par Cresta, Eleonora;Di Sora, Nicolò;Masturzi, Roberto;Rossini, Luca 
;Maspero, Matteo;Kodua, Marika;De Gregorio, Tommaso;Petrović, Miloš;Speranza, Stefano;Contarini, Mario
Référence Insects, 16, 11, page (1148)
Publication Publié, 2025-11
;Maspero, Matteo;Kodua, Marika;De Gregorio, Tommaso;Petrović, Miloš;Speranza, Stefano;Contarini, MarioRéférence Insects, 16, 11, page (1148)
Publication Publié, 2025-11
Article révisé par les pairs
| Résumé : | Bark and ambrosia beetles (Coleoptera: Curculionidae: Scolytinae) are major pests of agricultural and forest systems and include some species which attack hazelnut (Corylus avellana L.) as well. Although hazelnut cultivation is increasingly threatened by insect and mite pests, yet little is known about how management practices can reduce infestations. This study investigated bark and ambrosia beetles in hazelnut orchards from two highly productive areas: Viterbo district (central Italy) and Samegrelo-Zemo Svaneti region (Republic of Georgia). Three phytosanitary management strategies were compared across 2023–2024: Integrated Pest Management, organic farming, and renaturalised orchards. Monitoring also evaluated three ethanol-baited trap designs: three designs in Italy (handmade red funnel [BR] and bottle [TT] and commercial multi-funnel [MF]) and only TT in Georgia. Anisandrus dispar, Hypothenemus eruditus, Xyleborinus saxesenii, and Xylosandrus germanus were detected in both countries, while Xyleborus monographus occurred only in Italy. Xyleborinus saxesenii was the dominant species in both regions. Beetle populations differed among management strategies, being lowest in organic orchards and highest in integrated and renaturalised systems. Trap performance also varied, with BR consistently outperforming commercial MF. These findings highlight the influence of management and monitoring tools on scolytine populations, offering practical insights for sustainable hazelnut production. |
