grabau, Z. J., Mauldin, M. D., Habteweld, A. and Carter, E. T. 2020. Nematicide efficacy at managing Meloidogyne arenaria and non-target effects on free-living nematodes in peanut production. Journal of Nematology 52: e2020–28.GrabauZ. J.MauldinM. D.HabteweldA. and CarterE. T.2020.Nematicide efficacy at managing Meloidogyne arenaria and non-target effects on free-living nematodes in peanut production.Journal of Nematology52:e2020–28.10.21307/jofnem-2020-028726605432298058Search in Google Scholar
Hajihassani, A., Davis, R. F. and Timper, P. 2019. Evaluation of selected nonfumigant nematicides on increasing inoculation densities of Meloidogyne incognita on cucumber. Plant Disease 103:3161–3165.HajihassaniA.DavisR. F. and TimperP.2019.Evaluation of selected nonfumigant nematicides on increasing inoculation densities of Meloidogyne incognita on cucumber.Plant Disease103:3161–3165.10.1094/PDIS-04-19-0836-RE31545697Search in Google Scholar
Hamill, J. E. and Dickson, D. W. 2005. Effects of application strategies of fumigant and nonfumigant nematicides on cantaloupe grown in deep sand soils in florida. Journal of Nematology 37:281–284.HamillJ. E. and DicksonD. W.2005.Effects of application strategies of fumigant and nonfumigant nematicides on cantaloupe grown in deep sand soils in florida.Journal of Nematology37:281–284.Search in Google Scholar
Holajjer, P., Kamra, A. and Singh, P. A. 2016. Influence of nematode-bacterial interactions on N and P mineralisation in soil and on decomposition of crop residues during aerobic composting. Applied Ecology and Environmental Research 14:283–299.HolajjerP.KamraA. and SinghP. A.2016.Influence of nematode-bacterial interactions on N and P mineralisation in soil and on decomposition of crop residues during aerobic composting.Applied Ecology and Environmental Research14:283–299.10.15666/aeer/1402_283299Search in Google Scholar
Jenkins, W. R. 1964. A rapid centrifugal-flotation technique for separating nematodes from soil. Plant Disease Reporter 48:692.JenkinsW. R.1964.A rapid centrifugal-flotation technique for separating nematodes from soil.Plant Disease Reporter48:692.Search in Google Scholar
Ji, X., Li, J., Dong, B., Zhang, H., Zhang, S. and Qiao, K. 2019. Evaluation of fluopyram for southern root-knot nematode management in tomato production in China. Crop Protection 122:84–89.JiX.LiJ.DongB.ZhangH.ZhangS. and QiaoK.2019.Evaluation of fluopyram for southern root-knot nematode management in tomato production in China.Crop Protection122:84–89.10.1016/j.cropro.2019.04.028Search in Google Scholar
Jiang, Y., Zhou, H., Chen, L., Yuan, Y., Fang, H., Luan, L., Chen, Y., Wang, X., Liu, M., Li, H., Peng, X. and Sun, B. 2018. Nematodes and microorganisms interactively stimulate soil organic carbon turnover in the macroaggregates. Frontiers in Microbiology 9:2803.JiangY.ZhouH.ChenL.YuanY.FangH.LuanL.ChenY.WangX.LiuM.LiH.PengX. and SunB.2018.Nematodes and microorganisms interactively stimulate soil organic carbon turnover in the macroaggregates.Frontiers in Microbiology9:2803.10.3389/fmicb.2018.02803627519230534114Search in Google Scholar
Jones, J. G., Kleczewski, N. M., Desaeger, J., Meyer, S. L. F. and Johnson, G. C. 2017. Evaluation of nematicides for southern root-knot nematode management in lima bean. Crop Protection 96:151–157.JonesJ. G.KleczewskiN. M.DesaegerJ.MeyerS. L. F. and JohnsonG. C.2017.Evaluation of nematicides for southern root-knot nematode management in lima bean.Crop Protection96:151–157.10.1016/j.cropro.2017.02.015Search in Google Scholar
