Abstract
Sulfonylurea herbicides are widely used as acetolactate synthase (ALS) inhibitors due to their super-efficient activity. However, some sulfonylurea herbicides show toxicity under crop rotation due to their long degradation time, for example, chlorsulfuron. Our research goal is to obtain chlorsulfuron-derived herbicides with controllable degradation time, good crop safety and high herbicidal activities. Based on our previously reported results in acidic soil, we studied the degradation behaviors of 5-dialkylamino-substituted chlorsulfuron derivatives (NL101–NL108) in alkaline soil (pH 8.39). The experimental data indicate that addition of the 5-dialkylamino groups on the benzene ring of chlorsulfuron greatly accelerated degradation in alkaline soil. These chlorsulfuron derivatives degrade 10.8 to 51.8 times faster than chlorsulfuron and exhibit excellent crop safety on wheat and corn (through pre-emergence treatment). With a comprehensive consideration of structures, bioassay activities, soil degradation and crop safety, it could be concluded that 5-dialkylamino-substituted chlorsulfuron derivatives are potential green sulfonylurea herbicides for pre-emergence treatment on both wheat and corn. The study also provides valuable information for the discovery of new sulfonylurea herbicides for crop rotation.
Highlights
Sulfonylureas were found to have super herbicidal activities in 1987 and have been used worldwide due to their high activity and low toxicity to mammals [1]
Followed by our previously reported studies on herbicidal activities and acidic soil degradation, we systematically studied the degradation and crop safety of 5-dialkylaminosubstituted chlorsulfuron derivatives in alkaline soil for the first time
We found that 5-dialkylamino-substituted groups on the benzene ring of chlorsulfuron could greatly accelerate the degradation both in acidic and alkaline soil in comparison with chlorsulfuron
Summary
Sulfonylureas were found to have super herbicidal activities in 1987 and have been used worldwide due to their high activity and low toxicity to mammals [1]. They are acetolactate synthase (ALS) inhibitors and can block the first reaction in the pathway of branched-chain amino acid biosynthesis in weeds [2]. The large-scale use of sulfonylurea herbicides has caused serious economic losses [3,4,5]; in 2014, the Ministry of Agriculture of China suspended the field application of chlorsulfuron [6]
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