This work is licensed under the Creative Commons Attribution 4.0 International License.
Beckman, T. G. and Nyczepir, A. P.. 2011. Peach tree short life: southeastern peach growers’ handbook Horton, D. and Johnson, D.. (Eds), University of Georgia, Cooperative Extension Service Bulletin No. 1384, Athens, GA.BeckmanT. G. and NyczepirA. P.. 2011. HortonD. and JohnsonD.. (Eds), University of Georgia, Cooperative Extension Service Bulletin No. 1384, Athens, GA.Search in Google Scholar
Brittain, J. A. and Miller, R. W.. 1978. Managing peach tree short life in the southeast Clemson University Extension Service Bulletin, Clemson, SC: 585.BrittainJ. A. and MillerR. W.. 1978. Clemson University Extension Service Bulletin, Clemson, SC: 585.Search in Google Scholar
Bruck, E., Elbert, A., Fischer, R., Krueger, S., Kuhnhold, J., Kleuken, A., Nauen, R., Niebes, J., Reckman, U., Schnorbach, H., Steffens, R. and Waetermeulen, X.. 2009. Movento®, an innovative ambimobile insecticide for sucking insect pest control in agriculture: biological profile and field performance. Crop Protection 28: 838–844.BruckE.ElbertA.FischerR.KruegerS.KuhnholdJ.KleukenA.NauenR.NiebesJ.ReckmanU.SchnorbachH.SteffensR. and WaetermeulenX.. 2009. Movento®, an innovative ambimobile insecticide for sucking insect pest control in agriculture: biological profile and field performance. 28: 838–844.10.1016/j.cropro.2009.06.015Search in Google Scholar
Csinos, A., Whitehead, J, Hickman, L. L. and LaHue, S. S.. 2010. Evaluation of fluensulfone for root knot nematode on tobacco. Phytopathology 100 p. S28.CsinosA.WhiteheadJHickmanL. L. and LaHueS. S.. 2010. Evaluation of fluensulfone for root knot nematode on tobacco. 100 p. S28.Search in Google Scholar
Driver, J. G. and Louws, F. J.. 2010. Evaluation of non-fumigant based and drip applied nematicides to manage root-knot nematode (Meloidogyne spp.) on yellow squash. Department of Plant Pathology, North Carolina State University Raleigh, NC.DriverJ. G. and LouwsF. J.. 2010. . Department of Plant Pathology, North Carolina State University Raleigh, NC.Search in Google Scholar
Everich, R. and Schiller, C.. 2009. (MCW-2) 5-chloro-2-(3,4,4-trifluoro-but-3-ene-1-sulfonyl)-thiazole: a new proprietary nematicide from Makhteshim chemical works. available at: http://ir4.rutgers.edu/FoodUse/FUWorkshop/Industry%20Talks/Pathology09/MANAfungicideTalk.pdf. Accessed 5 May. 2013.EverichR. and SchillerC.. 2009. . available at:http://ir4.rutgers.edu/FoodUse/FUWorkshop/Industry%20Talks/Pathology09/MANAfungicideTalk.pdf. Accessed 5 May. 2013.Search in Google Scholar
Hussey, R., Mims, C. and Westcott, S. III. 1992. Ultrastructure of root cortical cells parasitized by the ring nematode Criconemella xenoplax. Protoplasma 167: 55–65.HusseyR.MimsC. and WestcottS.III. 1992. Ultrastructure of root cortical cells parasitized by the ring nematode Criconemella xenoplax. 167: 55–65.10.1007/BF01353581Search in Google Scholar
Hussey, R. S. and Barker, K. R.. 1973. Comparison of methods of collecting inocula of Meloidogyne spp., including a new technique. Plant Disease Reporter 57: 1025–1028.HusseyR. S. and BarkerK. R.. 1973. Comparison of methods of collecting inocula of Meloidogyne spp., including a new technique. 57: 1025–1028.Search in Google Scholar
