Peppers are popular. Consumers eat all kinds, including jalapenos, habaneros, chilis and more. Because people eat so much of the fruit, they’re worth hundreds of millions of dollars a year to the Florida and national economies.
In fact, in 2018, bell and chili peppers alone were a $181 million-a-year industry in Florida and a $628 million a year industry nationwide, according to the U.S. Department of Agriculture National Agricultural Statistics Service.
But, like all crops, peppers face diseases that threaten to reduce their production. So, a University of Florida scientist is leading a multi-state effort to lessen the risk of diseases eating away at pepper harvests. With new data, scientists plan to help farmers increase their pepper production.
Pamela Roberts, a UF/IFAS plant pathology professor, has been awarded a four-year, $3 million grant from the National Institute of Food and Agriculture, an arm of the USDA, to lead research into ways to reduce bacterial diseases in peppers. Scientists from UF/IFAS, North Carolina State University, the University of Georgia, the Ohio State University, Auburn University, and a USDA lab in South Carolina will participate in the pepper disease research.
But, plenty of diseases can harm peppers. Most bell peppers are resistant to bacterial spot, but other types of peppers are not, said Roberts, a faculty member at the UF/IFAS Southwest Florida Research and Education Center in Immokalee, Florida.
“Bacterial spot is one of the most damaging and difficult diseases to manage on peppers,” Roberts said. “Yield losses in severely affected crops can reach 100 percent.”
For example, it causes severe defoliation, which in turn produces a less-healthy plant that won’t produce as many fruit or can reduce the fruit quality so it isn’t marketable.
With the grant, scientists will zero in on a pathogen called Xanthomonas perforans, one of the three species of Xanthomonas that cause bacterial spot in many crops, including peppers.
In addition to Xanthomonas perforans, scientists plan to study how to minimize the impacts of less common, but emerging pepper pathogens such as Clavibacter michiganensis. Researchers also want to make sure they build disease resistance into pepper plants, Roberts said.
In addition to trying to prevent major losses from bacterial diseases, researchers plan to study ways to promote sustainable production. Here, “sustainable production” means making a profit by reducing inputs – in particular, disease management costs – while maximizing production.
As they slash the potential for pepper diseases, Roberts’ research team will try to develop ways to save money for farmers.
Researchers plan to cut growers’ costs in many ways. Those includes reducing spray frequency, using less diesel for the sprayer, saving on labor, buying products and other reduced costs.
“Farmers’ budgets are designed to estimate the cost of conventional production practices,” Roberts said. “The treatments we develop are expected to affect how often growers spray chemicals on their crops. Healthier plants may also require fewer nutrients. The treatment effects and the net benefits are likely to vary by geographic region as weather, climate, and prices vary.”