AI Article Synopsis
- Huanglongbing (HLB), or citrus greening disease, is severely impacting global citrus production, necessitating effective insecticide application to control the Asian citrus psyllid, the disease's primary vector.
- A novel fluorescent method was used to analyze insecticide distribution in Florida's HLB-infected groves, revealing significant variability in coverage, particularly with an average of 21 times more insecticide on the top of leaves compared to the bottom.
- The study found that tractor applications provided 4-87 times better coverage than aerial applications, suggesting that these insights can help optimize pest management strategies to better target pests while conserving resources and protecting the environment.
Article Abstract
Huanglongbing (HLB), or citrus greening disease, has significantly decreased citrus production all over the world. The disease management currently depends on the efficient application and adequate distribution of insecticides to reduce the density of the disease vector, the Asian citrus psyllid. Here, we use a novel fluorescent-based method to evaluate insecticide distribution in an HLB-infected citrus grove in Florida. Specifically, we evaluated six different locations within citrus trees, the top and bottom sides of leaves, the effect of application approach (tractor versus airplane), and different application rates. We found that despite the insecticide distribution being highly variable among the different locations within a tree, the top of the leaves received an average increase of 21 times more than the bottom of the leaves. Application by tractor also resulted in a 4- to 87-fold increase in insecticide coverage compared with aerial application, depending on the location in the tree and side of the leaf. When taken to context with the type of insecticide that is applied (systemic vs. contact), these results can be used to optimize a pest management strategy to effectively target psyllids and other pests while minimizing the time and money spent on insecticide application and reducing risk to the environment.
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| http://dx.doi.org/10.1094/PHYTO-05-21-0211-FI | DOI Listing |
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