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Japanese Stiltgrass (Microstegium vimineum) Management for Restoration of Native Plant Communities

Published online by Cambridge University Press:  20 January 2017

Caren A. Judge ,
Joseph C. Neal  and
Theodore H. Shear
Caren A. Judge*
Affiliation:
BASF Corporation, 26 Davis Drive, Research Triangle Park, NC 27709
Joseph C. Neal
Affiliation:
Department of Horticultural Science, North Carolina State University, Raleigh, NC 27695-7609
Theodore H. Shear
Affiliation:
Department of Forestry, North Carolina State University, Raleigh, NC 27695-8008
*
Corresponding author's E-mail: [email protected]
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Abstract

Japanese stiltgrass is a nonnative invasive grass occupying a range of habitats in the eastern United States. Conventional management recommendations include hand-removal, mowing, or a nonselective herbicide application in autumn prior to flowering. However, no study has directly compared the ecological impacts of long-term management strategies on Japanese stiltgrass populations or recruitment and establishment of native flora. An experiment was initiated in 2002 and continued for three growing seasons in mixed pine-hardwood forests in central North Carolina. Conventional treatments included hand-removal, mowing, or an application of glyphosate (1.1 kg ai/ha) once in autumn, and selective removal by hand or fenoxaprop-P (0.19 kg ai/ha) season-long as needed. All treatments were compared to nontreated plots. Percent vegetation cover by species was recorded twice annually. Data were aggregated into five classes; Japanese stiltgrass, other exotic plants, native forbs, native monocots, and native woody plants. The soil seed bank of all species was estimated annually by extracting soil cores and documenting seedling emergence. All Japanese stiltgrass management treatments significantly reduced Japanese stiltgrass cover and seed bank over time compared to no management. However, recruitment and reestablishment of native plants and overall species richness were greater with selective Japanese stiltgrass management treatments including both hand-removal and fenoxaprop-P. Relative cover of other exotic plants decreased 2% to 49% after 3 yr with all Japanese stiltgrass management treatments except season-long hand-removal, which increased relative cover of other exotic plants 51%.

Keywords

Japanese stiltgrass, Microstegium vimineum (Trin.) A. Camus MCGVMFenoxaprop-Pglyphosateinvasivenontarget impactssoil seed bankspecies richness
Type
Research Articles
Information
Invasive Plant Science and Management , Volume 1 , Issue 2 , April 2008 , pp. 111 - 119
Copyright
Copyright © Weed Science Society of America 

