Abstract
Motion detection represents one of the critical tasks of the visual system and has motivated a large body of research. However, it remains unclear precisely why the response of retinal ganglion cells (RGCs) to simple artificial stimuli does not predict their response to complex, naturalistic stimuli. To explore this topic, we use Motion Clouds (MC), which are synthetic textures that preserve properties of natural images and are merely parameterized, in particular by modulating the spatiotemporal spectrum complexity of the stimulus by adjusting the frequency bandwidths. By stimulating the retina of the diurnal rodent, Octodon degus with MC we show that the RGCs respond to increasingly complex stimuli by narrowing their adjustment curves in response to movement. At the level of the population, complex stimuli produce a sparser code while preserving movement information; therefore, the stimuli are encoded more efficiently. Interestingly, these properties were observed throughout different populations of RGCs. Thus, our results reveal that the response at the level of RGCs is modulated by the naturalness of the stimulus - in particular for motion - which suggests that the tuning to the statistics of natural images already emerges at the level of the retina.
Highlights
IntroductionMotion is detected at different levels and by populations of cells attuned to different parameters of the stimulus (see[4] for a review)
In the visual cortex, motion is detected at different levels and by populations of cells attuned to different parameters of the stimulus
We characterized the response from a population of speed responsive retinal ganglion cells (RGCs), recorded from retinal patches of 2 young Octodon degus, a diurnal rodent, having a total of 308 RGCs
Summary
Motion is detected at different levels and by populations of cells attuned to different parameters of the stimulus (see[4] for a review). This non-linear integration of the activity of BCs allows that the alternating activation of cells of both polarities do not cancel each other upon reaching RGCs21 These BCs can generate fast transient responses when there is a luminance change of the corresponding polarity (dark to light or light to dark respectively), so each time that BCs detect a temporal change in luminance, www.nature.com/scientificreports/. We use the same distribution near the spatiotemporal speed plane, and control the amount of components by the bandwidth around the central spatial frequency This defines a simple parameter to control the complexity of the input stimulus as the amount of compounded components in the texture (see Fig. 1b). This manipulation has previously been used successfully to study speed discrimination in humans[17], where it was shown that additional information contained in the stimuli improves eye pursuit gain and precision
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