Hostname: page-component-cd9895bd7-p9bg8 Total loading time: 0 Render date: 2024-12-28T03:14:16.243Z Has data issue: false hasContentIssue false

Alternative practices for managing plant-parasitic nematodes

Published online by Cambridge University Press:  30 October 2009

Robert McSorley
Affiliation:
Professor of Entomology and Nematology, University of Florida, Gainesville, FL 32611-0620; rmcs@gnv.ifas.ufl.edu.
Get access

Abstract

The most widely used and successful cultural practices for managing plantparasitic nematodes are resistant cultivars and some elements of cropping systems, such as rotation crops, cover crops, or nematode-antagonistic crops. Exclusion and sanitation practices, such as use of nematode-free planting material, site selection, and weed management, are useful in limiting infestations. Soil solarization, organic amendments, biological control, fallow, flooding, timing of planting dates, or tillage practices may be helpful in some areas, but additional research is needed to optimize their use. Most management methods emphasize reduction of nematode populations, but improvement of crop tolerance to nematodes should not be overlooked. For their successful use, most of these alternative methods require detailed knowledge of nematode and plant biology and ecology, and it may be necessary to integrate several practices for maximum nematode suppression. Although the basic principles of nematode management are generally known, detailed data often are lacking on specific combinations of nematodes and host crop cultivars. Consequently, the availability of such data will likely determine whether nematodes can be managed successfully in a particular situation.

