University of Florida scientist studying cost-effective methods to control nematodes
Courtesy of University of Florida

University of Florida scientist studying cost-effective methods to control nematodes

Four golf courses are sampling sites of project led by Abolfazl Hajihassani.

Golf courses, lawns, playing fields, parks and many other outdoor areas are part of an industry valued at $14.3 billion and consuming 3.9 million acres in Florida. Parasitic nematodes and fungal diseases are among the most costly challenges the turf industry faces in the Sunshine State.

“Sting and root-knot nematodes are major pests of turfgrass in the southern United States,” said Abolfazl Hajihassani, a University of Florida scientist at the Institute of Food and Agricultural Sciences (UF/IFAS). “The problem lies in that the combination of pests and diseases affect the growth and quality of the turfgrass. Management tools rely mainly on a limited number of expensive chemical fumigants and nematicides.”

Hajihassani, an assistant professor at UF/IFAS Fort Lauderdale Research and Education Center (UF/IFAS FLREC), is the principal investigator on a $471,201 grant awarded by the U.S. Department of Agriculture’s National Institute of Food and Agriculture.

Over the next three years, he will lead a team of UF/IFAS and USDA scientists who will develop cost-effective methods for managing these pests and diseases. They think the research will benefit the turfgrass industry in Florida, Georgia and other parts of the southern United States.

“Our aim is to provide economic relief to growers, homeowners, parks and recreation turf managers, golf course superintendents, commercial industries and promote economic and environmental sustainability in the turfgrass industry,” he said.

Healthy turf reduces soil erosion, filters stormwater runoff, cools the air, and reduces glare and noise. It also effectively filters and traps sediment and pollutants that potentially contaminate surface waters and groundwater.

Nematodes are microscopic roundworms that live in the soil. While most soil nematodes are beneficial because they feed on bacteria, fungi or other microscopic soil organisms resulting in improved soil health, others feed on plant tissues, destroying lawns by feeding on or inside of roots.

Damaging the roots reduces the ability of the grass to obtain water and nutrients of the soil. Symptoms to watch out for include yellowing, wilting, browning, thinning producing patches of lawn and even death.

For the study, the team will conduct monthly samplings from five locations located throughout southeast and southwest Florida. Four of the sites are golf courses where nematodes are prevalent to monitor population changes of these pests. The fifth location is the turfgrass testing field at UF/IFAS FLREC.

“The idea is to determine when nematodes are at the highest population near the top surface of the soil so that the nematodes can be better exposed to nematicides which in turn result in reduced population and turf damage,” Hajihassani said.

Seeking biological solutions to suppress the population of nematodes and fungal disease is another objective of the research.

“We are trying to detect fungal and bacterial secondary metabolites with the ability to control root-knot and sting nematodes and fungal diseases of turf,” he said.

Finally, the team will evaluate the economic profitability of the developed practices and implement extension and outreach activities.