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Prodiamine Controlled Florida Betony (Stachys floridana) in Leatherleaf Fern (Rumohra adiantiformis)

Published online by Cambridge University Press:  12 June 2017

Robert H. Stamps*
Affiliation:
Environ. Hortic., Univ. Ha., Inst. Food Agric. Sci., Cent. Ha. Res. Educ. Cent., 2807 Binion Rd., Apopka, FL 32703

Abstract

Field and container studies were conducted to determine effects of prodiamine on Florida betony and leatherleaf fern. Effects of Florida betony competition on leatherleaf fern frond yield and quality were also determined. Seed germination and growth and flowering of established Florida betony decreased with increasing prodiamine application rates; 4.5 kg ai ha-1 or higher prevented seed germination and eliminated or nearly eradicated established betony one year after treatment. Prodiamine treatments up to 6.7 kg ai ha-1 did not affect leatherleaf fern growth, frond yield (number, fresh weight) or quality (color, size, vase life). When leatherleaf fern and Florida betony were grown together in containers for 7 mo, fern frond yield and quality were reduced.

Type
Research
Copyright
Copyright © 1990 by the Weed Science Society of America 

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References

Literature Cited

1. Boggess, W. G., Purvis, A., Stamps, R. H., Motes, R., and Ferenc, S. 1991. Fernery management for groundwater quality protection: Summary of leatherleaf grower survey. Univ. Fla., Inst. Food Agric. Sci., Fla. Coop. Ext. Serv. Fla. Food Res. Econ. 100:14.Google Scholar
2. Davis, G. and Currey, W. L. 1981. Growth of eleven species of container-grown ornamentals and weed control from two years of quarterly application of prodiamine and oxyfluorfen. Proc. South. Nurserymen's Assn. Res. Conf. Annu. Rep. 26:227229.Google Scholar
3. Dawson, J. H. 1990. Dodder (Cuscuta spp.) control with dinitroaniline herbicides in alfalfa (Medicago sativa). Weed Technol. 4:341348.CrossRefGoogle Scholar
4. Duray, S. A. and Davies, F. T. Jr. 1987. Efficacy of prodiamine for weed control in container grown landscape plants under high temperature production conditions. J. Environ. Hortic. 5:8284.CrossRefGoogle Scholar
5. Gomez, K. A. and Gomez, A. A. 1984. Statistical Procedures for Agricultural Research. John Wiley and Sons, New York, NY. p. 307.Google Scholar
6. Henley, R. W., Tjia, B., and Loadholtz, L. L. 1980. Commercial leatherleaf fern production in Florida. Univ. Fla. Inst. Food Agric. Sci., Fla. Coop. Ext. Serv. Bull. 191. p. 8, 20.Google Scholar
7. Humburg, N. E., Colby, S. R., Hill, E. R., Kitchen, L. M., Lym, R. G., McAvoy, W. J., and Prasad, R. 1989. Herbicide Handbook, 6th edition. Weed Sci. Soc. Am., Champaign, IL. p. 211212.Google Scholar
8. Marella, R. L. 1990. Annual water use survey: 1987. St. Johns River Water Manage. Distr. Tech. Publ. SJ 90-4. Palatka, Fla. p. 2324, 83, 111, 123.Google Scholar
9. Parka, S. J. and Soper, O. F. 1977. The physiology and mode of action of the dinitroaniline herbicides. Weed Sci. 25:7987.CrossRefGoogle Scholar
10. Smith, S. A., Taylor, T. G., and Loadholtz, L. L. 1988. Cost of production for leatherleaf ferns in Florida—1988–1988. Univ. Fla. Inst. Food Agric. Sci. Food Res. Econ. Dep. Staff Pap. 342. p. 5.Google Scholar
11. Stamps, R. H. and Conover, C. A. 1986. Cut foliage production in Florida. HortScience 21:178, 343.CrossRefGoogle Scholar
12. Stamps, R. H. and Mathur, D. D. 1980. Experimental herbicide treatments applied preemergence for the suppression of weeds in leatherleaf fern beds–preliminary results. Univ. Fla. Inst. Food. Agric. Sci. Agric. Res. Cent.–Apopka Res. Rep. RH-80-4. p. 14.Google Scholar
13. Stamps, R. H. and Mathur, D. D. 1982. Herbicides for weed control in leatherleaf fern. HortScience 17:201203.CrossRefGoogle Scholar
14. Stamps, R.H. and Neal, C. A. 1990. Evaluation of herbicides for weed control in container landscape plant production. J. Environ. Hortic. 8:5257.CrossRefGoogle Scholar
15. Stamps, R. H. and Poole, R. T. 1982. Influence of selective herbicides on yield and vase life of leatherleaf fern. Univ. Fla. Inst. Food Agric. Sci. Agric. Res. Cent.–Apopka Res. Rep. RH-82-15. p. 14.Google Scholar
16. Stamps, R. H. and Poole, R. T. 1987. Herbicide effects during leatherleaf fern bed establishment. HortScience 22:261264.CrossRefGoogle Scholar
17. Taylor, J. B. and Wilcox, M. 1990. Premier–a promising and environmentally desirable herbicide for use in ornamental plantings. Proc. Fla. State Hortic. Soc. 103:206209.Google Scholar
18. U.S. Department of Agriculture. 1991. Floriculture crops, 1990 summary. U.S. Dep. Agric., National Agric. Stat. Serv., Agric. Statistics Board, Washington, D.C. p. 75.Google Scholar
19. Weber, J. B. 1990. Behavior of dinitroaniline herbicides in soils. Weed Technol. 4:394406.CrossRefGoogle Scholar
20. Wunderlin, R. P. 1982. Guide to the Vascular Plants of Central Florida. University Presses of Florida, Gainesville, FL. p. 322.Google Scholar