Parasitoids and pathogens in a collapsing<i>Lymantria dispar</i>(Lepidoptera: Erebidae) population in Lower Austria

Zankl, Thomas; Schafellner, Christa; Hoch, Gernot

doi:10.1111/jen.13161

J Applied Entomology

2023

DOI: 10.1111/jen.13161

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Parasitoids and pathogens in a collapsingLymantria dispar(Lepidoptera: Erebidae) population in Lower Austria

Thomas Zankl,

Christa Schafellner,

Gernot Hoch

Abstract: A local population outbreak of the spongy moth, Lymantria dispar L. (Lepidoptera: Erebidae), in Lower Austria, resulted in the defoliation of an oak forest in 2018 and 2019. In the study year 2020, the population density was still high but was expected to decline. In the present work, the role of parasitoids and pathogens in the collapse of the population was investigated. In total, 20 egg masses, 680 larvae and 12 pupae of L. dispar were collected in the field from April to July 2020 and reared until the emer… Show more

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2024

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Cited by 3 publications

References 87 publications

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A pollinator crisis can decrease plant abundance despite pollinators being herbivores at the larval stage

Lee,

Yokoi,

Nakazawa

2024

Sci Rep

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A pollinator crisis can decrease plant abundance despite pollinators being herbivores at the larval stage

Lee,

Yokoi,

Nakazawa

2024

Sci Rep

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Response of parasitoid communities to insecticide application during a Lymantria dispar outbreak in mixed oak forests

Wolz,

Höcherl,

Hübner

et al. 2024

Journal of Applied Ecology

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In the temperate mixed oak forests of Central Europe, outbreaks of insects such as the spongy moth, Lymantria dispar, can cause severe defoliation and insecticide is sometimes applied for their control. Parasitoids, mainly Hymenoptera and Diptera, are among the most diverse and important natural enemies of caterpillars in these forests. However, due to their cryptic lifestyle and taxonomic difficulties, we lack knowledge on the impact of insecticide applications on complex host‐parasitoid networks. In a large‐scale field experiment, we tested the effect of spraying the lepidopteran‐specific insecticide Mimic (tebufenozide) on the abundance and community composition of both adult and larval parasitoids. We combined morphological identification, DNA barcoding and metabarcoding to identify parasitoids adult or inside caterpillars, both sampled by canopy fogging during an outbreak and two subsequent years. We analysed the abundance of parasitoids, community composition and network specialisation using statistical methods that account for sample incompleteness in host‐parasitoid data. For adult parasitoid assemblages, we found strong annual effects on abundance, with highest numbers of adult parasitoids occurring in the outbreak year, as well as on annual changes in community composition, but no effect linked to insecticide application. However, the abundance and species number of immature parasitoids revealed negative effects of insecticide application, while community composition was only affected by annual variation. Coverage‐based network analyses showed a reduction of taxonomic network diversity and network specialisation associated with insecticide application in the first 2 years. Synthesis and applications: This real‐world experiment shows that parasitoid populations respond immediately to large‐scale outbreaks but only limited to local disturbances. Results indicate that this group of natural enemies exhibits high mobility, enabling them to track host populations across large spatial scales. However, our observation of reduced network specialisation after insecticide application is a warning signal that ecosystem function, and consequently natural pest control services, may be impaired by human interference at the local stand scale.

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Candidate natural enemy assemblage for the biological control of Lymantria dispar L. in oak (Quercus spp.) with different levels of pest infestation

López-Pantoja,

Paramio,

Malia

et al. 2024

J. For. Sci.

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Parasitoids and pathogens in a collapsingLymantria dispar(Lepidoptera: Erebidae) population in Lower Austria

Cited by 3 publications

References 87 publications

A pollinator crisis can decrease plant abundance despite pollinators being herbivores at the larval stage

A pollinator crisis can decrease plant abundance despite pollinators being herbivores at the larval stage

Response of parasitoid communities to insecticide application during a Lymantria dispar outbreak in mixed oak forests

Candidate natural enemy assemblage for the biological control of Lymantria dispar L. in oak (Quercus spp.) with different levels of pest infestation

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