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Research Article: Alligatorweed (Alternanthera philoxeroides) Control by Surface Covers and Benthic Barriers

Published online by Cambridge University Press:  13 July 2009

George J. Pesacreta
George J. Pesacreta*
Affiliation:
Ecological Consultants, Hillsborough, North Carolina
*
Environmental Scientist, Ecological Consultants, 4216 Hope Valley Drive, Hillsborough, NC 27278; (fax) 919-644-8020
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Abstract

Benthic barriers and surface covers installed to control alligatorweed (Alternanthera philoxeroides) suppressed growth after five months in Cane Creek Lake, a water supply reservoir serving the towns of Chapel Hill and Carrboro, North Carolina. By five months, no shoot biomass and few fibrous roots were detected below benthic barrier plots and only white and flaccid shoots and roots were detected below surface cover plots. Phenotypic differences were observed based on the varying duration of coverage. Surface cover and benthic barrier treatments that lasted from one to three months delayed flowering of alligatorweed by one month, while areas covered for four and five months did not flower at all. Shoot lengths were less for shaded treatments compared to control plots. Dissolved oxygen was lower and pH more acidic after one month coverage under benthic barriers. After two months, pH and dissolved oxygen recovered under benthic barriers to values near the control plots. Water chemistry in the surface cover and control plots were similar. Light penetration below benthic barriers and surface covers was blocked throughout the experiment, suggesting no deterioration of the materials occurred after five months placement in the lake. Application of light shading materials gave seasonal control of alligatorweed. Deployment and maintenance of surface covers and benthic barriers were similar and both methods are recommended for aquatic plant management of alligatorweed in Cane Creek Lake.

Type
Features & Reviews
Information
Environmental Practice , Volume 1 , Issue 2 , June 1999 , pp. 102 - 107
Copyright
Copyright © National Association of Environmental Professionals 1999

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References

Boston, H. L., and Perkins, M. A.. 1982. Water Column Impacts of Macrophyte Decomposition Beneath Fiberglass Screens. Aquatic Botany 14: 1527.CrossRefGoogle Scholar
Boylen, C. W., Eichler, L.W., and Sutherland, J. W.. 1996. Physical Control of Eurasian Watermilfoil in an Oligotrophic Lake. Hydrobiologia 340:213218.CrossRefGoogle Scholar
Brown, J. L., and Spencer, N. R.. 1973. Vogtia malloi, a Newly Introduced Phycitine Moth (Lepidoptera:Pyralidae) to Control Alligatorweed. Environmental Entomology 2:519523.CrossRefGoogle Scholar
Confrancesco, A. F. Jr., 1988. Alligatorweed survey of ten southern states. Aquatic Plant Control Research Program Miscellaneous Paper A-88–3. Department of the Army, Waterways Experiment Station, Corps of Engineers, Vicksburg, Mississippi, 120 pp.Google Scholar
Confrancesco, A. F. Jr., 1999. Personal communication.Google Scholar
Cooke, G. D., and Gorman, M. E.. 1980. Effectiveness of Dupont Typar Sheeting in Controlling Macrophyte Regrowth after Winter Drawdown. 1980. Water Resources Bulletin 16:353355.CrossRefGoogle Scholar
Eichler, L. W., Bombard, R.T., Sutherland, J. W., and Boylen, C. W.. 1995. Recolonization of the Littoral Zone by Macrophytes Following the Removal of Benthic Barrier Material. Journal of Aquatic Plant Management 33:5154.Google Scholar
Engel, S. 1984. Evaluating Stationary Blankets and Removable Screens for Macrophyte Control in Lakes. Journal of Aquatic Plant Management 22:4347.Google Scholar
Gangstad, E. O. 1978. Weed Control Methods for River Basin Management. CRS Press, West Palm Beach, Florida, 229 pp.Google Scholar
Hawkes, R. B., Andres, L.A., and Anderson, W. H.. 1967. Release and Progress of an Introduced Flea Beetle, Agasicles N. Sp., to Control Alligatorweed. Journal of Economic Entomology 60:14761477.CrossRefGoogle Scholar
Langeland, K. A. 1986. Management Program for Alligatorweed in North Carolina. Report No. 224, Water Resources Research Institute of the University of North Carolina, Raleigh, North Carolina, 34 pp.Google Scholar
Maddox, D. M., and Mayfield, A.. 1979. Biology and Life History of Amynothrips andersoni, a Thrip for the Biological Control of Alligatorweed. Annals of the Entomological Society of America 72:136140.CrossRefGoogle Scholar
Mayer, J. R. 1978. Aquatic Weed Management by Benthic Semi-Barriers. Journal of Aquatic Plant Management 16:3133.Google Scholar
Mayhew, J. K., and Runkel, S. T.. 1962. The Control of Nuisance Aquatic Vegetation with Black Polyethylene. Proceedings of the Iowa Academy of Science 69:302307.Google Scholar
Perkins, M. A., Boston, H.L., and Curren, E. F.. 1980. The Use of Fiberglass Screens for Control of Eurasian Watermilfoil. Journal of Aquatic Plant Management 18:1319.Google Scholar