UF Study Uses UV Lamps to Control Strawberry Pest
With about 11,000 acres — mostly in west-central Florida — strawberries are worth $399 million annually in Florida. That represents 10% of the national strawberry value and most of the domestically produced winter crop in the United States.
Those economic figures make it critical for strawberry growers to keep pests and diseases at bay.
While producers began planting for this year’s harvest in October, they’re acutely aware of the potential scourge of the twospotted spider mite, which eats into their fruit.
Farmers find it difficult to manage the bugs and pathogens with conventional sprays.
Now, University of Florida scientists have found that by shining UV light on a research field of strawberries in the middle of the night, they can zap spider mites. Soon, scientists hope commercial farmers will be able to use this method.
Researchers such as Natalia Peres, a plant pathologist at the UF/IFAS Gulf Coast Research and Education Center (GCREC) have already shown they can use the ultraviolet lamp to thwart strawberry pathogens in the field.
The study gives scientists and growers data about the amount of UV light necessary to significantly reduce the number of spider mite eggs in strawberry fields – without reducing fruit yield, she said.
“An added advantage is that UV light does not leave any residue behind and can be applied using automated robotic units already in production by commercial sources,” says Lahiri, a UF/IFAS assistant professor of entomology, also at GCREC.
Scientists need more field trials to further confirm the benefits of the UV light treatment on the mites as well as other pests such as thrips.
Because spider mites and thrips are more difficult to control using these doses of UV light at night, scientists need to explore a combination of insecticides and higher doses of UV light.
“Since very few miticides (sprays) are currently effective in suppressing twospotted spider mites in strawberries, the use of UV light provides an effective physical control method that can be used in fields and in high-tunnel strawberry production systems,” Lahiri says. “If left unmanaged, this pest will feed voraciously on leaves and cover the plant with webbing, causing tremendous fruit loss.”
Peres sees even more possibilities for the UV lamp technology.
“UV is another tool in the growers’ constant fight against pests and diseases,” she says. “It is particularly effective against diseases and pests that are present on the surface of the plants. Thus, other tools are still needed for those pathogens that are more deeply colonized into the strawberry tissue or flying insects that might not be present at the time of the application.”