Whereas the ventral cortical visual stream is important in object recogniti
on, the dorsal stream is specialized for spatial localization. In humans th
ere are also right and left hemisphere asymmetries in visual processing: th
e left hemisphere being more important in object recognition and the right
in specifying spatial locations. Based on these dorsal-ventral and right-le
ft where-what dichotomies, one would expect that the dorsal right hemispher
e systems would be most activated during spatial localization tasks, and th
is activation may induce a leftward spatial bias in lower space. To determi
ne if visual stimuli in upper and lower body space evoke different hemisphe
ric activation, we had 12 normal participants bisect horizontal lines above
and below eye level. Participants erred leftward in lower body space relat
ive to upper body space (M = 1.3345 mm and 0.4225 mm, respectively; p = .01
1). In upper body space, bisection errors did not differ from zero, but in
lower body space, errors tended to deviate leftward (M = 1.3345 mm, differs
from null hypotheses at p = .0755). Our results are consistent with dorsal
stream/right hemisphere activation when performing a spatial localization
task in lower versus upper body space.