Pyroxsulam Boosts Wheat Tolerance to Bixlozone: Effects and Mechanisms
Yaling Geng, Xu Dong, Chencan Wang, Chunhong Liu, Hongliang Wei, Linghui Wang, Jing Xu, Dong Chen, Libing Yuan
Journal:Plants-Basel
IF:4.7
DOI:10.3390/plants15040658
PMID:41754365
Published:2026-02-22
research field:植物生理学分子生物学除草剂生物化学农业科学作物保护
Abstract
Bixlozone has significant potential as a pre-emergence and early post-emergence herbicide in wheat production across China. However, its safety when applied to wheat is poor, frequently causing phytotoxicity. This study confirmed the capacity of pyroxsulam to mitigate bixlozone-induced injury without compromising weed control efficacy and examined the underlying processes. Wheat exposed to bixlozone alone developed pronounced chlorosis and significant reductions in tiller formation, ultimately lowering the grain yield. In contrast, co-treatment with pyroxsulam substantially relieved chlorosis and restored both the tiller number and yield performance. Bixlozone reduced chlorophyll and carotenoid levels, impairing the function of photosystem II (PSII), which was mitigated by pyroxsulam application. Transcriptome profiling showed that pyroxsulam strongly activated detoxification-related pathways, especially those associated with glutathione S-transferases (GSTs) and ATP-binding cassette (ABC) transporters, which facilitate the metabolic detoxification or compartmentalization of bixlozone. qRT-PCR further validated the marked induction of key detoxification genes ABCC8-X1 , GSTU6 and ABCC10 following pyroxsulam addition. Collectively, this study provides initial mechanistic insight into how pyroxsulam, though itself a herbicide, can enhance wheat tolerance to bixlozone by stimulating endogenous detoxification systems. These findings offer a framework for the development of safer herbicide mixtures and expand current understanding of crop–herbicide interactions, providing meaningful implications for herbicide management and sustainable agricultural systems.
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