Type
Articles
Copyright
Copyright © Cambridge University Press 1998

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1.Alphey, T.J.W., Phillips, M.S., and Trudgill, D.L.. 1988. Integrated control of potato cyst nematodes using small amounts of nematicide and potatoes with partial resistance. Annals of Applied Biology 113:545552.CrossRefGoogle Scholar
2.Barker, K.R. 1991. Rotation and cropping systems for nematode control: The North Carolina experience. Introduction. J. Nematology 23:342343.Google ScholarPubMed
3.Barker, K.R., and Noe, J.P.. 1987. Establishing and using threshold population levels. In Veech, J.A. and Dickson, D.W. (eds). Vistas on Nematology. Society of Nematologists, Hyattsville, Maryland, pp. 7581.Google Scholar
4.Brodie, B.B., Good, J.M., and Jaworski, C.A.. 1970. Population dynamics of plant nematodes in cultivated soil. Effect of summer cover crops in old agricultural land. J. Nematology 2:147151.Google ScholarPubMed
5.Brodie, B.B., Evans, K., and Franco, J.. 1993. Nematode parasites of potatoes. In Evans, K., Trudgill, D.L., and Webster, J.M. (eds). Plant Parasitic Nematodes in Temperate Agriculture. CAB International, Wallingford, U.K. pp. 87132.Google Scholar
6.Brown, D.J.F., Dalmasso, A., and Trudgill, D.L.. 1993. Nematode pests of soft fruits and vines. In Evans, K., Trudgill, D.L., and Webster, J.M. (eds). Plant Parasitic Nematodes in Temperate Agriculture. CAB International, Wallingford, U.K. pp. 427462.Google Scholar
7.Carpenter, A.S., and Lewis, S.A.. 1991. Aggressiveness and reproduction of four Meloidogyne arenaria populations on soybean. J. Nematology 23:232238.Google ScholarPubMed
8.Caswell, E.P., DeFrank, J., Apt, W.J., and Tang, C.S.. 1991. Influence of nonhost plants on population decline of Rotylenchulus reniformis. J. Nematology 23:9198.Google ScholarPubMed
9.Cook, R., and Evans, K.. 1987. Resistance and tolerance. In Brown, R.H. and Kerry, B.R. (eds). Principles and Practice of Nematode Control in Crops. Academic Press, Sydney, Australia, pp. 179231.Google Scholar
10.Dropkin, V.H. 1969. The necrotic reaction of tomatoes and other hosts to Meloidogyne: Reversal by temperature. Phytopathology 59:16321637.Google Scholar
11.Duncan, L.W. 1991. Current options for nematode management. Annual Review of Phytopathology 29:469490.CrossRefGoogle ScholarPubMed
12.Duncan, L.W., and Cohn, E.. 1990. Nematode parasites of citrus. In Luc, M., Sikora, R.A., and Bridge, J. (eds). Plant Parasitic Nematodes in Subtropical and Tropical Agriculture. CAB International, Wallingford, U.K. pp. 321346.Google Scholar
13.Epperson, J.E., Dowler, C.C., Chalfant, R.B., Johnson, A.W., Glaze, N.C., and Sumner, D.R.. 1982. Economic results of pest control intensity for a multiple-cropping system. J. Amer. Soc. for Horticultural Sci. 107:624627.CrossRefGoogle Scholar
14.Fassuliotis, G. 1982. Plant resistance to root-knot nematodes. In R.D. Riggs (ed). Nematology in the Southern Region of the United States. Southern Cooperative Series Bull. 276. Arkansas Agric. Exp. Sta., Fayetteville. pp. 3349.Google Scholar
15.Fassuliotis, G. 1987. Genetic basis of plant resistance to nematodes. In Veech, J.A. and Dickson, D.W. (eds). Vistas on Nematology. Society of Nematologists, Hyattsville, Maryland, pp. 364371.Google Scholar
16.Ferguson, J.J., and Mesh, M.. 1997. Organic farming practices. In R.N. Gallaher and R. McSorley (eds). Proceedings of the 20th Annual Southern Conservation Tillage Conference for Sustainable Agriculture. Special Series SS-AGR-60, Cooperative Extension Service, Univ. of Florida, Gainesville, pp. 4751.Google Scholar
17.Flint, M.L., and Roberts, P.A.. 1988. Using crop diversity to manage pest problems: Some California examples. Amer. J. Alternative Agric. 3:163167.CrossRefGoogle Scholar
18.Good, J.M. 1968. Relation of plant parasitic nematodes to soil management practices. In G.C. Smart, Jr., and V.G. Perry (eds). Tropical Nematology. Univ. of Florida Press, Gainesville, pp. 113138.Google Scholar
19.Gray, N.F. 1987. Nematophagous fungi with particular reference to their ecology. Biological Reviews 62:245304.CrossRefGoogle Scholar
20.Hackney, R.W., and Dickerson, O.J.. 1975. Marigold, castorbean, and chrysanthemum as controls of Meloidogyne incognita and Pratylenchus alleni. J. Nematology 7:8490.Google Scholar
21.Huang, J.S. 1985. Mechanisms of resistance to root-knot nematodes. In J.N. Sasser and C.C. Carter (eds). An Advanced Treatise on Meloidogyne. Vol. I. North Carolina State Univ. Graphics, Raleigh, NC. pp. 165174.Google Scholar
22.Jaffee, B.A., Muldoon, A.E., Phillips, R., and Mangel, M.. 1990. Rates of spore transmission, mortality, and production of the nematophagous fungus Hirsutella rhossiliensis. Phytopathology 80:10831088.CrossRefGoogle Scholar
23.Johnson, A.W. 1982. Managing nematode populations in crop production. In R.D. Riggs (ed). Nematology in the Southern Region of the United States. Southern Cooperative Series Bull. 276. Arkansas Agric. Exp. Sta., Fayetteville. pp. 193203.Google Scholar
