The anatomy and physiology of two directionally selective motion-detecting neurones in the locust are described. Both neurones had dendrites in the lobula, and projected to the ipsilateral protocerebrum. Their cell bodies were located on the posterio-dorsal junction of the optic lobe with the protocerebrum. The neurones were sensitive to horizontal motion of a visual stimulus. One neurone, LDSMD(F), had a preferred direction forwards over the ipsilateral eye, and a null direction backwards. The other neurone, LDSMD(B), had a preferred direction backwards over the ipsilateral eye
- 1.
Motion in the preferred direction caused EPSPs and spikes in the LDSMD neurones. Motion in the null direction resulted in IPSPs
- 2.
Both excitatory and inhibitory inputs were derived from the ipsilateral eye
- 3.
The DSMD neurones responded to velocities of movement up to and beyond 270°s−1
- 4.
The response of both LDSMD neurones showed no evidence of adaptation during maintained apparent or real movement
- 5.
There was a delay of 60–80 ms between a single step of apparent movement, either the preferred or the null direction, and the start of the response
- 6.
There was a monosynaptic, excitatory connection between the LDSMD(B) neurone and the protocerebral, descending DSMD neurone (PDDSMD) identified in the preceding paper (Rind, 1990). At resting membrane potential, a single presynaptic spike did not give rise to a spike in the postsynaptic neurone
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