This study measured the periphery effect and compared its
magnitude when the peripheral stimulation was on the same or
opposite side of the vertical meridian as the test spot. Test
thresholds for a 1.5-deg diameter, 8-ms spot located 1.75 deg
to one side of the vertical meridian were elevated by approximately
0.125 log units when a 0.25 cycles/deg (cpd) counterphased grating
was presented at a similar eccentric offset on the other side
of the vertical meridian. The periphery effect disappeared when
the test spot was moved outward to 8-deg eccentricity. When
the grating and test were presented on the same side of the
vertical meridian, test thresholds at both retinal locations
were elevated by the same amount, 0.2 log units. Consistent
with the physiology in cat retina, the periphery effect in humans
also crosses over the vertical meridian. However, the effect
is small and the test spot must be in close proximity to the
vertical meridian for it to be observed. Also, the crossover
periphery effect is reduced in magnitude by 37.5% compared to
when the grating and test are presented on the same side of
the vertical meridian. This suggests there may be a difference
in how the underlying neural mechanism that transmits the periphery
effect signal laterally is organized for sending the periphery
effect signal across the vertical meridian as compared to within
a retinal hemifield.