Abstract
Longhorn beetles are commonly moved among continents within wood packaging materials used in trades. Visual inspections carried out at points of entry often fail to detect exotic longhorn beetles as infested materials may have little or no sign of colonization. Black-colored traps baited with pheromones and host volatiles are thus used to improve chances of detection. Here we tested whether existing surveillance protocols for longhorn beetles can be further improved using trap colors different than black. Baited traps of eight different colors (i.e., grey, yellow, green, red, blue, brown, purple and black) were deployed in a randomized complete block design at 16 sites in northern Italy in 2019. A total of 6,001 individuals from 56 longhorn beetle species were trapped. In general, yellow and blue traps caught a significantly higher number of longhorn beetle species than black traps. In addition, trap color significantly affected species richness and abundance at the subfamily and species level, with mixed response mostly linked to the habit of visiting flowers for food. Flower-visiting longhorn beetles mainly exhibited clear preference for flower-related colors, i.e., yellow, green and blue, whereas non-flower-visiting species were more attracted by dark and long-wavelength-dominated colors, like red and brown. Our results clearly indicate that generic surveillance programs should not rely exclusively on black traps and that the use of more trap colors can strongly improve the chance of detecting native and exotic longhorn beetles potentially moved with trades.
Highlights
World trends of growing national and international trade have led to increased risk of native insect range expansion and exotic insect introductions (Brockerhoff and Liebhold 2017)
Among Cerambycinae, 80% of individuals belonged to five species, namely the native Phymatodes testaceus (L.) (1,218 individuals), Nathrius brevipennis (Mulsant) (529 individuals), Chlorophorus sartor (Muller) (476 individuals), and Purpuricenus kaehleri (L.) (239 individuals), and the exotic Xylotrechus stebbingi Gahan (1,084 individuals)
A similar pattern was found in the Lamiinae: Aegomorphus clavipes (Schrank) and Leiopus nebulosus (L.) comprised 90% of lamiine individuals (Table 1)
Summary
World trends of growing national and international trade have led to increased risk of native insect range expansion and exotic insect introductions (Brockerhoff and Liebhold 2017). Among the most frequently intercepted insect groups are wood-boring beetles in the family Cerambycidae (Eyre and Haack 2017). These insects, known as longhorn beetles, are commonly moved at the larval stage within fresh. A number of phytosanitary regulations have been implemented to reduce the risk of international insect incursions (Allen et al 2017), but several exotic longhorn beetle species continue to be detected worldwide (Eyre and Haack 2017). The availability of effective detection tools able to intercept exotic longhorn beetles before they become established in the invaded environment is essential to prevent the damage and reduce overall costs
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