Control Efficacy and Deposition Characteristics of an Unmanned Aerial Spray System Low-Volume Application on Corn Fall Armyworm Spodoptera frugiperda

Shan, Changfeng; Song, Cancan; Chen, Shengde; Wang, Juan; Wang, Haihong; Wang, Guobin; Lan, Yubin

doi:10.3389/fpls.2022.900939

Cited by 14 publications

(18 citation statements)

References 40 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This reveals significant potential for improving the uniformity of pesticide deposition distribution applied by UASS. These findings align with prior research, demonstrating that the CV of UASS can exceed 40%, even reaching 100%–120% for both single and multiple swaths 46–48 . Variability in pesticide deposition distribution is a common occurrence in field applications due to the unique characteristics of these systems.…”

Section: Resultssupporting

confidence: 89%

Field evaluation of a six‐rotor unmanned agricultural aerial sprayer: effects of application parameters on spray deposition and control efficacy against rice planthopper

Huang

Wang

Wongsuk

et al. 2023

Pest Management Science

View full text Add to dashboard Cite

BACKGROUNDUnmanned Aerial Spraying System (UASS) has emerged as an advanced, precise, and efficient tool for pesticide application in numerous nations in recent years. Despite this, there is a noticeable gap in research advocating viable, quantifiable methodologies for application parameter optimization. This investigation was primarily oriented toward identifying optimal UASS application parameters. It did so by exploring the effects of varying spray volumes and flight parameters on spray performance in a comprehensive manner, and by assessing the biological potency of aerial insecticide application against Rice Planthopper (RPH) using the optimal parameters, aided by two types of nozzles in rice field settings.RESULTSIncreased spray volume increased the spray deposition. Working height impacted the distribution of spray deposition, with a higher working height leading to superior distribution uniformity. Both spray volume and working height were observed to influence spray deposition and its percentage in tandem. Upon factor analysis, the optimal parameters determined for rice at the heading stage were an application volume of 15.0 L·ha−1, a working height of 2.0 m, and a driving speed of 5.0 m·s−1. Under these parameters, the air‐induction twin flat fan nozzle IDKT120‐015 demonstrated approximately 5% higher spray deposition than the flat fan nozzle SX11001VS, albeit with inferior distribution uniformity. Both nozzle types achieved over 93.0% control efficacy against RPH using triflumezopyrim, persisting for up to 40 days post‐treatment.CONCLUSIONThis study furnishes invaluable insights and data for controlling rice planthopper via UASS pesticide application, contributing to the progress of modern intensive and sustainable agriculture. © 2023 Society of Chemical Industry.

show abstract

Section: Resultssupporting

confidence: 89%

Field evaluation of a six‐rotor unmanned agricultural aerial sprayer: effects of application parameters on spray deposition and control efficacy against rice planthopper

Huang

Wang

Wongsuk

et al. 2023

Pest Management Science

View full text Add to dashboard Cite

show abstract

“…From Figs 3 and 4, the CV values of the six‐rotor UASS sprayer within a single swath (48.0–83.4%) were observed to be much higher than values for conventional boom sprayers, indicating a poor distribution uniformity measured at the top of the artificial rice plants. These results are in line with those of previous studies, which have shown that the CV values of UASS were almost above 40% and even reached 100–120%, for both a single swath and multiple widths 18,20,42–46 . This is a common phenomenon in current UASS field application operations in China, determined by the characteristics of the UASS itself.…”

Section: Discussionsupporting

confidence: 92%

“…These results are in line with those of previous studies, which have shown that the CV values of UASS were almost above 40% and even reached 100-120%, for both a single swath and multiple widths. 18,20,[42][43][44][45][46] This is a common phenomenon in current UASS field application operations in China, determined by the characteristics of the UASS itself. Unmanned aerial sprayers normally use ultra-low volume (ULV) and very-low volume (VLV) applications, and the fine droplets are greatly influenced by rotor airflow and external natural wind.…”

Section: Discussionmentioning

confidence: 99%

Field evaluation of spray drift and nontargeted soybean injury from unmanned aerial spraying system herbicide application under acceptable operation conditions

