Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi

Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi

Laurel wilt is a disease threatening the avocado industry in Florida. The causative agent of the disease is a fungus vectored by ambrosia beetles that bore into the trees. Until recently, management strategies for the vectors of the laurel wilt fungus relied solely on chemical control and sanitation...

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Main Authors: Pasco B. Avery, Verónica Bojorque, Cecilia Gámez, Rita E. Duncan, Daniel Carrillo, Ronald D. Cave
Format: Article
Language:English
Published: MDPI AG 2018-04-01
Series:Insects
Subjects:
ambrosia beetles
laurel wilt
avocados
entomopathogenic fungi
Kaplan–Meier analysis
Online Access:http://www.mdpi.com/2075-4450/9/2/49
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spelling doaj-06e5eeb2394149ae9fe2123403ba80bf2020-11-24T23:21:02ZengMDPI AGInsects2075-44502018-04-01924910.3390/insects9020049insects9020049Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic FungiPasco B. Avery0Verónica Bojorque1Cecilia Gámez2Rita E. Duncan3Daniel Carrillo4Ronald D. Cave5Indian River Research and Education Center, IFAS, University of Florida, 2199 South Rock Road, Ft. Pierce, FL 34945, USAIndian River Research and Education Center, IFAS, University of Florida, 2199 South Rock Road, Ft. Pierce, FL 34945, USAIndian River Research and Education Center, IFAS, University of Florida, 2199 South Rock Road, Ft. Pierce, FL 34945, USATropical Research and Education Center, IFAS, University of Florida, Homestead, FL 33031, USATropical Research and Education Center, IFAS, University of Florida, Homestead, FL 33031, USAIndian River Research and Education Center, IFAS, University of Florida, 2199 South Rock Road, Ft. Pierce, FL 34945, USALaurel wilt is a disease threatening the avocado industry in Florida. The causative agent of the disease is a fungus vectored by ambrosia beetles that bore into the trees. Until recently, management strategies for the vectors of the laurel wilt fungus relied solely on chemical control and sanitation practices. Beneficial entomopathogenic fungi (EPF) are the most common and prevalent natural enemies of pathogen vectors. Laboratory experiments demonstrated that commercial strains of EPF can increase the mortality of the primary vector, Xyleborus glabratus, and potential alternative vectors, Xylosandrus crassiusculus, Xyleborus volvulus and Xyleborus bispinatus (Coleoptera: Curculionidae: Scolytinae). Our study provides baseline data for three formulated commercially-available entomopathogenic fungi used as potential biocontrol agents against X. crassiusculus, X. volvulus and X. bispinatus. The specific objectives were to determine: (1) the mean number of viable spores acquired per beetle species adult after being exposed to formulated fungal products containing different strains of EPF (Isaria fumosorosea, Metarhizium brunneum and Beauveria bassiana); and (2) the median and mean survival times using paper disk bioassays. Prior to being used in experiments, all fungal suspensions were adjusted to 2.4 × 106 viable spores/mL. The number of spores acquired by X. crassiusculus was significantly higher after exposure to B. bassiana, compared to the other fungal treatments. For X. volvulus, the numbers of spores acquired per beetle were significantly different amongst the different fungal treatments, and the sequence of spore acquisition rates on X. volvulus from highest to lowest was I. fumosorosea > M. brunneum > B. bassiana. After X. bispinatus beetles were exposed to the different suspensions, the rates of acquisition of spores per beetle amongst the different fungal treatments were similar. Survival estimates (data pooled across two tests) indicated an impact for each entomopathogenic fungus per beetle species after exposure to a filter paper disk treated at the same fungal suspension concentration. Kaplan–Meier analysis (censored at day 7) revealed that each beetle species survived significantly shorter in bioassays containing disks treated with EPF compared to water only. This study demonstrated that ambrosia beetles associated with the laurel wilt pathogen in avocados are susceptible to infection by EPF under laboratory conditions. However, the EPF needs to be tested under field conditions to confirm their efficacy against the beetles.http://www.mdpi.com/2075-4450/9/2/49ambrosia beetleslaurel wiltavocadosentomopathogenic fungiKaplan–Meier analysis