24.Johnson, A.W., and Motsinger, R.E.. 1989. Suitability of small grains as hosts of Meloidogyne species. Supplement to J. Nematology 21:650653.Google ScholarPubMed
25.Katan, J. 1981. Solar heating (solarization) of soil for control of soilborne pests. Annual Review of Phytopathology 19:211236.CrossRefGoogle Scholar
26.Kerry, B.R. 1984. Nematophagous fungi and the regulation of nematode populations in soil. Helminthological Abstracts Series B 53:114.Google Scholar
27.Kerry, B.R. 1990. Microbial control of plant-parasitic nematodes. Supplement to J. Nematology 22:621631.Google ScholarPubMed
28.Khan, A.M., Saxena, S.K., and Siddiqui, Z.A.. 1971. Effect of Tagetes erecta in reducing root infesting nematodes of tomato and okra. Indian Phytopathology 24:166169.Google Scholar
29.Maas, P.W.T. 1987. Physical methods and quarantine. In Brown, R.H. and Kerry, B.R. (eds). Principles and Practice of Nematode Control in Crops. Academic Press, Sydney, Australia, pp. 265291.Google Scholar
30.McGovern, R.J., and McSorley, R.. 1997. Physical methods of soil sterilization for disease management including soil solarization. In Rechcigl, N.A. and Rechcigl, J.E. (eds). Environmentally Safe Approaches to Crop Disease Control. CRC Lewis Publishers, Boca Raton, Florida, pp. 283313.Google Scholar
31.McSorley, R. 1996. Impact of crop management practices on soil nematode populations. Soil and Crop Sci. Soc. of Florida Proceedings 55:6366.Google Scholar
32.McSorley, R., and Dickson, D.W.. 1995. Effects of tropical rotation crops on Meloidogyne incognita and other plant-parasitic nematodes. Supplement to J. Nematology 27:535544.Google ScholarPubMed
33.McSorley, R., and Duncan, L.W.. 1995. Economic thresholds and nematode management. Advances in Plant Pathology 11:147170.CrossRefGoogle Scholar
34McSorley, R., and Gallaher, R.N.. 1992. Managing plant-parasitic nematodes in crop sequences. Soil and Crop Sci. Soc. of Florida Proceedings 51:4245.Google Scholar
35.McSorley, R., and Gallaher, R.N.. 1995. Cultural practices improve crop tolerance to nematodes. Nematropica 25:5360.Google Scholar
36.McSorley, R., and Phillips, M.S.. 1993. Modeling population dynamics and yield losses and their use in nematode management. In Evans, K., Trudgill, D.L. and Webster, J.M. (eds). Plant Parasitic Nematodes in Temperate Agriculture. CAB International, Wallingford, U.K. pp. 6185.Google Scholar
37.McSorley, R., Dickson, D.W., de Brito, J.A., and Hochmuth, R.C.. 1994. Tropical rotation crops influence nematode densities and vegetable yields. J. Nematology 26:308314.Google ScholarPubMed
38.Minton, N.A. 1986. Impact of conservation tillage on nematode populations. J. Nematology 18:135140.Google ScholarPubMed
39.Muller, R., and Gooch, P.S.. 1982. Organic amendments in nematode control. An examination of the literature. Nematropica 12:319326.Google Scholar
40.Noe, J.P. 1988. Theory and practice of the cropping systems approach to reducing nematode problems in the Tropics. J. Nematology 20:204213.Google ScholarPubMed
41.Noe, J.P., Sasser, J.N., and Imbriani, J.L.. 1991. Maximizing the potential of cropping systems for nematode management. J. Nematology 23:353361.Google ScholarPubMed
42.Noling, J.W., and Becker, J.O.. 1994. The challenge of research and extension to define and implement alternatives to methyl bromide. Supplement to J. Nematology 26:573586.Google ScholarPubMed
43.Nusbaum, C.J., and Ferris, H.. 1973. The role of cropping systems in nematode population management. Annual Review of Phytopathology 11:423440.CrossRefGoogle Scholar
44.Nyczepir, A.P. 1991. Nematode management strategies in stone fruits in the United States. J. Nematology 23:334341.Google ScholarPubMed
45.Opperman, C.H., Rich, J.R., and Dunn, R.A.. 1988. Reproduction of three root-knot nematodes on winter small grain crops. Plant Disease 72:869871.CrossRefGoogle Scholar
46.Overman, A.J., and Jones, J.P.. 1986. Soil solarization, reaction, and fumigant effects on double-cropped tomato under full-bed mulch. Proceedings of the Florida State Horticultural Soc. 99:315318.Google Scholar
47.Reddy, K.C., Soffes, A.R., Prine, G.M., and Dunn, R.A.. 1986. Tropical legumes for green manure. II. Nematode populations and their effects on succeeding crop yields. Agronomy J. 78:510.CrossRefGoogle Scholar
48.Rhoades, H.L. 1980. Relative susceptibility of Tagetes patula and Aeschynomene americana to plant nematodes in Florida. Nematropica 10:116120.Google Scholar
49.Rhoades, H.L. 1983. Effects of cover crops and fallowing on populations of Belonolaimus longicaudatus and Meloidogyne incognita and subsequent crop yields. Nematropica 13:916.Google Scholar
50.Rickard, D.A., and Dupree, A.W. Jr., 1978. The effectiveness of ten kinds of marigolds and five other treatments for control of four Meloidogyne spp. J. Nematology 10:296297.Google Scholar
51.Riggs, R.D., and Niblack, T.L.. 1993. Nematode pests of oilseed crops and grain legumes. In Evans, K., Trudgill, D.L., and Webster, J.M. (eds). Plant Parasitic Nematodes in Temperate Agriculture. CAB International, Wallingford, U.K. pp. 209258.Google Scholar
