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Four Foliar Pathogenic Fungi for Controlling Seedling Johnsongrass (Sorghum halepense)

Published online by Cambridge University Press:  12 June 2017

Mou-Yen Chiang ,
C. G. Van Dyke  and
W. S. Chilton
Mou-Yen Chiang
Affiliation:
Dep. Bot., North Carolina State Univ., Box 7612, Raleigh, NC 27695-7612
C. G. Van Dyke
Affiliation:
Dep. Bot., North Carolina State Univ., Box 7612, Raleigh, NC 27695-7612
W. S. Chilton
Affiliation:
Dep. Bot., North Carolina State Univ., Box 7612, Raleigh, NC 27695-7612
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Abstract

Johnsongrass seedlings were inoculated with conidia of four fungi, Exserohilum turcicum (Et), Colletotrichum graminicola (Cg), Gloeocercospora sorghi (Gs), and/or Bipolaris halepense (Bh). Leaf injury from Et was the most extensive. Johnsongrass was equally or more susceptible to these fungi 7 days after emergence (DAE) than at 14, 21, or 28 DAE. The greatest leaf injury, more than 90%, was induced by Et with 2 × 105 conidia/ml and a 24-h dew period. Sequential inoculation with Et at 15 and 20 DAE resulted in injury to more leaves than a single inoculation 15 DAE. No synergistic or antagonistic effects were observed in combinations of Et with Gs or Cg. Injury was limited to exposed leaves and sheaths, injured seedlings resumed growth and developed new leaves. Development of new leaves from inoculated plants was reduced by 30% or less at 14 days after inoculation (DAI) compared to uninoculated plants. Inoculation with Et or Bh was not as effective as paraquat or sethoxydim, since treatment with both herbicides resulted in seedling death. Seedling kill was not observed in any fungal tests.

Keywords

Exserohilum turcicum (Pass.) Leonard & Sugg.Colletotrichum graminicola (Ces.) G. W. Wils.Bipolaris halepense Chiang, Leonard & Van DykeGloeocercospora sorghi Bain & EdgertonSorghum halepense (L.) Pers., ♯3SORHAparaquat, 1,1′-dimethyl-4,4-bipyridinium ionsethoxydim, 2-[1-ethoxyimino)butyl]-5-[2-ethylthio)propyl]-3-hydroxy-2-cyclohexen-1-oneBiological controlmycoherbicidesequential inoculationmixed inoculationExserohilum turcicumColletotrichum graminicolaBipolaris halepenseGloeocercospora sorghiBipolaris sp., SORHA
Type
Weed Control and Herbicide Technology
Information
Weed Science , Volume 37 , Issue 6 , November 1989 , pp. 802 - 809
Copyright
Copyright © 1989 by the Weed Science Society of America 

