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Augmentation of rose rosette disease for biocontrol of multiflora rose (Rosa multiflora)

Published online by Cambridge University Press:  12 June 2017

A. H. Epstein ,
J. H. Hill  and
F. W. Nutter Jr.
J. H. Hill
Affiliation:
Department of Plant Pathology, Iowa State University, Ames, IA 50011
F. W. Nutter Jr.
Affiliation:
Department of Plant Pathology, Iowa State University, Ames, IA 50011
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Abstract

Rose rosette disease, lethal to multiflora rose and indigenous to North America, has been proposed as a biocontrol agent for multiflora rose, a noxious weed in the central and eastern United States. Studies in experimental plots showed that the disease can be intensified by grafting infected shoots onto plants in established stands (i.e., augmentation). The rate of disease spread in augmented plots was significantly faster compared to epidemics in nonaugmented plots at 5 locations. Augmentation provided effective control 3 to 5 yr after implementation. Risk to ornamental rose seems to be low under conditions of this study. Plots to assess risk of the disease to ornamental roses, located at distances greater than 100 m from augmentation sites, showed no infection during the 3 yr of this study.

Keywords

Biological controlrisk assessmentgraft transmissionmite transmissionmultiflora roseRosa multiflora Thunb
Type
Weed Management
Information
Weed Science , Volume 45 , Issue 1 , February 1997 , pp. 172 - 178
Copyright
Copyright © 1997 by the Weed Science Society of America 

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References

Literature Cited

Allington, W. B., Staples, R., and Viehmeyer, G. 1968. Transmission of rose rosette virus by the eriophyid mite Phyllocoptes fructiphylus . J. Econ. Entomol. 61: 11321140.CrossRefGoogle Scholar
Amrine, J. W. Jr. and Hindal, D. F. 1988. Rose rosette: a fatal disease of multiflora rose. Morgantown, WV: West Virginia University Agricultural and Forest Experiment Station Circular 147. 4 p.Google Scholar
Amrine, J. W. Jr., Hindal, D. F., Williams, R., Appel, J., Stasny, T., and Kassar, A. 1990. Rose rosette as a biocontrol of multiflora rose. Proc. South. Weed Sci. Soc. 43: 316319.Google Scholar
Amrine, J. W. Jr., Hindal, D. F., Stasny, T. A., Williams, R. L., and Coffman, C. C. 1988. Transmission of the rose rosette disease agent to Rosa multiflora by Phyllocoptes fructiphylus (Acari: Eriophyidae). Entomol News 99: 239252.Google Scholar
Brown, T. 1995. Distribution of rose rosette disease. in Epstein, A. H. and Hill, J. H., eds. Proceedings of the International Symposium on Rose Rosette and Other Eriophyid Mite-transmitted Plant Disease Agents of Uncertain Etiology. May 20–21, 1994. Ames, IA: Iowa State University Agricultural Experiment Station, pp. 5356.Google Scholar
Bryan, W. B. and Mills, T. A. 1988. Effect of frequency and method of defoliation and plant size on the survival of multiflora rose. Biol. Agric. and Hortic. 5: 209214.CrossRefGoogle Scholar
Connors, I. L. 1940. Twentieth Annual Report of the Canadian Plant Disease Survey. p. 98.Google Scholar
Crowe, F. J. 1983. Witches broom of rose: a new outbreak in several central states. Plant Dis. 67: 544546.CrossRefGoogle Scholar
Epstein, A. H. 1995. Biological control of multiflora rose with rose rosette disease. Ames, IA: Iowa State University Extension Publication Pamphlet 1615. 8 p.Google Scholar
Epstein, A. H. and Hill, J. H. 1993a. Rose rosette disease—-pattern of spread in Iowa pastures. International Bioherbicides Workshop II. McGill University. [Abstract]Google Scholar
Epstein, A. H. and Hill, J. H. 1993b. Rose rosette disease: overwintering and increase of the vector as related to spread of the disease agent in Iowa. Phytopathology 83: 1339. [Abstract]Google Scholar
Epstein, A. H. and Hill, J. H. 1995a. The biology of rose rosette disease: a mite-associated disease of uncertain etiology. J. Phytopathol. 143: 353360.CrossRefGoogle Scholar
Epstein, A. H. and Hill, J. H. 1995b. Field augmentation of rose rosette disease: results and risk assessment. in Epstein, A. H. and Hill, J. H., eds. Proceedings of the International Symposium on Rose Rosette and Other Eriophyid Mite-transmitted Plant Disease Agents of Uncertain Etiology. May 20–21, 1994. Ames, IA: Iowa State University Agricultural Experiment Station, pp. 7174.Google Scholar
Epstein, A. H., Hill, J. H., and Obrycki, J. J. 1993. Rose rosette disease. Ames, IA: Iowa State University Extension Publication Pamphlet 1532. 8 p.Google Scholar
Hindal, D. F. and Wong, S. M. 1988. Potential biocontrol of multiflora Rosa multiflora . Weed Tech. 2: 122131.CrossRefGoogle Scholar
Keiffer, M. M. 1975. Eriophyoidea. in Jeppson, L. R., Keiffer, M. M., and Baker, E. W., eds. Mites Injurious to Economic Plants. Berkeley, CA: University of California Press, pp. 327396.Google Scholar
Kleinbaum, D.G. and Kupper, L. L. 1978. Applied Regression Analysis and Other Multivariate Methods. Notth Scituate, MA: Duxbury Press. 556 p.Google Scholar
Klimstra, W. D. 1956. Problems in the use of multiflora rose. Trans. III. Acad. Sci. 48: 6672.Google Scholar
Nutter, F. W. Jr., and Parker, S. K. 1996. Fitting disease progress curves using EPIMODEL. in Francl, L. and Neher, D. H., eds. Exercises in Plant Disease Epidemiology. St. Paul, MN: APS Press, pp. 2428.Google Scholar
Padgett, G. B., Nutter, F. W. Jr., and Kuhn, C. W. 1990. Quantification of disease resistance that reduces the rate of tobacco etch virus epidemics in bell pepper. Phytopathology 80: 451455.CrossRefGoogle Scholar
Parker, S. K., Gleason, M. L., and Nutter, F. W. Jr. 1995. Influence of rain events on spatial distribution of Septoria leaf spot of tomato. Plant Dis. 79: 148152.CrossRefGoogle Scholar
Rheder, A. 1936. On the history of the introduction of woody plants into North America. Natl. Hortic. Mag. 15: 245257.Google Scholar
Schroeder, D. 1983. Biological control of weeds. in Fletcher, W. W., ed. Recent Advances in Weed Research. Slough, England: Commonwealth Agricultural Bureaux, pp. 4178.Google Scholar
Scott, R. F. 1965. Problems of multiflora rose spread and control. Trans. 30th North Am. Wildl. and Natl. Resour. conf. 30: 360373.Google Scholar
Shvanderov, F. A. 1975. The role of phoresy in the migration of eriophyid mites (Eriophyoidea). J. W. Amrine, ed. Zool. Zh. 54: 458461. [In Russian]Google Scholar