52.Rivoal, R., and Cook, R.. 1993. Nematode pests of cereals. In Evans, K., Trudgill, D.L., and Webster, J.M. (eds). Plant Parasitic Nematodes in Temperate Agriculture. CAB International, Wallingford, U.K. pp. 259303.Google Scholar
53.Roberts, P.A. 1982. Plant resistance in nematode pest management. J. Nematology 14:2433.Google ScholarPubMed
54.Roberts, P.A. 1992. Current status of the availability, development, and use of host plant resistance to nematodes. J. Nematology 24:213227.Google ScholarPubMed
55.Roberts, P.A. 1993. The future of nematology: Integration of new and improved management strategies. J. Nematology 25:383394.Google ScholarPubMed
56.Roberts, P.A., VanGundy, S.D., and McKinney, H.E.. 1981. Effect of soil temperature and planting date of wheat on Meloidogyne incognita reproduction, soil populations, and grain yield. J. Nematology 13:338345.Google ScholarPubMed
57.Rodriguez-Kabana, R. 1986. Organic and inorganic nitrogen amendments to soil as nematode suppressants. J. Nematology 18:129135.Google ScholarPubMed
58.Rodriguez-Kabana, R. 1992. Cropping systems for the management of phytonematodes. In Gommers, F.J. and Maas, P.W.T. (eds). Nematology from Molecule to Ecosystem. European Society of Nematologists, Invergowrie, Dundee, U.K. pp. 219233.Google Scholar
59.Rodriguez-Kabana, R., and Morgan-Jones, G.. 1988. Potential for nematode control by mycofloras endemic in the Tropics. J. Nematology 20:191203.Google ScholarPubMed
60.Rodriguez-Kabana, R., King, P.S., Robertson, D.G., and Weaver, C.F.. 1988. Potential of crops uncommon to Alabama for management of rootknot and soybean cyst nematodes. Supplement to J. Nematology 20:116120.Google ScholarPubMed
61.Rodriguez-Kabana, R., Robertson, D.G., Wells, L., King, P.S., and Weaver, C.F.. 1989. Crops uncommon to Alabama for the management of Meloidogyne arenaria in peanut. Supplement to J. Nematology 21:712716.Google ScholarPubMed
62.Sasser, J.N., and Freckman, D.W.. 1988. A world perspective on nematology: The role of the Society. In Veech, J.A. and Dickson, D.W. (eds). Vistas on Nematology. Society of Nematologists, Hyattsville, Maryland, pp. 714.Google Scholar
63.Sasser, J.N., and Kirby, M.F.. 1979. Crop Cultivars Resistant to Root-knot Nematodes, Meloidogyne Species. Department of Plant Pathology, North Carolina State Univ., Raleigh, NC.Google Scholar
64.Schmitt, D.P. 1991. Management of Heterodera glycines by cropping and cultural practices. J. Nematology 23:348352.Google ScholarPubMed
65.Schmitt, D.R., and Barker, K.R.. 1988. Incidence of plant-parasitic nematodes in the coastal plain of North Carolina. Plant Disease 72:107110.CrossRefGoogle Scholar
66.Seinhorst, J.W. 1970. Dynamics of populations of plant parasitic nematodes. Annual Review of Phytopathology 8:131156.CrossRefGoogle Scholar
67.Small, R.W. 1987. A review of the prey of predatory soil nematodes. Pedobiologia 30:179206.Google Scholar
68.Smiley, R.W. 1996. Diseases of wheat and barley in conservation cropping systems of the semiarid Pacific Northwest. Amer. J. Alternative Agric. 11:95103.CrossRefGoogle Scholar
69.Smolik, J.D., Dobbs, T.L., and Rickerl, D.H.. 1995. The relative sustainability of alternative, conventional, and reduced-till farming systems. Amer. J. Alternative Agric. 10:2535.CrossRefGoogle Scholar
70.Stirling, G.R. 1991. Biological Control of Plant Parasitic Nematodes. CAB International, Wallingford, U.K. 71. Taylor, A.L., and J.N. Sasser. 1978. Biology, Identification and Control of Root-knot Nematodes (Meloidogyne Species). North Carolina State Univ. Graphics, Raleigh, NC.Google Scholar
72.Tedford, E.C., Jaffee, B.A., Muldoon, A.E., Anderson, C.E., and Westerdahl, B.B.. 1993. Parasitism of Heterodera schachtii and Meloidogyne javanica by Hirsutella rhossiliensis in microplots over two growing seasons. J. Nematology 25:427433.Google ScholarPubMed
73.Trivedi, P.C., and Barker, K.R.. 1986. Management of nematodes by cultural practices. Nematropica 16:213236.Google Scholar
74.Trudgill, D.L. 1991. Resistance to and tolerance of plant parasitic nematodes in plants. Annual Review of Phytopathology 29:167192.CrossRefGoogle Scholar
75.Vandermeer, J.H. 1990. Intercropping. In Carroll, C.R., Vandermeer, J.H., and Rosset, P.M. (eds). Agroecology. McGraw-Hill Publishing Co., New York, N.Y. pp. 481516.Google Scholar
76.Walter, D.E., Hunt, H.W., and Elliot, E.T.. 1988. Guilds or functional groups? An analysis of predatory arthropods from a shortgrass steppe soil, Pedobiologia 31:247260.CrossRefGoogle Scholar
77.Watson, J.R. 1921. Control of rootknot, II. Bull. 159. Agric. Exp. Sta., Univ. of Florida, Gainesville.Google Scholar
78.Watson, J.R. 1945. Mulches to control root-knot. Proceedings of the Florida Academy of Sci. 7:151153.Google Scholar
79.Weischer, B.A. 1994. Where to go in phytonematode control? Phytoparasitica 22:9599.CrossRefGoogle Scholar
80.Wilcox-Lee, D., and Loria, R.. 1987. Effects of nematode parasitism on plant-water relations. In Veech, J.A. and Dickson, D.W. (eds). Vistas on Nematology. Society of Nematologists, Hyattsville, Maryland, pp. 260266.Google Scholar