collection DOAJ
language English
format Article
sources DOAJ
author Pasco B. Avery
Verónica Bojorque
Cecilia Gámez
Rita E. Duncan
Daniel Carrillo
Ronald D. Cave
spellingShingle Pasco B. Avery
Verónica Bojorque
Cecilia Gámez
Rita E. Duncan
Daniel Carrillo
Ronald D. Cave
Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi
Insects
ambrosia beetles
laurel wilt
avocados
entomopathogenic fungi
Kaplan–Meier analysis
author_facet Pasco B. Avery
Verónica Bojorque
Cecilia Gámez
Rita E. Duncan
Daniel Carrillo
Ronald D. Cave
author_sort Pasco B. Avery
title Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi
title_short Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi
title_full Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi
title_fullStr Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi
title_full_unstemmed Spore Acquisition and Survival of Ambrosia Beetles Associated with the Laurel Wilt Pathogen in Avocados after Exposure to Entomopathogenic Fungi
title_sort spore acquisition and survival of ambrosia beetles associated with the laurel wilt pathogen in avocados after exposure to entomopathogenic fungi
publisher MDPI AG
series Insects
issn 2075-4450
publishDate 2018-04-01
description Laurel wilt is a disease threatening the avocado industry in Florida. The causative agent of the disease is a fungus vectored by ambrosia beetles that bore into the trees. Until recently, management strategies for the vectors of the laurel wilt fungus relied solely on chemical control and sanitation practices. Beneficial entomopathogenic fungi (EPF) are the most common and prevalent natural enemies of pathogen vectors. Laboratory experiments demonstrated that commercial strains of EPF can increase the mortality of the primary vector, Xyleborus glabratus, and potential alternative vectors, Xylosandrus crassiusculus, Xyleborus volvulus and Xyleborus bispinatus (Coleoptera: Curculionidae: Scolytinae). Our study provides baseline data for three formulated commercially-available entomopathogenic fungi used as potential biocontrol agents against X. crassiusculus, X. volvulus and X. bispinatus. The specific objectives were to determine: (1) the mean number of viable spores acquired per beetle species adult after being exposed to formulated fungal products containing different strains of EPF (Isaria fumosorosea, Metarhizium brunneum and Beauveria bassiana); and (2) the median and mean survival times using paper disk bioassays. Prior to being used in experiments, all fungal suspensions were adjusted to 2.4 × 106 viable spores/mL. The number of spores acquired by X. crassiusculus was significantly higher after exposure to B. bassiana, compared to the other fungal treatments. For X. volvulus, the numbers of spores acquired per beetle were significantly different amongst the different fungal treatments, and the sequence of spore acquisition rates on X. volvulus from highest to lowest was I. fumosorosea > M. brunneum > B. bassiana. After X. bispinatus beetles were exposed to the different suspensions, the rates of acquisition of spores per beetle amongst the different fungal treatments were similar. Survival estimates (data pooled across two tests) indicated an impact for each entomopathogenic fungus per beetle species after exposure to a filter paper disk treated at the same fungal suspension concentration. Kaplan–Meier analysis (censored at day 7) revealed that each beetle species survived significantly shorter in bioassays containing disks treated with EPF compared to water only. This study demonstrated that ambrosia beetles associated with the laurel wilt pathogen in avocados are susceptible to infection by EPF under laboratory conditions. However, the EPF needs to be tested under field conditions to confirm their efficacy against the beetles.
topic ambrosia beetles
laurel wilt
avocados
entomopathogenic fungi
Kaplan–Meier analysis
url http://www.mdpi.com/2075-4450/9/2/49
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