Jenkins, W. R.. 1964. A rapid centrifugal-flotation technique for separating nematodes from soil. Plant Disease Reporter 48: 692–692.JenkinsW. R.. 1964. A rapid centrifugal-flotation technique for separating nematodes from soil. 48: 692–692.Search in Google Scholar
Klittich, C. J. R.. 2014. Fungicide mobility and the influence of physical properties. (Eds) Kyung Myung, Norbert M. Satchivi, Coleen K. Kingston. Washington, DC. Retention, uptake, and translocation of agrochemicals in plants American Chemical Society: 95–109.KlittichC. J. R.. 2014. Fungicide mobility and the influence of physical properties. (Eds) Kyung Myung, Norbert M. Satchivi, Coleen K. Kingston. Washington, DC. American Chemical Society: 95–109.Search in Google Scholar
McKenry, M., Buzo, T. and Kaku, S.. 2010. Performance of spirotetramat foliar on Pratylenchus vulnus infected Juglans spp. Journal of Nematology 42: 257–257.McKenryM.BuzoT. and KakuS.. 2010. Performance of spirotetramat foliar on Pratylenchus vulnus infected Juglans spp. 42: 257–257.Search in Google Scholar
McKenry, M., Buzo, T. and Kaku, S.. 2011. Timing of post treatment irrigation impacts the nematicidal value of spirotetramat. Journal of Nematology 43: 262–263.McKenryM.BuzoT. and KakuS.. 2011. Timing of post treatment irrigation impacts the nematicidal value of spirotetramat. 43: 262–263.Search in Google Scholar
McKenry, M., Kaku, S. and Buzo, T.. 2009. Evaluation of movento (tm) (spirotetramat) for efficacy against nematodes infesting perennial crops. Journal of Nematology 41: 355–355.McKenryM.KakuS. and BuzoT.. 2009. Evaluation of movento (tm) (spirotetramat) for efficacy against nematodes infesting perennial crops. 41: 355–355.Search in Google Scholar
McNear, D. H. Jr. 2013. The rhizosphere – roots, soil and everything in between. Nature Education Knowledge 4 p. 1.McNearD. H.Jr. 2013. The rhizosphere – roots, soil and everything in between. 4 p. 1.Search in Google Scholar
Meyer, S. L. F., Nyczepir, A. P., Rupprecht, S. M., Mitchell, A. D., Martin, P. A. W., Brush, C. W., Chitwood, D. J. and Vinyard, B. T.. 2013. Tall fescue ‘Jesup (MaxQ)’: Meloidogyne incognita development in roots and nematoxicity. Agronomy Journal 105: 755–763.MeyerS. L. F.NyczepirA. P.RupprechtS. M.MitchellA. D.MartinP. A. W.BrushC. W.ChitwoodD. J. and VinyardB. T.. 2013. Tall fescue ‘Jesup (MaxQ)’: Meloidogyne incognita development in roots and nematoxicity. 105: 755–763.10.2134/agronj2012.0374Search in Google Scholar
Miller, R. W.. 1994. Estimated peach tree losses 1980 to 1992 in South Carolina: causes and economic impact. Proceedings of the 6th Stone Fruit Tree Decline Workshop, Fort Valley, GA, October 26–28, 1992, 121–127.MillerR. W.. 1994. . Proceedings of the 6th Stone Fruit Tree Decline Workshop, Fort Valley, GA, October 26–28, 1992, 121–127.Search in Google Scholar
Morris, K. A., Langston, D. B., Davis, R. F., Noe, J. P., Dickerson, D. W. and Timper, P.. 2016. Efficacy of various application methods of fluensulfone for managing root-knot nematode in vegetables. Journal of Nematology 48 2: 65–71.MorrisK. A.LangstonD. B.DavisR. F.NoeJ. P.DickersonD. W. and TimperP.. 2016. Efficacy of various application methods of fluensulfone for managing root-knot nematode in vegetables. 482: 65–71.10.21307/jofnem-2017-010493031727418698Search in Google Scholar