Kandel, Y. R., Bradley, C. A., Chilvers, I. M., Mathew, F. M., Tenuta, A. U., Simth, D. L., Wise, K. A. and Mueller, D. S. 2019. Effect of seed treatment and foliar crop protection products on sudden death syndrome and yield of soybean. Plant Disease 103:1712–1720.KandelY. R.BradleyC. A.ChilversI. M.MathewF. M.TenutaA. U.SimthD. L.WiseK. A. and MuellerD. S.2019.Effect of seed treatment and foliar crop protection products on sudden death syndrome and yield of soybean.Plant Disease103:1712–1720.10.1094/PDIS-12-18-2199-RE31059383Search in Google Scholar
Khan, Z. and Kim, Y. H. 2005. The predatory nematode, Mononchoides fortidens (Nematoda: Diplogasterida), suppresses the root-knot nematode, Meloidogyne arenaria, in potted field soil. Biological Control 35:78–82.KhanZ. and KimY. H.2005.The predatory nematode, Mononchoides fortidens (Nematoda: Diplogasterida), suppresses the root-knot nematode, Meloidogyne arenaria, in potted field soil.Biological Control35:78–82.10.1016/j.biocontrol.2005.05.015Search in Google Scholar
Khanal, C. and Desaeger, J. A. 2020. On-farm evaluations of non-fumigant nematicides on cucurbits. Crop Protection 133:105152.KhanalC. and DesaegerJ. A.2020.On-farm evaluations of non-fumigant nematicides on cucurbits.Crop Protection133:105152.10.1016/j.cropro.2020.105152Search in Google Scholar
Koenning, S. R., Overstreet, C., Noling, J. W., Donald, P. A., Becker, J. O. and Fortnum, B. A. 1999. Survey of crop losses in response to phytoparasitic nematodes in the United States for 1994. Journal of Nematology 31:587–618.KoenningS. R.OverstreetC.NolingJ. W.DonaldP. A.BeckerJ. O. and FortnumB. A.1999.Survey of crop losses in response to phytoparasitic nematodes in the United States for 1994.Journal of Nematology31:587–618.Search in Google Scholar
Kokalis-Burelle, N., Butler, D. M. and Rosskopf, E. N. 2013. Evaluation of cover crops with potential for use in anaerobic soil disinfestation (ASD) for susceptibility to three species of Meloidogyne. Journal of Nematology 45:272–278.Kokalis-BurelleN.ButlerD. M. and RosskopfE. N.2013.Evaluation of cover crops with potential for use in anaerobic soil disinfestation (ASD) for susceptibility to three species of Meloidogyne.Journal of Nematology45:272–278.Search in Google Scholar
Levene, H. 1960. “Robust tests for equality of variances”, In Olkin, I. (Ed.), Contributions to probability and statistics Stanford University Press, Palo Alto, CA, pp. 278–292.LeveneH.1960. “Robust tests for equality of variances”, InOlkinI. (Ed.),Contributions to probability and statisticsStanford University Press,Palo Alto, CA, pp.278–292.Search in Google Scholar
Li, J., Meng, Z., Li, N., Dong, B., Ji, X., Zhang, S. and Qiao, K. 2020. Evaluating a new non-fumigant nematicide fluopimomide for management of southern root-knot nematodes in tomato. Crop Protection 129:105040.LiJ.MengZ.LiN.DongB.JiX.ZhangS. and QiaoK.2020.Evaluating a new non-fumigant nematicide fluopimomide for management of southern root-knot nematodes in tomato.Crop Protection129:105040.10.1016/j.cropro.2019.105040Search in Google Scholar
