Evaluation of herbicide-resistance status on populations of littleseed canarygrass (Phalaris minor Retz.) from southern Greece and suggestions for their effective control

• Autorzy: Travols I.S.
• Języki publikacji: EN

Abstrakty

EN

In 2010, a survey was conducted in the wheat fields of a typical cereal-producing region of Greece to establish the frequency and distribution of herbicide-resistant littleseed canarygrass (Phalaris minor Retz.). In total, 73 canarygrass accessions were collected and screened in a field experiment with several herbicides commonly used to control this weed. Most of the weed populations were classed as resistant (or developing resistance) to the acetyl-CoA varboxylase (ACCase)-inhibiting herbicide diclofop, while resistance to clodinafop was markedly lower. The results of the pot experiments showed that some of the canary populations were found to have a very high level of diclofop resistance (resistance index up to 12.4), while cross resistance with other herbicides was also common. The levels of resistance and cross resistance patterns among populations varied along with the different amounts and times of selection pressure. Such variation indicated either more than one mechanism of resistance or different resistance mutations in these weed populations. The population which had the highest diclofop resistance level, showed resistance to all aryloxyphenoxypropinate (APP) herbicides applied and non-ACCase inhibitors. Alternative ACCase-inhibiting herbicides, such as pinoxaden remain effective on the majority of the tested canarygrass populations, while the acetolactate synthase (ALS)-inhibiting herbicide mesosulfuron + iodosulfuron could also provide some solutions. Consequently, there is an opportunity to effectively control canarygrass by selecting from a wide range of herbicides. It is the integration of agronomic practices with herbicide application, which helps in effective management of P. minor and particularly its resistant populations.

• Wydawca: -
• Czasopismo: Journal of Plant Protection Research
• Rocznik: 2012
• Tom: 52
• Numer: 3
• Opis fizyczny: p.308-313,ref.

Twórcy

autor

Travols I.S.

• Agricultural University of Athens, Faculty of Crop Science Laboratory of Agronomy, 75, Iera Odos St., 11855 Athens, Greece