Nyczepir, A. P.. 1989. Peach tree short life: a nematode associated disease. Nematology Circular No. 163, FL: Department of Agriculture and Consumer Services Gainesville, FL..NyczepirA. P.. 1989. . Nematology Circular No. 163, FL: Department of Agriculture and Consumer Services Gainesville, FL..Search in Google Scholar
Nyczepir, A. P.. 1991. Nematode management strategies in stone fruits in the United States. Journal of Nematology 23: 334–341.NyczepirA. P.. 1991. Nematode management strategies in stone fruits in the United States. 23: 334–341.Search in Google Scholar
Nyczepir, A. P.. 2011a. Host suitability of an endophyte-friendly tall fescue grass to Mesocriconema xenoplax and Pratylenchus vulnus. Nematropica 41: 45–51.NyczepirA. P.. 2011a. Host suitability of an endophyte-friendly tall fescue grass to Mesocriconema xenoplax and Pratylenchus vulnus. 41: 45–51.Search in Google Scholar
Nyczepir, A. P.. 2011b. Nematodes: southeastern peach growers’ handbookHorton, D. and Johnson, D.. (Eds), University of Georgia, Cooperative Extension Service Bulletin No. 1384, Athens, GA.NyczepirA. P.. 2011b. HortonD. and JohnsonD.. (Eds), University of Georgia, Cooperative Extension Service Bulletin No. 1384, Athens, GA.Search in Google Scholar
Nyczepir, A. P. and Bertrand, P. F.. 2000. Preplanting bahia grass or wheat compared for controlling Mesocriconema xenoplax and short life in a young peach orchard. Plant Disease 84: 789–793.NyczepirA. P. and BertrandP. F.. 2000. Preplanting bahia grass or wheat compared for controlling Mesocriconema xenoplax and short life in a young peach orchard. 84: 789–793.10.1094/PDIS.2000.84.7.78930832110Search in Google Scholar
Nyczepir, A. P. and Meyer, S. L. F.. 2010. Host status of endophyte-infected and noninfected tall fescue grass to Meloidogyne spp. Journal of Nematology 42: 151–158.NyczepirA. P. and MeyerS. L. F.. 2010. Host status of endophyte-infected and noninfected tall fescue grass to Meloidogyne spp. 42: 151–158.Search in Google Scholar
Nyczepir, A. P., Riley, M. B. and Sharpe, R. R.. 1993. Dynamics of concomitant populations of Meloidogyne incognita and Criconemella xenoplax on Peach. Journal of Nematology 25: 659–665.NyczepirA. P.RileyM. B. and SharpeR. R.. 1993. Dynamics of concomitant populations of Meloidogyne incognita and Criconemella xenoplax on Peach. 25: 659–665.Search in Google Scholar
Nyczepir, A. P., Wood, B. W. and Reighard, G. L.. 1997. Impact of Meloidogyne incognita on the incidence of peach tree short life in the presence of Criconemella xenoplax. Journal of Nematology 29: 725–730.NyczepirA. P.WoodB. W. and ReighardG. L.. 1997. Impact of Meloidogyne incognita on the incidence of peach tree short life in the presence of Criconemella xenoplax. 29: 725–730.Search in Google Scholar
Nyczepir, A. P., Bertrand, P. F., Miller, R. W. and Motsinger, R. E.. 1985. Incidence of Criconemella spp. and peach orchard histories in short-life and non-short-life sites in Georgia and South Carolina. Plant Disease 69: 874–877.NyczepirA. P.BertrandP. F.MillerR. W. and MotsingerR. E.. 1985. Incidence of Criconemella spp. and peach orchard histories in short-life and non-short-life sites in Georgia and South Carolina. 69: 874–877.10.1094/PD-69-874Search in Google Scholar
