Nicolai V. Meyling scite author profile

Although intensively investigated for biological control of insect pests, little is known about the ecology of the fungal entomopathogenic genus Beauveria in natural or agricultural habitats. In this study, we used molecular phylogenetic and genotypic information to infer species diversity, reproductive potential and genetic structure of Beauveria occurring within a single arable field and bordering hedgerow in Denmark. Isolates were sampled from cultivated field and hedgerow soils, from insects harbouring latent fungal infections, and from the phylloplanes of three plant species common in the hedgerow flora. A nuclear phylogeny of this local Beauveria assemblage resolved seven phylogenetic species, including (i) five phylogenetic species within Beauveria bassiana sensu stricto; (ii) Clade C, a taxonomically uncharacterized species that is morphologically indistinguishable but phylogenetically distant from B. bassiana s.s.; and (iii) Beauveria brongniartii. All seven species were present throughout the hedgerow habitat, including as infections in insects. Significantly, only B. bassiana s.s. phylogenetic species Eu_1 was isolated from tilled soils. Mating type polymerase chain reaction assays demonstrated that all five B. bassiana s.s. phylogenetic species possess bipolar outcrossing mating systems. Of these, only the Eu_1 population contained two mating types; however, a 31:2 skew in MAT1:MAT2 mating types suggests a low frequency of sexual reproduction in this population. The four remaining B. bassiana s.s. phylogenetic species were fixed for single mating types and these populations are evidently clonal. Multilocus microsatellite genotyping revealed polymorphism in all five phylogenetic species of B. bassiana s.s.; however, all show evidence of clonal genetic structure.

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Beauveria bassiana as an endophyte: a critical review on associated methodology and biocontrol potential

McKinnon

et al. 2016

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Evolutionary Interaction Networks of Insect Pathogenic Fungi

Boomsma

Jensen

Meyling

et al. 2014

Annu. Rev. Entomol.

162

105

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Lineages of insect pathogenic fungi are concentrated in three major clades: Hypocreales (several genera), Entomophthoromycota (orders Entomophthorales and Neozygitales), and Onygenales (genus Ascosphaera). Our review focuses on aspects of the evolutionary biology of these fungi that have remained underemphasized in previous reviews. To ensure integration with the better-known domains of insect pathology research, we followed a conceptual framework formulated by Tinbergen, asking complementary questions on mechanism, ontogeny, phylogeny, and adaptation. We aim to provide an introduction to the merits of evolutionary approaches for readers with a background in invertebrate pathology research and to make the insect pathogenic fungi more accessible as model systems for evolutionary biologists. We identify a number of questions in which fundamental research can offer novel insights into the evolutionary forces that have shaped host specialization and life-history traits such as spore number and size, somatic growth rate, toxin production, and interactions with host immune systems.

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Detection and avoidance of an entomopathogenic fungus by a generalist insect predator

Meyling

Pell

2006

Ecological Entomology

122

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Abstract. 1. Increasing evidence suggests that insects can assess their environment based on cues related to mortality risks to themselves or their offspring. Limited knowledge is available on such abilities in relation to entomopathogenic fungi, which can cause significant mortality in insect populations. In laboratory bioassays, the ability of the generalist predator Anthocoris nemorum L. (Heteroptera: Anthocoridae) to detect the presence of its natural enemy, the fungal pathogen Beauveria bassiana (Balsamo) Vuillemin (Ascomycota: Hypocreales) was investigated.2. Behavioural observations were conducted on adults of A. nemorum foraging in choice and non‐choice arenas treated with conidia suspensions of B. bassiana or just the carrier (control). The arenas consisted either of nettle leaves or soil. Additionally, behaviours in response to sporulating nettle aphid cadavers compared with uninfected aphids or paper balls were evaluated on nettle leaves. An oviposition experiment was also conducted in choice arenas on conidia‐treated and untreated nettle leaves.3. Males and females detected and avoided contact with leaf surfaces inoculated with B. bassiana. Females that were forced to enter fungus‐treated leaf surfaces were very reluctant to do so. When females encountered cadavers sporulating with B. bassiana they rapidly withdrew compared with harmless paper ball dummies. Soil inoculated with B. bassiana did not affect A. nemorum behaviour or residence time compared with control soil. Females inserted significantly more eggs in control leaf areas compared with areas treated with B. bassiana conidia.4. All results suggest that A. nemorum detects and avoids the pathogen B. bassiana when it forages on host plants with which it is adapted but not on soil surfaces. The adaptive significance of detection of entomopathogenic fungi is discussed.

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Molecular diversity of the entomopathogenic fungal Metarhizium community within an agroecosystem

Steinwender

Enkerli

Widmer

et al. 2014

Journal of Invertebrate Pathology

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