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Factors Influencing Biocontrol of Velvetleaf (Abutilon theophrasti) and Prickly Sida (Sida spinosa) with Fusarium lateritium

Published online by Cambridge University Press:  12 June 2017

C. Douglas Boyette
Affiliation:
Ctr. for Alluvial Plains Studies, Delta State Univ., Cleveland, MS 38733
H. Lynn Walker
Affiliation:
South. Weed Sci. Lab., Stoneville, MS 38776

Abstract

In greenhouse and controlled-environment tests, velvetleaf (Abutilon theophrasti Medic. ♯ ABUTH) and prickly sida (Sida spinosa L. ♯ SIDSP) control with Fusarium lateritium Nees ex Fr. was affected by inoculum concentration and plant growth stage at the time of inoculation, by postinoculative air temperature, and by dew period duration and temperature. A higher level of control of both weeds was obtained with inoculum concentrations of 7.5 × 105 and 1.5 × 106 macroconidia/ml when the weeds had fewer than seven true leaves. Postinoculative air temperatures above 25 C significantly reduced control of both weeds. Mortality of both species was higher at dew temperatures of 25 C than at temperatures of either 15 or 35 C. At least 12 h of dew at 25 C was required to achieve satisfactory control of prickly sida, while a dew period of 16 h was required to achieve a comparable level of control of velvetleaf.

Type
Weed Control and Herbicide Technology
Copyright
Copyright © 1985 by the Weed Science Society of America 

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References

Literature Cited

1. Chandler, J. M. 1977. Competition of spurred anoda, velvetleaf, prickly sida, and Venice mallow in cotton. Weed Sci. 25:151158.CrossRefGoogle Scholar
2. Chandler, J. M. 1981. Estimated weed losses of crops to weeds. Pages 95109 in Pimental, D., ed. CRC Handbook of Pest Management Vol. 1, Chemical Rubber Co. Press, Boca Raton, FL.Google Scholar
3. Colton, C. E. and Einhellig, F. A. 1980. Allelopathic mechanisms of velvetleaf (Abutilon theophrasti Medic. Malvaceae) on soybean. Am. J. Bot. 67:14071413.CrossRefGoogle Scholar
4. Eaton, B. J., Russ, O. G., and Feltner, K. C. 1976. Competition of velvetleaf, prickly sida, and Venice mallow in soybeans. Weed Sci. 24:224228.CrossRefGoogle Scholar
5. Egley, G. H. 1976. Germination of developing prickly sida seeds. Weed Sci. 24:239243.Google Scholar
6. Hagood, E. S. Jr., Bauman, T. T., Williams, J. L., and Schreiber, M. M. 1980. Growth analysis of soybeans (Glycine max) in competition with velvetleaf (Abutilon theophrasti). Weed Sci. 28:729734.Google Scholar
7. Harvey, R. G., Andrew, R. H., and Ruscoe, A. W. 1977. Giant foxtail and velvetleaf control in sweet corn. Agron. J. 69:761764.Google Scholar
8. Herr, D. E. and Stroube, E. W. 1970. Velvetleaf control as influenced by herbicide placement and seed depth. Weed Sci. 8:459461.CrossRefGoogle Scholar
9. Ivy, H. W. and Baker, R. S. 1972. Prickly sida competition in cotton. Weed Sci. 20:137139.Google Scholar
10. Walker, H. L. 1981. Factors affecting biological control of spurred anoda (Anoda cristata) with Alternaria macrospora . Weed Sci. 29:505507.Google Scholar
11. 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