We present the first comprehensive analysis of avian optic tectum development, including proliferation, migration and maturation of both neuronal and glial cells. The distribution of doublecortin, Tuj-1, vimentin and GFAP was characterized by immunohistochemistry between E3 and E20, and correlated with the electron microscopic structure in the chicken optic tectum. The immunohistological markers used in our study are known to be critical for distinct steps of neurogenesis and gliogenesis. We demonstrate that neurogenesis within the optic tectum starts at E3 with prominent doublecortin and moderate Tuj-1 expression. With the aid of electron microscopy, we also show that most of the cells are still undifferentiated at E4. Starting from E6, all postmitotic Tuj-1-positive neurons have left the ventricular zone and concurrently, with the end of proliferation around E12, doublecortin disappears from this region. Before hatching, doublecortin expression totally ceases, indicating that now all neurons have matured, this was also confirmed by ultrastructural investigations. Furthermore, vimentin expression starts around E4, prior to the appearance of the first radial glial cells at E6. Astrocytes can be detected by GFAP expression at E12. As radial glial cells (RGC) transform into astrocytes between E12 and E20, the vimentin signal is progressively replaced by the GFAP signal. We could also show that vimentin-positive RGCs do express doublecortin between E4 and E6, the time-point of prominent neurogenesis, reflecting their bipotent character.