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Biological Control of Northern Jointvetch (Aeschynomene virginica) in Rice (Oryza sativa) and Soybeans (Glycine max) — a Researcher's View

Published online by Cambridge University Press:  12 June 2017

Roy J. Smith Jr.
Roy J. Smith Jr.*
Affiliation:
Agric. Res. Serv., U.S. Dep. Agric., Stuttgart, AR 72160
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Weed control strategies for rice (Oryza sativa L.) and soybean [Glycine max (L.) Merr.] emphasize integration of cultural and chemical practices (16, 30, 31). Numerous herbicides are registered and used as preplant, preemergence, or post-emergence applications for control of weeds in rice and soybean (3, 16, 25). Although these herbicide treatments control most of the problem weeds in rice and soybean, most fail to control northern jointvetch [Aeschynomene virginica (L.) B.S.P. # AESVI] in either crop. The two most effective herbicides, 2,4,5-T [2-(2,4,5-trichlorophenoxy) acetic acid] and silvex [2-(2,4,5-trichlorophenoxy) propanoic acid], for control of northern jointvetch in rice have been under the U.S. Environmental Protection Agency's (EPA) Rebuttal Presumption Against Registration (RPAR) process which may ultimately cancel the use of both herbicides in rice (50). New, effective control strategies are needed for control of northern jointvetch in rice and soybean.

Type
Research Article
Information
Weed Science , Volume 34 , Issue S1: Supplement 1: Microbiological Control of Weeds Symposium , 1986 , pp. 17 - 23
Copyright
Copyright © 1986 by the Weed Science Society of America 

