SPP 2205
Evolutionary optimization of neuronal processing

Colloquium Series



We are pleased to invite you to our online colloquium series. This interdisciplinary series explores cutting-edge research at the intersection of computational and systems neuroscience, developmental biology, and evolutionary theory. Through a mix of talks, discussions, and expert presentations, the series aims to deepen understanding of how evolutionary principles can inform robust and efficient neural information processing.
All interested persons are welcome to join the sessions and contribute to advancing this dynamic field. The sessions will be taking every four weeks and will be announced well in advance.
The SPP colloquium is held from 14:00 to 15:00 (except on March 26).
If you like to attend, please send an e-mail to spp@ds.mpg.de to receive the zoom link.

Coming up

  • Luisa Pallares
    • (Friedrich Miescher Laboratory, MPG,Tübingen), “Beyond averages: genetic and environmental factors shaping phenotypic variability” , Mar 26, 2026 (12:00)

    • Philipp Brand
      • (MPI for Brain Research, Frankfurt a.M.), "Behavioral Evolution in a Complex World: From Environment to Neural Circuits" , Apr 23, 2026 (14:00-15:00)

      abstract…

      From dancing birds to singing flies, animals have evolved an astounding diversity of behaviors to attract and choose mating partners. Guided by innate preferences and aversions, the brain filters complex environments for cues and signals to successfully navigate these reproductive behaviors in appropriate spatial, temporal, and social contexts. To understand how the natural environment shapes sensory evolution and contributes to the diversification of neural circuits controlling mating behaviors, my lab studies the highly tractable nervous system of Drosophila as an inroad.
      In Drosophila, courtship and mating occurs on fermenting food where many individuals congregate. Replicating this naturalistic context in the lab, we discovered striking differences in the sensory dependence of mating behaviors across species. Most notably, the host specialist Drosophila erecta requires the presence of food to engage in courtship and only mates in social groups. Harnessing the power of cross-species neurogenetics, we reveal that sexual arousal in D. erecta is uniquely gated by food odors that switch the valence of visual stimuli driving courtship. This provides a possible neural mechanism underlying the environmental modulation of reproductive behaviors, highlighting how social behaviors are shaped by the natural environments in which they evolve.




      contact:
      SPP 2205 Coordination Office
      Dr. Britta Korkowsky
      e-mail: spp2205 (at) ds.mpg.de