Bibliografia

• Afentouli C.G., Eleftherohorinos I.G. 1996. Littleseed canary grass (Phalaris minor) and short spiked canary grass (Phalaris brachystachys) interference in wheat and barley. Weed Sci. 44 (3): 560-565.
• Afentouli A., Georgoulas J. 2002. Resistance of Phalaris brachystachys to fenoxaprop-p-ethyl. Abstracts 12th Hellenic Weed Science Society Conference. 2-3 December 2002, Athens, Greece, 16 pp.
• Anderson D.E. 1961. Taxonomy and distribution of the genus Phalaris. Iowa State J. Sci. 36 (1): 1-96.
• Baldini R.M. 1995. Revision of the genus Phalaris L. Gramineae. Webbia 49 (2): 265-329.
• Beckie H.J., Thomas A.G., Stevenson F.C. 2002. Survey of herbicide-resistant wild oat (Avena fatua) in two townships in Saskatchewan. Can. J. Plant Sci. 82 (2): 463-471.
• Bourgeois L., Kenkel N.C., Morrison I.N. 1997. Characterization of cross-resistance patterns in acetyl-CoA carboxylase inhibitor resistant wild oat (Avena fatua). Weed Sci. 45 (6): 750-755.
• Cavan G., Cussans J., Moss S.R. 2000. Modelling different cultivation and herbicide strategies for their effect on herbicide resistance in Alopecurus myosuroides. Weed Res. 40 (6): 561-568.
• Chhokar R.S., Singh S., Sharma R.K. 2008. Herbicides for control of isoproturon-resistant littleseed canarygrass (Phalaris minor) in wheat. Crop Prot. 27 (3-5): 719-726.
• Gressel J. 1990. Synergizing herbicides. Rev. Weed Sci. 5: 49-82.
• Heap I. 2012. International Survey of Herbicide Resistant Weeds. http://www.weedscience.com
• Holm L., Pancho J.V., Herberger J.P., Plucknett D.L. 1979. A Geographical Atlas of World Weeds. Wiley, New York, 273 pp.
• Jabran K., Farooq M., Hussain M., Rehman H., Ali M.A. 2010. Wild oat (Avena fatua L.) and canary grass (Phalaris minor Ritz.) management through allelopathy. J. Plant Protection Res. 50 (1): 41-44.
• Malik R.K., Singh S. 1995. Littleseed canarygrass (Phalaris minor) resistance to isoproturon in India. Weed Tech. 9 (3): 419-425.
• Maneechote C., Holtum J.A.M., Preston C., Powles S.B. 1994. Resistant Acetyl-CoA Carboxylase is a mechanism of herbicide resistance in a biotype of Avena sterilis ssp. ludoviciana. Plant Cell Physiol. 35 (4): 627-635.
• Mansooji A.M., Holtum J.A.M., Boutsalis P., Matthews J.M., Powles S.B. 1992. Resistance to aryloxyphenoxypropionate herbicides in two wild oat species (Avena fatua and Avena sterilis). Weed Sci. 40 (4): 599-605.
• Om H., Dhiman S.D., Kumar H., Kumar S. 2003. Biology and management of Phalaris minor in wheat under a rice/wheat system. Weed Res. 43 (1): 59-67.
• Om H., Kumar S., Dhiman S.D. 2004. Biology and management of Phalaris minor in rice-wheat system. Crop Prot. 23 (12): 1157-1168.
• Owen M.J., Walsh M.J., Llewellyn R., Powles S.B. 2007. Wide-spread occurrence of multiple herbicide resistance in Western Australian annual ryegrass (Lolium rigidum) populations. Austr. J. Agric. Res. 58 (7): 711-718.
• Sattin M. 2005. Herbicide resistance in Europe: an overview. p. 131-138. In: Proc. British Crop Production Council International Conference Crop Science & Technology. Glasgow, UK, 1236 pp.
• Seefeldt S.S., Jensen J.E., Fuerst E.P. 1995. Log-logistic analysis of herbicide dose-response relationships. Weed Technol. 9 (2): 218-225.
• Singh S., Kirkwood R.C., Marshall G. 1999. Biology and control of Phalaris minor Retz. (littleseed Canarygrass) in wheat. Crop Prot. 18 (1): 1-16.
• Tal A., Zarka S., Rubin B. 1996. Fenoxaprop-P resistance in Phalaris minor conferred by an intensive acetyl coenzyme A carboxylase. Pestic. Biochem. Physiol. 56 (2): 134-140.
• Travlos I.S., Economou G., Kotoulas V.E., Kanatas P.J., Kontogeorgos A.N., Karamanos A.I. 2009. Potential effects of diurnally alternating temperatures on purple nutsedge (Cyperus rotundus) tuber sprouting. J. Arid Environ. 73 (1): 22-25.
• Travlos I.S., Chachalis D. 2010. Glyphosate-resistant hairy fleabane (Conyza bonariensis) is reported in Greece. Weed Tech. 24 (4): 569-573.
• Travlos I.S., Giannopolitis C.N., Economou G. 2011. Diclofop resistance in sterile wild oat (Avena sterilis L.) in wheat fields in Greece and its management by other post-emergence herbicides. Crop Prot. 30 (11): 1449-1454.
• Travlos I.S., Kanatas P.J., Economou G., Kotoulas V.E., Chachalis D., Tsioros S. 2012. Evaluation of velvetleaf interference with maize hybrids as influenced by relative time of emergence. Exp. Agric. 48 (1): 127-137.
• Vassiliou G., Alexoudis C., Koutroubas S. 2006. Alterations of agroecosystems in Greece through pesticide use. The "Phalaris case". p. 293-298. In: "Ecotoxicology, Ecological Risk Assessment and Multiple Stressors, Proceedings of the NATO Advanced Research Workshop on Ecotoxicology, Ecological Risk Assessment and Multiple Stressors" (G. Arapis, N. Goncharova, P. Baveye, eds.). Nato Security through Science Series C, 382 pp.
• Wrubel R.P., Gressel J. 1994. Are herbicide mixtures useful for delaying the rapid evolution of resistance? A case study. Weed Technol. 8 (3): 635-648.
• Zand E., Baghestani M.A., Soufizadeh S., Eskandari A., Pourazar R., Veysi M., Mousavi K., Barjasteh A. 2007. Evaluation of some newly registered herbicides for weed control in wheat (Triticum aestivum L.) in Iran. Crop Prot. 26 (9): 1349-1358.

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