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Management of penoxsulam- and bispyribac-resistant late watergrass (Echinochloa phyllopogon) biotypes and rice sedge (Cyperus difformis) in rice

Ioannis Vasilakoglou1*, Kico Dhima2, and Thomas Gitsopoulos3

The repeated use of herbicides with the same mode of action maybe has led to buildup of resistant late watergrass (Echinochloa phyllopogon (Stapf) Stapf ex Kossenko) populations. Thus, pot experiment was conducted to evaluate the level of penoxsulam- and bispyribac-resistance in seven late watergrass biotypes collected from water-seeded rice fields in Greece. Their susceptibility to imazamox and profoxydim was also studied. Furthermore, the efficacy of various herbicide combinations against the resistant late watergrass biotypes, as well as on rice sedge (Cyperus difformis L.) were evaluated in four field experiments. In pot experiment, two biotypes were resistant to both herbicides, while three biotypes were moderately resistant to penoxsulam with one of these simultaneously resistant to bispyribac. Four biotypes were also cross-resistant to imazamox, while all biotypes were susceptible to profoxydim. In field experiments, the double applications of penoxsulam or bispyribac applied at 18 d after seeding (DAS) followed by profoxydim plus halosulfuron at 35 DAS constantly provided the greatest rice yield and satisfactory control of both weeds. Conclusively, late watergrass resistant to penoxsulam and bispyribac biotypes have been built. In particular, rates up to 8 times the recommended rate did not provide acceptable weed control. Effective control of these biotypes and high rice yield can be achieved by double applications of herbicides with different modes of action (penoxsulam or bispyribac until the third leaf of rice [18 DAS] followed by profoxydim at seven-to eight-leaves growth stage [35 DAS]). Simultaneous control of late emerged rice sedge can be achieved by the addition of halosulfuron in the tank-mix with profoxydim.

Key words: Herbicide efficacy, imazamox, profoxydim, resistance management, rice yield.

1Technological Educational Institute of Thessaly, Department of Agricultural Technology, 41110 Larissa, Greece.*Corresponding author (vasilakoglou@teilar.gr).2Technological Educational Institute of Thessaloniki, Department of Agricultural Technology, 57400 Echedoros, Greece.3Hellenic Agricultural Organization – Demeter, Institute of Plant Breeding and Genetic Resources, 57001, Thessaloniki, Greece.

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