Hostname: page-component-8448b6f56d-dnltx Total loading time: 0 Render date: 2024-04-24T13:25:58.336Z Has data issue: false hasContentIssue false
  • English
  • Français

Evaluation of Rust Fungi as Biological Control Agents of Weedy Centaurea in North America

Published online by Cambridge University Press:  12 June 2017

Alan K. Watson  and
Michel Clement
Alan K. Watson
Affiliation:
Dep. Plant Sci., Macdonald College of McGill Univ., Ste-Anne-de-Bellevue, Quebec H9X 1C0
Michel Clement
Affiliation:
Dep. Plant Sci., Macdonald College of McGill Univ., Ste-Anne-de-Bellevue, Quebec H9X 1C0
Get access Rights & Permissions [Opens in a new window]

Extract

Four Centaurea species, diffuse knapweed (C. diffusa Lam. # CENDI, spotted knapweed (C. maculosa Lam. # CENMA), yellow starthistle (C. solstitatilis L. # CENSO), and the closely related Russian knapweed [Acroptilon repens (L.) DC. syn. Centaurea repens L. # CENRE] are serious introduced weeds which infest extensive areas of pasture and rangeland in Canada and the United States (1, 10, 14, 17, 18, 26, 30). Russian knapweed and yellow starthistle are also troublesome in cultivated land (1, 14, 26). These four species are members of the Cardueae tribe of the Asteraceae family and have been accidentally introduced from Eurasia as contaminants in crop seed.

Type
Research Article
Information
Weed Science , Volume 34 , Issue S1: Supplement 1: Microbiological Control of Weeds Symposium , 1986 , pp. 7 - 10
Copyright
Copyright © 1986 by the Weed Science Society of America 

