This work is licensed under the Creative Commons Attribution 4.0 International License.
Ashley, M. G., Leigh, B. L., and Lloyd, L. S. 1963. The action of metham-sodium in soil. II.—Factors affecting the removal of methyl isothiocyanate residues. Journal of the Science of Food and Agriculture 14:153–161.AshleyM. G.LeighB. L.LloydL. S.1963The action of metham-sodium in soil. II.—Factors affecting the removal of methyl isothiocyanate residuesJournal of the Science of Food and Agriculture14153161Search in Google Scholar
Collins, H. P., Alva, A., Boydston, R. A., Cochran, R. L., Hamm, P. B., McGuire, A., and Riga, E. 2006. Soil microbial, fungal, and nematode responses to soil fumigation and cover crops under potato production. Biology and Fertility of Soils 42:247–257.CollinsH. P.AlvaA.BoydstonR. A.CochranR. L.HammP. B.McGuireA.RigaE.2006Soil microbial, fungal, and nematode responses to soil fumigation and cover crops under potato productionBiology and Fertility of Soils42247257Search in Google Scholar
Cook, R. D., and Weisburg, S. 1999. Response transformations. Pp. 316–333. in Applied regression including computing and graphics. New York City, New York: Wiley–Interscience.CookR. D.WeisburgS.1999Response transformations316333inApplied regression including computing and graphicsNew York City, New YorkWiley–InterscienceSearch in Google Scholar
Crow, W. T., Weingartner, D.P., and Dickson, D. W. 2000a. Effects of potato-cotton cropping systems and nematicides on plant-parasitic nematodes and crop yields. Journal of Nematology 32:297–302.CrowW. T.WeingartnerD.P.DicksonD. W.2000aEffects of potato-cotton cropping systems and nematicides on plant-parasitic nematodes and crop yieldsJournal of Nematology32297302Search in Google Scholar
Crow, W. T., Weingartner, D. P., McSorley, R., and D. W. Dickson. 2000b. Damage function and economic threshold for Belonolaimus longicaudatus on potato. Journal of Nematology 32:318–322.CrowW. T.WeingartnerD. P.McSorleyR.DicksonD. W.2000bDamage function and economic threshold for Belonolaimus longicaudatus on potatoJournal of Nematology32318322Search in Google Scholar
Crow, W. T., Weingartner, D. P., Dickson, D. W., and McSorley, R. 2001. Effect of sorghum–sudangrass and velvetbean cover crops on plant-parasitic nematodes associated with potato production in Florida. Journal of Nematology 33:285–288.CrowW. T.WeingartnerD. P.DicksonD. W.McSorleyR.2001Effect of sorghum–sudangrass and velvetbean cover crops on plant-parasitic nematodes associated with potato production in FloridaJournal of Nematology33285288Search in Google Scholar
Csinos, A. S., Sumner, D. R., Johnson, W. C., Johnson, A. W., McPherson, R. M., and Dowler, C. C. 2000. Methyl bromide alternatives in tobacco, tomato and pepper transplant production. Crop Protection 19:39–49.CsinosA. S.SumnerD. R.JohnsonW. C.JohnsonA. W.McPhersonR. M.DowlerC. C.2000Methyl bromide alternatives in tobacco, tomato and pepper transplant productionCrop Protection193949Search in Google Scholar
Csinos, A. S., Webster, T. M., Sumner, D. R., Johnson, A. W., Dowler, C. C., and Seebold, K. W. 2002. Application and crop safety parameters for soil fumigants. Crop Protection 21:973–982.CsinosA. S.WebsterT. M.SumnerD. R.JohnsonA. W.DowlerC. C.SeeboldK. W.2002Application and crop safety parameters for soil fumigantsCrop Protection21973982Search 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.CsinosA. S.2006Root-knot nematode management in double-cropped plasticulture vegetablesJournal of Nematology385967Search in Google Scholar
Desaeger, J. A., Seebold, K. W., and Csinos, A. S. 2008. Effect of application timing and method on efficacy and phytotoxicity of 1, 3-D, chloropicrin and metam-sodium combinations in squash plasticulture. Pest Management Science (formerly Pesticide Science) 64:230–238.DesaegerJ. A.SeeboldK. W.CsinosA. S.2008Effect of application timing and method on efficacy and phytotoxicity of 1, 3-D, chloropicrin and metam-sodium combinations in squash plasticulturePest Management Science (formerly Pesticide Science)64230238Search 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.LocascioS. J.2017Methyl bromide alternatives for control of root-knot nematode (Meloidogyne spp.) in tomato production in FloridaJournal of Nematology49140149Search in Google Scholar
