Summation of visual motion across eye movements reflects a nonspatial decision mechanism

AP Morris; CC Liu; SJ Cropper; JD Forte; B Krekelberg; JB Mattingley

Journal article

Summation of visual motion across eye movements reflects a nonspatial decision mechanism

AP Morris, CC Liu, SJ Cropper, JD Forte, B Krekelberg, JB Mattingley

Journal of Neuroscience | SOC NEUROSCIENCE | Published : 2010

DOI: 10.1523/JNEUROSCI.1705-10.2010

Abstract

Human vision remains perceptually stable even though retinal inputs change rapidly with each eye movement. Although the neural basis of visual stability remains unknown, a recent psychophysical study pointed to the existence of visual feature-representations anchored in environmental rather than retinal coordinates (e.g., "spatiotopic" receptive fields; Melcher and Morrone, 2003). In that study, sensitivity to a moving stimulus presented after a saccadic eye movement was enhanced when preceded by another moving stimulus at the same spatial location before the saccade. The finding is consistent with spatiotopic sensory integration, but it could also have arisen from a probabilistic improvemen..

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University of Melbourne Researchers

Simon Cropper Author

Jason Forte Author

Related Projects (1)

OVERSEAS BASED BIOMEDICAL FELLOWSHIP

Every time we move our eyes, objects in the world change their positions on the retina, yet to us, their positions remain perceptually uncha..

Grants

Awarded by National Eye Institute

Funding Acknowledgements

This work was supported by an Overseas Biomedical Fellowship from the National Health and Medical Research Council (NHMRC) of Australia awarded to A.P.M. (525487), an NHMRC Project Grant awarded to J.B.M., and a National Institutes of Health grant awarded to B.K. (EY017605). We thank David Melcher and Concetta Morrone for generously providing methodological details and data from their study.