Fluopyram Controls Shoot-galling Caused by Pacific Shoot-gall Nematode and Improves Turf Quality in Annual Bluegrass Putting Greens
Golf courses in coastal regions of northern California are often faced with severe injury caused by pacific shoot-gall nematodes ( Anguina pacificae ) on their annual bluegrass ( Poa annua ) host in putting greens. For years, fenamiphos was used for mitigating disease outbreaks until its registratio...
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Veröffentlicht in: | HortTechnology (Alexandria, Va.) Va.), 2020-12, Vol.30 (6), p.709-718 |
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Zusammenfassung: | Golf courses in coastal regions of northern California are often faced with severe injury caused by pacific shoot-gall nematodes ( Anguina pacificae ) on their annual bluegrass ( Poa annua ) host in putting greens. For years, fenamiphos was used for mitigating disease outbreaks until its registration was withdrawn in 2008. An alternative product containing azadirachtin was intended for nematode suppression. Still, it required repeated applications throughout the year with questionable efficacy, making attempts to lessen the impact of the pathogen costly. This study evaluated fluopyram as a novel nematicide for control of pacific shoot-gall disease. Various application frequencies and rates were tested at several golf courses affected by the nematode. Results revealed that fluopyram applied once at 0.22 lb/acre reduced the number of new shoot-galls and improved annual bluegrass appearance for several months. Increased rates and application frequency occasionally improved the efficacy further. Although the visual quality of turf treated with this plant protection compound was tremendously enhanced, and the number of new shoot-galls was reduced, rarely a significant effect was observed on the population density of several soil-dwelling plant-parasitic nematodes, including pacific shoot-gall nematode. It is hypothesized that fluopyram did not move significantly past the thatch layer and into the soil. However, it effectively reduced the ability of pacific shoot-gall nematode juveniles to induce new shoot galls. Due to its long half-life, it likely protected against both new nematode infections and dissemination of pacific shoot-gall nematode when the shoot-galls decomposed. |
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ISSN: | 1063-0198 1943-7714 |
DOI: | 10.21273/HORTTECH04680-20 |