High virulence of a naturally occurring entomopathogenic fungal isolate, Metarhizium (Nomuraea) rileyi, against Spodoptera frugiperda

High virulence of a naturally occurring entomopathogenic fungal isolate, Metarhizium (Nomuraea) rileyi, against Spodoptera frugiperda

The fall armyworm (FAW), Spodoptera frugiperda, is a new and dangerous invasive pest in many countries. Entomopathogenic fungi (EPF) have been considered as potential biological control agents against the FAW. In this study, eight natural fungal strains were isolated from diseased larvae of FAW, and...

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Veröffentlicht in:Journal of applied entomology (1986) 2022-07, Vol.146 (6), p.659-665
Hauptverfasser: Yan‐li, Zhang, Hui, Dong, Li‐sheng, Zhang, Zu‐min, Gu, Jin‐cheng, Zhou
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Sprache:eng
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Biological control
biopesticide
Biopesticides
Conidia
Developmental stages
Eggs
Entomopathogenic fungi
fall armyworm, invasive pest, biological control agent
Fungi
Larvae
Metarhizium rileyi
Mortality
Neonates
Pathogenicity
Pathogens
Pesticides
Pests
Spodoptera frugiperda
Virulence
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container_issue 6
container_start_page 659
container_title Journal of applied entomology (1986)
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creator Yan‐li, Zhang
Hui, Dong
Li‐sheng, Zhang
Zu‐min, Gu
Jin‐cheng, Zhou
description The fall armyworm (FAW), Spodoptera frugiperda, is a new and dangerous invasive pest in many countries. Entomopathogenic fungi (EPF) have been considered as potential biological control agents against the FAW. In this study, eight natural fungal strains were isolated from diseased larvae of FAW, and identified as Cladosporium cladosporioides (EFNL‐1), Metarhizium rileyi (EFNL‐2 and EFNL‐8), Fusarium proliferatum (EFNL‐3 and EFNL‐6), F. equiseti (EFNL‐4 and EFNL‐5) and F. tricinctum (EFNL‐7), using the morphological and molecular tools or methods. The instantaneous death risk and mortality of 3rd‐instar larvae inoculated with EFNL‐8 (1 × 108 conidia/ml) were significantly higher than for any other fungal isolates and for the control group. Thereafter, we tested the pathogenicity of EFNL‐8 (1 × 107 conidia/ml) against 1st‐ to 4th‐larvae, pupae, and eggs of FAW. The instantaneous death risk and mortality of 1st‐instar (Median lethal time = 9.02 days; Corrected motality = 88.68%), 2nd‐instar (12.00 days; 62.50%) and 3rd‐instar larvae (13.79 days; 56.67%) inoculated with EFNL‐8 were significantly higher than that of larvae in the control groups. When the eggs of FAW were inoculated with EFNL‐8 (1 × 107 conidia/ml), EFNL‐8 caused eggs (56.62%), and newly hatched neonates after 3 days (68.75%) and 6 days (80.60%) mortality, compared with the control groups. However, the mortality of the EFNL‐8 isolate to 4th‐instar larvae (5.00%) and pupae (14.81%) was low and did not differ from the control groups. This study identified M. rileyi EFNL‐8 as a pathogenic isolate against eggs and 1st‐ to 3rd‐instar larvae of FAW. However, further studies including field validation of this EPF biopesticide candidate should be undertaken in newly invaded areas by the pest.
doi_str_mv 10.1111/jen.13007
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Entomopathogenic fungi (EPF) have been considered as potential biological control agents against the FAW. In this study, eight natural fungal strains were isolated from diseased larvae of FAW, and identified as Cladosporium cladosporioides (EFNL‐1), Metarhizium rileyi (EFNL‐2 and EFNL‐8), Fusarium proliferatum (EFNL‐3 and EFNL‐6), F. equiseti (EFNL‐4 and EFNL‐5) and F. tricinctum (EFNL‐7), using the morphological and molecular tools or methods. The instantaneous death risk and mortality of 3rd‐instar larvae inoculated with EFNL‐8 (1 × 108 conidia/ml) were significantly higher than for any other fungal isolates and