Friend or Foe: Ambrosia Beetle response to volatiles of common threats in their fungus gardens

Diehl, Janina M. C.; Kassie, Denicia; Biedermann, Peter H. W.

doi:10.1101/2022.12.23.521835

Cited by 1 publication

(2 citation statements)

References 27 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Indirect detection of pathogens via stress responses of larvae or the mutualistic fungi might allow for a more generalised immune response that may be adaptive as the beetles are likely to encounter a variety of pathogens in their nests. A recent study seems to corroborate this idea, as it found a significant repellence of adult beetles to A. flavus when tested in combination with the ambrosia fungus D. sulphureus (Diehl, Kassie, & Biedermann, 2023).…”

Section: Pathogen Avoidancementioning

confidence: 88%

See 1 more Smart Citation

Ambrosia beetles adjust dispersal preferences to their degree of exhaustion

Nuotclà,

Taborsky

2024

Ecological Entomology

View full text Add to dashboard Cite

Delayed dispersal of sexually mature offspring is a fundamental component of cooperative breeding in fungus farming ambrosia beetles. These beetles dwell in logs of recently deceased trees, where female offspring postpone reproduction and invest in alloparental care before dispersing to found a new nest. The wood quality affects investment of adult offspring in alloparental care and hence the breeder's reproductive success. This raises the question of whether dispersing breeders choose habitats strategically to optimise breeding prospects and modulate their offspring's helping propensity. To answer this question, here we tested experimentally whether during dispersal, Xyleborinus saxesenii Ratzeburg (Coleoptera: Scolytinae) uses olfactory cues emitted by mutualistic or pathogenic fungi as an information source on prospective habitat quality. As the mutualistic relationship between the fungi and beetles is obligate, fungus scent should provide a reliable source of information on habitat quality, indicating prior successful colonisation by conspecifics. We found no evidence for direct pathogen avoidance. However, the beetles clearly responded to scent of their mutualistic fungi, dependent on dispersal state. At the onset of dispersal, females avoided the scent of fungus mutualists, whereas they were attracted to them after being exhausted by an experimentally prolonged dispersal time. The observed change of preference during dispersal suggests that beetles freshly emerging from their home gallery may choose pristine habitat by avoiding mutualist scent. This might help to avoid competition with conspecifics and potential pathogen and parasite cross contamination. Exhausted beetles, however, may accept these risks and choose successfully colonised habitat to avoid starvation. State‐dependent adjustment of habitat preferences may be exhibited also in other economically impactful bark and ambrosia beetles, which prompts further study of the olfactory cues used by these beetles during dispersal.

show abstract

Section: Pathogen Avoidancementioning

confidence: 88%

“…flavus when tested in combination with the ambrosia fungus D . sulphureus (Diehl, Kassie, & Biedermann, 2023).…”

Section: Discussionmentioning

confidence: 99%