Hostname: page-component-586b7cd67f-rdxmf Total loading time: 0 Render date: 2024-11-27T18:51:12.588Z Has data issue: false hasContentIssue false

Native Grass Establishment following Application of Pyridine Herbicides

Published online by Cambridge University Press:  12 April 2017

Rodney G. Lym*
Affiliation:
Professor, Plant Sciences Department, North Dakota State University, Fargo, ND 58105
Roger L. Becker
Affiliation:
Professor, Department of Agronomy and Plant Genetics, University of Minnesota, St. Paul, MN 55108
Michael J. Moechnig
Affiliation:
Field Scientist, Research and Development, Dow AgroSciences, Toronto, SD 57268;
Mary B. Halstvedt
Affiliation:
Field Research Biologist, Research and Development, Dow AgroSciences, Billings, MT 59102
Vanelle F. Peterson
Affiliation:
Senior Research Scientist, Research and Development, Dow AgroSciences, Fort Collins, CO 80527
*
*Corresponding author’s E-mail: [email protected]

Abstract

Invasive species management is often more successful if desirable species are seeded after the target weed is controlled. However, control of invasive plants must be maintained following reseeding or the seeded species may fail to establish. A regional study conducted in Minnesota, North Dakota, and South Dakota evaluated the effect of aminopyralid, clopyralid, or picloram applied in the fall prior to fall-dormant seeding or seeding the following spring on cool- and warm-season native grass species establishment. Herbicides were applied at standard rates used to control invasive broadleaf weeds in the upper midwestern tallgrass prairie region of the United States. Cool-season species included Canada wildrye, green needlegrass, and intermediate wheatgrass. Warm-season species included big bluestem, little bluestem, sideoats grama, switchgrass, and Indiangrass. Aminopyralid did not reduce seedling establishment in either fall or spring seeding. Grasses generally were not affected by a pretreatment of the pyridine standards clopyralid or picloram either, with the exception of a slight reduction in fall-seeded establishment of intermediate wheatgrass. Picloram also slightly reduced fall-seeded establishment of Canada wildrye. Application of aminopyralid can safely be used to control susceptible invasive species preceding grass species establishment, with a safety margin similar to or slightly better than that with the pyridine standards clopyralid or picloram.

Type
Research and Education
Copyright
© Weed Science Society of America, 2017 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

Associate Editor for this paper: Stephen F. Enloe, University of Florida.

