Hostname: page-component-cd9895bd7-jn8rn Total loading time: 0 Render date: 2024-12-25T16:49:25.595Z Has data issue: false hasContentIssue false

Glyphosate-Resistant Kochia (Kochia scoparia) in Kansas: EPSPS Gene Copy Number in Relation to Resistance Levels

Published online by Cambridge University Press:  20 January 2017

Amar S. Godar
Affiliation:
Department of Agronomy, Kansas State University, Manhattan, KS 66506
Phillip W. Stahlman*
Affiliation:
Kansas State University Agricultural Research Center, Hays, KS 67601
Mithila Jugulam
Affiliation:
Department of Agronomy, Kansas State University, Manhattan, KS 66506
J. Anita Dille
Affiliation:
Department of Agronomy, Kansas State University, Manhattan, KS 66506
*
Corresponding author's E-mail: [email protected]

Abstract

Reports of kochia control failure with glyphosate in western Kansas increased dramatically in the years following confirmed presence of glyphosate-resistant (GR) populations in 2007. In this study, progeny from 8 of 16 geographically dispersed kochia populations in western Kansas (seed collected in 2010) were confirmed to be resistant to glyphosate by conducting whole-plant dose-response (in greenhouse and/or outdoor environments) and shikimate-accumulation assays. Additionally, the relationship between 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS) gene copy number and glyphosate resistance levels was investigated. A known glyphosate-susceptible (GS) kochia population from Ellis County, Kansas was used for comparison in all studies. Based on the herbicide rate that caused 50% reduction in biomass compared to untreated control (GR50) values, the 8 GR kochia populations were 4 to 11 times more resistant to glyphosate compared to the GS population. The GR50 values of kochia populations were 1.58 to 1.85 times higher under an outdoor environment compared to when grown in the greenhouse. Glyphosate-treated leaf discs of the GS kochia plants accumulated consistently higher amounts of shikimate than those of the GR plants. Additionally, the GR plants with higher levels of resistance to glyphosate had higher EPSPS : acetolactate synthase (ALS) relative gene copy number compared to those with low levels of resistance.

Type
Physiology, Chemistry, and Biochemistry
Copyright
Copyright © Weed Science Society of America 

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.)