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References

Literature Cited

1. Andres, L. A. 1982. Integrating weed biological control agents into a pest-management program. Weed Sci. 30:(Suppl. 1)2530.CrossRefGoogle Scholar
2. Arkansas Cooperative Extension Service. 1982. Collego–a biological herbicide for the control of northern jointvetch. Rice Information No. 65. Univ. Arkansas, Little Rock, AR. 4 pp.Google Scholar
3. Arkansas Cooperative Extension Service. 1983. Recommended chemicals for weed and brush control. Miscellaneous Publ. No. 44. Univ. Arkansas, Little Rock, AR. 80 pp.Google Scholar
4. Arkansas Cooperative Extension Service. 1983. Collego–a biological herbicide for the control of northern jointvetch. Rice Information No. 65 (Rev.). Univ. Arkansas, Little Rock, AR. 4 pp.Google Scholar
5. Arkansas Cooperative Extension Service. 1983. Insecticide recommendations for Arkansas. Miscellaneous Publ. No. 144. Univ. Arkansas, Little Rock, AR. 106 pp.Google Scholar
6. Arkansas Cooperative Extension Service. 1983. Rice Production Handb. Miscellaneous Publ. No. 192. Univ. Arkansas, Little Rock, AR. 48 pp.Google Scholar
7. Arkansas Cooperative Extension Service. 1983. Abstract of pesticides suggested for plant disease control. Miscellaneous Publ. No. 154. Univ. Arkansas, Little Rock, AR. 18 pp.Google Scholar
8. Atkins, J. G. 1973. Rice diseases. Pages 141150 in Rice in the United States: Varieties and Production. Agric. Handb. No. 289. U.S. Dep. Agric. U.S. Gov. Printing Office, Washington, DC.Google Scholar
9. Beasley, J. N., Patterson, L. T., Templeton, G. E., and Smith, R. J. Jr. 1975. Responses of animals to a fungus used as a biological herbicide. Arkansas Farm Res. 24(6): 16.Google Scholar
10. Bowers, R. C. 1982. Commercialization of microbial biological control agents. Pages 157173 in Charudattan, R. and Walker, H. L., eds. Biological Control of Weeds with Plant Pathogens. John Wiley and Sons, New York.Google Scholar
11. Boyette, C. D., Templeton, G. E., and Smith, R. J. Jr. 1979. Control of winged waterprimrose (Jussiaea decurrens) and northern jointvetch (Aeschynomene virginica) with fungal pathogens. Weed Sci. 27:497501.Google Scholar
12. Churchill, B. W. 1982. Mass production of microorganisms for biological control. Pages 139156 in Charudattan, R. and Walker, H. L., eds. Biological Control of Weeds with Plant Pathogens. John Wiley and Sons, New York.Google Scholar
13. Conway, K. E., Freeman, T. E., and Charudattan, R. 1978. Development of Cercospora rodmanii as a biological control for Eichhornia crassipes . Pages 225230 in Proc. of the European Weed Res. Soc. Fifth Symp. on Aquatic Weeds. Wageningen, The Netherlands.Google Scholar
14. Daniel, J. T., Templeton, G. E., and Smith, R. J. Jr. 1974. Control of Aeschynomene sp. with Colletotrichum gloeosporioides Penz. f. sp. aeschynomene . U.S. Patent 3,849,104.Google Scholar
15. 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.Google Scholar
16. Eastin, E. F. 1981. Weed management systems for U.S. rice. Pages 539547 in Pimentel, D., ed. CRC Handb. of Pest Manage. in Agric. Vol. 3. CRC Press, Inc., Boca Raton, FL.Google Scholar
17. Fryer, J. D. 1983. Communication of weed science technologies in developing countries. Pages 116 in Williams, R. D., ed. Proc. Symp. sponsored by the Int. Weed Sci. Soc. and the Weed Sci. Soc. Am., St. Louis, MO, Feb. 10, 1983. Published by the Int. Plant Prot. Ctr., Oregon State Univ., Corvallis, OR, Oct. 1983 (IPPC document No. 49–B–83).Google Scholar
18. Gifford, J. R. 1973. Insects and their control. Pages 151154 in Rice in the United States: Varieties and Production. Agric. Handb. No. 289. U.S. Dep. Agric., U.S. Gov. Printing Office, Washington, DC.Google Scholar
19. Hill, G. D. 1982. Herbicide technology for integrated weed management systems. Weed Sci. 30:(Suppl. 1)3539.CrossRefGoogle Scholar
20. Huey, B. A. 1983. Effect of weed seeds on market value of milled rice. Rice Information No. 47 (Rev.). Univ. Arkansas Coop. Ext. Serv., Little Rock, AR 6 pp.Google Scholar
21. Huey, B. A. and Boston, N. 1983. You and your DD50 computer printout. Miscellaneous Publ. No. 211. Univ. Arkansas, Little Rock, AR. 2 pp.Google Scholar
22. Kirkpatrick, T. L., Templeton, G. E., TeBeest, D. O., and Smith, R. J. Jr. 1982. Potential of Colletotrichum malvarum for biological control of prickly sida. Plant Dis. 66:323325.CrossRefGoogle Scholar
23. Klerk, R. A., Smith, R. J. Jr., and TeBeest, D. O. 1985. Integration of a microbial herbicide into weed pest control programs in rice (Oryza sativa). Weed Sci. 33:9599.Google Scholar
24. McWhorter, C. G. and Shaw, W. C. 1982. Research needs for integrated weed management systems. Weed Sci. 30:(Suppl. 1):4045.Google Scholar
25. Pedigo, L. P., Higgins, R. A., Hammond, R. B., and Bechinski, E. J. 1981. Soybean pest management. Pages 417537 in Pimentel, D., ed. CRC Handb. of Pest Manage. in Agric. Vol. 3. CRC Press, Inc., Boca Raton, FL.Google Scholar
26. Quimby, P. C. Jr. and Walker, H. L. 1982. Pathogens as mechanisms for integrated weed management. Weed Sci. Suppl. to Vol. 30:3034.CrossRefGoogle Scholar
27. Shaw, W. C. 1982. Integrated weed management systems technology for pest management. Weed Sci. 30: (Suppl. 1)212.CrossRefGoogle Scholar
28. Smith, R. J. Jr. 1968. Weed competition in rice. Weed Sci. 16:252255.Google Scholar
