Xu Wei-Ming, Zhang Ming, Wei Kun, Chen Yan, Liu Qin, Xue Wei, Jin Lin-Hong, He Ming, Chen Zuo, Zeng Song
State Key Laboratory Breeding Base of Green Pesticide and Agricultural Bioengineering, Key Laboratory of Green Pesticide and Agricultural Bioengineering, Ministry of Education, Center for Research and Development of Fine Chemicals, Guizhou University Guiyang 550025 P. R. China
RSC Adv. 2018 Jun 20;8(40):22687-22693. doi: 10.1039/c8ra03516d. eCollection 2018 Jun 19.
Continuous outbreaks of rice planthoppers in rice-growing regions in China indicates the importance of redesigning several planthopper management programs. Chemical control remains the main strategy for planthopper control in China and other subtropical and temperate regions. Most common chemical insecticides are emulsifiable concentrates, suspension concentrates, soluble concentrates, and wettable powders. These insecticides are applied by dusting or spraying using simple equipment. The active ingredient, with short effectiveness time, is degraded rapidly in natural paddy ecosystems. Thus, repeated pesticide applications are required to control rice planthoppers. Altering the short-term effect formulation of pesticides to a long-acting formulation may be an alternative solution. A pymetrozine controlled-release granule (CRG; 1%) was developed by loading the pesticide on bentonite and coating the solid pesticide with resin. Analysis of pymetrozine release indicated that the 1% pymetrozine CRG release was more than 80% for 60 days. In the field trial screening, the 1% pymetrozine CRG showed a controlled effect of 61.96-78.87% at 48 days after CGR application. Application of 1% pymetrozine CRG at the recommended dosage and 1.5 times the recommended dosage resulted in terminal residues on brown rice below the maximum residue limit (0.1 mg kg) of China and Japan. Moreover, the pesticide granules showed low toxicity against all tested beneficial organisms in the environment. Pymetrozine CRG (1%) showed good controlled release and efficacy for controlling paddy planthoppers. The compound exhibited a low terminal residue and low toxicity against all tested beneficial organisms. Pymetrozine CRG (1%) showed great potential for field applications to control paddy planthoppers, because it overcame the rapid loss of biological function during treatment.
中国水稻种植区稻飞虱的持续爆发表明重新设计多种稻飞虱管理方案的重要性。在中国以及其他亚热带和温带地区,化学防治仍然是防治稻飞虱的主要策略。最常见的化学杀虫剂有乳油、悬浮剂、可溶液剂和可湿性粉剂。这些杀虫剂通过使用简单设备进行喷粉或喷雾施用。有效成分有效期短,在天然稻田生态系统中迅速降解。因此,需要反复施用农药来防治稻飞虱。将农药的短期效应制剂改为长效制剂可能是一种替代解决方案。通过将农药负载在膨润土上并用树脂包衣固体农药,研制出了吡蚜酮控释颗粒剂(CRG;1%)。吡蚜酮释放分析表明,1%吡蚜酮CRG在60天内释放率超过80%。在田间试验筛选中,1%吡蚜酮CRG在施用CGR后48天的防治效果为61.96 - 78.87%。以推荐剂量和推荐剂量1.5倍施用1%吡蚜酮CRG,糙米中的最终残留量低于中国和日本的最大残留限量(0.1毫克/千克)。此外,该农药颗粒剂对环境中所有测试的有益生物毒性较低。1%吡蚜酮CRG对防治稻田稻飞虱表现出良好的控释性能和防治效果。该化合物最终残留量低,对所有测试的有益生物毒性低。1%吡蚜酮CRG在田间应用防治稻田稻飞虱方面具有巨大潜力,因为它克服了处理过程中生物功能的快速丧失。