for the control group. Thereafter, we tested the pathogenicity of EFNL‐8 (1 × 107 conidia/ml) against 1st‐ to 4th‐larvae, pupae, and eggs of FAW. The instantaneous death risk and mortality of 1st‐instar (Median lethal time = 9.02 days; Corrected motality = 88.68%), 2nd‐instar (12.00 days; 62.50%) and 3rd‐instar larvae (13.79 days; 56.67%) inoculated with EFNL‐8 were significantly higher than that of larvae in the control groups. When the eggs of FAW were inoculated with EFNL‐8 (1 × 107 conidia/ml), EFNL‐8 caused eggs (56.62%), and newly hatched neonates after 3 days (68.75%) and 6 days (80.60%) mortality, compared with the control groups. However, the mortality of the EFNL‐8 isolate to 4th‐instar larvae (5.00%) and pupae (14.81%) was low and did not differ from the control groups. This study identified M. rileyi EFNL‐8 as a pathogenic isolate against eggs and 1st‐ to 3rd‐instar larvae of FAW. 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The instantaneous death risk and mortality of 1st‐instar (Median lethal time = 9.02 days; Corrected motality = 88.68%), 2nd‐instar (12.00 days; 62.50%) and 3rd‐instar larvae (13.79 days; 56.67%) inoculated with EFNL‐8 were significantly higher than that of larvae in the control groups. When the eggs of FAW were inoculated with EFNL‐8 (1 × 107 conidia/ml), EFNL‐8 caused eggs (56.62%), and newly hatched neonates after 3 days (68.75%) and 6 days (80.60%) mortality, compared with the control groups. However, the mortality of the EFNL‐8 isolate to 4th‐instar larvae (5.00%) and pupae (14.81%) was low and did not differ from the control groups. This study identified M. rileyi EFNL‐8 as a pathogenic isolate against eggs and 1st‐ to 3rd‐instar larvae of FAW. 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Entomopathogenic fungi (EPF) have been considered as potential biological control agents against the FAW. In this study, eight natural fungal strains were isolated from diseased larvae of FAW, and identified as Cladosporium cladosporioides (EFNL‐1), Metarhizium rileyi (EFNL‐2 and EFNL‐8), Fusarium proliferatum (EFNL‐3 and EFNL‐6), F. equiseti (EFNL‐4 and EFNL‐5) and F. tricinctum (EFNL‐7), using the morphological and molecular tools or methods. The instantaneous death risk and mortality of 3rd‐instar larvae inoculated with EFNL‐8 (1 × 108 conidia/ml) were significantly higher than for any other fungal isolates and for the control group. Thereafter, we tested the pathogenicity of EFNL‐8 (1 × 107 conidia/ml) against 1st‐ to 4th‐larvae, pupae, and eggs of FAW. The instantaneous death risk and mortality of 1st‐instar (Median lethal time = 9.02 days; Corrected motality = 88.68%), 2nd‐instar (12.00 days; 62.50%) and 3rd‐instar larvae (13.79 days; 56.67%) inoculated with EFNL‐8 were significantly higher than that of larvae in the control groups. When the eggs of FAW were inoculated with EFNL‐8 (1 × 107 conidia/ml), EFNL‐8 caused eggs (56.62%), and newly hatched neonates after 3 days (68.75%) and 6 days (80.60%) mortality, compared with the control groups. However, the mortality of the EFNL‐8 isolate to 4th‐instar larvae (5.00%) and pupae (14.81%) was low and did not differ from the control groups. This study identified M. rileyi EFNL‐8 as a pathogenic isolate against eggs and 1st‐ to 3rd‐instar larvae of FAW. 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ispartof Journal of applied entomology (1986), 2022-07, Vol.146 (6), p.659-665
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subjects Biological control
biopesticide
Biopesticides
Conidia
Developmental stages
Eggs
Entomopathogenic fungi
fall armyworm, invasive pest, biological control agent
Fungi
Larvae
Metarhizium rileyi
Mortality
Neonates
Pathogenicity
Pathogens
Pesticides
Pests
Spodoptera frugiperda
Virulence
title High virulence of a naturally occurring entomopathogenic fungal isolate, Metarhizium (Nomuraea) rileyi, against Spodoptera frugiperda
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