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

Literature Cited

1. Callihan, R. H., Scheley, R. L., and Thill, D. C. 1982. Yellow starthistle identification and control. Univ. Idaho Coop. Ext. Serv. Agric. Exp. Stn., Moscow. Current Inf. Ser. No. 634. 4 pp.Google Scholar
2. Clement, M. and Watson, A. K. 1983. Collection of rust pathogens from eastern and central Europe for the biological control of spotted knapweed (Centaurea maculosa Lam.). (Abstract). Can. J. Plant Pathol. 5:203.Google Scholar
3. Conners, I. L. 1943. The rusts of safflower. Phytopathology 33:789796.Google Scholar
4. Cummins, G. B. 1978. Rust fungi on legumes and composites in North America. Univ. Arizona Press, Tucson. 424 pp.Google Scholar
5. Fragoso, R. G. 1924. Flora Ibérica, Uredales, Tomo. I:Género Puccinia . Museo Nacional de Ciancias Naturales, Madrid. 416 pp.Google Scholar
6. Gäumann, E. 1959. Die Rostpilze Mitteleuropas. Büchler & Co., Bern. 1407 pp.Google Scholar
7. Guyot, A. L. 1967. Les rouilles des Centaurées. Uredineana 6:49161.Google Scholar
8. Harris, P. 1980. Effects of Urophora affinis Frfld. and U. quadrifasciata (Meig.) (Diptera:Tephritidae) on Centaurea diffusa Lam. and C. maculosa Lam. (Compositae). Z. Angew. Entomol. 90:190201.Google Scholar
9. Harris, P. 1980. Establishment of Urophora affinis Frfld. and U. quadrifasciata (Meig.) (Diptera:Tephritidae) in Canada for the biological control of diffuse and spotted knapweed. Z. Angew. Entomol. 89:504514.Google Scholar
10. Harris, P. and Cranston, R. 1979. An economic evaluation of control methods for diffuse and spotted knapweed in western Canada. Can. J. Plant Sci. 59:375382.CrossRefGoogle Scholar
11. Harris, P. and Myers, J. H. 1984. Centaurea diffusa Lam. and C. maculosa Lam. s. lat., diffuse and spotted knapweed (Compositae). Pages 127137 in Kelleher, J. S. and Hulme, M.S., Biological Control Programmes Against Insects and Weeds in Canada 1969–1980. Commonw. Agric. Bur., Farnham Royal. 410 pp.Google Scholar
12. Ialongo, M. T. and Boldt, P. E. 1977. Ricerche preliminari sulla specificita' di Puccinia centaureae DC. su Centaurea sphaerocephala L. Annali dell' Instituto Sperimentale per la Patologia Vegetale V (1976–1977) 37.Google Scholar
13. Klingman, D. L. and Coulson, J. R. 1982. Guidelines for introducing foreign organisms into the U.S. for biological control of weeds. Weed Sci. 30:661667.CrossRefGoogle Scholar
14. Maddox, D. M. 1981. Introduction, phenology, and density of yellow starthistle in coastal, intercoastal and central valley situations in California. USDA Agric. Res. Serv., Agric. Res. Results, West. Series No. 20. 33 pp.Google Scholar
15. Maddox, D. M. 1982. Biological control of diffuse knapweed (Centaurea diffusa) and spotted knapweed (C. maculosa). Weed Sci. 30:7682.Google Scholar
16. Melching, J. S., Bromfield, K. R., and Kingsolver, C. H. 1983. The plant pathogen containment facility at Frederick, Maryland. Plant Dis. 67:717722.Google Scholar
17. Moore, R. J. 1972. Distribution of native and introduced knapweeds (Centaurea) in Canada and the United States. Rhodora 74:331346.Google Scholar
18. Moore, R. J. and Frankton, C. 1974. The thistles of Canada. Can. Dep. Agric. Monograph No. 10. 111 pp.Google Scholar
19. Savile, D.B.O. 1944. Safflower. Pages 2829 in Conners, I. L. and Savile, D.B.O. Twenty-third Annu. Rpt. Can. Plant Dis. Surv. 1943. 122 pp.Google Scholar
20. Savile, D.B.O. 1970. Autoecious Puccinia species attacking Cardueae in North America. Can. J. Bot. 48:15671584.Google Scholar
21. Savile, D.B.O. 1970. Some Eurasian Puccinia species attacking Cardueae. Can. J. Bot. 48:15531566.Google Scholar
22. Savile, D.B.O. 1973. A variety of Puccinia centaureae on Centaurea diffusa . Can. J. Bot. 51:10771078.Google Scholar
23. Traquair, J. A. and Kokko, E. G. 1983. Urediniospore morphology of Puccinia species attacking Cardueae. Can. J. Bot. 61:20472051.CrossRefGoogle Scholar
24. Urie, A. L., Leininger, L. N., and Zimmer, D. E. 1968. Effects of degree and time of defoliation on yield and related attributes of safflower. Crop Sci. 8:747750.CrossRefGoogle Scholar
25. Viennot-Bourgin, G. 1958. Contribution a la connaissance des champignons parasites de l'Iran. Ann. des Epiphytes Ser. C II: 97210.Google Scholar
26. Watson, A. K. 1980. The biology of Canadian weeds. 43. Acroptilon (Centaurea) repens (L.) DC. Can. J. Plant Sci. 60:9931004.Google Scholar
27. Watson, A. K. 1982. Quarantine laboratory for biological weed control research with exotic plant pathogens. Abstracts, 1982 Meeting. Weed Sci. Soc. Am., Boston. Pages 6869.Google Scholar
28. Watson, A. K. and Alkhoury, I. 1981. Response of safflower cultivars to Puccinia jaceae collected from diffuse knapweed in eastern Europe. Pages 301305 in Delfosse, E. S., Proc. V Int. Symp. Biol. Control Weeds. Brisbane, Australia. July 1980. 649 pp.Google Scholar
29. Watson, A. K. and Harris, P. 1984. Acroptilon repens (L.) DC., Russian knapweed (Compositae). Pages 105110 in Kelleher, J. S. and Hulme, M. S., Biological Control Programmes Against Insects and Weeds in Canada 1969–1980. Commonw. Agric. Bur., Farnham Royal. 410 pp.Google Scholar
30. Watson, A. K. and Renney, A. J. 1974. The biology of Canadian weeds. 6. Centaurea diffusa Lam. and C. maculosa Lam. Can. J. Plant Sci. 54:687701.Google Scholar
31. Watson, A. K. and Sackston, W. E. 1984. Plant pathogen containment (Quarantine) facility at Macdonald College. Can. J. Plant Pathol. 7:177180.Google Scholar
32. Watson, A. K., Schroeder, D., and Alkhoury, I. 1981. Collection of Puccinia species from diffuse knapweed in eastern Europe. Can. J. Plant Pathol. 3:68.Google Scholar
33. Young, S., Brown, W. W., and Klinger, B. 1970. Nigropallidal encephalomacia in horses caused by ingestion of weeds of the genus Centaurea . J. Am. Vet. Med. Assoc. 157:16021605.Google Scholar
34. Zimmer, D. E. and Jensen, J. J. 1970. Seedling rust and yield of safflower. Plant Dis. Rep. 54:364367.Google Scholar
35. Zimmer, D. E. and Urie, A. L. 1968. Influence of foliage rust on yeild, test weight, and oil percentage of safflower seed. Plant Dis. Rep. 52:876878.Google Scholar