Ecological Indicators (Apr 2024)

Can we manage alien invasive insects without altering native soil faunal communities? A field trial on Popillia japonica

  • Chiara Sciandra,
  • Francesco Barbieri,
  • Leonardo Ancillotto,
  • Giulia Torrini,
  • Leonardo Marianelli,
  • Immacolata Iovinella,
  • Francesco Paoli,
  • Gian Paolo Barzanti,
  • Claudia Benvenuti,
  • Pio Federico Roversi,
  • Giuseppe Mazza

Journal volume & issue
Vol. 161
p. 111955

Abstract

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Biological and integrated pest control are key assets to environmentally friendly management of cropland. Use of entomopathogens against target pests is common, yet the effects of such released organisms on native, non-target invertebrates are currently poorly known. This is particularly true for relatively inconspicuous components of agroecosystems such as soil biological biota. Popillia japonica, a polyphagous alien invasive scarab beetle native to Japan, is now present in Europe where huge efforts are being conducted to control the pest and slow its spread. In particular, entomopathogenic nematodes and fungi have been used for larval control. Here we test the effects of those agents on both P. japonica larvae and non-target soil biota by comparing soil arthropod assemblages before and after treatment of field plots in an irrigated perennial meadow.Application of an indigenous strain of the nematode Heterorhabditis bacteriophora resulted in significant reduction in numbers of P. japonica larvae. In contrast, an indigenous strain of the entomopathogenic fungus Metarhizium robertsii failed to provide significant control. We found no evident effect on non-target edaphic arthropods under either treatment in comparison to untreated control plots. Some taxa, namely Collembola and Acarina, showed a disproportionate increase in treated plots, suggesting that some changes may occur in the long term, at least in particular arthropod groups. Our results suggest the selected strain of H. bacteriophora is an excellent candidate for managing P. japonica larvae with minimal adverse impact on non-target species and ecosystem functioning.

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