29. Smith, R. J. Jr. 1982. Integration of microbial herbicides with existing pest management programs. Pages 189203 in Charudattan, R. and Walker, H.L., eds. Biological Control of Weeds with Plant Pathogens. John Wiley and Sons, New York, NY.Google Scholar
30. Smith, R. J. Jr. and Moody, K. 1981. Weed control practices in rice. Pages 458462 in Kommedahl, T., ed. Integrated Plant Protection for Agric. Crops and Forest Trees, Vol. II. (Proc. Symp. IX Int. Congr. of Plant Protection, Washington, DC, August 5–11, 1979).Google Scholar
31. Smith, R. J. Jr., Flinchum, W. T., and Seaman, D. E. 1977. Weed control in U.S. rice production. U.S. Dep. Agric., Agric. Handb. 497. U.S. Gov. Printing Office, Washington, DC. 75 pp.Google Scholar
32. Smith, R. J. Jr., Daniel, J. T., Fox, W. T., and Templeton, G. E. 1973. Distribution in Arkansas of a fungus disease used for bio-control of northern jointvetch in rice. Plant Dis. Rep. 57:695697.Google Scholar
33. TeBeest, D. O. 1982. Survival of Colletotrichum gloeosporioides f. sp. aeschynomene in rice irrigation water and soil. Plant Dis. 66:469472.Google Scholar
34. TeBeest, D. O. and Brumley, J. M. 1978. Colletotrichum gloeosporoides borne within the seed of Aeschynomene virginica . Plant Dis. Rep. 62:675678.Google Scholar
35. TeBeest, D. O. and Templeton, G. E. 1985. Mycoherbicides progress in the biological control of weeds. Plant Dis. 69:610.Google Scholar
36. TeBeest, D. O., Templeton, G. E., and Smith, R. J. Jr. 1978. Temperature and moisture requirements for development of anthracnose on northern jointvetch. Phytopathology 68:389393.CrossRefGoogle Scholar
37. TeBeest, D. O., Templeton, G. E., and Smith, R. J. Jr. 1978. Histopathology of Colletotrichum gloeosporioides f. sp. aeschynomene on northern jointvetch. Phytopathology 68:12711275.CrossRefGoogle Scholar
38. TeBeest, D. O., Templeton, G. E., and Smith, R. J. Jr. 1978. Decline of a biocontrol fungus during winter. Arkansas Farm Res. 27(1):12.Google Scholar
39. Templeton, G. E. 1982. Biological herbicides: discovery, development, deployment. Weed Sci. 30:430433.Google Scholar
40. Templeton, G. E. 1982. Status of weed control with plant pathogens. Pages 2944 in Charudattan, R. and Walker, H.L., eds. Biological Control of Weeds with Plant Pathogens. John Wiley and Sons, New York.Google Scholar
41. Templelton, G. E. 1983. Integrating biological control of weeds in rice into a weed control program. Pages 219225 in Proc. of the Conf. on Weed Control in Rice (Aug. 31–Sept. 4, 1981). Int. Rice Res. Inst., Los Banos, Laguna, Philippines.Google Scholar
42. Templeton, G. E. and Smith, R. J. Jr. 1977. Managing weeds with pathogens. Pages 167176 in Horsfall, J. G. and Cowling, E. B., eds. Plant Disease: An Advanced Treatise. Vol. 1. Academic Press Inc., New York.Google Scholar
43. Templeton, G. E. and Trujillo, E. E. 1981. The use of plant pathogens in the biological control of weeds. Pages 345350 in Pimentel, D., ed. CRC Handb. of Pest Manage. in Agric Vol. 2. CRC Press, Inc. Boca Raton, FL.Google Scholar
44. Templeton, G.E., Smith, R. J. Jr., and Klomparens, W. 1980. Commercialization of fungi and bacteria for biological control. Biocontrol News and Information 1(4):291294.Google Scholar
45. Templeton, G. E., TeBeest, D. O., and Smith, R. J. Jr. 1976. Development of an endemic fungal pathogen as a mycoherbicide for biocontrol of northern jointvetch in rice. Pages 214216 in Freeman, T. E., ed. Proc. IV Int. Symp. on Biol. Control of Weeds.Google Scholar
46. Templeton, G. E., TeBeest, D. O., and Smith, R. J. Jr. 1979. Biological weed control with mycoherbicides. Annu. Rev. Phytopathol. 17:301310.Google Scholar
47. Templeton, G. E., TeBeest, D. O., and Smith, R. J. Jr. 1982. Biological control of northern jointvetch, Aeschynomene virginica, with Colletotrichum gloeosporioides f. sp., aeschynomene . Pages 241242 in Charudattan, R. and Walker, H. L., eds. Biological Control of Weeds with Plant Pathogens. John Wiley and Sons, New York.Google Scholar
48. Templeton, G. E., Smith, R. J. Jr., TeBeest, D. O., Beasley, J. N., and Klerk, R. A. 1981. Field evaluation of dried fungus spores for biocontrol of curly indigo in rice and soybeans. Arkansas Farm Res. 30(6):8.Google Scholar
49. U.S. Department of Agriculture. 1978. Biological agents for pest control: status and prospects. U.S. Gov. Printing Office, Washington, DC. 138 pp.Google Scholar
50. U.S. Department of Agriculture. 1982. The Biologic and Economic Assessment of 2,4,5-T. Tech. Bull. 1671. U.S. Gov. Printing Office, Washington, DC. 445 pp. (A report of the 2,4,5-T assessment team to the rebuttable presumption against registration of 2,4,5-T submitted to EPA February 15, 1979).Google Scholar
51. Walker, H.L. 1981. Granular formulation of Alternaria macrospora for control of spurred anoda (Anoda cristata). Weed Sci. 29:342345.Google Scholar
52. Walker, H.L. 1981. Factors affecting biological control of spurred anoda (Anoda cristata) with Alternaria macrospora . Weed Sci. 29:505507.Google Scholar
53. Walker, H.L. 1982. Seedling blight of sicklepod caused by Alternaria cassiae . Plant Dis. 66:426428.CrossRefGoogle Scholar
54. Walker, H.L. and Connick, W.J. Jr. 1983. Sodium alginate for production and formulaltion of mycoherbicides. Weed Sci. 31:333338.Google Scholar
55. Walker, H. L. and Riley, J. A. 1982. Evaluation of Alternaria cassiae for the biocontrol of sicklepod (Cassia obtusifolia). Weed Sci. 30:651654.Google Scholar
56. 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.Google Scholar