Nikoletta, N., Despoina, Z., Maria, A. D., Efimia, P. M., Urania, M. and Nikolaos, M. 2019. Anise, parsley and rocket as nematicidal soil amendments and their impact on non-target soil organisms. Applied Soil Ecology 143:17–25.NikolettaN.DespoinaZ.MariaA. D.EfimiaP. M.UraniaM. and NikolaosM.2019.Anise, parsley and rocket as nematicidal soil amendments and their impact on non-target soil organisms.Applied Soil Ecology143:17–25.10.1016/j.apsoil.2019.05.024Search in Google Scholar
Ntalli, N., Monokrousos, N., Rumbos, C., Kontea, D., Zioga, D., Argyropoulou, M. D., Menkissoglu-Spiroudi, U. and Tsiropoulos, N. G. 2018. Greenhouse biofumigation with Melia azedarach controls Meloidogyne spp. and enhances soil biological activity. Journal of Pest Science 91:29–40.NtalliN.MonokrousosN.RumbosC.KonteaD.ZiogaD.ArgyropoulouM. D.Menkissoglu-SpiroudiU. and TsiropoulosN. G.2018.Greenhouse biofumigation with Melia azedarach controls Meloidogyne spp. and enhances soil biological activity.Journal of Pest Science91:29–40.10.1007/s10340-017-0909-1Search in Google Scholar
Oka, Y. and Saroya, Y. 2019. Effect of fluensulfone and fluopyram on the mobility and infection of second-stage juveniles of Meloidogyne incognita and M. javanica. Pest Management Science 75:2095–2106.OkaY. and SaroyaY.2019.Effect of fluensulfone and fluopyram on the mobility and infection of second-stage juveniles of Meloidogyne incognita and M. javanica.Pest Management Science75:2095–2106.10.1002/ps.539930843368Search in Google Scholar
Ou, L. T. 1998. Enhanced degradation of the volatile fumigant-nematicides 1,3-D and methyl bromide in soil. Journal of Nematology 30:56–64.OuL. T.1998.Enhanced degradation of the volatile fumigant-nematicides 1,3-D and methyl bromide in soil.Journal of Nematology30:56–64.Search in Google Scholar
Regmi, H. and Desaeger, J. 2020. Integrated management of root-knot nematode (Meloidogyne spp.) in Florida tomatoes combining host resistance and nematicides. Crop Protection 134:105170.RegmiH. and DesaegerJ.2020.Integrated management of root-knot nematode (Meloidogyne spp.) in Florida tomatoes combining host resistance and nematicides.Crop Protection134:105170.10.1016/j.cropro.2020.105170Search in Google Scholar
Sanchez-Moreno, S., Jimenez, L., Alonso-Prados, J. L. and Garcia-Baudin, J. M. 2010. Nematodes as indicators of fumigant effects on soil food webs in strawberry crops in southern Spain. Ecological Indicators 10:148–156.Sanchez-MorenoS.JimenezL.Alonso-PradosJ. L. and Garcia-BaudinJ. M.2010.Nematodes as indicators of fumigant effects on soil food webs in strawberry crops in southern Spain.Ecological Indicators10:148–156.10.1016/j.ecolind.2009.04.010Search in Google Scholar
Schumacher, L. A., Grabau, Z. J., Wright, D. L., Small, I. M. and Liao, H. 2020. Nematicide influence on cotton yield and plant-parasitic nematodes in conventional and sod-based crop rotation. Journal of Nematology 52:e2020–.SchumacherL. A.GrabauZ. J.WrightD. L.SmallI. M. and LiaoH.2020.Nematicide influence on cotton yield and plant-parasitic nematodes in conventional and sod-based crop rotation.Journal of Nematology52:e2020–.10.21307/jofnem-2020-034726601332298056Search in Google Scholar
Silva, J. D. O., Loffredo, A., da Rocha, M. R. and Becker, J. O. 2019. Efficacy of new nematicides for managing Meloidogyne incognita in tomato crop. Journal of Phytopathology 167:295–298.SilvaJ. D. O.LoffredoA.da RochaM. R. and BeckerJ. O.2019.Efficacy of new nematicides for managing Meloidogyne incognita in tomato crop.Journal of Phytopathology167:295–298.10.1111/jph.12798Search in Google Scholar
