Functionally heterogeneous segmental oscillators generate swimming in the medicinal leech

Swimming behavior in the leach Hirudo medieinalis arises from neuronal circ uits within the ventral nerve cord. Although the ventral nerve cord compris es a series of homologous segmental ganglia, it remains unresolved whether the swim oscillator circuits within individual ganglia are functionally equ ivalent. We have extended previous studies on pairs of ganglia to test whet her individual ganglia throughout the nerve cord are capable of generating swim oscillations and to measure the cycle periods of local oscillations. W e found that the swim-generating function of individual ganglia is broadly distributed, but not uniform. The swim-like oscillations in isolated gangli a from the anterior ganglia nerve cord were less robust than those from mid -cord. Swimming activity in posterior cord ganglia is even weaker - we were unable to obtain swim-like oscillations from individual ganglia of the ner ve cord posterior to segment 12. Swim-cycle periods exhibited a U-shaped fu nction: those recorded in the most anterior individual ganglia (2.3 s for g anglion M2) and short chains of posterior ganglia (up to 4.0 s) were two to four times longer than those obtained from mid-cord ganglia (near 1.0 s). We conclude that the leech swim system comprises a functionally heterogeneo us set of local oscillator units.