References

Literature Cited

Anderson, R (1994) Characterizing weed community seedling emergence for a semiarid site in Colorado. Weed Technol. 8:245249 Google Scholar
Anderson, R, Nielsen, D (1996) Emergence pattern of five weeds in the central Great Plains. Weed Technol. 10:744749 Google Scholar
Beckie, HJ, Blackshaw, RE, Low, R, Hall, LM, Sauder, CA, Martin, S, Brandt, RN, Shirriff, SW (2013) Glyphosate- and acetolactate synthase inhibitor-resistant kochia (Kochia scoparia) in western Canada. Weed Sci. 61:310318 Google Scholar
Cranston, HJ, Kern, AJ, Hackett, JL, Miller, EK, Maxwell, BD, Dyer, WE (2001) Dicamba resistance in kochia. Weed Sci. 49:164170 Google Scholar
Crespo, RJ, Bernards, ML, Sbatella, GM, Kruger, GR, Lee, DJ, Wilson, RG (2014) Response of Nebraska kochia (Kochia scoparia) accessions to dicamba. Weed Technol. 28:151162 Google Scholar
Dahl, GK, Dexter, AG, Nalewaja, JD (1982) Kochia competition and control in wheat. Pages 1516 in Proceedings of the 37th Annual Meeting. Indianapolis, IN North Central Weed Science Society Google Scholar
Dexter, AG, Nalewaja, JD, Rasmusson, DD, Buchli, J (1981) Survey of wild oats and other weeds in North Dakota 1978 and 1979. N D Agric Exp Stn Res Rep. 79:18 Google Scholar
Dille, JA, Stahlman, PW, Geier, PW, Riffel, J, Currie, RS, Wilson, RG, Sbatella, GM, Westra, P, Kniss, AR, Moechnig, MJ, Cole, RM (2012) Kochia emergence profiles across the Central Great Plains. Abstract# 122 in Proceedings of 2012 Annual Meeting. Lawrence, KS Weed Science Society of America Google Scholar
Durgan, BR, Dexter, AG, Miller, SD (1990) Kochia (Kochia scoparia) interference in sunflower (Helianthus annuus). Weed Technol. 4:5256 Google Scholar
Durham, RM, Durham, JW (1979) Kochia: its potential for forage production. Pages 444450 in Goodin JR, Northington DK, eds. Arid Land Plant Resources. Lubbock, TX Texas Tech University Google Scholar
Eberlein, C, Fore, Z (1984) Kochia biology. Weeds Today. 15:56 Google Scholar
Everitt, J, Alaniz, M, Lee, J (1983) Seed germination characteristics of Kochia scoparia . J Range Manag. 36:646648 Google Scholar
Fay, PK, Mulugeta, DM, Dyer, WE (1992) The role of seed dispersal in the spread of sulfonylurea-resistant Kochia scoparia . Pages 49 page in Proceedings of the 32th Annual Meeting. Lawrence, KS Weed Science Society of America Google Scholar
Foes, MJ, Liu, L, Vigue, G, Stoller, EW, Wax, LM, Tranel, PJ (1999) A kochia (Kochia scoparia) biotype resistant to triazine and ALS-inhibiting herbicides. Weed Sci. 47:2127 Google Scholar
Forcella, F (1985) Final distribution is related to rate of spread in alien weeds. Weed Res. 25:181191 Google Scholar
Friesen, LF, Beckie, HJ, Warwick, SI, Van Acker, RC (2009) The Biology of Canadian weeds. 138. Kochia scoparia (L.) Schrad. Can J Plant Sci. 89:141167 Google Scholar
Gaines, TA, Zhang, W, Wang, D, Bukun, B, Chisholm, ST, Shaner, DL, Nissen, SJ, Patzoldt, WL, Tranel, PJ, Culpepper, AS, Grey, TL, Webster, TM, Vencill, WK, Sammons, RD, Jiang, J, Preston, C, Leach, JE, Westra, P (2010) Gene amplification confers glyphosate resistance in Amaranthus palmeri . Proc Natl Acad Sci U S A. 107:10291034 Google Scholar
Godar, AS, Stahlman, PW (2015) Consultant's perspective on the evolution and management of glyphosate-resistant kochia (Kochia scoparia) in western Kansas. Weed Technol. 29 318328 Google Scholar
Heap, I (2014) The International Survey of Herbicide Resistant Weeds. http://www.weedscience.org/Summary/Species.aspx?WeedID=101. Accessed August 27, 2014Google Scholar
Jasieniuk, M, Maxwell, BD (1994) Population genetics and the evolution of herbicide resistance in weeds. Phytoprotection. 75:2535 Google Scholar
Jugulam, M, Niehues, K, Godar, AS, Koo, DH, Danilova, T, Friebe, B, Sehgal, S, Varanasi, VK, Wiersma, A, Westra, P, Stahlman, PW, Gill, BS (2014) Tandem amplification of a chromosomal segment harboring 5-enolpyruvylshikimate-3-phosphate synthase locus confers glyphosate resistance in Kochia scoparia . Plant Physiol. 166:12001207 Google Scholar
Knezevic, SZ, Streibig, JC, Ritz, C (2007) Utilizing R software package for dose-response studies: the concept and data analysis. Weed Technol. 21:840848 Google Scholar
Kocacinar, F, Sage, R (2003) Photosynthetic pathway alters xylem structure and hydraulic function in herbaceous plants. Plant Cell Environ. 26:20152026 Google Scholar
Koger, CH, Shaner, DL, Henry, WB, Nadler-Hassar, T, Thomas, WE, Wilcut, JW (2005) Assessment of two nondestructive assays for detecting glyphosate resistance in horseweed (Conyza canadensis). Weed Sci. 53:438445 Google Scholar
Kumar, V, Jha, P, Reichard, R (2014) Occurrence and characterization of kochia (Kochia scoparia) accessions with resistance to glyphosate in Montana. Weed Technol. 28:122130 Google Scholar
Lewis, DW, Gulden, RH (2014) Effect of kochia (Kochia scoparia) interference on sunflower (Helianthus annuus) yield. Weed Sci. 62:158165 Google Scholar
Mengistu, LW, Messersmith, CG (2002) Genetic diversity of kochia. Weed Sci. 50:498503 Google Scholar
Mueller, TC, Massey, JH, Hayes, RM, Main, CL, Stewart, CN (2003) Shikimate accumulates in both glyphosate-sensitive and glyphosate-resistant horseweed (Conyza canadensis L. Cronq.). J Agric Food Chem. 51:680684 Google Scholar
Peterson, DE (1999) The impact of herbicide-resistant weeds on Kansas agriculture. Weed Technol. 13:632635 Google Scholar
R Core Team. (2014) R: A Language and Environment for Statistical Computing. R Foundation for Statistical Computing, Vienna, Austria. http://www.R-project.org. Accessed July 08, 2014Google Scholar
Ritz, C, Streibig, JC (2005) Bioassay analysis using R. J Stat Softw. 12:122 Google Scholar
Ritz, C, Streibig, JC (2014) drc: Analysis of Dose-Response Curve Data. Version 2.3-96. http://cran.r-project.org/web/packages/drc/drc.pdf. Accessed July 08, 2014Google Scholar
Schwinghamer, TD, Van Acker, RC (2008) Emergence timing and persistence of kochia (Kochia scoparia). Weed Sci. 56:3741 Google Scholar
Seefeldt, SS, Jensen, JE, Fuerst, P (1995) Log-logistic analysis of herbicide dose-response relationship. Weed Technol. 9:218227 Google Scholar
Shaner, DL, Nadler-Hasser, T, Koger, CH (2005) A rapid in vivo shikimate accumulation assay with excised leaf discs. Weed Sci. 53:769774 Google Scholar
Simarmata, M, Kaufmann, JE, Penner, D (2003) Potential basis of glyphosate resistance in California rigid ryegrass (Lolium rigidum). Weed Sci. 51:678682 Google Scholar
Stallings, GP, Thill, DC, Mallory-Smith, CA, Shafii, B (1995) Pollen-mediated gene flow of sulfonylurea-resistant kochia (Kochia scoparia). Weed Sci. 43:95102 Google Scholar
Thompson, C, Thill, D, Shafi, B (1994) Germination characteristics of sulfonylurea-resistant and -susceptible Kochia (Kochia scoparia). Weed Sci. 42:5056 Google Scholar
Waite, J, Thompson, CR, Peterson, DE, Currie, RS, Olson, BLS, Stahlman, PW, Al-Khatib, K (2013) Differential kochia (Kochia scoparia) populations response to glyphosate. Weed Sci. 61:193200 Google Scholar
Wicks, GA, Martin, AR, Haack, AE, Mahnken, GW (1994) Control of triazine-resistant kochia (Kochia scoparia) in sorghum (Sorghum bicolor). Weed Technol. 8:748753 Google Scholar
Wiersma, A (2012) Regional whole plant and molecular response of Kochia scoparia to glyphosate. . Fort Collins, CO Colorado State University. 63 pGoogle Scholar