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| Nest of a black stem borer (Xylosandrus germanus) in a hazelnut branch with adult females (large), a male (small) and individual larvae. The greyish fungal coating of the food fungus is visible on the walls of the tunnel system. Photo Credit: Antonio Gugliuzzo |
Experiments at the University of Freiburg provide evidence for the first time of the ability of ambrosia beetles to distinguish between food and harmful fungi
Certain ambrosia beetles species engage in active agriculture. As social communities, they breed and care for food fungi in the wood of trees and ensure that so-called weed fungi spread less. Researchers led by Prof. Dr. Peter Biedermann, professor of Forest Entomology and Forest Protection at the University of Freiburg, now demonstrates for the first time that ambrosia beetles can distinguish between different species of fungi by their scents. "The results can contribute to a better understanding of why beetles selectively colonize trees with conspecifics and how exactly their fungiculture works," says Biedermann. "In addition, the scents of the fungi could be used to develop attractants to control non-native ambrosia beetles."
Beetles orientate themselves by fungal scents
A research team led by Biedermann and the environmental scientist Dr. Antonio Gugliuzzo from the University of Catania/Italy was able to show for the first time that the black stem borer (Xylosandrus germanus) perceives scents of its food fungi and that these act as so-called aggregation pheromones. This means that the beetle uses the scent of the food fungus to find trees that are already colonized by conspecifics. The beetle is an invasive species that is now widespread in Germany and is mainly found in fruit trees. The results have just been published in the journal Frontiers in Microbiology.
"Until now, we could not explain how these beetles attack trees in groups," says Biedermann - because no corresponding scent of the insects' own had been found so far. The experiment now showed that the beetles react to the scents of the specific food fungi that their conspecifics have already cultivated in the branches of a tree. "This enables the beetles to colonize weakened trees in greater numbers and to overcome the tree's defenses more easily, thus causing the tree to die," says Biedermann. Further chemical analyses can now be done to determine a component of the fungus scent, which could then be used as an attractant for traps in fruit growing.
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Nest of a fruit-tree pinhole borer (Xyleborinus saxesenii) with adult beetles and larvae. The yellow fungal mycelium of the food fungus is visible in the vicinity of the nest.
Photo Credit: Davide Vallotto.
Even larvae can distinguish fungi
In another study, environmental scientist Denicia Kassie and biologist Janina Diehl were able to experimentally demonstrate for the first time that another ambrosia beetle species, the fruit-tree pinhole borer (Xyleborinus saxesenii), can recognize and distinguish between its food fungi and so-called weed or harmful fungi based on their scents. Diehl is a doctoral student with Biedermann at the University of Freiburg. "Depending on the condition of the fungi, the beetles in the experiments either specifically sought out the fungal cultures or avoided them," says Diehl. The ability to recognize a potential threat to food fungi or their own health gives the beetles the opportunity to react - and either avoid or specifically combat the harmful fungi. The results of the study have been published in the journal Symbiosis.
The scientists were able to demonstrate the ability to distinguish between different food and harmful fungi in both larvae and adult individuals of the fruit-tree pinhole borer - which each take on their own tasks in the social network in the social maintenance of the food fungus cultures. "These findings are another building block to better understand how the control of fungal breeding by ambrosia beetles works functionally," says Biedermann. "This could also result in ideas for our agriculture to control harmful organisms in a sustainable and environmentally friendly way."
Funding: The research was supported by a DAAD scholarship for Antonio Gigliuzzo, by an Emmy Noether Grant from the DFG for Peter Biedermann and by funding from the University of Freiburg for open access publications.
Published in journal: Two papers:
Additional information: Peter Biedermann is Professor of Forest Entomology and Forest Conservation at the University of Freiburg. His research interests include bark beetles, symbioses between insects and microorganisms, especially fungi, and the social behaviour of insects. Janina Diehl is a doctoral student at the University of Freiburg, Denicia Kassie wrote her bachelor's thesis on the topic at the University of Freiburg. Antonio Gugliuzzo is a research assistant at the University of Catania/Italy.
Source/Credit: University of Freiburg
Reference Number: bio041423_03
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