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Resistance to Nine Herbicide Classes in a Population of Rigid Ryegrass (Lolium rigidum)

Published online by Cambridge University Press:  12 June 2017

Michael W. M. Burnet ,
Quentin Hart ,
Joseph A. M. Holtum  and
Stephen B. Powles
Michael W. M. Burnet
Affiliation:
Dep. Crop Prot., Waite Agric. Res. Inst., The Univ. Adelaide, Glen Osmond, South Australia 5064
Quentin Hart
Affiliation:
Dep. Crop Prot., Waite Agric. Res. Inst., The Univ. Adelaide, Glen Osmond, South Australia 5064
Joseph A. M. Holtum
Affiliation:
Dep. Crop Prot., Waite Agric. Res. Inst., The Univ. Adelaide, Glen Osmond, South Australia 5064
Stephen B. Powles
Affiliation:
Dep. Crop Prot., Waite Agric. Res. Inst., The Univ. Adelaide, Glen Osmond, South Australia 5064
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Abstract

Rigid ryegrass population VLR69 has become resistant to nine classes of herbicides after 21 yr of exposure to five herbicides in five different chemical classes. The population was exposed to diuron in 17 seasons and is resistant to diuron (4 fold) and chlorotoluron (8 fold) when compared with a reference susceptible population (VLR1). VLR69 had six seasons of exposure to chlorsulfuron and exhibits a high level of resistance to chlorsulfuron (> 20 fold) and triasulfuron (> 25 fold) and a lesser change in sensitivity to sulfometuron (7 fold); however, 4% of the population has a high level of resistance to sulfometuron. Resistance to atrazine (5 fold), simazine (6 fold), and ametryn (10 fold) was observed after five seasons of exposure to atrazine. There is a high level of resistance to all aryloxyphenoxypropionate herbicides after only two exposures to diclofop eight generations prior to testing the population. The population was cross-resistant to tralkoxydim (> 9.5 fold) and sethoxydim (1.8 fold). There was a small change in sensitivity to paraquat (1.4 fold) after three generations of exposure. The population displayed cross-resistance to: imazaquin (7 fold), imazapyr (2.5 fold), metribuzin (8.7 fold), and metolachlor (2 fold) but was susceptible to oxyfluorfen and dinitroaniline herbicides. There was also a small shift in sensitivity to tridiphane (1.6 fold).

Keywords

diclofop, (±)-2-[4-(2,4-dichlorophenoxy)phenoxy]propionic acidoxyfluorfen, 2-chloro-1-(3-ethoxy-4-nitrophenoxy)-4-(trifluromethyl)benzeneparaquat, 1,1′-dimethyl-4,4′-bypyridinium ionsimazine, 6-chloro-N,N′-diethyl-1,3,5-triazine-2,4-diaminetralkoxydim, 2-[1-(ethoxyimino)propyl]-3-hydroxy-5-inositylcyclohex-2-onetridiphane, 2-(3,5-dichlorophenyl-2-(2,2,2-trichloroethyl)oxiranerigid ryegrass, Lolium rigidum G. # LOLRICross-resistancemultiple resistanceLOLRIsimazine resistancediuron resistance
Type
Weed Biology and Ecology
Information
Weed Science , Volume 42 , Issue 3 , September 1994 , pp. 369 - 377
Copyright
Copyright © 1994 by the Weed Science Society of America 

