杀虫剂
连续稀释
佐剂
空中应用
活性成分
沉积(地质)
喷雾器
环境科学
制浆造纸工业
农学
生物
医学
药理学
工程类
替代医学
免疫学
古生物学
病理
沉积物
作者
Rui Zhao,Meng Yu,Zhe Sun,Linjie Li,Hongyi Shang,Wan‐jiang Xi,Biao Li,Yang‐yang Li,Yong Xu,Xuemin Wu
摘要
BACKGROUND: Unmanned aerial vehicles (UAVs) are widely used to improve the efficiency of pesticide applications. Low-volume spraying operations require more efficient deposition of droplets on the target surface. Therefore, pesticide deposition and retention on plant surfaces is a serious challenge for modern precision agriculture. Tank-mix adjuvants have been used to improve spray dilutions performance; however, their effects on the physicochemical properties of spray dilutions, dosage delivery, and pesticide dosage are unclear. RESULTS: Tank-mix adjuvant 8860 significantly improved the physicochemical properties of spray dilutions, inhibited spray droplets rebound, improved the wetting and spreading performance of spray dilutions on wheat leaves, and increased the effective deposition of tebuconazole on wheat leaves. Even when its dosage was reduced by one-third, the spray solution still showed excellent disease control and effective deposition of the active ingredient on wheat leaves. CONCLUSION: The use of appropriate tank-mix adjuvants in UAV-based plant protection for wheat can significantly improve the performance of spray dilutions, increase the efficiency of pesticide dosage delivery, and improve disease control. These adjuvants can also help reduce the pesticide use while ensuring their effectiveness. © 2022 Society of Chemical Industry.
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