Fiscus, D. A., and Neher, D. A. 2002. Distinguishing sensitivity of free-living soil nematode genera to physical and chemical disturbances. Ecological Applications 565:575.FiscusD. A.NeherD. A.2002Distinguishing sensitivity of free-living soil nematode genera to physical and chemical disturbancesEcological Applications565575Search in Google Scholar
Gerstl, Z., Mingelgrin, U., and Yaron, B. 1977. Behavior of Vapam and methylisothiocyanate in soils. Soil Science Society of America Journal 41: 545–548.GerstlZ.MingelgrinU.YaronB.1977Behavior of Vapam and methylisothiocyanate in soilsSoil Science Society of America Journal41545548Search in Google Scholar
Gilreath, J. P., Santos, B. M., Gilreath, P. R., Jones, J. P., and Noling, J. W. 2004. Efficacy of 1,3-dichloropropene plus chloropicrin application methods in combination with pebulate and napropamide in tomato. Crop Protection 23:1187–1191.GilreathJ. P.SantosB. M.GilreathP. R.JonesJ. P.NolingJ. W.2004Efficacy of 1,3-dichloropropene plus chloropicrin application methods in combination with pebulate and napropamide in tomatoCrop Protection2311871191Search in Google Scholar
Gilreath, J. P., Santos, B. M., and Motis, T. N. 2008. Performance of methyl bromide alternatives in strawberry. HortTechnology 18:80–83.GilreathJ. P.SantosB. M.MotisT. N.2008Performance of methyl bromide alternatives in strawberryHortTechnology188083Search 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 52:2020.GrabauZ. J.MauldinM. D.HabteweldA.CarterE. T.2020Nematicide efficacy at managing Meloidogyne arenaria and non-target effects on free-living nematodes in peanut productionJournal of Nematology522020Search in Google Scholar
Grabau, Z. J., Noling, J. W., and Navia Gine, P. A. 2019. Fluensulfone and 1,3-dichloroprene for plant-parasitic nematode management in potato production. Journal of Nematology 51:e2019–38.GrabauZ. J.NolingJ. W.Navia GineP. A.2019Fluensulfone and 1,3-dichloroprene for plant-parasitic nematode management in potato productionJournal of Nematology51e201938Search in Google Scholar
Grabau, Z. J., Liu, C., and Sandoval-Ruiz, R. 2021. Management by nematicides in tomato production. Journal of Nematology 53:1–12.GrabauZ. J.LiuC.Sandoval-RuizR.2021Management by nematicides in tomato productionJournal of Nematology53112Search 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.SinghP. A.2016Influence of nematode-bacterial interactions on N and P mineralisation in soil and on decomposition of crop residues during aerobic compostingApplied Ecology and Environmental Research14283299Search in Google Scholar
Ingham, R. E., Hamm, P. B., Baune, M., David, N. L., and Wade, N. M. 2007. Control of Meloidogyne chitwoodi in potato with shank-injected metam sodium and other nematicides. Journal of Nematology 39:161.InghamR. E.HammP. B.BauneM.DavidN. L.WadeN. M.2007Control of Meloidogyne chitwoodi in potato with shank-injected metam sodium and other nematicidesJournal of Nematology39161Search in Google Scholar
Jenkins, W. R. 1964. A rapid centrifugal-flotation technique for separating nematodes from soil. Plant Disease Reporter 48:692.JenkinsW. R.1964A rapid centrifugal-flotation technique for separating nematodes from soilPlant Disease Reporter48692Search in Google Scholar
Kearn, J., Lilley, C., Urwin, P., O’Connor, V., and Holden-Dye, L. 2017. Progressive metabolic impairment underlies the novel nematicidal action of fluensulfone on the potato cyst nematode Globodera pallida. Pesticide Biochemistry and Physiology 142:83–90.KearnJ.LilleyC.UrwinP.O’ConnorV.Holden-DyeL.2017Progressive metabolic impairment underlies the novel nematicidal action of fluensulfone on the potato cyst nematode Globodera pallidaPesticide Biochemistry and Physiology1428390Search 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.KimY. H.2005The predatory nematode, Mononchoides fortidens (Nematoda: Diplogasterida), suppresses the root-knot nematode, Meloidogyne arenaria, in potted field soilBiological Control357882Search in Google Scholar
Klose, S., Ajwa, H. A., Browne, G. T., Subbarao, K. V., Martin, F. N., Fennimore, S. A., and Westerdahl, B. B. 2008. Dose response of weed seeds, plant-parasitic nematodes, and pathogens to twelve rates of metam sodium in a California soil. Plant Disease 92:1537–1546.KloseS.AjwaH. A.BrowneG. T.SubbaraoK. V.MartinF. N.FennimoreS. A.WesterdahlB. B.2008Dose response of weed seeds, plant-parasitic nematodes, and pathogens to twelve rates of metam sodium in a California soilPlant Disease9215371546Search in Google Scholar
