Despite their limited optical resolution, Drosophila melanogaster’s neuronal architecture has the capability to extract & encode a rich feature set that allows flies to re-identify individual conspecifics with surprising accuracy

Schneider J, Murali N, Taylor GW, Levine JD (2018) Can Drosophila melanogaster tell who’s who? PLoS ONE 13(10): e0205043. https://doi.org/10.1371/journal.pone.0205043

Abstract: Drosophila melanogaster are known to live in a social but cryptic world of touch and odours, but the extent to which they can perceive and integrate static visual information is a hotly debated topic. Some researchers fixate on the limited resolution of D. melanogaster’s optics, others on their seemingly identical appearance; yet there is evidence of individual recognition and surprising visual learning in flies. Here, we apply machine learning and show that individual D. melanogaster are visually distinct. We also use the striking similarity of Drosophila’s visual system to current convolutional neural networks to theoretically investigate D. melanogaster’s capacity for visual understanding. We find that, despite their limited optical resolution, D. melanogaster’s neuronal architecture has the capability to extract and encode a rich feature set that allows flies to re-identify individual conspecifics with surprising accuracy. These experiments provide a proof of principle that Drosophila inhabit a much more complex visual world than previously appreciated.