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References

Literature Cited

1. Arnon, D. I. 1949. Copper enzymes in isolated chloroplasts: polyphenoloxidase in Beta vulgaris . Plant Physiol. 24:115.Google Scholar
2. Beyer, E. M., Duffy, M. J., Hay, J. V., and Schlueter, D. D. 1988. Chapter 13, Sulfonylureas. Pages 118169 in Kearney, P. C. and Kaufman, D. D., eds, Herbicides: Their Chemistry, Degradation and Mode of Action. Vol 3. Marcel-Dekker, New York.Google Scholar
3. Burnet, M. W. M., Barr, A. R., and Powles, S. B. 1992. Chloroacetamide resistance in Lolium rigidum . Weed Sci. (in press).Google Scholar
4. Burnet, M. W. M., Christopher, J. T., Holtum, J. A. M., and Powles, S. B. 1992. Discrimination of two mechanisms of resistance to sulfonylureas in a biotype of Lolium rigidum . Weed Sci. (in press).Google Scholar
5. Burnet, M. W. M., Hildebrand, O. B., Holtum, J. A. M., and Powles, S. B. 1991. Amitrole, triazine, substituted urea, and metribuzin resistance in a biotype of rigid ryegrass (Lolium rigidum). Weed Sci. 39:317323.Google Scholar
6. Burnet, M. W. M., Loveys, B. R., Holtum, J. A. M., and Powles, S. B. 1993. Increased detoxification is a mechanism of simazine resistance in Lolium rigidum . Pestic. Biochem. Physiol. 46:207218.Google Scholar
7. Burnet, M. W. M., Loveys, B. R., Holtum, J. A. M., and Powles, S. B. 1993. A mechanism of chlorotoluron resistance in Lolium rigidum . Planta 190:182189.Google Scholar
8. Christopher, J. T., Powles, S. B., Holtum, J. A. M., and Liljegren, D. R. 1991. Cross-resistance to herbicides in annual ryegrass (Lolium rigidum): II Chlorsulfuron resistance involves a wheat-like detoxification system. Plant Physiol. 95:10361043.Google Scholar
9. Christopher, J. T., Powles, S. B., Liljegren, D. R., and Holtum, J. A. M. 1992. Resistance to acetolactate synthases inhibitors in annual ryegrass (Lolium rigidum) involves at least two mechanisms. Plant Physiol. 100:19091913.Google Scholar
10. Esser, H. O., Dupuis, G., Ebert, E., Vogel, C., and Marco, G. J. 1975. s-Triazines. Pages 129209 in Kearney, P. C. and Kaufman, D. D., eds. Herbicides: Their Chemistry, Degradation and Mode of Action. 2nd ed. Marcel-Dekker, New York.Google Scholar
11. Fuerst, E. P. and Vaughn, K. C. 1990. Mechanisms of paraquat resistance. Weed Technol. 4:150156.Google Scholar
12. Geissbuhler, H., Martin, H., and Voss, G. 1975. The substituted ureas. Pages 209291 in Kearney, P. C. and Kaufman, D. D., eds. Herbicides: Their Chemistry, Degradation and Mode of Action. 2nd ed. Marcel-Dekker, New York.Google Scholar
13. Hatzios, K. K. and Penner, D. 1988. Metribuzin. Pages 191243 in Kearney, P. C. and Kaufman, D. D., eds. Herbicides: Their Chemistry, Degradation and Mode of Action. 2nd ed. Marcel-Dekker, New York.Google Scholar
14. Hausler, R. E., Holtum, J. A. M., and Powles, S. B. 1991. Cross-resistance to herbicides in annual ryegrass (Lolium rigidum). IV. Correlation between membrane effects and resistance to graminicides. Plant Physiol. 97:10351043.Google Scholar
15. Heap, I. M. and Knight, R. 1986. The occurrence of herbicide cross-resistance in a population of annual ryegrass, Lolium rigidum, resistant to diclofop-methyl. Aust. J. Agric. Res. 37:149156.Google Scholar
16. Heap, I. M. and Knight, R. 1990. Variation in herbicide cross-resistance among populations of annual ryegrass (Lolium rigidum) resistant to diclofop-methyl. Aust. J. Agric. Res. 41:121128.Google Scholar
17. Heap, J. and Knight, R. 1982. A population of ryegrass tolerant to the herbicide diclofop-methyl. J. Aust. Inst. Agric Sci. 156157.Google Scholar
18. LaRossa, R. A. and Schloss, J. V. 1984. The sulfonylurea herbicide sulfometuron methyl is an extremely potent and selective inhibitor of acetolactate synthase in Salmonella typhimurium . J. Biol. Chem. 259:87538757.CrossRefGoogle ScholarPubMed
19. Mueller-Warrant, G. W. 1990. Use of oxyfluorfen to control seedling grasses in established perennial grasses grown for seed. Abstr. Weed Sci. Soc. Am. Page 28.Google Scholar
20. Powles, S. B. and Howat, P. D., 1990. Herbicide-resistant weeds in Australia. Weed Technol. 4:178185.Google Scholar
21. Powles, S. B. and Matthews, J. M. 1992. Multiple herbicide resistance in annual ryegrass (Lolium rigidum), the driving force for the adoption of integrated weed management. In Denholm, I., Devonshire, A., and Holloman, D., eds. Achievements and Developments in Combating Pest Resistance. Eisevier, London.Google Scholar
22. Ray, T. B. 1984. Site of action of chlorsuituron: inhibition of valine and isoleucine synthesis in plants. Plant Physiol. 75:827831.Google Scholar
23. Secor, J., Cseke, C., and Owen, W. J., 1989. The discovery of the selective inhibition of acetyl coenzyme A carboxylase activity by two classes of graminicides. Pages 145154 in Brighton Crop Prot. Conf.-Weeds. Vol 3. Br. Crop Prot. Counc. Surrey.Google Scholar
24. Shaner, D. L., Anderson, P. C., and Stidham, M. A. 1984. Imidazolinones, potent inhibitors of acetohydroxyacid synthase. Plant Physiol. 76:545546.Google Scholar
25. Shimabukuro, R. H. 1990. Selectivity and mode of action of action of a postemergence herbicide diclofop-methyl. PGRSA Quarterly 18:3754.Google Scholar