Sting nematodes reproduce sexually, so both males and females are common in soil. After mating the female lays eggs in pairs in the soil and will continue to lay eggs as long as food is available. The eggs hatch after about five days. The young nematodes must locate a plant root and begin feeding to survive. Once feeding commences the juvenile nematodes grow and undergo three molts before becoming adults. The total life cycle from egg to reproducing adult takes 18 to 24 days.
Sting nematodes are recognized as the major nematode pest on golf courses in Florida. Because of the sandy native soils in much of the state these nematodes are damaging on greens, fairways and even roughs. Because putting greens are typically constructed with high sand content they may harbor sting nematodes even when native soils are not sandy enough to support them. Many golf course greens in central Texas are infested with sting nematodes even though the native soil is heavy clay that will not support the nematodes.
All of these symptoms may be caused by a number of plant diseases and disorders. Therefore, the only way to be certain whether sting nematodes are a problem is to have a soil nematode assay conducted by a credible diagnostic facility.
Some plants that have proven to be good hosts to some populations of sting nematodes are given below. Asterisks indicate plants that are hosts for some populations of sting nematodes and not others.
Grain, turf and forage grasses: Bahiagrass, barley, bentgrass, Bermudagrass*, bluegrass, centipedegrass, corn, fescue*, millet, oats, Pangola digitgrass, St. Augustinegrass, Sudangrass, rye, wheat and zoysiagrass.
Fruits and vegetables: beans*, blueberry*, cabbage*, cantaloupe, carrot, cauliflower, cucumber*, endive, celery, citrus*, cowpea, eggplant*, lettuce*, muscadine grape, okra*, onion*, pea, pecan, pepper*, potato, squash, strawberry*, sweet potato*, tomato, turnip* and watermelon*.
Nongrass agronomic crops: cotton*, clover, peanut*, loblolly pine*, soybean and sugarcane.
Cover crops: hairy vetch, iron clay pea, joint vetch, lespedeza, mung bean, pidgeonpea, sesbania and sorghum-sudangrass.
Weeds: beggarweed, cocklebur*, crabgrass, cudweed, dandelion*, dogfennel, Johnsongrass, lambsquarter*, morning glory, Spanish needle*, ragweed and wild carrot.
Some plants identified as nonhosts or poor hosts in research studies include alfalfa, asparagus, camellia, cocklebur, crotalaria, gladiolus, hairy indigo, horseweed, hot pepper, Japanese holly, Jerusalem oak, jimson weed, okra, oxalis, pepper, plantain, pokeweed, sandbur, sunn hemp, tobacco and velvetbean. Because of the tremendous variation in ability to parasitize different plants exhibited by sting nematodes, there is no guarantee that these plants may not be hosts for untested populations.
University of Florida Nematode Management Guide
For current recommendations in some special crops, see:
Nematode Management for Golf Courses
Nematode Management for Nonresidential Lawns, Athletic
Fields, Racetracks and Cemeteries in Florida
Nematode Management for Sod Production in Florida
Authors: W.T. Crow and A.S. Brammer, University of Florida
Photographs: W.T. Crow and R.A. Dunn, University of Florida; J.D. Eisenback, Virginia
Polytechnic Institute and State University; and University of Georgia
Project Coordinator: Thomas Fasulo, University of Florida
Publication Number: EENY-239
Publication Date: September 2001
Copyright 2001 University of Florida
Featured Creatures
Department of Entomology and Nematology
Division of Plant Industry
Electronic Data Information Source
sting nematode
soybean damage
cotton damage
Bermudagrass damage
spurge
cotton root damage
turfgrass root damage
carrot damage
potato damage