Litcius/Paper detail

Comparison of Droplet Deposition Control Efficacy on Phytophthora capsica and Aphids in the Processing Pepper Field of the Unmanned Aerial Vehicle and Knapsack Sprayer

Qinggang Xiao, Rui Du, Lin Yang, Xiaoqiang Han, Sifeng Zhao, Guoqiang Zhang, Wei Fu, Guobin Wang, Yubin Lan

2020Agronomy63 citationsDOIOpen Access PDF

Abstract

Processing pepper planting and processing have become an important red pillar industry in Xinjiang. With the continuous growth of processing pepper planting areas in Xinjiang, diseases and pests are increasing year by year. The aim of this study was to compare the droplet deposition and control efficiency of unmanned aerial vehicle (UAV) and electric air-pressure knapsack (EAP) sprayers on a processing pepper field. The UAV sprayer had a poor droplet coverage rate, droplet density, and deposition uniformity, but displayed the best deposition (1.01 μg/cm2, which was 98% more than the EAP sprayer). The control efficacy of the UAV sprayer on processing pepper fields with Phytophthora capsici and aphids was slightly lower than that of the EAP sprayer. When the UAV sprayer was used to control processing pepper diseases and pests, it could reduce the pesticide dosage on the premise of ensuring the control effect. Further study of the residue of high concentration pesticides in pepper fruit and environment sprayed by UAVs are needed.

Topics & Concepts

SprayerPepperPhytophthora capsiciSowingAphidEnvironmental sciencePesticideAgronomyHorticultureBiologyPlant Surface Properties and TreatmentsForest Insect Ecology and ManagementPlant Pathogens and Resistance