Scientists Seek Cure For New Watermelon Pathogen

new watermelon disease

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A new bacterial strain is causing damage in Florida watermelon fields. Early clues point to a pathogen that has previously been identified in Georgia and California.

“We began to receive calls and eMails this spring from growers and Extension Agents in Florida counties with commercial watermelon acreage,” said Dr. Mathews Paret, plant pathologist at the UF/IFAS North Florida Research and Education Center (NFREC) in Quincy. “All the reports described an unknown disease that destroyed the leaves on these plants.”

The key symptom is circular, black-edged lesions with white to tan centers. Under the microscope a cut section of the lesions indicated heavy bacterial streaming. To begin the identification process, a Gas-Chromatography Fatty Acid Methyl Ester Analysis (FAME) and 16S DNA sequencing was conducted. Every micro-organism has a FAME profile, the equivalent of a microbial fingerprint unique to the bacteria, and 16S is a DNA analysis used to further characterize the pathogen. In addition, more biochemical characterizations and pathogenicity tests on watermelon seedlings are currently being conducted.

Preliminary identification of the pathogen indicated Pseudomonas, a genus of gram-negative aerobic gammaproteobacteria. It is capable of colonizing a wide range of plants.

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Reports from Georgia in 2003 and from California in 2006 and 2011 have identified a Pseudomonas species associated with watermelon disease as the cause of similar outbreaks. The spring 2013 occurrence is the first in Florida.

Paret, Nicholas Dufault, and Carrie Harmon at the UF Plant Disease Clinic have collectively confirmed about 40 bacterial strains to date. Further sample collection and identification of the bacterium is in progress.

“Our objectives are three-fold,” said Paret. “First we want to characterize the bacterial causal agent of this new watermelon disease, then test the bacterial strains for sensitivity to copper, and lastly to test the integrated use of copper, and systemic acquired resistance (SAR) inducers to manage this bacterial disease,” he said.

Paret and Dufault are leading a team of researchers, UF/IFAS Extension agents, and watermelon growers from around Florida to solve this disease mystery. Their research is funded by a grant from the Florida Watermelon Growers Association.

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