Sympathetic preganglionic axons project to spatially distinct targets in the periphery. A precise topographic pattern exists within the thoracic preganglionic cell column relative to the direction of axonal projections within the sympathetic chain. In this study, the time course and pattern of axonal outgrowth from different populations of preganglionic neurons in the chicken embryo is examined in detail to clarify the origin of the topography in this system. Projections to prevertebral targets are established by development of the splanchnic nerves by stage 25, well after the earliest somatic motor projections at stage 19 but at least two stages before the reported onset of paravertebral projections. Further, preganglionic axons that project rostrally into the sympathetic chain may do so earlier than those that project caudally in the chain. The separation of preganglionic axons into prevertebral, rostral paravertebral or caudal paravertebral directions occurs at a common site in the ventral mesenchyme, established by the initial ventromedial projection of the splanchnic nerves. Analysis of the axonal trajectories of rostrally and caudally projecting cells reveals that preganglionic axons are not selectively fasciculated before their point of separation at the sympathetic chain. The patterning of the preganglionic cell column is specified before the establishment of functional connections within the chain, indicating that target contact is not a determinant of the segmental pattern. We suggest that the differential outgrowth of preganglionic axons to peripheral targets is determined by the unique identities of underlying subpopulations of preganglionic axons.