Abstract
AbstractAlthough the neural control of behavior has been extensively studied in gastropods, basic gaps remain in our understanding of how sensory stimuli are processed. In particular, there is only patchy evidence regarding the functional roles of sense organs and the extensive peripheral nervous system they contain. Our goal was to use extracellular electrophysiological recordings to confirm the chemosensory role of the tentacles in the great pond snail,Lymnaea stagnalis. Employing a special twin channel suction electrode to improve signal-to-noise ratio, we applied three food odours (derived from earthworm-based food pellets, algae-based pellets, and fresh lettuce) to a reduced preparation of the tentacle while recording neuronal activity in the tentacle nerve. Responses were assessed by comparing average spike frequencies produced in response to saline flow with and without odours. Confirming the omnivorous nature of this gastropod, we report strong neuronal responses to earthworm-based food odours and mild neuronal responses to algae-based food odours. There were no clear neuronal responses produced when lettuce food odour or control saline was applied to the tentacle. Overall, our results provide strong evidence for the chemosensory role of the tentacles inL. stagnalis. While it is unclear whether the differences in neuronal responses can be explained by differing sizes, numbers, or populations of neurons, these results are a useful foundation for further study of peripheral nervous system function in gastropods.Summary StatementGreat pond snail tentacles send sensory signals to the brain in response to some (but not all) food odours.
Publisher
Cold Spring Harbor Laboratory