TY - JOUR TI - Uncovering a ‘sensitive window’ of multisensory and motor neuroplasticity in the cerebrum and cerebellum of male and female starlings AU - Orije, Jasmien AU - Cardon, Emilie AU - Hamaide, Julie AU - Jonckers, Elisabeth AU - Darras, Veerle M AU - Verhoye, Marleen AU - Van der Linden, Annemie A2 - Griffiths, Timothy D A2 - Behrens, Timothy E A2 - Stevenson, Tyler A2 - Gozzi, Alessandro VL - 10 PY - 2021 DA - 2021/06/07 SP - e66777 C1 - eLife 2021;10:e66777 DO - 10.7554/eLife.66777 UR - https://doi.org/10.7554/eLife.66777 AB - Traditionally, research unraveling seasonal neuroplasticity in songbirds has focused on the male song control system and testosterone. We longitudinally monitored the song behavior and neuroplasticity in male and female starlings during multiple photoperiods using Diffusion Tensor and Fixel-Based techniques. These exploratory data-driven whole-brain methods resulted in a population-based tractogram confirming microstructural sexual dimorphisms in the song control system. Furthermore, male brains showed hemispheric asymmetries in the pallium, whereas females had higher interhemispheric connectivity, which could not be attributed to brain size differences. Only females with large brains sing but differ from males in their song behavior by showing involvement of the hippocampus. Both sexes experienced multisensory neuroplasticity in the song control, auditory and visual system, and cerebellum, mainly during the photosensitive period. This period with low gonadal hormone levels might represent a ‘sensitive window’ during which different sensory and motor systems in the cerebrum and cerebellum can be seasonally re-shaped in both sexes. KW - European starling KW - neuroplasticity KW - sexual dimorphism KW - diffusion tensor imaging KW - birdsong KW - cerebellum KW - Sturnus vulgaris JF - eLife SN - 2050-084X PB - eLife Sciences Publications, Ltd ER -