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References

Literature Cited

1. Anonymous. 1986. The 1986 North Carolina Agric. Chemicals Manual. School of Agric. and Life Sciences, North Carolina State Univ., Raleigh, NC. 312 pp.Google Scholar
2. Banks, P. A. and Tripp, T. N. 1983. Control of johnsongrass (Sorghum halepense) in soybeans (Glycine max) with foliar-applied herbicides. Weed Sci. 31:628633.CrossRefGoogle Scholar
3. Chiang, M. Y., Leonard, K. J., and Van Dyke, C. G. 1986. Bipolaris halepense: A new species from Sorghum halepense (johnsongrass). Mycologia 81:532538.CrossRefGoogle Scholar
4. Chiang, M. Y., Van Dyke, C. G., and Leonard, J. K. 1989. Evaluation of endemic foliar fungi for potential control of johnsongrass [Sorghum halepense (L.) Pers.]: Screening and host-range tests. Plant Dis. 73:459464.CrossRefGoogle Scholar
5. Daniel, J. T., Templeton, G. E., Smith, R. J. Jr., and Fox, W. T. 1973. Biological control of northern jointvetch in rice with an endemic fungal disease. Weed Sci. 21:303307.CrossRefGoogle Scholar
6. Downs, R. J. and Thomas, J. F. 1983. Phytotron Procedure Manual: For Controlled Environment Research at the Southeastern Plant Environment Laboratory. Tech. Bull. No. 244 (Revised), North Carolina Agric. Res. Serv., North Carolina State Univ., Raleigh, NC. 44 pp.Google Scholar
7. Frederiksen, R. A., ed. 1986. Compendium of Sorghum Diseases. Am. Phytopathol. Soc., St. Paul, MN.Google Scholar
8. Freeman, T. E. and Charudattan, R. 1980. Biological control of weeds with plant pathogens. Prospectus—1980. Pages 293299 in Proceedings V International Symposium Biological Control of Weeds. Delfosse, E. S., ed. Commonwealth Sci. and Ind. Res. Org., Brisbane, Australia. 649 pp.Google Scholar
9. Grand, L. F., ed. 1985. North Carolina Plant Disease Index. North Carolina Agric. Res. Serv. Tech. Bull. 240 (revised). 157 pp.Google Scholar
10. Hatzios, K. K. 1984. Interactions between selected herbicides and protectants on corn (Zea mays). Weed Sci. 32:5158.CrossRefGoogle Scholar
11. Holm, L. G., Plucknett, D. L., Pancho, J. V., and Herberger, J. P. 1977. The Worlds Worst Weeds: Distribution and Biology. Univ. Press of Hawaii, Honolulu, HI. 609 pp.Google Scholar
12. Hosaka, H., Inaba, H., and Ishikawa, H. 1984. Response of monocotyledons to BAS 9052 OH. Weed Sci. 32:2832.CrossRefGoogle Scholar
13. Keeley, P. E., Thullen, R. J., and Caster, C. H. 1987. Repeated annual applications of herbicides for control of rhizome johnsongrass (Sorghum halepense) in cotton (Gossypium hirsutum). Weed Sci. 35:7579.CrossRefGoogle Scholar
14. McWhorter, C. G. 1961. Morphology and development of johnsongrass plants from seeds and rhizomes. Weeds 9:558562.CrossRefGoogle Scholar
15. McWhorter, C. G. and Chandler, J. M. 1982. Conventional weed control technology. Pages 527 in Biological Control of Weeds with Plant Pathogens. Charudattan, R. and Walker, H. L., eds. John Wiley & Sons, New York. 293 pp.Google Scholar
16. Sprague, R. 1950. Diseases of Cereals and Grasses in North America. The Ronald Press Co., New York. 538 pp.Google Scholar
17. Tarr, S.A.J. 1962. Diseases of Sorghum, Sudangrass, and Broom corn. Commonwealth Mycological Inst., Kew, Surrey, England. 380 pp.Google Scholar
18. Templeton, G. E., TeBeest, D. O., and Smith, R. J. Jr. 1979. Biological weed control with mycoherbicides. Annu. Rev. Phytopath. 17:301310.CrossRefGoogle Scholar
19. Templeton, G. E. 1982. Status of weed control with pathogens. Pages 2944 in Biological Control of Weeds with Plant Pathogens. Charudattan, R. and Walker, H. L., eds. John Wiley and Sons, New York. 293 pp.Google Scholar
20. Templeton, G. E., Weideman, G. J., and Smith, R. J. Jr. 1986. Biological weed control. Pages 99109 in Research Methods in Weed Science. 3rd ed. Camper, N. D., ed. South. Weed Sci. Soc., Champaign, IL. 486 pp.Google Scholar
21. Walker, H. L. and Sciumbato, G. L. 1979. Evaluation of Alternaria macrospora as a potential biocontrol agent for spurred anoda (Anoda cristata): Host range studies. Weed Sci. 27:612614.CrossRefGoogle Scholar
22. Walker, H. L. 1981. Fusarium lateritium: A pathogen of spurred anoda (Anoda cristata), prickly sida (Sida spinosa), and velvetleaf (Abutilon theophrasti). Weed Sci. 29:629631.CrossRefGoogle Scholar
23. Walker, H. L. 1982. A seedling blight of sicklepod caused by Alternaria cassiae . Plant Dis. 66:426428.CrossRefGoogle Scholar
24. Wapshere, A. J. 1982. Biological control of weeds. Pages 4756 in Biology and Ecology of Weeds. Holzner, W. and Numata, N., eds. Dr. W. Junk Publishers, The Hague.CrossRefGoogle Scholar
25. Winder, R. S. and Van Dyke, C. G. 1987. A rapid screening and culture technique for detecting potential fungal pathogens of weeds. J. Elisha Mit. Sci. Soc. 102:16.Google Scholar
26. Winder, R. S. and Van Dyke, C. G. 1990. The pathogenicity, virulence, and biocontrol potential of two Bipolaris species on johnsongrass (Sorghum halepense). Weed Sci. (In press).CrossRefGoogle Scholar