Nyczepir, A. P., Zehr, E. I., Lewis, S. A. and Harshman, D. C.. 1983. Short life of peach-trees induced by Criconemella xenoplax. Plant Disease 67: 507–508.NyczepirA. P.ZehrE. I.LewisS. A. and HarshmanD. C.. 1983. Short life of peach-trees induced by Criconemella xenoplax. 67: 507–508.10.1094/PD-67-507Search in Google Scholar
Oka, Y., Shuker, S. and Tkachi, N.. 2009. Nematicidal efficacy of MCW-2, a new nematicide of the fluoroalkenyl group, against the root-knot nematode Meloidogyne javanica. Pest Management Science 65: 1082–1089.OkaY.ShukerS. and TkachiN.. 2009. Nematicidal efficacy of MCW-2, a new nematicide of the fluoroalkenyl group, against the root-knot nematode Meloidogyne javanica. 65: 1082–1089.10.1002/ps.179619488996Search in Google Scholar
Ritchie, D. F. and Clayton, C. N.. 1981. Peach-tree short life – a complex of interacting factors. Plant Disease 65: 462–469.RitchieD. F. and ClaytonC. N.. 1981. Peach-tree short life – a complex of interacting factors. 65: 462–469.10.1094/PD-65-462Search in Google Scholar
Roberts, P.A. and May, D.. 1986. Meloidogyne incognita resistance characteristics in tomato genotypes developed for processing. Journal of Nematology 18 3: 353–359.RobertsP.A. and MayD.. 1986. Meloidogyne incognita resistance characteristics in tomato genotypes developed for processing. 183: 353–359.Search in Google Scholar
Smiley, R., Marshall, J. and Yan, G.. 2011. Effect of foliarly applied spirotetramat on reproduction of Heterodera avenae on wheat roots. Plant Disease 95: 983–989.SmileyR.MarshallJ. and YanG.. 2011. Effect of foliarly applied spirotetramat on reproduction of Heterodera avenae on wheat roots. 95: 983–989.10.1094/PDIS-01-11-001730732115Search in Google Scholar
Smiley, R. W., Gourlie, J. A., Rhinhart, K. E. L., Marshall, J. M., Anderson, M. D. and Yan, G. P.. 2012. Influence of nematicides and fungicides on spring wheat in fields infested with soilborne pathogens. Plant Disease 96: 1537–1547.SmileyR. W.GourlieJ. A.RhinhartK. E. L.MarshallJ. M.AndersonM. D. and YanG. P.. 2012. Influence of nematicides and fungicides on spring wheat in fields infested with soilborne pathogens. 96: 1537–1547.10.1094/PDIS-02-12-0165-RE30727316Search in Google Scholar
United States Department of Agricultural National Agricultural Statistics Service (USDA-NASS). 2017. Georgia agricultural facts. available at: https://www.nass.usda.gov/Statistics_by_State/Georgia/Publications/More_Features/GABragSheet2016.pdf. Accessed 3 Dec. 2018.United States Department of Agricultural National Agricultural Statistics Service (USDA-NASS). 2017. . available at:https://www.nass.usda.gov/Statistics_by_State/Georgia/Publications/More_Features/GABragSheet2016.pdf. Accessed 3 Dec. 2018.Search in Google Scholar
Vang, L. E., Opperman, C. H., Schwartz, M. R. and Davis, E. L.. 2016. Spirotetramat causes an arrest of nematode juvenile development. Nematology 18: 121–131.VangL. E.OppermanC. H.SchwartzM. R. and DavisE. L.. 2016. Spirotetramat causes an arrest of nematode juvenile development. 18: 121–131.10.1163/15685411-00002948Search in Google Scholar
Zasada, I. A., Walters, T. W. and Pinkerton, J. N.. 2010. Post-plant nematicides for the control of root lesion nematode in red raspberry. Hort Technology 20: 856–862.ZasadaI. A.WaltersT. W. and PinkertonJ. N.. 2010. Post-plant nematicides for the control of root lesion nematode in red raspberry. 20: 856–862.10.21273/HORTTECH.20.5.856Search in Google Scholar