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QUIK STATS (last updated Jan 21, 2024 )
NOTES ABOUT THIS BIOTYPE
Buddenhagen, C. E., & Ngow, Z. (2024). Pyroxsulam resistance in ripgut brome (Bromus diandrus) in New Zealand. New Zealand Journal of Agricultural Research, 1–8. https://doi.org/10.1080/00288233.2024.2401449 ABSTRACT
Background:
Ripgut brome (Bromus diandrus Roth) is a problematic weed in New Zealand cereals and has developed resistance to various herbicides worldwide, including ACCase, ALS, and EPSPS inhibitors. A population in New Zealand's South Island from wheat recently showed resistance to the ALS-inhibitor pyroxsulam. This study investigates the resistance level in this population.
Methods:
The resistant ripgut brome population was compared to a susceptible population from a nearby organic farm. The level of resistance to pyroxsulam was determined using dose–response assays. The cytochrome P450 inhibitor malathion was used to evaluate the possible role of cytochrome P450 in herbicide metabolism.
Results:
The estimated LD50 for pyroxsulam in the resistant population was significantly higher (126 g ai ha−1), suggesting a 20-fold reduction in sensitivity compared to the control (6 g ai ha−1). Malathion pre-treatment increased herbicide sensitivity in susceptible and resistant populations.
Conclusions:
This study confirms significant resistance to pyroxsulam in a New Zealand ripgut brome population and suggests that a target-site resistance mechanism is the most likely explanation. This research adds to global evidence that ripgut brome can become resistant to pyroxsulam and underscores the escalating issue of herbicide-resistant weeds in New Zealand agriculture.
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