Huang

Wang

et al. 2022

Pest Management Science

View full text Add to dashboard Cite

Background: Droplets of plant production products sprayed from unmanned aerial spraying system (UASS) applications are prone to drift, threatening nontarget crops, humans, and environment. There are few studies that have investigated plant bioassay of UASS spray drift, and even fewer when it comes to herbicide application. This work reports a combined field-scale evaluation of spray drift and plant bioassay for a rice herbicide florpyrauxifen-benzyl application using a six-rotor motor UASS under acceptable operating conditions. An artificial rice canopy was built to simulate a practical field application scenario and the soybean was applied to assess the nontargeted crop injury. The effects of nozzle type (droplet size), flight height, and adjuvant on spray deposition, sedimenting drift, airborne drift, and soybean injury were studied to explore the feasibility of UASS herbicide application.Results: Under an average wind speed of 1.2-1.5 m s −1 , reduced flight height, increased droplet size, and adding nonionic surfactant resulted in greater deposition, lower drift, and less injury to soybean. Increasing droplet size by changing the nozzle was more effective compared with adding adjuvant and reducing the flight height, which offers greater flexibility and can accomplish better spray performance. The correlations between sedimenting drift and soybean injury percentage were highly significant (P < 0.01, r > 0.96). The calculated buffer distances of 7.7-18.9 m were to varying degrees less than the soybean safety distances of 10.0-20.0 m. Conclusion:The results of this study provide a reference basis for determining optimum working parameters and establishing buffer zones for the rice herbicide application of UASS.

show abstract

“…This is explained by the fact that during the applications, the so-called "umbrella effect" occurred, in which the leaves in the upper and middle layers prevented the increase in coverage, density, and deposition of drops in the lower layer and fruit clusters. The authors of [46], using a UAV equipped with the XR110-01 and -015 nozzles, to control the caterpillar (Spodoptera frugiperda) on corn plants, observed that coverage and droplet deposition were higher in the upper layer and lower in the lower layer. Other studies support this statement using UAV-applied flat-fan nozzles, such as on citrus [47] and on pigeon pea [48].…”

Section: Discussionmentioning

confidence: 99%

Impact of Operational Parameters on Droplet Distribution Using an Unmanned Aerial Vehicle in a Papaya Orchard

et al. 2023

Self Cite

View full text Add to dashboard Cite

Papaya production and export is increasingly expanding in the world market due to the nutritional importance of the fruit. Phytosanitary issues, labor shortages, and unevenness in land-based costal and motorized applications compromise crops, the environment, and humankind. The purpose of this study was to evaluate the efficiency of droplet distribution using an unmanned aerial vehicle, with different application rates (12.0, 15.0, and 18.0 L ha−1) and spray nozzles (XR110015 and MGA015) in the upper (UL), middle (ML), and lower (LL) layers, and on papaya fruit clusters (BF). Water-sensitive paper labels and artificial targets were used to assess the efficiency. Coverage, density, droplet distribution, and droplet diameter were influenced by the application rates in the following order: 18.0 > 15.0 > 12.0 L ha−1, showing concentrated droplet distribution in the respective layers: UL > ML > LL > BF. The 18.0 L ha−1 rate increased the variables examined, and the droplet coverage on the UL using the XR110015 nozzle was 6.56 times greater than that found on the LL and BF. The MGA015 nozzle presented better results in the LL and BF in all variables analyzed. The UAVs were efficient in applying to the papaya crop and further studies should be carried out in order to confirm the efficacy of plant protection products applied using this technology.

show abstract

Control Efficacy and Deposition Characteristics of an Unmanned Aerial Spray System Low-Volume Application on Corn Fall Armyworm Spodoptera frugiperda

Cited by 14 publications

References 40 publications

Field evaluation of a six‐rotor unmanned agricultural aerial sprayer: effects of application parameters on spray deposition and control efficacy against rice planthopper

Field evaluation of a six‐rotor unmanned agricultural aerial sprayer: effects of application parameters on spray deposition and control efficacy against rice planthopper

Field evaluation of spray drift and nontargeted soybean injury from unmanned aerial spraying system herbicide application under acceptable operation conditions

Impact of Operational Parameters on Droplet Distribution Using an Unmanned Aerial Vehicle in a Papaya Orchard

Contact Info

Product

Resources

About