Timper, P., Davis, R., Jagdale, G. and Herbert, J. 2012. Resiliency of a nematode community and suppressive service to tillage and nematicide application. Applied Soil Ecology 59:48–59.TimperP.DavisR.JagdaleG. and HerbertJ.2012.Resiliency of a nematode community and suppressive service to tillage and nematicide application.Applied Soil Ecology59:48–59.10.1016/j.apsoil.2012.04.001Search in Google Scholar
Trap, J., Bonkowski, M., Plassard, C., Villenave, C. and Blanchart, E. 2016. Ecological importance of soil bacterivores for ecosystem functions. Plant and Soil 398:1–24.TrapJ.BonkowskiM.PlassardC.VillenaveC. and BlanchartE.2016.Ecological importance of soil bacterivores for ecosystem functions.Plant and Soil398:1–24.10.1007/s11104-015-2671-6Search in Google Scholar
USDA-AMS. 2005. Tomatoes: Shipping point and market inspection instructions. USDA, Washington, DC.USDA-AMS.2005.Tomatoes: Shipping point and market inspection instructions.USDA,Washington, DC.Search in Google Scholar
USDA-AMS. 2019. Tomato fax report: December 4, 2019. USDA-AMS Market News Division, Fresno, CA.USDA-AMS.2019.Tomato fax report: December 4, 2019. USDA-AMS Market News Division, Fresno, CA.Search in Google Scholar
USDA-AMS. 2020. Tomato fax report: December 4, 2020. USDA-AMS Market News Division. Volume XXVI-Number 237, Dallas, TX.USDA-AMS.2020.Tomato fax report: December 4, 2020. USDA-AMS Market News Division. Volume XXVI-Number 237, Dallas, TX.Search in Google Scholar
USDA-NASS. 2020. Vegetables 2019 summary (February 2020). USDA, Washington DC.USDA-NASS.2020.Vegetables 2019 summary (February 2020). USDA, Washington DC.Search in Google Scholar
Waldo, B. D., Grabau, Z. J., Mengistu, T. M. and Crow, W. T. 2019. Nematicide effects on non-target nematodes in bermudagrass. Journal of Nematology 51:e2019–09.WaldoB. D.GrabauZ. J.MengistuT. M. and CrowW. T.2019.Nematicide effects on non-target nematodes in bermudagrass.Journal of Nematology51:e2019–09.10.21307/jofnem-2019-009692964231088021Search in Google Scholar
Wang, K., McSorley, R., Gallaher, R. N. and Kokalis-Burelle, N. 2008. Cover crops and organic mulches for nematode, weed and plant health management. Nematology 10:231–242.WangK.McSorleyR.GallaherR. N. and Kokalis-BurelleN.2008.Cover crops and organic mulches for nematode, weed and plant health management.Nematology10:231–242.10.1163/156854108783476412Search in Google Scholar
Watson, T. T. and Desaeger, J. A. 2019. Evaluation of non-fumigant chemical and biological nematicides for strawberry production in Florida. Crop Protection 117:100–107.WatsonT. T. and DesaegerJ. A.2019.Evaluation of non-fumigant chemical and biological nematicides for strawberry production in Florida.Crop Protection117:100–107.10.1016/j.cropro.2018.11.019Search in Google Scholar
Wheeler, T. A. and Kaufman, H. W. 2003. Relationship of aerial broad band reflectance to Meloidogyne incognita density in cotton. Journal of Nematology 35:48–57.WheelerT. A. and KaufmanH. W.2003.Relationship of aerial broad band reflectance to Meloidogyne incognita density in cotton.Journal of Nematology35:48–57.Search in Google Scholar
Yue, X., Li, F. and Wang, B. 2020. Activity of four nematicides against Meloidogyne incognita race 2 on tomato plants. Journal of Phytopathology 168:399–404.YueX.LiF. and WangB.2020.Activity of four nematicides against Meloidogyne incognita race 2 on tomato plants.Journal of Phytopathology168:399–404.10.1111/jph.12904Search in Google Scholar
