Development of the supraorbital and mandibular lateral line canals in the cichlid, archocentrus nigrofasciatus

The development of two of the cranial lateral line canals is described in the cichlid, Archocentrus nigrofasciatus . Four stages of canal morphogenesis are defined based on histological analysis of the supraorbital and mandibular canals. “Canal enclosure” and “canal ossification” are defined as two discrete stages in lateral line canal development, which differ in duration, an observation that has interesting implications for the ontogeny of lateral line function. Canal diameter in the vicinity of individual neuromasts begins to increase before ossification of the canal roof in each canal segment; this increase in canal diameter is accompanied by an increase in canal neuromast size. The mandibular canal generally develops later than the supraorbital canal in this species, but in both of these canals development of the different canal segments contained within a single dermal bone is asynchronous. These observations suggest that a dynamic process requiring integration and interaction among different tissues, in both space and time, underlies the development of the cranial lateral line canal system. The supraorbital and mandibular canals appear to demonstrate a “one‐component” pattern of development in Archocentrus nigrofasciatus , where the walls of each canal segment grow up from the underlying dermal bone and then fuse to form the bony canal roof. This is contrary to numerous published reports that describe a “two‐component” pattern of development in teleosts where the bony canal ossifies separately and then fuses with an underlying dermal bone. A survey of the literature in which lateral line canal development is described using histological analysis suggests that the occurrence of two different patterns of canal morphogenesis (“one‐component” and “two‐component”) may be due to phylogenetic variation in the pattern of the development of the lateral line canals. J. Morphol. 255:44–57, 2003. © 2002 Wiley‐Liss, Inc.