Filago pyramidata Tolerant to ALS-Inhibiting Herbicides: A New Invasive Weed in Olive Groves of Southern Spain

Weeds that usually grow in non-agricultural areas have become increasingly common invading perennial crops. Species of the genus Filago, in addition to invading Spanish olive groves, have developed certain levels of natural tolerance to the acetolactate synthase (ALS) inhibiting herbicide flazasulfuron. The objective of this study was to determine the level and the mechanism involved in the tolerance to flazasulfuron in Filago pyramidata L., which occurs in olive groves of southern Spain, as well as to identify possible cross- or multiple-tolerances by evaluating alternative herbicides for its control. A population resistant (R) to flazasulfuron and a susceptible (S) one of Conyza canadensis were used as references. The accessions of F. pyramidata presented LD50 values (from 72 to 81 g active ingredient (ai) ha(-1)) higher than the field dose of flazasulfuron (50 g ai ha(-1)), being 11-12.5 times more tolerant than the S population of C. canadensis, but less than half the R population (170 g ai ha 1). Enzymatically, F. pyramidata was as sensitive to flazasulfuron (I50 = 17.3 mu M) as the S population of C. canadensis. Filago pyramidata plants treated with flazasulfuron, combined with 4chloro-7-nitro-2,1,3-benzoxadiazole, had a growth reduction of up to 85%, revealing the participation of glutathione-S-transferases in herbicide metabolism. Filago pyramidata presented cross-tolerance to the different chemical groups of ALS inhibitors, except triazolinones (florasulam). Synthetic auxins (2,4-D and fluroxypyr) presented good control, but some individuals survived (low multiple resistance). Cellulose synthesis, 5-enolpyruvylshikimate-3-phosphate, 4-hydroxyphenylpyruvate dioxygenase, protoporphyrinogen oxidase, photosystem I, and photosystem II inhibitor herbicides, applied in PRE or POST-emergence, presented excellent levels of control of F. pyramidata. These results confirmed the natural tolerance of F. pyramidata to flazasulfuron and cross-tolerance to most ALSinhibiting herbicides. The mechanism involved was enhanced metabolism mediated by glutathioneS-transferases, which also conferred low multiple tolerance to synthetic auxins. Even so, herbicides with other mechanisms of action still offer excellent levels of control of F. pyramidata.

Automated summary

Weeds that usually grow in non-agricultural areas have developed tolerance to the herbicide flazasulfuron and show cross-tolerance to other herbicides. Filago pyramidata, found in Spanish olive groves, exhibited natural tolerance to flazasulfuron and cross-tolerance to most ALS-inhibiting herbicides. The mechanism of tolerance is enhanced metabolism mediated by glutathione-S-transferases. However, herbicides with other mechanisms of action still provide excellent control of F. pyramidata.