Levene, H. 1960. Robust tests for equality of variances. Pp. 278–292. in I. Olkin, ed. Contributions to probability and statistics. Palo Alto, California: Stanford University Press.LeveneH.1960Robust tests for equality of variances278292inOlkinI.ed.Contributions to probability and statisticsPalo Alto, CaliforniaStanford University PressSearch in Google Scholar
Ma, Q. L., Gan, J., Papiernik, S. K., Becker, J. O., and Yates, S. R. 2001. Degradation of soil fumigants as affected by initial concentration and temperature. Journal of Environmental Quality 30:1278–1286.MaQ. L.GanJ.PapiernikS. K.BeckerJ. O.YatesS. R.2001Degradation of soil fumigants as affected by initial concentration and temperatureJournal of Environmental Quality3012781286Search in Google Scholar
Navia Gine, P. A., and Hajihassani, A. 2021. Evaluation of fluensulfone in combination with metam potassium as a broad-spectrum solution to control plant-parasitic nematodes, soil-borne diseases and weeds in fruiting vegetables. Journal of Nematology 53:e2021–95. https://doi.org/10.21307%2Fjofnem-2021-095. (Abstr.)Navia GineP. A.HajihassaniA.2021Evaluation of fluensulfone in combination with metam potassium as a broad-spectrum solution to control plant-parasitic nematodes, soil-borne diseases and weeds in fruiting vegetablesJournal of Nematology53e202195https://doi.org/10.21307%2Fjofnem-2021-095. (Abstr.)Search 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.Garcia-BaudinJ. M.2010Nematodes as indicators of fumigant effects on soil food webs in strawberry crops in southern SpainEcological Indicators10148156Search in Google Scholar
Santos, B. M., Gilreath, J. P., Motis, T. N., Noling, J. W., Jones, J. P., and Norton, J. A. 2006. Comparing methyl bromide alternatives for soilborne disease, nematode and weed management in fresh market tomato. Crop Protection 25:690–695.SantosB. M.GilreathJ. P.MotisT. N.NolingJ. W.JonesJ. P.NortonJ. A.2006Comparing methyl bromide alternatives for soilborne disease, nematode and weed management in fresh market tomatoCrop Protection25690695Search 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.HerbertJ.2012Resiliency of a nematode community and suppressive service to tillage and nematicide applicationApplied Soil Ecology594859Search 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.BlanchartE.2016Ecological importance of soil bacterivores for ecosystem functionsPlant and Soil398124Search 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.CrowW. T.2019Nematicide effects on non-target nematodes in bermudagrassJournal of Nematology51e201909Search 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.DesaegerJ. A.2019Evaluation of non-fumigant chemical and biological nematicides for strawberry production in FloridaCrop Protection117100107Search in Google Scholar
Weingartner, D. P., and Shumaker, J. R. 1990. Control of nematodes and soil-borne diseases in Florida potatoes with aldicarb and 1,3-D. Journal of Nematology 22:775–778.WeingartnerD. P.ShumakerJ. R.1990Control of nematodes and soil-borne diseases in Florida potatoes with aldicarb and 1,3-DJournal of Nematology22775778Search in Google Scholar
Triky-Dotan, S., Austerweil, M., Steiner, B., Peretz-Alon, Y., Katan, J., and Gamliel, A. 2007. Generation and dissipation of methyl isothiocyanate in soils following metam sodium fumigation: Impact on Verticillium control and potato yield. Plant Disease 91:497–503.Triky-DotanS.AusterweilM.SteinerB.Peretz-AlonY.KatanJ.GamlielA.2007Generation and dissipation of methyl isothiocyanate in soils following metam sodium fumigation: Impact on Verticillium control and potato yieldPlant Disease91497503Search in Google Scholar
USDA-AMS. 2011. United States standards for grades of potatoes. USDA, Washington, DC.USDA-AMS2011United States standards for grades of potatoesUSDAWashington, DCSearch in Google Scholar
USDA-NASS. 2022. Potatoes 2021 summary (September 2022). USDA, Washington DC.USDA-NASS2022Potatoes 2021 summary (September 2022)USDAWashington DCSearch in Google Scholar
USDA-NRCS. 2005. Estimating soil moisture by feel and appearance. PA-1619. USDA, Washington DC.USDA-NRCS2005Estimating soil moisture by feel and appearance. PA-1619USDAWashington DCSearch in Google Scholar
