Herbicidal activity on acetolactate synthase‐resistant barnyardgrass ( E chinochloa crus‐galli ) in A rkansas, USA

The intensive use of the acetolactate synthase ( ALS )‐inhibiting herbicides, imazethapyr, penoxsulam and bispyribac‐sodium, in imidazolinone‐resistant ( C learfield) rice increases the risk of the evolution of ALS ‐resistant barnyardgrass. In 2009, imazethapyr failed to control barnyardgrass that was collected from a field in A rkansas, USA , following the failure of the herbicide in 2008. A greenhouse experiment was conducted to confirm and document the level of resistance of the biotype against three ALS ‐inhibiting herbicides that currently are labeled in rice. The level of control of the resistant biotype at the labeled rate of bispyribac‐sodium of 35 g ai ha −1 was 10%, penoxsulam at 22 g ai ha −1 was 0% and imazethapyr at 70 g ai ha −1 was 25%. The level of mortality of the susceptible biotype was 100% with all the herbicides at the labeled rate. The dose needed to kill 50% of the resistant plants was 49 g ha −1 of bispyribac‐sodium, 254 g ha −1 of penoxsulam and 170 g ha −1 of imazethapyr. For the susceptible biotype, bispyribac‐sodium at 6 g ha −1 , penoxsulam at 10 g ha −1 and imazethapyr at 12 g ha −1 killed 50% of the treated plants. Based on these findings, it was confirmed that a barnyardgrass population has evolved cross‐resistance to three ALS ‐inhibiting herbicides in rice culture in A rkansas. Furthermore, an experiment was conducted to determine if the ALS ‐resistant biotype could be controlled using other mechanisms of action. The results indicated that propanil, a photosystem II inhibitor, and quinclorac, a synthetic auxin, failed to control the resistant biotype at the labeled rates, whereas all the other evaluated herbicides provided effective control of both biotypes.