2022
DOI: 10.1016/j.biocontrol.2022.105062
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Selecting thermal tolerant strains of entomopathogenic fungi to control Ceratitis capitata (Wiedeman) in tropical semi-arid conditions

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Cited by 4 publications
(2 citation statements)
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“…Our model result shows that even at the most conservative parameter value of 40% coverage, a longer fungal decay time from 3-10 days will result in a 29.1%-66.4% reduction in the incidence of ECF infection in the cattle population compared to 11% for a decay time of 1 day. To date, techniques that have been explored for improving the persistence of EPF on treated surfaces include encapsulation of fungal conidia (Meirelles et al, 2023), incorporation of UV protectants in the formulation (Hedimbi et al, 2008), and use of thermotolerant strains of EPF (Gava et al, 2022). This may not only protect conidia from environmentally adverse conditions but also potentially increase the effectiveness of fungal formulations in natural field conditions.…”
Section: Product Properties Needed For Entomopathogenic Fungi To Achi...mentioning
confidence: 99%
“…Our model result shows that even at the most conservative parameter value of 40% coverage, a longer fungal decay time from 3-10 days will result in a 29.1%-66.4% reduction in the incidence of ECF infection in the cattle population compared to 11% for a decay time of 1 day. To date, techniques that have been explored for improving the persistence of EPF on treated surfaces include encapsulation of fungal conidia (Meirelles et al, 2023), incorporation of UV protectants in the formulation (Hedimbi et al, 2008), and use of thermotolerant strains of EPF (Gava et al, 2022). This may not only protect conidia from environmentally adverse conditions but also potentially increase the effectiveness of fungal formulations in natural field conditions.…”
Section: Product Properties Needed For Entomopathogenic Fungi To Achi...mentioning
confidence: 99%
“…Our model result shows that even at the most conservative parameter value of 40% coverage, a longer fungal decay time from 3-10 days will result in a 30%-66% reduction in the incidence of ECF infection in the cattle population compared to 11% for a decay time of 1 day. To date, techniques that have been explored for improving the persistence of EPF on treated surfaces include encapsulation of fungal conidia (Meirelles et al, 2023), incorporation of UV protectants in the formulation (Hedimbi et al, 2008), and use of thermotolerant strains of EPF (Gava et al, 2022). This may not only protect conidia from environmentally adverse conditions but also potentially increase the effectiveness of fungal formulations in natural field conditions.…”
Section: Mechanisms By Which Entomopathogenic Fungi Offer Indirect Pr...mentioning
confidence: 99%