Loss of complexity from larval towards adult nervous systems in Chaetopteridae (Chaetopteriformia, Annelida) unveils evolutionary patterns in Annelida
Conrad Helm, Gudrun Schwarze, Patrick Beckers
Abstract
Abstract Chaetopteridae — the parchment worms — comprise a group of early branching annelids with a scarcely investigated neuroanatomy and neurogenesis. Due to their phylogenetic position in the annelid tree, studying them is nevertheless inevitable for our understanding of character evolution in segmented worms. Therefore, we investigated several adult und larval chaetopterids using a broad set of morphological methods — including serial azan-stained histological sections as well as ultrastructural and immunohistochemical approaches. Our investigations shows that the chaetopterid nervous system consists of a medullary and intraepidermal anterior brain without major commissures and only one neuron type. Nuchal organs and complex cup-shaped eyes are absent in adult specimens. The developmental investigations reveal an antero-posterior origin of the larval nervous system, which is in line with previous investigations and supports this character as being plesiomorphic at least for Annelida. Furthermore, the reduction of neuronal complexity during ontogenesis hints towards the necessity of developmental examinations to understand the evolutionary scenarios behind nervous system diversity not only in annelid taxa. Our detailed investigations will help to deepen our knowledge in terms of annelid character evolution and will build up a basis for further detailed examinations dealing with this fascinating group of segmented worms.