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References

Literature Cited

Barden, L. S. 1987. Invasion of Microstegium vimineum (Poaceae), an exotic, annual, shade-tolerant, C4 grass, into a North Carolina floodplain. Am. Midl. Nat 118:4045.Google Scholar
Brown, W. V. 1977. The Kranz syndrome and its subtypes in grass systematics. Mem. Torrey Bot. Club 23:197.Google Scholar
Cole, P. G. 2003. Environmental Constraints on the Distribution of the Non-native Invasive Grass, Microstegium vimineum . Ph.D. dissertation. Knoxville, TN Department of Ecology and Evolutionary Biology, University of Tennessee. 101.Google Scholar
Cole, P. G. and Weltzin, J. F. 2004. Environmental correlates of the distribution and abundance of Microstegium vimineum, in East Tennessee. Southeast. Nat 3:545562.CrossRefGoogle Scholar
Cusick, A. W. 1986. Distributional and taxonomic notes on the vascular flora of West Virginia. Castanea 51:5665.Google Scholar
Derr, J. F. 2004. Introduction to Japanese stiltgrass biology and implications for control programs. Proc. Northeast. Weed Sci. Soc 58:166167.Google Scholar
Drake, S. J., Weltzin, J. F., and Parr, P. D. 2003. Assessment of non-native invasive plant species on the United States Department of Energy Oak Ridge National Environmental Research Park. Castanea 68:1530.Google Scholar
Elton, C. S. 1958. The Ecology of Invasions by Animals and Plants. London Methuen Press. 181.Google Scholar
Fairbrothers, D. E. and Gray, J. R. 1972. Microstegium vinineum (Trin.) A. Camus (Gramineae) in the United States. Bull. Torrey Bot. Club 99:97100.Google Scholar
Gibson, D. J., Spyreas, G., and Benedict, J. 2002. Life history of Microstegium vimineum (Poaceae), an invasive grass in southern Illinois. J. Torrey Bot. Soc 129:207219.Google Scholar
Gover, A. E., Johnson, J. M., Kuhns, L. J., and Burton, D. A. 2003. Pre- and postemergence control comparisons for Japanese stiltgrass. Proc. Northeast. Weed Sci. Soc 57:2833.Google Scholar
Hunt, D. M. and Zaremba, R. E. 1992. The northeastward spread of Microstegium vimineum (Poaceae) into New York and adjacent states. Rhodora 94:167170.Google Scholar
Jones, B., Mortensen, D. A., and Booher, M. 2004. The influence of Japanese stiltgrass suppression tactics on native species diversity and abundance. Proc. Northeast. Weed Sci. Soc 58:170. [Abstract].Google Scholar
Judge, C. A. 2005. Japanese stiltgrass (Microstegium vimineum): Population Dynamics and Management for Restoration of Native Plant Communities. Ph.D Dissertation. Raleigh, NC Department of Horticultural Science, North Carolina State University. 167.Google Scholar
Judge, C. A., Neal, J. C., and Derr, J. F. 2005a. Preemergence and postemergence control of Japanese stiltgrass (Microstegium vimineum). Weed Technol 19:183189.Google Scholar
Judge, C. A., Neal, J. C., and Derr, J. F. 2005b. Response of Japanese stiltgrass (Microstegium vimineum) to application timing, rate, and frequency of postemergence herbicides. Weed Technol 19:912918.Google Scholar
Kalmowitz, K. E., Skroch, W. A., and Bonanno, A. R. 1989. Effects of five herbicides and clip-cut method on perennial weed control. Proc. South. Nurs. Assoc. Res. Conf 34:228231.Google Scholar
Lemmon, P. E. 1956. A spherical densiometer for estimating forest density. Forest Sci 2:314320.Google Scholar
Mehrhoff, L. J. 2000. Perennial Microstegium vimineum (Poaceae): An apparent misidentification. J. Torrey Bot. Soc 127:251254.Google Scholar
Miller, J. H. 2003. Nonnative Invasive Plants of Southern Forests: A Field Guide for Identification and Control. Asheville, NC U.S. Dept. Agr. For. Serv., Southern Research Station General Technical Report. SRS-62. 93.Google Scholar
Miller, J. H., Chambliss, E. B., and Bargeron, C. T. 2004. Invasive Plants of the Thirteen Southern States. http://www.invasive.org/seweeds.cfm. Accessed: May 24, 2005.Google Scholar
Peskin, N. 2005. Habitat Susceptibility of Japanese Stiltgrass Microstegium vimineum in an Appalachian Forest. M.S. thesis. State College, PA Department of Ecology, Penn State Univ. 136.Google Scholar
Radford, A. E., Ahles, H. E., and Bell, C. R. 1968. Manual of the Vascular Flora of the Carolinas. Chapel Hill, NC University of North Carolina Press. 160.Google Scholar
Redman, D. E. 1995. Distribution and habitat types for Nepal Microstegium [Microstegium vimineum (Trin.) Camus] in Maryland and the District of Columbia. Castanea 60:270275.Google Scholar
SAS 1999. SAS/STAT User's Guide. Version 8. Cary, NC SAS Institute. 3884.Google Scholar
Senseman, S. A. 2007. Herbicide Handbook, 9th ed. Lawrence, KS Weed Science Society of America. 2931, 43–45, 243–246.Google Scholar
Stohlgren, T. J., Binkley, D., Chong, G. W., Kalkhan, M. A., Schell, L. D., Bull, K. A., Otsuki, Y., Newman, G., Bashkin, M., and Son, Y. 1999. Exotic plant species invade hot spots of native plant diversity. Ecol. Monogr 69:2546.CrossRefGoogle Scholar
Stohlgren, T. J., Barnett, D. T., and Kartesz, J. T. 2003. The rich get richer: Patterns of plant invasions in the United States. Front. Ecol. Environ 1:1114.Google Scholar
Tilman, D., Lehman, C. L., and Thompson, K. T. 1997. Plant diversity and ecosystem productivity: Theoretical considerations. Proc. Natl. Acad. Sci. U. S. A. 94:18571861.Google Scholar
Tu, M. 2000. Elemental Stewardship Abstract for Microstegium vimineum . Arlington, VA The Nature Conservancy. 19. http://tncweeds.ucdavis.edu/esadocs/documnts/micrvim.html. Accessed: Aug. 16, 2004.Google Scholar
USDA, NRCS 2004. The PLANTS Database, Version 3.5. Baton Rouge, LA National Plants Data Center. http://plants.usda.gov.Google Scholar
Vidra, R. L. 2004. Implications of Exotic Species Invasion for Restoration of Urban Riparian Forests. Ph.D. dissertation. Raleigh, NC Department of Forestry, North Carolina State University. 110.Google Scholar
Williams, L. D. 1998. Factors Affecting Growth and Reproduction in the Invasive Grass Microstegium vimineum . MS Thesis. Boone, NC Department of Biology, Appalachian State University. 57.Google Scholar
Woods, F. W. 1989. Control of Paulownia tomentosa and Microstegium vimineum in National Parks: A Report to The Great Smoky Mountains National Park. Knoxville, TN The University of Tennessee. 124.Google Scholar