Peter is interested in social evolution and the evolution of mutualisms. Apart from the projects of the group, he is working on the ecological drivers of insect-fungus mutualisms and Darwinian agriculture. The latter tries to apply evolutionary processes to human agriculture and studies what humans can learn from farming insects for more sustainable agriculture. His main models are fungus-farming ambrosia beetles.
Phone: +49 761/203 54111
Biedermann PHW and FE Vega, Ecology and evolution of insect–fungus mutualisms. Annual Review of Entomology, 2020. 65.
Biedermann PHW, et al., Bark Beetle Population Dynamics in the Anthropocene: Challenges and Solutions. Trends in Ecology & Evolution, 2019. 34(10): p. 914-924.
Ranger CM, Biedermann PHW (shared first authorship), Phuntumart V, Beligala GU, Ghosh S, Palmquist DE, Mueller R, Barnett J, Schultz PB, Reding ME and Benz JP (2018): Symbiont selection via alcohol benefits fungus farming by ambrosia beetles. Proceedings of the National Academy of Sciences 115(17), 4447-4452.
Birkmoe T, Sverdrup-Thygeson A, Jacobsen RM, Biedermann PHW (2018) Insect-fungus interactions in dead wood. In M Ulyshen (Ed.), Saproxylic Insects. Heidelberg: Springer, pp. 377-427. (book chapter)
Biedermann PHW & Rohlfs M (2017) Evolutionary feedbacks between insect sociality and microbial management. Current Opinion in Insect Science 22: 92-100.
Kirkendall LR, Biedermann PHW & Jordal BH (2015): Evolution and Diversity of Bark and Ambrosia Beetles. In FE Vega, RW Hofstetter (Eds.), Bark Beetles: Biology and Ecology of Native and Invasive Species. San Diego: Academic Press, pp. 85-156. (book chapter)
Biedermann PHW & Taborsky M (2011): Larval helpers and age polyethism in ambrosia beetles. Proceedings of the National Academy of Science USA 108(41): 17064-17069.
Biedermann PHW, Klepzig KR & Taborsky M (2009) Fungus cultivation by ambrosia beetles: Behavior and laboratory breeding success in three Xyleborine species. Environmental Entomology 38(4): 1096-1105.