References

Literature Cited

Allendorf, FW, Lundquist, LL (2003) Introduction: population biology, evolution, and control of invasive species. Conserv Biol 17:2430 Google Scholar
Almquist, TL, Lym, RG (2010) Effect of aminopyralid on Canada thistle (Cirsium arvense) and the native plant community in a restored tallgrass prairie. Invasive Plant Sci Manag 3:155168 CrossRefGoogle Scholar
Bahm, MA, Barnes, TG (2011) Native grass and forb response to pre-emergent treatment of imazapic and imazapyr. Nat Area J 31:7579 Google Scholar
Bahm, MA, Barnes, TG, Jensen, KC (2011) Restoring native plant communities in smooth brome (Bromus inermis)-dominated grasslands. Invasive Plant Sci Manag 4:239250 Google Scholar
Bahm, MA, Barnes, TG, Jensen, KC (2015) Native grass establishment using Journey herbicide. Nat Area J 35:6973 Google Scholar
DiTomaso, JM (2000) Invasive weeds in rangelands: species, impacts, and management. Weed Sci 48:255265 Google Scholar
DiTomaso, JM, Enloe, SF, Pitcairn, MJ (2007) Exotic plant management in California annual grasslands. Pages 281296 in Stromberg MR, Corbin JD & D’Antonio CM, eds. Californian Grasslands. Berkeley: University of California Press Google Scholar
Douglass, C, Vassios, JD, Nissen, S, Peterson, VF (2011) Rangeland grass species tolerance to per-plant applications of aminopyralid and aminocyclopyrachlor (abstract). Page 63 in Proceedings of the Western Society of Weed Science 64. Las Cruces, NM: Western Society of Weed ScienceGoogle Scholar
Enloe, SF, DiTomaso, JM, Orloff, SB, Drake, DJ (2005) Perennial grass establishment integrated with clopyralid treatment for yellow starthistle management on annual range. Weed Technol 19:94101 Google Scholar
Funk, JL, Cleland, EE, Suding, KN, Zavaleta, ES (2008) Restoration through reassembly: plant traits and invasion resistance. Trends Ecol Evol 23:695703 Google Scholar
Guretzky, JA, Biermacher, JT, Cook, BJ, Kering, MU, Mosali, J (2011) Switchgrass for forage and bioenergy: harvest and nitrogen rate effects on biomass yields and nutrient composition. Plant Soil 339:6981 Google Scholar
Gurevitch, J, Scheiner, SM, Fox, GA (2006) Chapter 18: Biomes. Pages 417–443 in The Ecology of Plants, 2nd ed. Sunderland, MA: Sinauer Google Scholar
Halstvedt, MB, Peterson, VF, Becker, RL, Lym, RG, Moechnig, MJ (2011) Native grass establishment with aminopyralid (abstract). Pages 63–64 in Proceedings of the Western Society of Weed Science 46. Las Cruces, NM: Western Society of Weed ScienceGoogle Scholar
Hobbs, RJ, Huenneke, LF (1992) Disturbance, diversity, and invasion: implications for conservation. Conserv Biol 6:324337 Google Scholar
Huffman, AH, Jacoby, PW (1984) Effects of herbicides on germination and seedling development of three native grasses. J Range Manage 37:4043 Google Scholar
Joern, A, Keeler, KF (1995) Getting the lay of the land: introducing North American native grasslands. Pages 1224 in Joern A & Keeler KF, eds. The Changing Prairie: North American Native Grasslands. Oxford UK: Oxford University Press Google Scholar
Krueger-Mangold, JM, Sheley, RL (2006) Toward ecologically-based invasive plant management on rangeland. Weed Sci 54:597605 Google Scholar
Larson, DL, Bright, JB, Drobney, P, Larson, JL, Palaia, N, Rabie, PA, Vacek, S, Wells, D (2013). Using prairie restoration to curtail invasion of Canada thistle: the importance of limiting similarity and seed mix richness Biol Invas 15:20492063 Google Scholar
Lym, RG, Tober, DA (1997) Competitive grasses for leafy spurge (Euphorbia esula) reduction. Weed Technol 11:787792 Google Scholar
Mangold, JM (2012) Revegetation: using current technologies and ecological knowledge to manage site availability, species availability, and species performance. Pages 176195 in Monaco TA & Sheley RL, eds. Invasive Plant Ecology and Management: Linking Processes to Practice. CABI Invasive Species Series 2. Oxfordshire, UK: CABI Google Scholar
Mangold, JM, Orloff, N, Parkinson, H, Halstvedt, M (2015). Integrating herbicides and re-seeding to restore rangeland infested by an invasive forb-annual grass complex Ecol Res 33:1619 Google Scholar
Martin, AR, Moomaw, RS, Vogel, KP (1982) Warm-season grass establishment with atrazine. Agron J 74:916920 Google Scholar
Masters, RA, Nissen, SJ, Gaussoin, RE, Beran, DD, Stougaard, RN (1996) Imidazolinone herbicides improve restoration of Great Plains grasslands. Weed Technol 10:392403 Google Scholar
Mikkelson, JA, Lym, RG (2013) Effect of aminopyralid on desirable forb species. Invasive Plant Sci Manag 6:3035 Google Scholar
Rowe, HI (2010) Tricks of the trade: techniques and opinions from 38 experts in tallgrass prairie restoration. Restor Ecol 18:253262 Google Scholar
Samuel, LW, Lym, RG (2008) Aminopyralid effects on Canada thistle (Cirsium arvense) and native plant species. Invasive Plant Sci Manage 1:265278 Google Scholar
Sheley, RL, Whitson, TD, Carrithers, V, Jacobs, JS, Gehrett, J (2002) Grass response to picloram and clopyralid applied before seeding. Weed Technol 16:645650 Google Scholar
Solecki, MK (1997) Controlling invasive plants. Pages 251278 in Packard S & Mutel CF, eds. The Tallgrass Restoration Handbook for Prairies, Savannas, and Woodlands. Washington, DC: Island Press Google Scholar
Stroup, WW (2012). Generalized Linear Mixed Models: Modern Concepts, Methods, and Applications. Boca Raton, FL: CRC. Pp 335369 Google Scholar
[USDA-NRCS] U.S. Department of Agriculture, Natural Resources Conservation (2015) Herbaceous Vegetation Establishment Guide. Revised April 2015. https://efotg.sc.egov.usda.gov/references/public/ND/Herbaceous_Veg_Est_Guide.pdf. Accessed: September 16, 2015Google Scholar
Wagner, V, Nelson, CR (2014) Herbicides can negatively affect seed performance in native plants. Restor Ecol 22:288291 Google Scholar
Wilson, RG, Orloff, SB, Lancaster, DL, Kirby, DW, Carlson, HL (2010) Integrating herbicide use and perennial grass revegetation to suppress weeds in noncrop areas. Invasive Plant Sci Manage 3:8192 Google Scholar
xmACIS2 (2010) Data query tool of the National Weather Service. http://xmacis.rcc-acis.org. Accessed: November 19, 2015Google Scholar