Visual drift is apparent in this trial by the Pesticide Application Technology Lab at University of NebraskaLincoln which evaluated multiple nozzles and droplet sizes in an 8 to 12 mph wind Pink florescent dye is added to spray solutions to evaluate pesticide drift in the field Mylar cards spread at known distances from the spray rig to evaluate particle travel Under a black light in the lab even drift invisible to the naked eye can be seen and measured

Visual drift is apparent in this trial by the Pesticide Application Technology Lab at University of Nebraska-Lincoln, which evaluated multiple nozzles and droplet sizes in an 8 to 12 mph wind. Pink florescent dye is added to spray solutions to evaluate pesticide drift in the field. Mylar cards spread at known distances from the spray rig to evaluate particle travel. Under a black light in the lab, even drift invisible to the naked eye can be seen and measured.

How to stop drift before it floats away! Part 3

The effectiveness of the product and drift potential is influenced by the size of the spray droplets and droplet spectrum

“If label recommendations for tip usage are not followed, drift and misapplication will surely follow.”

The goals of applying any crop protection products include increasing effectiveness, and maximizing profits all while mitigating drift. Weather is the primary factor influencing drift, including wind (direction and speed), temperature, humidity and air stability/inversions. Their impacts are covered in Part 1. Best sources for weather data was covered in Part 2. This article will focus on mitigating drift through nozzle tip selection.

Nozzle Selection

Industry today has more nozzle options designed to reduce drift, improve droplet size control, and an emphasize spray quality than ever before. Nozzle tips are important to control the rate of product delivered, determine uniformity of application, affects the coverage, and influences the drift potential. Always refer to the product label for nozzle tip recommendations.

Spray Droplet Size

The effectiveness of the product and drift potential is influenced by the size of the spray droplets and droplet spectrum. Spray droplet volume median diameter (VMD) is measured in microns (1 micron = 1/25,000 inch). To give everyday examples of approximate diameters of items, a pencil lead is 2000 microns, a paper clip is 850 microns, a staple is 420 microns, a toothbrush bristle is 300 microns, a sewing thread is 150 microns, and a human hair is around 100 microns. When selecting nozzle tips to use you will have options ranging from extremely fine to ultra coarse (Table 1).

Spray Coverage

Spray droplet size also influences spray coverage. As spray droplet size increases, spray coverage decreases. As a rule of thumb select nozzles, tip sizes, and operating pressures that produce large enough spray droplets that reduce the risk of drift, while giving adequate coverage for the pesticide type used. Spray droplets less than 200 microns in diameter are light, and remain airborne a long time and are most prone to drift.

 

 

Application Considerations

Keep these strategies in mind when planning to spray:
•Select the correct nozzle for the product to increase droplet size and decrease spray fines.
•Increase flow rates, higher application volumes.
•Use lower pressures.
•Use lower spray boom heights.
•Avoid adverse weather conditions.
•Consider using buffer zones.
•Consider using new technologies (e.g. drift reduction nozzles, drift reduction additives, shields).

Herbicides are only a tool, we must keep in mind the three ways to slow weed issues are; competition, sanitation, and rotation.

This is part three of a three part series. Just click to check out parts one and two.

Originally posted by South Dakota State University Extension. 

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